Other Parts Discussed in Thread: C2000WARE, BOOSTXL-DRV8323RS, DRV8323, CSD88599Q5DC
Dear TI團隊,
目前測試上遇上一些問題需要協助
使用環境及工具:
1. 電源供應器12V/100A
2. Code Composer Studio 12.2.0
3. C2000Ware_MotorControl_SDK_4_02_00_00 - universal_motorcontrol_lab
4. LAUNCHPAD-F280025C開發板
5. BOOSTXL-DRV8323RS開發板
測試過程及手法:
1. 使用開發板LAUNCHPAD-F280025C + BOOSTXL-DRV8323RS,配合universal_motorcontrol_lab Level4進行測試,將CSA_GAIN設置為5VpV、speedRef_Hz設置為210Hz、USER_MOTOR1_MAX_CURRENT_A設置為45A,經測試無異常,電流可趨近於設定值,詳細參數及測試波形如下圖
//############################################################################# // $Copyright: // Copyright (C) 2017-2023 Texas Instruments Incorporated - http://www.ti.com/ // Redistribution and use in source and binary forms, with or without // modification, are permitted provided that the following conditions // are met: // // Redistributions of source code must retain the above copyright // notice, this list of conditions and the following disclaimer. // // Redistributions in binary form must reproduce the above copyright // notice, this list of conditions and the following disclaimer in the // documentation and/or other materials provided with the // distribution. // // Neither the name of Texas Instruments Incorporated nor the names of // its contributors may be used to endorse or promote products derived // from this software without specific prior written permission. // // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS // "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT // LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR // A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT // OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT // LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, // DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY // THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT // (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. // $ //############################################################################# //! \file /solutions/universal_motorcontrol_lab/common/include/user_mtr1.h //! \brief Contains the user related definitions //! This file is used for each device includes F28002x, F28003x, F280013x, //! F280015x, and the other newer C2000 MCUs. //! #ifndef USER_MTR1_H #define USER_MTR1_H //***************************************************************************** // // If building with a C++ compiler, make all of the definitions in this header // have a C binding. // //***************************************************************************** #ifdef __cplusplus extern "C" { #endif //***************************************************************************** // //! \defgroup USER USER_MTR1 //! @{ // //***************************************************************************** // // the includes // platforms #include "hal.h" // modules #include "userParams.h" #include "user_common.h" // ***************************************************************************** // the defines //------------------------------------------------------------------------------ #if defined(HVMTRPFC_REV1P1) // Bypass the 820k resistor for low voltage motor on this kit //#define LV_JUMPER_EN // Bypass the 820k resistor #ifndef LV_JUMPER_EN //! \brief Defines the nominal DC bus voltage, V //! #define USER_M1_NOMINAL_DC_BUS_VOLTAGE_V (220.0f) //! \brief Defines the maximum voltage at the AD converter // Full scale voltage of AD converter, not the current voltage #define USER_M1_ADC_FULL_SCALE_VOLTAGE_V (409.90f) //! \brief Defines the analog voltage filter pole location, Hz //! #define USER_M1_VOLTAGE_FILTER_POLE_Hz (375.55f) #else // Populate jumpers on J1/J2/J3/J4 for short R20/R23/R26/R37 for low voltage motor //! \brief Defines the nominal DC bus voltage, V //! #define USER_M1_NOMINAL_DC_BUS_VOLTAGE_V (24.0f) //! \brief Defines the maximum voltage at the AD converter // Full scale voltage of AD converter, not the current voltage #define USER_M1_ADC_FULL_SCALE_VOLTAGE_V (112.21f) //! \brief Defines the analog voltage filter pole location, Hz //! #define USER_M1_VOLTAGE_FILTER_POLE_Hz (381.15f) #endif // High Voltage motor control kit #if defined(MOTOR1_DCLINKSS) || defined(MOTOR1_ISBLDC) //! \brief Defines the maximum current at the AD converter #define USER_M1_ADC_FULL_SCALE_CURRENT_A (19.995f) //! \brief Defines the sign of the current_sf based on //! the polarity of the current feedback circuit //! //! the "sign" = -1.0f if the current feedback polarity is positive that //! means the same pin of the shunt resistor is connected to ground and //! is also connected to the noninverting pin of the operational amplifier //! //! the "sign" = 1.0f if the current feedback polarity is negative that //! means the same pin of the shunt resistor is connected to ground and //! is also connected to the inverting pin of the operational amplifier #define USER_M1_SIGN_CURRENT_SF (-1.0f) //! \brief ADC current offsets for dc-link #define USER_M1_IDC_OFFSET_A (9.997f) //! \brief ADC current offsets for dc-link #define USER_M1_IDC_OFFSET_AD (2048.0f) #define USER_M1_IDC_OFFSET_AD_MAX (USER_M1_IDC_OFFSET_AD + 100.0f) #define USER_M1_IDC_OFFSET_AD_MIN (USER_M1_IDC_OFFSET_AD - 100.0f) #else // !(MOTOR1_ISBLDC || MOTOR1_DCLINKSS) //! \brief Defines the maximum current at the AD converter #define USER_M1_ADC_FULL_SCALE_CURRENT_A (19.995f) //! \brief Defines the sign of the current_sf based on //! the polarity of the current feedback circuit //! //! the "sign" = -1.0f if the current feedback polarity is positive that //! means the same pin of the shunt resistor is connected to ground and //! is also connected to the inverting pin of the operational amplifier //! //! the "sign" = 1.0f if the current feedback polarity is negative that //! means the same pin of the shunt resistor is connected to ground and //! is also connected to the noninverting pin of the operational amplifier #define USER_M1_SIGN_CURRENT_SF (1.0f) #endif // !(MOTOR1_ISBLDC || MOTOR1_DCLINKSS) //! \brief ADC current offsets for A, B, and C phases #define USER_M1_IA_OFFSET_AD (2049.367f) #define USER_M1_IB_OFFSET_AD (2042.771f) #define USER_M1_IC_OFFSET_AD (2054.451f) //! \brief ADC current offset for CMPSS #define USER_M1_IS_OFFSET_CMPSS (uint16_t)((USER_M1_IA_OFFSET_AD + USER_M1_IB_OFFSET_AD + USER_M1_IC_OFFSET_AD) / 3.0f) //! \brief ADC voltage offsets for A, B, and C phases #define USER_M1_VA_OFFSET_SF (0.503290117f) #define USER_M1_VB_OFFSET_SF (0.500881076f) #define USER_M1_VC_OFFSET_SF (0.497107089f) //! \brief DC bus over voltage threshold #define USER_M1_OVER_VOLTAGE_FAULT_V (380.0f) //! \brief DC bus over voltage threshold #define USER_M1_OVER_VOLTAGE_NORM_V (350.0f) //! \brief DC bus under voltage threshold #define USER_M1_UNDER_VOLTAGE_FAULT_V (12.0f) //! \brief DC bus under voltage threshold #define USER_M1_UNDER_VOLTAGE_NORM_V (15.0f) //! \brief motor lost phase current threshold #define USER_M1_LOST_PHASE_CURRENT_A (0.2f) //! \brief motor unbalance ratio percent threshold #define USER_M1_UNBALANCE_RATIO (0.2f) //! \brief motor over load power threshold #define USER_M1_OVER_LOAD_POWER_W (250.0f) //! \brief motor stall current threshold #define USER_M1_STALL_CURRENT_A (10.0f) //! \brief motor fault check current threshold #define USER_M1_FAULT_CHECK_CURRENT_A (0.2f) //! \brief motor failed maximum speed threshold #define USER_M1_FAIL_SPEED_MAX_HZ (500.0f) //! \brief motor failed minimum speed threshold #define USER_M1_FAIL_SPEED_MIN_HZ (5.0f) //! \brief Defines the number of failed torque //! #define USER_M1_TORQUE_FAILED_SET (0.000001f) // end of HVMTRPFC_REV1P1 //------------------------------------------------------------------------------ #elif defined(DRV8329AEVM_REVA) // LaunchPad-F280025 //! \brief Defines the nominal DC bus voltage, V //! #define USER_M1_NOMINAL_DC_BUS_VOLTAGE_V (48.0f) //! \brief Defines the maximum voltage at the AD converter #define USER_M1_ADC_FULL_SCALE_VOLTAGE_V (76.04549098f) // 110k/4.99k //! \brief Defines the analog voltage filter pole location, Hz #define USER_M1_VOLTAGE_FILTER_POLE_Hz (326.6255675f) // 110k/4.99k/100nF //! \brief Defines the maximum current at the AD converter //! Set the gain of the CSA, the value should be set accordingly. //! CSAGAIN=5V/V(J2=GND), CSAGAIN=10V/V(J2=50K), CSAGAIN=20V/V(J2=200K), CSAGAIN=40V/V(J2=DNP) //#define USER_M1_ADC_FULL_SCALE_CURRENT_A (82.5f) // Rs=0.001/gain=40/J2=DNP //#define USER_M1_ADC_FULL_SCALE_CURRENT_A (66.0f) // Rs=0.0025/gain=20/J2=200K #define USER_M1_ADC_FULL_SCALE_CURRENT_A (33.0f) // Rs=0.0025/gain=40/J2=DNP // Single shunt #if defined(MOTOR1_DCLINKSS) || defined(MOTOR1_ISBLDC) //! \brief Defines the sign of the current_sf based on //! the polarity of the current feedback circuit //! //! the "sign" = -1.0f if the current feedback polarity is positive that //! means the same pin of the shunt resistor is connected to ground and //! is also connected to the noninverting pin (+) of the operational amplifier //! //! the "sign" = 1.0f if the current feedback polarity is negative that //! means the same pin of the shunt resistor is connected to ground and //! is also connected to the inverting pin (-) of the operational amplifier #define USER_M1_SIGN_CURRENT_SF (1.0f) //! \brief ADC current offsets for dc-link // the dc-link offset current for DRV8329AEVM_REVA #define USER_M1_IDC_OFFSET_A (USER_M1_ADC_FULL_SCALE_CURRENT_A / 2.0f) //! \brief ADC current offsets for dc-link #define USER_M1_IDC_OFFSET_AD (516.717f) //~=4096.0/8.0 //! \brief ADC current offset for CMPSS #define USER_M1_IDC_OFFSET_CMPSS (uint16_t)(USER_M1_IDC_OFFSET_AD) #define USER_M1_IDC_OFFSET_AD_MAX (USER_M1_IDC_OFFSET_AD + 100.0f) #define USER_M1_IDC_OFFSET_AD_MIN (USER_M1_IDC_OFFSET_AD - 100.0f) #else //!MOTOR1_DCLINKSS | !MOTOR1_ISBLDC #error This inverter board only supports single shunt! #endif // !MOTOR1_DCLINKSS | !MOTOR1_ISBLDC //! \brief ADC voltage offsets for A, B, and C phases #define USER_M1_VA_OFFSET_SF (0.507042527f) #define USER_M1_VB_OFFSET_SF (0.505379438f) #define USER_M1_VC_OFFSET_SF (0.50771445f) //! \brief DC bus over voltage threshold #define USER_M1_OVER_VOLTAGE_FAULT_V (54.5f) //! \brief DC bus over voltage threshold #define USER_M1_OVER_VOLTAGE_NORM_V (52.5f) //! \brief DC bus under voltage threshold #define USER_M1_UNDER_VOLTAGE_FAULT_V (8.0f) //! \brief DC bus under voltage threshold #define USER_M1_UNDER_VOLTAGE_NORM_V (10.0f) //! \brief motor lost phase current threshold #define USER_M1_LOST_PHASE_CURRENT_A (0.01f) //! \brief motor unbalance ratio percent threshold #define USER_M1_UNBALANCE_RATIO (0.2f) //! \brief motor over load power threshold #define USER_M1_OVER_LOAD_POWER_W (90.0f) //! \brief motor stall current threshold #define USER_M1_STALL_CURRENT_A (10.0f) //! \brief motor fault check current threshold #define USER_M1_FAULT_CHECK_CURRENT_A (0.2f) //! \brief motor failed maximum speed threshold #define USER_M1_FAIL_SPEED_MAX_HZ (1800.0f) //! \brief motor failed minimum speed threshold #define USER_M1_FAIL_SPEED_MIN_HZ (5.0f) //! \brief Defines the number of failed torque //! #define USER_M1_TORQUE_FAILED_SET (0.000001f) // end of DRV8329AEVM_REVA //------------------------------------------------------------------------------ #elif defined(BSXL8323RS_REVA) //! \brief Defines the nominal DC bus voltage, V //! #define USER_M1_NOMINAL_DC_BUS_VOLTAGE_V (12.0f) //! \brief Defines the maximum voltage at the AD converter #define USER_M1_ADC_FULL_SCALE_VOLTAGE_V (57.52845691f) //! \brief Defines the analog voltage filter pole location, Hz #define USER_M1_VOLTAGE_FILTER_POLE_Hz (720.0f) // caps=47nF //! \brief Defines the maximum current at the AD converter //for Rshunt=0.002omh //#define USER_M1_ADC_FULL_SCALE_CURRENT_A (330.0f) // CSA_GAIN=5VpV //#define USER_M1_ADC_FULL_SCALE_CURRENT_A (165.0f) // CSA_GAIN=10VpV //#define USER_M1_ADC_FULL_SCALE_CURRENT_A (82.5f) // CSA_GAIN=20VpV //for Rshunt=0.007omh #define USER_M1_ADC_FULL_SCALE_CURRENT_A (94.28571429f) // CSA_GAIN=5VpV //#define USER_M1_ADC_FULL_SCALE_CURRENT_A (47.14285714f) // CSA_GAIN=10VpV //#define USER_M1_ADC_FULL_SCALE_CURRENT_A (23.57142857f) // CSA_GAIN=20VpV #if defined(MOTOR1_DCLINKSS) || defined(MOTOR1_ISBLDC) //! \brief Defines the sign of the current_sf based on //! the polarity of the current feedback circuit //! //! the "sign" = -1.0f if the current feedback polarity is positive that //! means the same pin of the shunt resistor is connected to ground and //! is also connected to the noninverting pin of the operational amplifier //! //! the "sign" = 1.0f if the current feedback polarity is negative that //! means the same pin of the shunt resistor is connected to ground and //! is also connected to the inverting pin of the operational amplifier #define USER_M1_SIGN_CURRENT_SF (-1.0f) //! \brief ADC current offsets for dc-link // the dc-link offset current for BSXL8323RS_REVA #define USER_M1_IDC_OFFSET_A (USER_M1_ADC_FULL_SCALE_CURRENT_A / 2.0f) //! \brief ADC current offsets for A, B, and C phases #define USER_M1_IDC_OFFSET_AD (2048.0f) #define USER_M1_IDC_OFFSET_AD_MAX (USER_M1_IDC_OFFSET_AD + 100.0f) #define USER_M1_IDC_OFFSET_AD_MIN (USER_M1_IDC_OFFSET_AD - 100.0f) #else //!MOTOR1_DCLINKSS //! \brief Defines the sign of the current_sf based on //! the polarity of the current feedback circuit //! //! the "sign" = -1.0f if the current feedback polarity is positive that //! means the same pin of the shunt resistor is connected to ground and //! is also connected to the inverting pin of the operational amplifier //! //! the "sign" = 1.0f if the current feedback polarity is negative that //! means the same pin of the shunt resistor is connected to ground and //! is also connected to the noninverting pin of the operational amplifier #define USER_M1_SIGN_CURRENT_SF (1.0f) //! \brief ADC current offsets for A, B, and C phases // the ADC current offsets for A/B/C phases, one-time hardware dependent #define USER_M1_IA_OFFSET_AD (2030.99646f) #define USER_M1_IB_OFFSET_AD (2016.76001f) #define USER_M1_IC_OFFSET_AD (2007.99329f) //! \brief ADC current offset for CMPSS #define USER_M1_IS_OFFSET_CMPSS (uint16_t)((USER_M1_IA_OFFSET_AD + USER_M1_IB_OFFSET_AD + USER_M1_IC_OFFSET_AD) / 3.0f) //! \brief ADC voltage offsets for A, B, and C phases // the ADC voltage offsets for A/B/C phases, one-time hardware dependent #define USER_M1_VA_OFFSET_SF (0.498977453f) #define USER_M1_VB_OFFSET_SF (0.497419506f) #define USER_M1_VC_OFFSET_SF (0.500700474f) #endif // !MOTOR1_DCLINKSS //! \brief DC bus over voltage threshold #define USER_M1_OVER_VOLTAGE_FAULT_V (54.5f) //! \brief DC bus over voltage threshold #define USER_M1_OVER_VOLTAGE_NORM_V (52.5f) //! \brief DC bus under voltage threshold #define USER_M1_UNDER_VOLTAGE_FAULT_V (8.0f) //! \brief DC bus under voltage threshold #define USER_M1_UNDER_VOLTAGE_NORM_V (10.0f) //! \brief motor lost phase current threshold #define USER_M1_LOST_PHASE_CURRENT_A (0.2f) //! \brief motor unbalance ratio percent threshold #define USER_M1_UNBALANCE_RATIO (0.2f) //! \brief motor over load power threshold #define USER_M1_OVER_LOAD_POWER_W (1500.0f) //! \brief motor stall current threshold #define USER_M1_STALL_CURRENT_A (10.0f) //! \brief motor fault check current threshold #define USER_M1_FAULT_CHECK_CURRENT_A (0.2f) //! \brief motor failed maximum speed threshold #define USER_M1_FAIL_SPEED_MAX_HZ (1500.0f) //! \brief motor failed minimum speed threshold #define USER_M1_FAIL_SPEED_MIN_HZ (5.0f) //! \brief Defines the number of failed torque //! unit: N.m #define USER_M1_TORQUE_FAILED_SET (0.000001f) // end of BSXL8323RS_REVA //------------------------------------------------------------------------------ #elif defined(BSXL8323RH_REVB) // LaunchPad-F280025 //! \brief Defines the nominal DC bus voltage, V //! #define USER_M1_NOMINAL_DC_BUS_VOLTAGE_V (48.0f) //! \brief Defines the maximum voltage at the AD converter #define USER_M1_ADC_FULL_SCALE_VOLTAGE_V (57.52845691f) //! \brief Defines the analog voltage filter pole location, Hz #define USER_M1_VOLTAGE_FILTER_POLE_Hz (680.4839141f) // 47nF //! \brief Defines the maximum current at the AD converter //! Place a 47k(ohm) resistor (R22) pull-down on MODE pin #define USER_M1_ADC_FULL_SCALE_CURRENT_A (47.14285714f) // gain=10 #if defined(MOTOR1_DCLINKSS) || defined(MOTOR1_ISBLDC) //! \brief Defines the sign of the current_sf based on //! the polarity of the current feedback circuit //! //! the "sign" = -1.0f if the current feedback polarity is positive that //! means the same pin of the shunt resistor is connected to ground and //! is also connected to the noninverting pin of the operational amplifier //! //! the "sign" = 1.0f if the current feedback polarity is negative that //! means the same pin of the shunt resistor is connected to ground and //! is also connected to the inverting pin of the operational amplifier #define USER_M1_SIGN_CURRENT_SF (-1.0f) //! \brief ADC current offsets for dc-link // the dc-link offset current for BSXL8323RH_REVB #define USER_M1_IDC_OFFSET_A (USER_M1_ADC_FULL_SCALE_CURRENT_A / 2.0f) //! \brief ADC current offsets for dc-link #define USER_M1_IDC_OFFSET_AD (2048.0f) #define USER_M1_IDC_OFFSET_AD_MAX (USER_M1_IDC_OFFSET_AD + 100.0f) #define USER_M1_IDC_OFFSET_AD_MIN (USER_M1_IDC_OFFSET_AD - 100.0f) #else //!MOTOR1_DCLINKSS //! \brief Defines the sign of the current_sf based on //! the polarity of the current feedback circuit //! //! the "sign" = -1.0f if the current feedback polarity is positive that //! means the same pin of the shunt resistor is connected to ground and //! is also connected to the inverting pin of the operational amplifier //! //! the "sign" = 1.0f if the current feedback polarity is negative that //! means the same pin of the shunt resistor is connected to ground and //! is also connected to the noninverting pin of the operational amplifier #define USER_M1_SIGN_CURRENT_SF (1.0f) //! \brief ADC current offsets for A, B, and C phases #define USER_M1_IA_OFFSET_AD (2045.40015f) #define USER_M1_IB_OFFSET_AD (2012.86694f) #define USER_M1_IC_OFFSET_AD (2031.59741f) //! \brief ADC current offset for CMPSS #define USER_M1_IS_OFFSET_CMPSS (uint16_t)((USER_M1_IA_OFFSET_AD + USER_M1_IB_OFFSET_AD + USER_M1_IC_OFFSET_AD) / 3.0f) //! \brief ADC voltage offsets for A, B, and C phases #define USER_M1_VA_OFFSET_SF (0.507042527f) #define USER_M1_VB_OFFSET_SF (0.505379438f) #define USER_M1_VC_OFFSET_SF (0.50771445f) #endif // !MOTOR1_DCLINKSS //! \brief DC bus over voltage threshold #define USER_M1_OVER_VOLTAGE_FAULT_V (54.5f) //! \brief DC bus over voltage threshold #define USER_M1_OVER_VOLTAGE_NORM_V (52.5f) //! \brief DC bus under voltage threshold #define USER_M1_UNDER_VOLTAGE_FAULT_V (8.0f) //! \brief DC bus under voltage threshold #define USER_M1_UNDER_VOLTAGE_NORM_V (10.0f) //! \brief motor lost phase current threshold #define USER_M1_LOST_PHASE_CURRENT_A (0.01f) //! \brief motor unbalance ratio percent threshold #define USER_M1_UNBALANCE_RATIO (0.2f) //! \brief motor over load power threshold #define USER_M1_OVER_LOAD_POWER_W (90.0f) //! \brief motor stall current threshold #define USER_M1_STALL_CURRENT_A (10.0f) //! \brief motor fault check current threshold #define USER_M1_FAULT_CHECK_CURRENT_A (0.2f) //! \brief motor failed maximum speed threshold #define USER_M1_FAIL_SPEED_MAX_HZ (1800.0f) //! \brief motor failed minimum speed threshold #define USER_M1_FAIL_SPEED_MIN_HZ (5.0f) //! \brief Defines the number of failed torque //! #define USER_M1_TORQUE_FAILED_SET (0.000001f) // end of BSXL8323RH_REVB //------------------------------------------------------------------------------ #elif defined(BSXL8353RS_REVA) //! \brief Defines the nominal DC bus voltage, V //! #define USER_M1_NOMINAL_DC_BUS_VOLTAGE_V (48.0f) //! \brief Defines the maximum voltage at the AD converter #define USER_M1_ADC_FULL_SCALE_VOLTAGE_V (132.7979508f) //! \brief Defines the analog voltage filter pole location, Hz #define USER_M1_VOLTAGE_FILTER_POLE_Hz (338.1100618f) // 9.76k/47nF //! \brief Defines the maximum current at the AD converter //#define USER_M1_ADC_FULL_SCALE_CURRENT_A (94.28571429f) // gain=5 #define USER_M1_ADC_FULL_SCALE_CURRENT_A (47.14285714f) // gain=10 #if defined(MOTOR1_DCLINKSS) || defined(MOTOR1_ISBLDC) //! \brief Defines the sign of the current_sf based on //! the polarity of the current feedback circuit //! //! the "sign" = -1.0f if the current feedback polarity is positive that //! means the same pin of the shunt resistor is connected to ground and //! is also connected to the noninverting pin of the operational amplifier //! //! the "sign" = 1.0f if the current feedback polarity is negative that //! means the same pin of the shunt resistor is connected to ground and //! is also connected to the inverting pin of the operational amplifier #define USER_M1_SIGN_CURRENT_SF (-1.0f) #error "Single shunt is not supported on this kit" #else //!MOTOR1_DCLINKSS //! \brief Defines the sign of the current_sf based on //! the polarity of the current feedback circuit //! //! the "sign" = -1.0f if the current feedback polarity is positive that //! means the same pin of the shunt resistor is connected to ground and //! is also connected to the inverting pin of the operational amplifier //! //! the "sign" = 1.0f if the current feedback polarity is negative that //! means the same pin of the shunt resistor is connected to ground and //! is also connected to the noninverting pin of the operational amplifier #define USER_M1_SIGN_CURRENT_SF (1.0f) //! \brief ADC current offsets for A, B, and C phases #define USER_M1_IA_OFFSET_AD (2048.0f) #define USER_M1_IB_OFFSET_AD (2048.0f) #define USER_M1_IC_OFFSET_AD (2048.0f) //! \brief ADC current offset for CMPSS #define USER_M1_IS_OFFSET_CMPSS (uint16_t)((USER_M1_IA_OFFSET_AD + USER_M1_IB_OFFSET_AD + USER_M1_IC_OFFSET_AD) / 3.0f) //! \brief ADC voltage offsets for A, B, and C phases #define USER_M1_VA_OFFSET_SF (0.500514159f) #define USER_M1_VB_OFFSET_SF (0.506255884f) #define USER_M1_VC_OFFSET_SF (0.503381569f) #endif // !MOTOR1_DCLINKSS //! \brief DC bus over voltage threshold #define USER_M1_OVER_VOLTAGE_FAULT_V (40.0f) //! \brief DC bus over voltage threshold #define USER_M1_OVER_VOLTAGE_NORM_V (36.0f) //! \brief DC bus under voltage threshold #define USER_M1_UNDER_VOLTAGE_FAULT_V (10.0f) //! \brief DC bus under voltage threshold #define USER_M1_UNDER_VOLTAGE_NORM_V (12.0f) //! \brief motor lost phase current threshold #define USER_M1_LOST_PHASE_CURRENT_A (0.2f) //! \brief motor unbalance ratio percent threshold #define USER_M1_UNBALANCE_RATIO (0.2f) //! \brief motor over load power threshold #define USER_M1_OVER_LOAD_POWER_W (50.0f) //! \brief motor stall current threshold #define USER_M1_STALL_CURRENT_A (10.0f) //! \brief motor fault check current threshold #define USER_M1_FAULT_CHECK_CURRENT_A (0.2f) //! \brief motor failed maximum speed threshold #define USER_M1_FAIL_SPEED_MAX_HZ (500.0f) //! \brief motor failed minimum speed threshold #define USER_M1_FAIL_SPEED_MIN_HZ (5.0f) //! \brief Defines the number of failed torque //! #define USER_M1_TORQUE_FAILED_SET (0.000001f) // end of BSXL8353RS_REVA //------------------------------------------------------------------------------ #elif defined(BSXL3PHGAN_REVA) //! \brief Defines the nominal DC bus voltage, V //! #define USER_M1_NOMINAL_DC_BUS_VOLTAGE_V (48.0f) //! \brief Defines the maximum voltage at the AD converter #define USER_M1_ADC_FULL_SCALE_VOLTAGE_V (81.49905213f) //! \brief Defines the analog voltage filter pole location, Hz #define USER_M1_VOLTAGE_FILTER_POLE_Hz (1103.026917f) // 33nF //! \brief Defines the maximum current at the AD converter #define USER_M1_ADC_FULL_SCALE_CURRENT_A (33.0f) // gain=20 //! \brief Defines the sign of the current_sf based on //! the polarity of the current feedback circuit //! //! the "sign" = -1.0f if the current feedback polarity is positive that //! means the same pin of the inline shunt resistor is connected to the //! output of the three-phase power inverter and is also connected to //! the inverting pin of the operational amplifier //! //! the "sign" = 1.0f if the current feedback polarity is positive that //! means the same pin of the inline shunt resistor is connected to the //! output of the three-phase power inverter and is also connected to //! the non-inverting pin of the operational amplifier #define USER_M1_SIGN_CURRENT_SF (-1.0f) //! \brief ADC current offsets for A, B, and C phases #define USER_M1_IA_OFFSET_AD (2048.0f) #define USER_M1_IB_OFFSET_AD (2048.0f) #define USER_M1_IC_OFFSET_AD (2048.0f) //! \brief ADC current offset for CMPSS #define USER_M1_IS_OFFSET_CMPSS (uint16_t)((USER_M1_IA_OFFSET_AD + USER_M1_IB_OFFSET_AD + USER_M1_IC_OFFSET_AD) / 3.0f) //! \brief ADC voltage offsets for A, B, and C phases #define USER_M1_VA_OFFSET_SF (0.500514159f) #define USER_M1_VB_OFFSET_SF (0.506255884f) #define USER_M1_VC_OFFSET_SF (0.503381569f) //! \brief DC bus over voltage threshold #define USER_M1_OVER_VOLTAGE_FAULT_V (40.0f) //! \brief DC bus over voltage threshold #define USER_M1_OVER_VOLTAGE_NORM_V (36.0f) //! \brief DC bus under voltage threshold #define USER_M1_UNDER_VOLTAGE_FAULT_V (10.0f) //! \brief DC bus under voltage threshold #define USER_M1_UNDER_VOLTAGE_NORM_V (12.0f) //! \brief motor lost phase current threshold #define USER_M1_LOST_PHASE_CURRENT_A (0.2f) //! \brief motor unbalance ratio percent threshold #define USER_M1_UNBALANCE_RATIO (0.2f) //! \brief motor over load power threshold #define USER_M1_OVER_LOAD_POWER_W (50.0f) //! \brief motor stall current threshold #define USER_M1_STALL_CURRENT_A (10.0f) //! \brief motor fault check current threshold #define USER_M1_FAULT_CHECK_CURRENT_A (0.2f) //! \brief motor failed maximum speed threshold #define USER_M1_FAIL_SPEED_MAX_HZ (500.0f) //! \brief motor failed minimum speed threshold #define USER_M1_FAIL_SPEED_MIN_HZ (5.0f) //! \brief Defines the number of failed torque //! #define USER_M1_TORQUE_FAILED_SET (0.000001f) // end of BSXL3PHGAN_REVA //------------------------------------------------------------------------------ #elif defined(BSXL8316RT_REVA) //! \brief Defines the nominal DC bus voltage, V //! #define USER_M1_NOMINAL_DC_BUS_VOLTAGE_V (48.0f) //! \brief Defines the maximum voltage at the AD converter #define USER_M1_ADC_FULL_SCALE_VOLTAGE_V (44.28f) //! \brief Defines the analog voltage filter pole location, Hz #define USER_M1_VOLTAGE_FILTER_POLE_Hz (284.722f) // 100nF //! \brief Defines the maximum current at the AD converter //! DRV8316 = VREF = 3V, GAIN = 0.15V/A || 3.3V / 0.15V/A = 22.0A //! GAIN = 0.30V/A || 3.3V / 0.30V/A = 11.0A //! GAIN = 0.60V/A || 3.3V / 0.60V/A = 5.50A //! GAIN = 1.20V/A || 3.3V / 1.20V/A = 2.75A //! Change this ADC scale current value that must match the CSA gain in hal.c #define USER_M1_ADC_FULL_SCALE_CURRENT_A (22.0f) // GAIN = 0.15V/A //#define USER_M1_ADC_FULL_SCALE_CURRENT_A (11.0f) // GAIN = 0.30V/A //! \brief Defines the sign of the current_sf based on //! the polarity of the current feedback circuit //! //! the "sign" = -1.0f if the current feedback polarity is positive that //! means the same pin of the shunt resistor is connected to ground and //! is also connected to the inverting pin of the operational amplifier //! //! the "sign" = 1.0f if the current feedback polarity is negative that //! means the same pin of the shunt resistor is connected to ground and //! is also connected to the noninverting pin of the operational amplifier #define USER_M1_SIGN_CURRENT_SF (1.0f) //! \brief ADC current offsets for A, B, and C phases #define USER_M1_IA_OFFSET_AD (1869.6f) #define USER_M1_IB_OFFSET_AD (1877.3f) #define USER_M1_IC_OFFSET_AD (1876.9f) //! \brief ADC current offset for CMPSS #define USER_M1_IS_OFFSET_CMPSS (uint16_t)((USER_M1_IA_OFFSET_AD + USER_M1_IB_OFFSET_AD + USER_M1_IC_OFFSET_AD) / 3.0f) //! \brief ADC voltage offsets for A, B, and C phases #define USER_M1_VA_OFFSET_SF (0.477463514f) #define USER_M1_VB_OFFSET_SF (0.479326069f) #define USER_M1_VC_OFFSET_SF (0.477675498f) //! \brief DC bus over voltage threshold #define USER_M1_OVER_VOLTAGE_FAULT_V (40.0f) //! \brief DC bus over voltage threshold #define USER_M1_OVER_VOLTAGE_NORM_V (36.0f) //! \brief DC bus under voltage threshold #define USER_M1_UNDER_VOLTAGE_FAULT_V (10.0f) //! \brief DC bus under voltage threshold #define USER_M1_UNDER_VOLTAGE_NORM_V (12.0f) //! \brief motor lost phase current threshold #define USER_M1_LOST_PHASE_CURRENT_A (0.2f) //! \brief motor unbalance ratio percent threshold #define USER_M1_UNBALANCE_RATIO (0.2f) //! \brief motor over load power threshold #define USER_M1_OVER_LOAD_POWER_W (50.0f) //! \brief motor stall current threshold #define USER_M1_STALL_CURRENT_A (10.0f) //! \brief motor fault check current threshold #define USER_M1_FAULT_CHECK_CURRENT_A (0.2f) //! \brief motor failed maximum speed threshold #define USER_M1_FAIL_SPEED_MAX_HZ (500.0f) //! \brief motor failed minimum speed threshold #define USER_M1_FAIL_SPEED_MIN_HZ (5.0f) //! \brief Defines the number of failed torque //! #define USER_M1_TORQUE_FAILED_SET (0.000001f) // end of BSXL8316RT_REVA //------------------------------------------------------------------------------ //------------------------------------------------------------------------------ //------------------------------------------------------------------------------ #else // No Board Selection #error The board parameters are not defined in user_mtr1.h #endif // No Board Selection //------------------------------------------------------------------------------ //! \brief ADC current offsets checking value for A, B, and C phases // the error threshold to check if the ADC offset of the phase current sensing circuit is correct. #define USER_M1_IS_OFFSET_AD_DELTA (150.0f) // The value is 0.0f~1024.0f // the high threshold of the ADC offsets checking value for A/B/C phase current #define USER_M1_IA_OFFSET_AD_MAX (USER_M1_IA_OFFSET_AD + USER_M1_IS_OFFSET_AD_DELTA) #define USER_M1_IB_OFFSET_AD_MAX (USER_M1_IB_OFFSET_AD + USER_M1_IS_OFFSET_AD_DELTA) #define USER_M1_IC_OFFSET_AD_MAX (USER_M1_IC_OFFSET_AD + USER_M1_IS_OFFSET_AD_DELTA) // the low threshold of the ADC offsets checking value for A phase current #define USER_M1_IA_OFFSET_AD_MIN (USER_M1_IA_OFFSET_AD - USER_M1_IS_OFFSET_AD_DELTA) #define USER_M1_IB_OFFSET_AD_MIN (USER_M1_IB_OFFSET_AD - USER_M1_IS_OFFSET_AD_DELTA) #define USER_M1_IC_OFFSET_AD_MIN (USER_M1_IC_OFFSET_AD - USER_M1_IS_OFFSET_AD_DELTA) #define USER_M1_IS_OFFSET_AD_MAX (USER_M1_IA_OFFSET_AD + USER_M1_IB_OFFSET_AD + USER_M1_IC_OFFSET_AD + (USER_M1_IS_OFFSET_AD_DELTA * 3.0f)) #define USER_M1_IS_OFFSET_AD_MIN (USER_M1_IA_OFFSET_AD + USER_M1_IB_OFFSET_AD + USER_M1_IC_OFFSET_AD - (USER_M1_IS_OFFSET_AD_DELTA * 3.0f)) //! \brief ADC voltage offsets for A, B, and C phases // the error threshold to check if the ADC offset of the phase voltage sensing circuit is correct #define USER_M1_VA_OFFSET_SF_DELTA (0.05f) // The value is 0.0f ~ 0.5f // the high threshold of the ADC offsets checking value for A/B/C phase voltage #define USER_M1_VA_OFFSET_SF_MAX (USER_M1_VA_OFFSET_SF + USER_M1_VA_OFFSET_SF_DELTA) #define USER_M1_VB_OFFSET_SF_MAX (USER_M1_VB_OFFSET_SF + USER_M1_VA_OFFSET_SF_DELTA) #define USER_M1_VC_OFFSET_SF_MAX (USER_M1_VC_OFFSET_SF + USER_M1_VA_OFFSET_SF_DELTA) // the low threshold of the ADC offsets checking value for A/B/C phase voltage #define USER_M1_VA_OFFSET_SF_MIN (USER_M1_VA_OFFSET_SF - USER_M1_VA_OFFSET_SF_DELTA) #define USER_M1_VB_OFFSET_SF_MIN (USER_M1_VB_OFFSET_SF - USER_M1_VA_OFFSET_SF_DELTA) #define USER_M1_VC_OFFSET_SF_MIN (USER_M1_VC_OFFSET_SF - USER_M1_VA_OFFSET_SF_DELTA) #define USER_M1_VS_OFFSET_SF_MAX (USER_M1_VA_OFFSET_SF + USER_M1_VB_OFFSET_SF + USER_M1_VC_OFFSET_SF + (USER_M1_VA_OFFSET_SF_DELTA * 3.0f)) #define USER_M1_VS_OFFSET_SF_MIN (USER_M1_VA_OFFSET_SF + USER_M1_VB_OFFSET_SF + USER_M1_VC_OFFSET_SF - (USER_M1_VA_OFFSET_SF_DELTA * 3.0f)) //****************************************************************************** //! \brief Defines the number of pwm clock ticks per isr clock tick //! Note: Valid values are 1, 2 or 3 only #define USER_M1_NUM_PWM_TICKS_PER_ISR_TICK (2) //! \brief Defines the number of ISR clock ticks per current controller clock tick //! #define USER_M1_NUM_ISR_TICKS_PER_CURRENT_TICK (1) //! \brief Defines the number of ISR clock ticks per speed controller clock tick //! #define USER_M1_NUM_ISR_TICKS_PER_SPEED_TICK (10) //! \brief Defines the number of current sensors //! #define USER_M1_NUM_CURRENT_SENSORS (3) //! \brief Defines the number of voltage sensors //! #define USER_M1_NUM_VOLTAGE_SENSORS (3) //! \brief Defines the Pulse Width Modulation (PWM) frequency, kHz //! #define USER_M1_PWM_FREQ_kHz (40.0f) #define USER_M1_PWM_TBPRD_NUM (uint16_t)(USER_SYSTEM_FREQ_MHz * 1000.0f / USER_M1_PWM_FREQ_kHz / 2.0f) //! \brief Defines the Pulse Width Modulation (PWM) period, usec //! #define USER_M1_PWM_PERIOD_usec (1000.0f / USER_M1_PWM_FREQ_kHz) //! \brief Defines the Interrupt Service Routine (ISR) frequency, Hz //! #define USER_M1_ISR_FREQ_Hz (USER_M1_PWM_FREQ_kHz * 1000.0f / (float32_t)USER_M1_NUM_PWM_TICKS_PER_ISR_TICK) //! \brief Defines the Interrupt Service Routine (ISR) period, usec //! #define USER_M1_ISR_PERIOD_usec (USER_M1_PWM_PERIOD_usec * (float32_t)USER_M1_NUM_PWM_TICKS_PER_ISR_TICK) //! \brief Defines the direct voltage (Vd) scale factor //! #define USER_M1_VD_SF (0.95f) //! \brief Defines the voltage scale factor for the system //! #define USER_M1_VOLTAGE_SF (USER_M1_ADC_FULL_SCALE_VOLTAGE_V / 4096.0f) //! \brief Defines the current scale factor for the system //! #define USER_M1_CURRENT_SF (USER_M1_ADC_FULL_SCALE_CURRENT_A / 4096.0f) //! \brief Defines the current scale invert factor for the system //! #define USER_M1_CURRENT_INV_SF (4096.0f / USER_M1_ADC_FULL_SCALE_CURRENT_A) //! \brief Defines the analog voltage filter pole location, rad/s //! #define USER_M1_VOLTAGE_FILTER_POLE_rps (MATH_TWO_PI * USER_M1_VOLTAGE_FILTER_POLE_Hz) //! \brief Defines the maximum Vs magnitude in per units allowed //! \brief This value sets the maximum magnitude for the output of the Id and //! \brief Iq PI current controllers. The Id and Iq current controller outputs //! \brief are Vd and Vq. The relationship between Vs, Vd, and Vq is: //! \brief Vs = sqrt(Vd^2 + Vq^2). In this FOC controller, the Vd value is set //! \brief equal to USER_MAX_VS_MAG*USER_VD_MAG_FACTOR. //! \brief so the Vq value is set equal to sqrt(USER_MAX_VS_MAG^2 - Vd^2). //! //! \brief Set USER_MAX_VS_MAG = 0.5 for a pure sinewave with a peak at //! \brief SQRT(3)/2 = 86.6% duty cycle. No current reconstruction //! \brief is needed for this scenario. //! //! \brief Set USER_MAX_VS_MAG = 1/SQRT(3) = 0.5774 for a pure sinewave //! \brief with a peak at 100% duty cycle. Current reconstruction //! \brief will be needed for this scenario (Lab08). //! //! \brief Set USER_MAX_VS_MAG = 2/3 = 0.6666 to create a trapezoidal //! \brief voltage waveform. Current reconstruction will be needed //! \brief for this scenario (Lab08). //! //! \brief For space vector over-modulation, see lab08 for details on //! \brief system requirements that will allow the SVM generator to //! \brief go all the way to trapezoidal. //! //#define USER_M1_MAX_VS_MAG_PU (0.66f) //#define USER_M1_MAX_VS_MAG_PU (0.65f) #define USER_M1_MAX_VS_MAG_PU (0.576f) //#define USER_M1_MAX_VS_MAG_PU (0.565f) //#define USER_M1_MAX_VS_MAG_PU (0.5f) //! \brief Defines the reference Vs magnitude in per units allowed //! \ Set the value equal from 0.5 to 0.95 of the maximum Vs magnitude #define USER_M1_VS_REF_MAG_PU (0.8f * USER_MAX_VS_MAG_PU) //! \brief Defines the R/L excitation frequency, Hz //! #define USER_M1_R_OVER_L_EXC_FREQ_Hz (300.0f) //! \brief Defines the R/L Kp scale factor, pu //! \brief Kp used during R/L is USER_M1_R_OVER_L_KP_SF * USER_M1_NOMINAL_DC_BUS_VOLTAGE_V / USER_MOTOR1_MAX_CURRENT_A; //! #define USER_M1_R_OVER_L_KP_SF (0.02f) //! \brief Defines maximum acceleration for the estimation speed profiles, Hz/sec //! #define USER_M1_MAX_ACCEL_Hzps (2.0f) //! \brief Defines the controller execution period, usec //! #define USER_M1_CTRL_PERIOD_usec ((float32_t)USER_M1_ISR_PERIOD_usec) //! \brief Defines the controller execution period, sec //! #define USER_M1_CTRL_PERIOD_sec ((float32_t)USER_M1_CTRL_PERIOD_usec / 1000000.0f) //! \brief Defines the IdRated delta to use during estimation //! #define USER_M1_IDRATED_DELTA_A (0.0001f) #if defined(_FULL_FAST_LIB) //! \brief Defines the forced angle frequency, Hz #define USER_M1_FORCE_ANGLE_FREQ_Hz (1.0f) //! \brief Defines the forced angle acceleration, Hz #define USER_M1_FORCE_ANGLE_ACCEL_Hzps (10.0f) #else // !_FULL_FAST_LIB //! \brief Defines the forced angle frequency, Hz #define USER_M1_FORCE_ANGLE_FREQ_Hz (1.0f) #endif // !_FULL_FAST_LIB //! \brief Defines the near zero speed limit for electrical frequency estimation, Hz //! The flux integrator uses this limit to regulate flux integration #define USER_M1_FREQ_NEARZEROSPEEDLIMIT_Hz (0.0f) //! \brief Defines the fraction of IdRated to use during inductance estimation //! #define USER_M1_IDRATED_FRACTION_FOR_L_IDENT (0.5f) //! \brief Defines the fraction of SpeedMax to use during inductance estimation //! #define USER_M1_SPEEDMAX_FRACTION_FOR_L_IDENT (1.0f) //! \brief Defines the Power Warp gain for computing Id reference //! #define USER_M1_PW_GAIN (1.0f) //! \brief Defines the pole location for the DC bus filter, rad/sec //! #define USER_M1_DCBUS_POLE_rps (100.0f) //! \brief Defines the pole location for the voltage and current offset estimation, rad/s //! #define USER_M1_OFFSET_POLE_rps (20.0f) //! \brief Defines the pole location for the speed control filter, rad/sec //! #define USER_M1_SPEED_POLE_rps (100.0f) //! \brief Defines the pole location for the direction filter, rad/sec //! #define USER_M1_DIRECTION_POLE_rps (MATH_TWO_PI * 10.0f) //! \brief Defines the pole location for the flux estimation, rad/sec //! #define USER_M1_FLUX_POLE_rps (10.0f) //! \brief Defines the pole location for the R/L estimation, rad/sec //! #define USER_M1_R_OVER_L_POLE_rps (MATH_TWO_PI * 3.2f) //! \brief Defines the convergence factor for the estimator //! #define USER_M1_EST_KAPPAQ (1.5f) //! \brief Defines the scale factor for the flux estimation //! the default value is 1.0f, change the value between 0.1f and 1.25f //! //#define USER_M1_EST_FLUX_HF_SF (0.120f) #define USER_M1_EST_FLUX_HF_SF (0.250f) //#define USER_M1_EST_FLUX_HF_SF (1.00f) //! \brief Defines the scale factor for the frequency estimation //! the default value is 1.0f, change the value between 0.5f and 1.5f //! #define USER_M1_EST_FREQ_HF_SF (1.00f) //! \brief Defines the scale factor for the bemf estimation //! the default value is 1.0f, change the value between 0.50f and 1.25f //! #define USER_M1_EST_BEMF_HF_SF (1.00f) //------------------------------------------------------------------------------ //! brief Define the Kp gain for Field Weakening Control #define USER_M1_FWC_KP 0.0525f //! brief Define the Ki gain for Field Weakening Control #define USER_M1_FWC_KI 0.00325f //! brief Define the maximum current vector angle for Field Weakening Control #define USER_M1_FWC_MAX_ANGLE -15.0f // degree #define USER_M1_FWC_MAX_ANGLE_RAD USER_M1_FWC_MAX_ANGLE /180.0f * MATH_PI // rad //! brief Define the minimum current vector angle for Field Weakening Control #define USER_M1_FWC_MIN_ANGLE 0.0f // degree #define USER_M1_FWC_MIN_ANGLE_RAD USER_M1_FWC_MIN_ANGLE /180.0f * MATH_PI // rad //! \brief Defines the number of DC bus over/under voltage setting time //! timer base = 5ms #define USER_M1_VOLTAGE_FAULT_TIME_SET (500U) // in 5ms //! \brief Defines the number of motor over load setting time //! timer base = 5ms, 1s #define USER_M1_OVER_LOAD_TIME_SET (200U) //! \brief Defines the number of motor stall setting time //! timer base = 5ms, 1s #define USER_M1_STALL_TIME_SET (200U) //! \brief Defines the number of phase unbalanced setting time //! timer base = 5ms, 5s #define USER_M1_UNBALANCE_TIME_SET (1000U) //! \brief Defines the number of lost phase setting time //! timer base = 5ms, 10s #define USER_M1_LOST_PHASE_TIME_SET (2000U) //! \brief Defines the number of over speed setting time //! timer base = 5ms #define USER_M1_OVER_SPEED_TIME_SET (600U) //! \brief Defines the number of startup failed setting time //! timer base = 5ms, 10s #define USER_M1_STARTUP_FAIL_TIME_SET (2000U) //! \brief Defines the number of over load setting times //! #define USER_M1_OVER_CURRENT_TIMES_SET (5U) //! \brief Defines the number of stop wait time //! timer base = 5ms, 10s #define USER_M1_STOP_WAIT_TIME_SET (2000U) //! \brief Defines the number of restart wait time //! timer base = 5ms, 10s #define USER_M1_RESTART_WAIT_TIME_SET (2000U) //! \brief Defines the number of restart times when has a fault //! #define USER_M1_START_TIMES_SET (3U) //! \brief Defines the alignment time //! timer base = 5ms, 10s #define USER_M1_ALIGN_TIME_SET (2000U) //! \brief Defines the QEP unit ticks #define USER_M1_QEP_UNIT_TIMER_TICKS (uint32_t)(USER_SYSTEM_FREQ_MHz/(2.0f * USER_M1_ISR_FREQ_Hz) * 1000000.0f) //! \brief Defines the current filter pole location, Hz #define USER_M1_IS_FILTER_POLE_Hz (7500.0f) // 7.5kHz //! \brief Defines the current filter pole location, rad/s //! #define USER_M1_IS_FILTER_POLE_rps (MATH_TWO_PI * USER_M1_IS_FILTER_POLE_Hz) //! \brief Defines the voltage filter pole location, Hz #define USER_M1_VS_FILTER_POLE_Hz (30000.0f) // 30.0kHz //! \brief Defines the voltage filter pole location, rad/s //! #define USER_M1_VS_FILTER_POLE_rps (MATH_TWO_PI * USER_M1_VS_FILTER_POLE_Hz) //============================================================================== // Only a few listed motor below are tested with the related algorithm as the comments // Motor defines // High voltage PMSM Motors //#define USER_MOTOR1 Estun_EMJ_04APB22 //* Tested, FAST/eSMO/ENC //#define USER_MOTOR1 Anaheim_BLWS235D //* Tested, FAST //#define USER_MOTOR1 CHMotor_WM_Test //#define USER_MOTOR1 Anaheim_BLZ362S //#define USER_MOTOR1 ziehlab_Fan160hv //* Tested, FAST/eSMO //#define USER_MOTOR1 embpast_Fan160hv //* Tested, FAST/eSMO //#define USER_MOTOR1 GMCC_KSK89D53U //* Tested, FAST/eSMO //#define USER_MOTOR1 QXA_A091ZE190A //* Tested, FAST/eSMO //#define USER_MOTOR1 Baldor_BSM90N175 //* Tested, FAST/eSMO //#define USER_MOTOR1 Marathon_N56PNRA10102 //* Tested, FAST // Low Voltage PMSM Motors //#define USER_MOTOR1 Anaheim_BLY172S_24V //* Tested, FAST/eSMO/HALL/ENC(MD) //#define USER_MOTOR1 Teknic_M2310PLN04K //* Tested, FAST/eSMO/ENC/HALL //#define USER_MOTOR1 Nedic_EPSMS037_D12V //#define USER_MOTOR1 Anaheim_BLY341S_48V //#define USER_MOTOR1 Anaheim_BLY341S_Y24V //#define USER_MOTOR1 Anaheim_BLY341S_D24V //#define USER_MOTOR1 Drone_DJI920KV //* Tested, FAST //#define USER_MOTOR1 Drone_BLK2BLADE //* Tested, FAST //#define USER_MOTOR1 Drone_SENSEFLY //* Tested, FAST //#define USER_MOTOR1 Drone_SF_Black //* Tested, FAST //#define USER_MOTOR1 Drone9616_110KV_48V //* Tested, FAST //#define USER_MOTOR1 Tamagawa_TS4606N8302 //* Tested, FAST/Resolver //#define USER_MOTOR1 AKM21G_CK9NGE00 //* Tested, FAST/sin&cos encoder //#define USER_MOTOR1 AirFan_MFA0500_24V //* Tested, FAST //#define USER_MOTOR1 Tool_Makita_GFD01 //* Tested, FAST // ACI Motor //#define USER_MOTOR1 Marathon_5K33GN2A //#define USER_MOTOR1 Marathon_56H17T2011A //#define USER_MOTOR1 Dayton_3N352C //#define USER_MOTOR1 EMSYNERGY_LVACI #define USER_MOTOR1 my_pm_motor_1 //#define USER_MOTOR1 my_aci_motor_2 //------------------------------------------------------------------------------ #if (USER_MOTOR1 == Teknic_M2310PLN04K) // the motor type #define USER_MOTOR1_TYPE MOTOR_TYPE_PM // the number of pole pairs of the motor #define USER_MOTOR1_NUM_POLE_PAIRS (4) // the rotor resistance value of the motor, in Ohm #define USER_MOTOR1_Rr_Ohm (NULL) // the stator resistance value of the motor, in Ohm #define USER_MOTOR1_Rs_Ohm (0.393955578f) // the stator inductance value of the motor in the direct direction, in H #define USER_MOTOR1_Ls_d_H (0.000190442806f) // the stator inductance value of the motor in the quadrature direction, in H #define USER_MOTOR1_Ls_q_H (0.000190442806f) // the rated flux value of the motor, in V/Hz #define USER_MOTOR1_RATED_FLUX_VpHz (0.0399353318f) // the Id rated current value of the motor, in A. Induction motors only #define USER_MOTOR1_MAGNETIZING_CURRENT_A (NULL) // the maximum current value for stator resistance (R_s) identification, in A #define USER_MOTOR1_RES_EST_CURRENT_A (1.5f) // the maximum current value to use for stator inductance identification, in A #define USER_MOTOR1_IND_EST_CURRENT_A (-1.0f) // the maximum current value of the motor, in A #define USER_MOTOR1_MAX_CURRENT_A (6.6f) // the R/L excitation frequency for motor parameters identification, in Hz #define USER_MOTOR1_FLUX_EXC_FREQ_Hz (60.0f) // the inertia that describes the amount of mass, in Kg.m2 #define USER_MOTOR1_INERTIA_Kgm2 (7.06154e-06) // the rated voltage of the motor, V #define USER_MOTOR1_RATED_VOLTAGE_V (24.0f) // V // the minimum rotation frequency if the motor (Hz) #define USER_MOTOR1_FREQ_MIN_Hz (9.0f) // Hz // the maximum/base rotation frequency of the motor (Hz) #define USER_MOTOR1_FREQ_MAX_Hz (600.0f) // Hz // V/f Profile Parameters for open-loop in build level 2 // the low frequency f_low of V/f profile, in Hz, // set to 10% of rated motor frequency #define USER_MOTOR1_FREQ_LOW_Hz (5.0f) // Hz // the high frequency f_high of V/f profile, in Hz, // set to 100% of rated motor frequency #define USER_MOTOR1_FREQ_HIGH_Hz (400.0f) // Hz // the minimum voltage V_min of V/f profile, // the value is suggested to set to 15% of rated motor voltage, in Volt. #define USER_MOTOR1_VOLT_MIN_V (1.0f) // Volt // the maximum voltage, V_max of V/f profile, // the value is suggested to set to 100% of rated motor voltage, in Volt #define USER_MOTOR1_VOLT_MAX_V (24.0f) // Volt // the current increasing delta value for running the motor with force open-loop , in A #define USER_MOTOR1_FORCE_DELTA_A (0.05f) // A // the current increasing delta value for motor rotor alignment, in A #define USER_MOTOR1_ALIGN_DELTA_A (0.01f) // A // the current for running the motor with force open-loop, in A #define USER_MOTOR1_FLUX_CURRENT_A (0.5f) // A // the current for motor rotor alignment, in A #define USER_MOTOR1_ALIGN_CURRENT_A (1.5f) // A // the current for start to run motor with closed-loop when the speed is // lower than the startup setting speed, in A #define USER_MOTOR1_STARTUP_CURRENT_A (3.5f) // A // the current for running the motor with torque control mode when start the motor, in A. #define USER_MOTOR1_TORQUE_CURRENT_A (3.0f) // A // the over-current threshold for the motor, in A. // The value can be set to 50%~300% of the rated current of the motor #define USER_MOTOR1_OVER_CURRENT_A (7.5f) // A // the speed threshold for start the motor, in Hz #define USER_MOTOR1_SPEED_START_Hz (35.0f) // Hz // the speed threshold for running the motor with force open-loop, in Hz #define USER_MOTOR1_SPEED_FORCE_Hz (30.0f) // Hz // the acceleration for start the motor, in Hz/s. #define USER_MOTOR1_ACCEL_START_Hzps (10.0f) // Hz/s // the maximum acceleration for running the motor, in Hz/s #define USER_MOTOR1_ACCEL_MAX_Hzps (20.0f) // Hz/s // the speed threshold for running the motor with flying start mode, in Hz #define USER_MOTOR1_SPEED_FS_Hz (3.0f) // Hz // the current for motor brake, in A. #define USER_MOTOR1_BRAKE_CURRENT_A (1.0f) // A // the duration time for motor brake, in 5ms time base #define USER_MOTOR1_BRAKE_TIME_DELAY (12000U) // 60s/5ms #if defined(MOTOR1_FAST) // the slope coefficient for Ld compensation, (0.0f~0.5f) #define USER_MOTOR1_Ls_d_COMP_COEF (0.15f) // 0.0f~0.5f // the slope coefficient for Lq compensation, (0.0f~0.5f) #define USER_MOTOR1_Ls_q_COMP_COEF (0.35f) // 0.0f~0.5f // the minimum inductance coefficient for inductance compensation, (0.0f~0.5f) #define USER_MOTOR1_Ls_MIN_NUM_COEF (0.55f) // 0.5f~1.0f // the near zero speed limit for electrical frequency estimation, Hz. // The flux integrator uses this limit to regulate flux integration #define USER_MOTOR1_FREQ_NEARZEROLIMIT_Hz (5.0f) // Hz // the waiting time without enabling the Rs online clibrartion, in 5ms #define USER_MOTOR1_RSONLINE_WAIT_TIME (60000U) // 5min/300s at 5ms base // the the duration time with enabling the Rs online clibrartion, in 5ms #define USER_MOTOR1_RSONLINE_WORK_TIME (24000U) //2min/120s at 5ms base #endif // MOTOR1_FAST #if defined(MOTOR1_ESMO) // Only for eSMO // PLL (phase-locked loop) // PID proportional, integral, derivative // the sliding mode control maximum gain that equals to Ke*fmax/vscale/sqrt(2)*factor(max), // tune the factor(0.1~10) based the test status #define USER_MOTOR1_KSLIDE_MAX (0.50f) // the sliding mode control minimum gain that equals to Ke*fmin/vscale/sqrt(2)*factor(min), // tune the factor(0.1~10) based the test status #define USER_MOTOR1_KSLIDE_MIN (0.10f) // the PLL control maximum gain that equals to 2*(Damping factor)*(Natural frequency)*factor(max), // tune the factor(0.1~10) based the test status #define USER_MOTOR1_PLL_KP_MAX (10.0f) // the PLL control minimum gain that equals to 2*(Damping factor)*(Natural frequency)*factor(min), // tune the factor(0.1~5) based the test status #define USER_MOTOR1_PLL_KP_MIN (1.50f) // the PLL control gain adjusting coefficient that // equals to (Kpll_max-Kpll_min)/fscale/fmax #define USER_MOTOR1_PLL_KP_SF (5.0f) // the phase-locked loop control integration gain that // equals to (Natural frequency)*(Natural frequency)*Ts #define USER_MOTOR1_PLL_KI (2.8125E-06f) // Not used, reserve // the threshold of the estimated current error for sliding mode control that // equals to (motor maximum BEMF voltage / rated voltage), (0.3~0.5 ) #define USER_MOTOR1_BEMF_THRESHOLD (0.5f) // the parameters of the low-pass filter for the estimated back EMF, // Kslf equal to (fc*2*PI()*Ts), (0.5~2.5) #define USER_MOTOR1_BEMF_KSLF_FC_Hz (2.0f) // the offset coefficient to compensate the error by using // the low-pass filter that equals to 1.0, or [0.5~1.5] #define USER_MOTOR1_THETA_OFFSET_SF (1.0f) // the cut-off frequency of the low-pass filter to calculate the estimated speed, (100~400) #define USER_MOTOR1_SPEED_LPF_FC_Hz (200.0f) #endif // MOTOR1_ESMO #if defined(MOTOR1_ENC) // Only for encoder #define USER_MOTOR1_NUM_ENC_SLOTS (1000) // lines #define USER_MOTOR1_ENC_POS_MAX (USER_MOTOR1_NUM_ENC_SLOTS * 4 - 1) #define USER_MOTOR1_ENC_POS_OFFSET (668) // lines #endif // MOTOR1_ENC #if defined(MOTOR1_HALL) // Only for hall sensor #define USER_MOTOR1_HALL_DELTA_rad (MATH_TWO_PI / 36.0f) // rad #endif // MOTOR1_HALL #if defined(MOTOR1_ISBLDC) // Only for IS-BLDC #define USER_MOTOR1_RAMP_START_Hz (3.0f) #define USER_MOTOR1_RAMP_END_Hz (30.0f) #define USER_MOTOR1_RAMP_DELAY (5) #define USER_MOTOR1_ISBLDC_INT_MAX (0.015f) #define USER_MOTOR1_ISBLDC_INT_MIN (0.010f) #endif // MOTOR1_ISBLDC // Current and Speed PI Regulators Tuning Coefficient // the low speed threshold for adjusting the Kp and Ki of the speed PI regulator #define USER_MOTOR1_GAIN_SPEED_LOW_Hz (60.0f) // 10%~50% of the rated speed // the high speed threshold for adjusting the Kp and Ki of the speed PI regulator #define USER_MOTOR1_GAIN_SPEED_HIGH_Hz (150.0f) // 50%~100% of the rated speed // the gain coefficient to adjust the Kp of the speed PI regulator for startup #define USER_MOTOR1_KP_SPD_START_SF (1.5f) // 0.1~100.0 // the gain coefficient to adjust the Ki of the speed PI regulator for startup #define USER_MOTOR1_KI_SPD_START_SF (1.5f) // 0.1~10.0 // the low gain coefficient to adjust the Kp of the speed PI regulator #define USER_MOTOR1_KP_SPD_LOW_SF (2.0f) // 0.1~100.0 // the low gain coefficient to adjust the Ki of the speed PI regulator #define USER_MOTOR1_KI_SPD_LOW_SF (2.0f) // 0.1~10.0 // the high gain coefficient to adjust the Kp of the speed PI regulator #define USER_MOTOR1_KP_SPD_HIGH_SF (1.0f) // 0.1~100.0 // the high gain coefficient to adjust the Ki of the speed PI regulator #define USER_MOTOR1_KI_SPD_HIGH_SF (1.0f) // 0.1~10.0 // the low current threshold to adjust the Kp and Ki of the q-axis current PI regulator #define USER_MOTOR1_GAIN_IQ_LOW_A (2.0f) // 10%~50% of the rated current // the high current threshold to adjust the Kp and Ki of the q-axis current PI regulator #define USER_MOTOR1_GAIN_IQ_HIGH_A (6.0f) // 50%~100% of the rated current // the gain coefficient to adjust the Kp of the q-axis current PI regulator for startup #define USER_MOTOR1_KP_IQ_START_SF (1.5f) // 0.1~10.0 // the gain coefficient to adjust the Ki of the q-axis current PI regulator for startup #define USER_MOTOR1_KI_IQ_START_SF (1.5f) // 0.1~10.0 // the low gain coefficient to adjust the Kp of the q-axis current PI regulator #define USER_MOTOR1_KP_IQ_LOW_SF (2.0f) // 0.1~10.0 // the low gain coefficient to adjust the Ki of the q-axis current PI regulator #define USER_MOTOR1_KI_IQ_LOW_SF (2.0f) // 0.1~10.0 // the high gain coefficient to adjust the Kp of the d-axis current PI regulator #define USER_MOTOR1_KP_IQ_HIGH_SF (1.0f) // 0.1~10.0 // the high gain coefficient to adjust the Ki of the d-axis current PI regulator #define USER_MOTOR1_KI_IQ_HIGH_SF (1.0f) // 0.1~10.0 // the gain coefficient to adjust the Kp of the q-axis current PI regulator #define USER_MOTOR1_KP_ID_SF (1.0f) // 0.1~10.0 // the gain coefficient to adjust the Ki of the q-axis current PI regulator #define USER_MOTOR1_KI_ID_SF (1.0f) // 0.1~10.0 //----------------------------------------------------------------------------- #elif (USER_MOTOR1 == Estun_EMJ_04APB22) // Refer to the description of the following parameters for Teknic_M2310PLN04K #define USER_MOTOR1_TYPE MOTOR_TYPE_PM #define USER_MOTOR1_NUM_POLE_PAIRS (4) #define USER_MOTOR1_Rr_Ohm (0.0f) #define USER_MOTOR1_Rs_Ohm (2.62655902f) #define USER_MOTOR1_Ls_d_H (0.00860825367f) #define USER_MOTOR1_Ls_q_H (0.00860825367f) #define USER_MOTOR1_RATED_FLUX_VpHz (0.377903223f) #define USER_MOTOR1_MAGNETIZING_CURRENT_A (NULL) #define USER_MOTOR1_RES_EST_CURRENT_A (1.0f) #define USER_MOTOR1_IND_EST_CURRENT_A (-1.0f) #define USER_MOTOR1_MAX_CURRENT_A (5.0f) #define USER_MOTOR1_FLUX_EXC_FREQ_Hz (40.0f) #define USER_MOTOR1_NUM_ENC_SLOTS (2500) #define USER_MOTOR1_INERTIA_Kgm2 (3.100017e-5) #define USER_MOTOR1_FREQ_NEARZEROLIMIT_Hz (5.0f) // Hz // Ls compensation coefficient #define USER_MOTOR1_Ls_d_COMP_COEF (0.15f) // 0.0f~0.5f #define USER_MOTOR1_Ls_q_COMP_COEF (0.35f) // 0.0f~0.5f #define USER_MOTOR1_Ls_MIN_NUM_COEF (0.55f) // 0.5f~1.0f #define USER_MOTOR1_RATED_VOLTAGE_V (200.0f) #define USER_MOTOR1_FREQ_MIN_Hz (5.0f) // Hz #define USER_MOTOR1_FREQ_MAX_Hz (400.0f) // Hz #define USER_MOTOR1_FREQ_LOW_Hz (10.0f) // Hz #define USER_MOTOR1_FREQ_HIGH_Hz (200.0f) // Hz #define USER_MOTOR1_VOLT_MIN_V (20.0f) // Volt #define USER_MOTOR1_VOLT_MAX_V (200.0f) // Volt #define USER_MOTOR1_FORCE_DELTA_A (0.05f) // A #define USER_MOTOR1_ALIGN_DELTA_A (0.01f) // A #define USER_MOTOR1_FLUX_CURRENT_A (0.5f) // A #define USER_MOTOR1_ALIGN_CURRENT_A (1.0f) // A #define USER_MOTOR1_STARTUP_CURRENT_A (1.5f) // A #define USER_MOTOR1_TORQUE_CURRENT_A (1.0f) // A #define USER_MOTOR1_OVER_CURRENT_A (4.5f) // A #define USER_MOTOR1_SPEED_START_Hz (30.0f) #define USER_MOTOR1_SPEED_FORCE_Hz (20.0f) #define USER_MOTOR1_ACCEL_START_Hzps (10.0f) // Hz/s #define USER_MOTOR1_ACCEL_MAX_Hzps (20.0f) // Hz/s #define USER_MOTOR1_SPEED_FS_Hz (3.0f) // only for encoder #define USER_MOTOR1_ENC_POS_MAX (USER_MOTOR1_NUM_ENC_SLOTS * 4 - 1) #define USER_MOTOR1_ENC_POS_OFFSET (668) // Only for eSMO #define USER_MOTOR1_KSLIDE_MAX (1.50f) // 2.0f #define USER_MOTOR1_KSLIDE_MIN (0.75f) #define USER_MOTOR1_PLL_KP_MAX (10.0f) #define USER_MOTOR1_PLL_KP_MIN (2.0f) #define USER_MOTOR1_PLL_KP_SF (5.0f) #define USER_MOTOR1_PLL_KI (2.8125E-06f) // Not used, reserve #define USER_MOTOR1_BEMF_THRESHOLD (0.5f) #define USER_MOTOR1_BEMF_KSLF_FC_Hz (2.0f) // 1.0f #define USER_MOTOR1_THETA_OFFSET_SF (1.0f) // 2.5f #define USER_MOTOR1_SPEED_LPF_FC_Hz (200.0f) // 100.0f // for IS-BLDC #define USER_MOTOR1_RAMP_START_Hz (5.0f) #define USER_MOTOR1_RAMP_END_Hz (30.0f) #define USER_MOTOR1_RAMP_DELAY (1) #define USER_MOTOR1_ISBLDC_INT_MAX (0.015f) #define USER_MOTOR1_ISBLDC_INT_MIN (0.010f) // for Rs online calibration #define USER_MOTOR1_RSONLINE_WAIT_TIME (60000U) // 5min/300s at 5ms base #define USER_MOTOR1_RSONLINE_WORK_TIME (24000U) //2min/120s at 5ms base // Current and Speed PI Regulators Tuning Coefficient #define USER_MOTOR1_GAIN_SPEED_LOW_Hz (60.0f) #define USER_MOTOR1_GAIN_SPEED_HIGH_Hz (150.0f) #define USER_MOTOR1_KP_SPD_START_SF (1.5f) // 0.1~100.0 #define USER_MOTOR1_KI_SPD_START_SF (1.5f) // 0.1~10.0 #define USER_MOTOR1_KP_SPD_LOW_SF (2.0f) // 0.1~100.0 #define USER_MOTOR1_KI_SPD_LOW_SF (2.0f) // 0.1~10.0 #define USER_MOTOR1_KP_SPD_HIGH_SF (1.0f) // 0.1~100.0 #define USER_MOTOR1_KI_SPD_HIGH_SF (1.0f) // 0.1~10.0 #define USER_MOTOR1_GAIN_IQ_LOW_A (2.0f) #define USER_MOTOR1_GAIN_IQ_HIGH_A (6.0f) #define USER_MOTOR1_KP_IQ_START_SF (1.5f) // 0.1~10.0 #define USER_MOTOR1_KI_IQ_START_SF (1.5f) // 0.1~10.0 #define USER_MOTOR1_KP_IQ_LOW_SF (2.0f) // 0.1~10.0 #define USER_MOTOR1_KI_IQ_LOW_SF (2.0f) // 0.1~10.0 #define USER_MOTOR1_KP_IQ_HIGH_SF (1.0f) // 0.1~10.0 #define USER_MOTOR1_KI_IQ_HIGH_SF (1.0f) // 0.1~10.0 #define USER_MOTOR1_KP_ID_SF (1.0f) // 0.1~10.0 #define USER_MOTOR1_KI_ID_SF (1.0f) // 0.1~10.0 //------------------------------------------------------------------------------ #elif (USER_MOTOR1 == Tool_Makita_GFD01) // Refer to the description of the following parameters for Teknic_M2310PLN04K #define USER_MOTOR1_TYPE MOTOR_TYPE_PM #define USER_MOTOR1_NUM_POLE_PAIRS (2) #define USER_MOTOR1_Rr_Ohm (NULL) // 15kHz //#define USER_MOTOR1_Rs_Ohm (0.0253030714f) //#define USER_MOTOR1_Ls_d_H (2.89102645e-05f) //#define USER_MOTOR1_Ls_q_H (2.89102645e-05f) //#define USER_MOTOR1_RATED_FLUX_VpHz (0.0242515542f) //// 25kHz //#define USER_MOTOR1_Rs_Ohm (0.0250713862f) //#define USER_MOTOR1_Ls_d_H (2.84397684e-05f) //#define USER_MOTOR1_Ls_q_H (2.84397684e-05f) //#define USER_MOTOR1_RATED_FLUX_VpHz (0.0242347941f) // 20kHz #define USER_MOTOR1_Rs_Ohm (0.0379858911f) #define USER_MOTOR1_Ls_d_H (0.000106012929f) #define USER_MOTOR1_Ls_q_H (0.000106012929f) #define USER_MOTOR1_RATED_FLUX_VpHz (0.0138726495f) #define USER_MOTOR1_MAGNETIZING_CURRENT_A (NULL) #define USER_MOTOR1_RES_EST_CURRENT_A (5.0f) #define USER_MOTOR1_IND_EST_CURRENT_A (-3.5f) #define USER_MOTOR1_MAX_CURRENT_A (25.0f) #define USER_MOTOR1_FLUX_EXC_FREQ_Hz (100.0f) #define USER_MOTOR1_INERTIA_Kgm2 (7.06154e-06) // Ls compensation coefficient #define USER_MOTOR1_Ls_d_COMP_COEF (0.15f) // 0.0f~0.5f #define USER_MOTOR1_Ls_q_COMP_COEF (0.35f) // 0.0f~0.5f #define USER_MOTOR1_Ls_MIN_NUM_COEF (0.55f) // 0.5f~1.0f #define USER_MOTOR1_FREQ_NEARZEROLIMIT_Hz (5.0f) // Hz #define USER_MOTOR1_RATED_VOLTAGE_V (36.0f) // V #define USER_MOTOR1_FREQ_MIN_Hz (10.0f) // Hz #define USER_MOTOR1_FREQ_MAX_Hz (1500.0f) // Hz #define USER_MOTOR1_FREQ_LOW_Hz (10.0f) // Hz #define USER_MOTOR1_FREQ_HIGH_Hz (1500.0f) // Hz #define USER_MOTOR1_VOLT_MIN_V (3.0f) // Volt #define USER_MOTOR1_VOLT_MAX_V (36.0f) // Volt #define USER_MOTOR1_FORCE_DELTA_A (0.05f) // A #define USER_MOTOR1_ALIGN_DELTA_A (0.01f) // A #define USER_MOTOR1_FLUX_CURRENT_A (0.5f) // A #define USER_MOTOR1_ALIGN_CURRENT_A (1.0f) // A #define USER_MOTOR1_STARTUP_CURRENT_A (8.5f) // A #define USER_MOTOR1_TORQUE_CURRENT_A (5.0f) // A #define USER_MOTOR1_OVER_CURRENT_A (26.5f) // A #define USER_MOTOR1_SPEED_START_Hz (35.0f) // Hz #define USER_MOTOR1_SPEED_FORCE_Hz (30.0f) // Hz #define USER_MOTOR1_ACCEL_START_Hzps (50.0f) // Hz/s #define USER_MOTOR1_ACCEL_MAX_Hzps (200.0f) // Hz/s #define USER_MOTOR1_SPEED_FS_Hz (3.0f) // Hz #define USER_MOTOR1_BRAKE_CURRENT_A (1.0f) // A #define USER_MOTOR1_BRAKE_TIME_DELAY (12000U) // 60s/5ms // Only for encoder #define USER_MOTOR1_NUM_ENC_SLOTS (1000) // lines #define USER_MOTOR1_ENC_POS_MAX (USER_MOTOR1_NUM_ENC_SLOTS * 4 - 1) #define USER_MOTOR1_ENC_POS_OFFSET (668) // lines // Only for eSMO #define USER_MOTOR1_KSLIDE_MAX (0.50f) #define USER_MOTOR1_KSLIDE_MIN (0.10f) #define USER_MOTOR1_PLL_KP_MAX (10.0f) #define USER_MOTOR1_PLL_KP_MIN (1.50f) #define USER_MOTOR1_PLL_KP_SF (5.0f) #define USER_MOTOR1_PLL_KI (2.8125E-06f) // Not used, reserve #define USER_MOTOR1_BEMF_THRESHOLD (0.5f) #define USER_MOTOR1_BEMF_KSLF_FC_Hz (2.0f) #define USER_MOTOR1_THETA_OFFSET_SF (1.0f) #define USER_MOTOR1_SPEED_LPF_FC_Hz (200.0f) // Only for IS-BLDC #define USER_MOTOR1_RAMP_START_Hz (3.0f) #define USER_MOTOR1_RAMP_END_Hz (30.0f) #define USER_MOTOR1_RAMP_DELAY (5) #define USER_MOTOR1_ISBLDC_INT_MAX (0.015f) #define USER_MOTOR1_ISBLDC_INT_MIN (0.010f) // for Rs online calibration with FAST #define USER_MOTOR1_RSONLINE_WAIT_TIME (60000U) // 5min/300s at 5ms base #define USER_MOTOR1_RSONLINE_WORK_TIME (24000U) //2min/120s at 5ms base // Controller Tuning Coefficient #define USER_MOTOR1_GAIN_SPEED_LOW_Hz (60.0f) #define USER_MOTOR1_GAIN_SPEED_HIGH_Hz (150.0f) #define USER_MOTOR1_KP_SPD_START_SF (1.5f) // 0.1~100.0 #define USER_MOTOR1_KI_SPD_START_SF (1.5f) // 0.1~10.0 #define USER_MOTOR1_KP_SPD_LOW_SF (2.0f) // 0.1~100.0 #define USER_MOTOR1_KI_SPD_LOW_SF (2.0f) // 0.1~10.0 #define USER_MOTOR1_KP_SPD_HIGH_SF (1.0f) // 0.1~100.0 #define USER_MOTOR1_KI_SPD_HIGH_SF (1.0f) // 0.1~10.0 #define USER_MOTOR1_GAIN_IQ_LOW_A (2.0f) #define USER_MOTOR1_GAIN_IQ_HIGH_A (6.0f) #define USER_MOTOR1_KP_IQ_START_SF (1.5f) // 0.1~10.0 #define USER_MOTOR1_KI_IQ_START_SF (1.5f) // 0.1~10.0 #define USER_MOTOR1_KP_IQ_LOW_SF (2.0f) // 0.1~10.0 #define USER_MOTOR1_KI_IQ_LOW_SF (2.0f) // 0.1~10.0 #define USER_MOTOR1_KP_IQ_HIGH_SF (1.0f) // 0.1~10.0 #define USER_MOTOR1_KI_IQ_HIGH_SF (1.0f) // 0.1~10.0 #define USER_MOTOR1_KP_ID_SF (1.0f) // 0.1~10.0 #define USER_MOTOR1_KI_ID_SF (1.0f) // 0.1~10.0 //----------------------------------------------------------------------------------------- #elif (USER_MOTOR1 == CHMotor_WM_Test) // Refer to the description of the following parameters for Teknic_M2310PLN04K #define USER_MOTOR1_TYPE MOTOR_TYPE_PM #define USER_MOTOR1_NUM_POLE_PAIRS (8) #define USER_MOTOR1_Rr_Ohm (0.0f) #define USER_MOTOR1_Rs_Ohm (3.56442809f) #define USER_MOTOR1_Ls_d_H (0.0478876233f) #define USER_MOTOR1_Ls_q_H (0.0478876233f) #define USER_MOTOR1_RATED_FLUX_VpHz (0.377903223f) #define USER_MOTOR1_MAGNETIZING_CURRENT_A (NULL) #define USER_MOTOR1_RES_EST_CURRENT_A (1.0f) #define USER_MOTOR1_IND_EST_CURRENT_A (-1.0f) #define USER_MOTOR1_MAX_CURRENT_A (5.0f) #define USER_MOTOR1_FLUX_EXC_FREQ_Hz (40.0f) #define USER_MOTOR1_NUM_ENC_SLOTS (2500) #define USER_MOTOR1_INERTIA_Kgm2 (3.100017e-5) #define USER_MOTOR1_FREQ_NEARZEROLIMIT_Hz (5.0f) // Hz // Ls compensation coefficient #define USER_MOTOR1_Ls_d_COMP_COEF (0.15f) // 0.0f~0.5f #define USER_MOTOR1_Ls_q_COMP_COEF (0.35f) // 0.0f~0.5f #define USER_MOTOR1_Ls_MIN_NUM_COEF (0.55f) // 0.5f~1.0f #define USER_MOTOR1_RATED_VOLTAGE_V (200.0f) #define USER_MOTOR1_FREQ_MIN_Hz (5.0f) // Hz #define USER_MOTOR1_FREQ_MAX_Hz (400.0f) // Hz #define USER_MOTOR1_FREQ_LOW_Hz (10.0f) // Hz #define USER_MOTOR1_FREQ_HIGH_Hz (200.0f) // Hz #define USER_MOTOR1_VOLT_MIN_V (20.0f) // Volt #define USER_MOTOR1_VOLT_MAX_V (200.0f) // Volt #define USER_MOTOR1_FORCE_DELTA_A (0.05f) // A #define USER_MOTOR1_ALIGN_DELTA_A (0.01f) // A #define USER_MOTOR1_FLUX_CURRENT_A (0.5f) // A #define USER_MOTOR1_ALIGN_CURRENT_A (1.0f) // A #define USER_MOTOR1_STARTUP_CURRENT_A (2.5f) // A #define USER_MOTOR1_TORQUE_CURRENT_A (1.0f) // A #define USER_MOTOR1_OVER_CURRENT_A (4.5f) // A #define USER_MOTOR1_SPEED_START_Hz (30.0f) #define USER_MOTOR1_SPEED_FORCE_Hz (20.0f) #define USER_MOTOR1_ACCEL_START_Hzps (10.0f) // Hz/s #define USER_MOTOR1_ACCEL_MAX_Hzps (20.0f) // Hz/s #define USER_MOTOR1_SPEED_FS_Hz (3.0f) // only for encoder #define USER_MOTOR1_ENC_POS_MAX (USER_MOTOR1_NUM_ENC_SLOTS * 4 - 1) #define USER_MOTOR1_ENC_POS_OFFSET (668) // Only for eSMO #define USER_MOTOR1_KSLIDE_MAX (1.50f) // 2.0f #define USER_MOTOR1_KSLIDE_MIN (0.75f) #define USER_MOTOR1_PLL_KP_MAX (10.0f) #define USER_MOTOR1_PLL_KP_MIN (2.0f) #define USER_MOTOR1_PLL_KP_SF (5.0f) #define USER_MOTOR1_PLL_KI (2.8125E-06f) // Not used, reserve #define USER_MOTOR1_BEMF_THRESHOLD (0.5f) #define USER_MOTOR1_BEMF_KSLF_FC_Hz (2.0f) // 1.0f #define USER_MOTOR1_THETA_OFFSET_SF (1.0f) // 2.5f #define USER_MOTOR1_SPEED_LPF_FC_Hz (200.0f) // 100.0f // for IS-BLDC #define USER_MOTOR1_RAMP_START_Hz (5.0f) #define USER_MOTOR1_RAMP_END_Hz (30.0f) #define USER_MOTOR1_RAMP_DELAY (1) #define USER_MOTOR1_ISBLDC_INT_MAX (0.015f) #define USER_MOTOR1_ISBLDC_INT_MIN (0.010f) // for Rs online calibration #define USER_MOTOR1_RSONLINE_WAIT_TIME (60000U) // 5min/300s at 5ms base #define USER_MOTOR1_RSONLINE_WORK_TIME (24000U) //2min/120s at 5ms base // Current and Speed PI Regulators Tuning Coefficient #define USER_MOTOR1_GAIN_SPEED_LOW_Hz (60.0f) #define USER_MOTOR1_GAIN_SPEED_HIGH_Hz (150.0f) #define USER_MOTOR1_KP_SPD_START_SF (1.5f) // 0.1~100.0 #define USER_MOTOR1_KI_SPD_START_SF (1.5f) // 0.1~10.0 #define USER_MOTOR1_KP_SPD_LOW_SF (2.0f) // 0.1~100.0 #define USER_MOTOR1_KI_SPD_LOW_SF (2.0f) // 0.1~10.0 #define USER_MOTOR1_KP_SPD_HIGH_SF (1.0f) // 0.1~100.0 #define USER_MOTOR1_KI_SPD_HIGH_SF (1.0f) // 0.1~10.0 #define USER_MOTOR1_GAIN_IQ_LOW_A (2.0f) #define USER_MOTOR1_GAIN_IQ_HIGH_A (6.0f) #define USER_MOTOR1_KP_IQ_START_SF (1.5f) // 0.1~10.0 #define USER_MOTOR1_KI_IQ_START_SF (1.5f) // 0.1~10.0 #define USER_MOTOR1_KP_IQ_LOW_SF (2.0f) // 0.1~10.0 #define USER_MOTOR1_KI_IQ_LOW_SF (2.0f) // 0.1~10.0 #define USER_MOTOR1_KP_IQ_HIGH_SF (1.0f) // 0.1~10.0 #define USER_MOTOR1_KI_IQ_HIGH_SF (1.0f) // 0.1~10.0 #define USER_MOTOR1_KP_ID_SF (1.0f) // 0.1~10.0 #define USER_MOTOR1_KI_ID_SF (1.0f) // 0.1~10.0 #elif (USER_MOTOR1 == Marathon_N56PNRA10102) // Refer to the description of the following parameters for Teknic_M2310PLN04K #define USER_MOTOR1_TYPE MOTOR_TYPE_PM #define USER_MOTOR1_NUM_POLE_PAIRS (3) #define USER_MOTOR1_Rr_Ohm (NULL) #define USER_MOTOR1_Rs_Ohm (2.21783066f) #define USER_MOTOR1_Ls_d_H (0.0271135084f) #define USER_MOTOR1_Ls_q_H (0.0271135084f) #define USER_MOTOR1_RATED_FLUX_VpHz (0.575999975f) #define USER_MOTOR1_MAGNETIZING_CURRENT_A (NULL) #define USER_MOTOR1_RES_EST_CURRENT_A (1.5f) #define USER_MOTOR1_IND_EST_CURRENT_A (-1.0f) #define USER_MOTOR1_MAX_CURRENT_A (5.0f) #define USER_MOTOR1_FLUX_EXC_FREQ_Hz (20.0f) #define USER_MOTOR1_NUM_ENC_SLOTS (2500) #define USER_MOTOR1_INERTIA_Kgm2 (6.300017e-5) #define USER_MOTOR1_FREQ_NEARZEROLIMIT_Hz (5.0f) // Hz #define USER_MOTOR1_RATED_VOLTAGE_V (200.0f) // V #define USER_MOTOR1_FREQ_MIN_Hz (5.0f) // Hz #define USER_MOTOR1_FREQ_MAX_Hz (400.0f) // Hz #define USER_MOTOR1_FREQ_LOW_Hz (10.0) // Hz #define USER_MOTOR1_FREQ_HIGH_Hz (200.0) // Hz #define USER_MOTOR1_VOLT_MIN_V (20.0) // Volt #define USER_MOTOR1_VOLT_MAX_V (200.0) // Volt #define USER_MOTOR1_FORCE_DELTA_A (0.05f) // A #define USER_MOTOR1_ALIGN_DELTA_A (0.01f) // A #define USER_MOTOR1_FLUX_CURRENT_A (0.5f) // A #define USER_MOTOR1_ALIGN_CURRENT_A (1.0f) // A #define USER_MOTOR1_STARTUP_CURRENT_A (2.5f) // A #define USER_MOTOR1_TORQUE_CURRENT_A (1.0f) // A #define USER_MOTOR1_OVER_CURRENT_A (4.5f) // A #define USER_MOTOR1_SPEED_START_Hz (30.0f) // Hz #define USER_MOTOR1_SPEED_FORCE_Hz (20.0f) // Hz #define USER_MOTOR1_ACCEL_START_Hzps (10.0f) // Hz/s #define USER_MOTOR1_ACCEL_MAX_Hzps (20.0f) // Hz/s #define USER_MOTOR1_SPEED_FS_Hz (3.0f) // only for encoder #define USER_MOTOR1_ENC_POS_MAX (USER_MOTOR1_NUM_ENC_SLOTS * 4 - 1) #define USER_MOTOR1_ENC_POS_OFFSET (668) // Only for eSMO #define USER_MOTOR1_KSLIDE_MAX (1.50f) // 1.5f #define USER_MOTOR1_KSLIDE_MIN (0.75f) #define USER_MOTOR1_PLL_KP_MAX (10.0f) #define USER_MOTOR1_PLL_KP_MIN (2.0f) #define USER_MOTOR1_PLL_KP_SF (5.0f) #define USER_MOTOR1_PLL_KI (2.8125E-06f) // Not used, reserve #define USER_MOTOR1_BEMF_THRESHOLD (0.5f) #define USER_MOTOR1_BEMF_KSLF_FC_Hz (2.0f) // 2.0f #define USER_MOTOR1_THETA_OFFSET_SF (1.0f) // 1.0f #define USER_MOTOR1_SPEED_LPF_FC_Hz (200.0f) // 200.0f // for IS-BLDC #define USER_MOTOR1_RAMP_START_Hz (5.0f) #define USER_MOTOR1_RAMP_END_Hz (30.0f) #define USER_MOTOR1_RAMP_DELAY (1) #define USER_MOTOR1_ISBLDC_INT_MAX (0.015f) #define USER_MOTOR1_ISBLDC_INT_MIN (0.010f) // for Rs online calibration #define USER_MOTOR1_RSONLINE_WAIT_TIME (12000U) // 1min/60s at 5ms base #define USER_MOTOR1_RSONLINE_WORK_TIME (12000U) //1min/60s at 5ms base // Current and Speed PI Regulators Tuning Coefficient #define USER_MOTOR1_GAIN_SPEED_LOW_Hz (60.0f) #define USER_MOTOR1_GAIN_SPEED_HIGH_Hz (150.0f) #define USER_MOTOR1_KP_SPD_START_SF (1.5f) // 0.1~100.0 #define USER_MOTOR1_KI_SPD_START_SF (1.5f) // 0.1~10.0 #define USER_MOTOR1_KP_SPD_LOW_SF (2.0f) // 0.1~100.0 #define USER_MOTOR1_KI_SPD_LOW_SF (2.0f) // 0.1~10.0 #define USER_MOTOR1_KP_SPD_HIGH_SF (1.0f) // 0.1~100.0 #define USER_MOTOR1_KI_SPD_HIGH_SF (1.0f) // 0.1~10.0 #define USER_MOTOR1_GAIN_IQ_LOW_A (2.0f) #define USER_MOTOR1_GAIN_IQ_HIGH_A (6.0f) #define USER_MOTOR1_KP_IQ_START_SF (1.5f) // 0.1~10.0 #define USER_MOTOR1_KI_IQ_START_SF (1.5f) // 0.1~10.0 #define USER_MOTOR1_KP_IQ_LOW_SF (2.0f) // 0.1~10.0 #define USER_MOTOR1_KI_IQ_LOW_SF (2.0f) // 0.1~10.0 #define USER_MOTOR1_KP_IQ_HIGH_SF (1.0f) // 0.1~10.0 #define USER_MOTOR1_KI_IQ_HIGH_SF (1.0f) // 0.1~10.0 #define USER_MOTOR1_KP_ID_SF (1.0f) // 0.1~10.0 #define USER_MOTOR1_KI_ID_SF (1.0f) // 0.1~10.0 //------------------------------------------------------------------------------ #elif (USER_MOTOR1 == Tamagawa_TS4606N8302) // Refer to the description of the following parameters for Teknic_M2310PLN04K #define USER_MOTOR1_TYPE MOTOR_TYPE_PM #define USER_MOTOR1_NUM_POLE_PAIRS (4) #define USER_MOTOR1_Rr_Ohm (NULL) #define USER_MOTOR1_Rs_Ohm (0.214345068f) #define USER_MOTOR1_Ls_d_H (0.000486983976f) #define USER_MOTOR1_Ls_q_H (0.000486983976f) #define USER_MOTOR1_RATED_FLUX_VpHz (0.0441591553f) #define USER_MOTOR1_MAGNETIZING_CURRENT_A (NULL) #define USER_MOTOR1_RES_EST_CURRENT_A (2.0f) #define USER_MOTOR1_IND_EST_CURRENT_A (-1.0f) #define USER_MOTOR1_MAX_CURRENT_A (8.5f) #define USER_MOTOR1_FLUX_EXC_FREQ_Hz (60.0f) #define USER_MOTOR1_INERTIA_Kgm2 (7.06154e-06) // Ls compensation coefficient #define USER_MOTOR1_Ls_d_COMP_COEF (0.15f) // 0.0f~0.5f #define USER_MOTOR1_Ls_q_COMP_COEF (0.35f) // 0.0f~0.5f #define USER_MOTOR1_Ls_MIN_NUM_COEF (0.55f) // 0.5f~1.0f #define USER_MOTOR1_FREQ_NEARZEROLIMIT_Hz (5.0f) // Hz #define USER_MOTOR1_FREQ_LOW_Hz (10.0f) // Hz #define USER_MOTOR1_FREQ_HIGH_Hz (400.0f) // Hz #define USER_MOTOR1_VOLT_MIN_V (3.0f) // Volt #define USER_MOTOR1_VOLT_MAX_V (24.0f) // Volt #define USER_MOTOR1_RATED_VOLTAGE_V (24.0f) // V #define USER_MOTOR1_FREQ_MIN_Hz (9.0f) // Hz #define USER_MOTOR1_FREQ_MAX_Hz (600.0f) // Hz #define USER_MOTOR1_FORCE_DELTA_A (0.05f) // A #define USER_MOTOR1_ALIGN_DELTA_A (0.01f) // A #define USER_MOTOR1_FLUX_CURRENT_A (0.5f) // A #define USER_MOTOR1_ALIGN_CURRENT_A (1.5f) // A #define USER_MOTOR1_STARTUP_CURRENT_A (3.5f) // A #define USER_MOTOR1_TORQUE_CURRENT_A (3.0f) // A #define USER_MOTOR1_OVER_CURRENT_A (7.5f) // A #define USER_MOTOR1_SPEED_START_Hz (5.0f) // Hz #define USER_MOTOR1_SPEED_FORCE_Hz (5.0f) // Hz #define USER_MOTOR1_ACCEL_START_Hzps (10.0f) // Hz/s #define USER_MOTOR1_ACCEL_MAX_Hzps (20.0f) // Hz/s #define USER_MOTOR1_SPEED_FS_Hz (3.0f) // Hz #define USER_MOTOR1_BRAKE_CURRENT_A (1.0f) // A #define USER_MOTOR1_BRAKE_TIME_DELAY (12000U) // 60s/5ms // for Rs online calibration with FAST #define USER_MOTOR1_RSONLINE_WAIT_TIME (60000U) // 5min/300s at 5ms base #define USER_MOTOR1_RSONLINE_WORK_TIME (24000U) //2min/120s at 5ms base // Only for encoder #define USER_MOTOR1_NUM_ENC_SLOTS (1000) // lines #define USER_MOTOR1_ENC_POS_MAX (USER_MOTOR1_NUM_ENC_SLOTS * 4 - 1) #define USER_MOTOR1_ENC_POS_OFFSET (668) // lines // Only for eSMO #define USER_MOTOR1_KSLIDE_MAX (0.50f) #define USER_MOTOR1_KSLIDE_MIN (0.10f) #define USER_MOTOR1_PLL_KP_MAX (10.0f) #define USER_MOTOR1_PLL_KP_MIN (1.50f) #define USER_MOTOR1_PLL_KP_SF (5.0f) #define USER_MOTOR1_PLL_KI (2.8125E-06f) // Not used, reserve #define USER_MOTOR1_BEMF_THRESHOLD (0.5f) #define USER_MOTOR1_BEMF_KSLF_FC_Hz (2.0f) #define USER_MOTOR1_THETA_OFFSET_SF (1.0f) #define USER_MOTOR1_SPEED_LPF_FC_Hz (200.0f) // Only for IS-BLDC #define USER_MOTOR1_RAMP_START_Hz (3.0f) #define USER_MOTOR1_RAMP_END_Hz (30.0f) #define USER_MOTOR1_RAMP_DELAY (5) #define USER_MOTOR1_ISBLDC_INT_MAX (0.015f) #define USER_MOTOR1_ISBLDC_INT_MIN (0.010f) // Resolver related parameters defines #define USER_M1_PEXC_OFFSET_SET (1574.6f) #define USER_M1_PEXC_SCALE_SF_SET (0.5f / 2048.0f) #define USER_M1_PSIN_OFFSET_SET (1849.927f) #define USER_M1_PCOS_OFFSET_SET (1849.2431f) #define USER_M1_PSIN_SCALE_SF_SET (0.0015059217f) #define USER_M1_PCOS_SCALE_SF_SET (0.0015136319f) // Decouple the main PWM frequency and resolver frequency // Note that the ratio between PWM frequency resolver sampling frequency // have to be integer value #define USER_MOTOR1_RESOLVER_EXCITE_FREQUENCY (10.0f) // 10.0kHz #define USER_MOTOR1_RESOLVER_SAMPLE_FREQUENCY (20.0f) #define USER_MOTOR1_RESOLVER_EXC_PWM_FREQUENCY \ (USER_MOTOR1_RESOLVER_EXCITE_FREQUENCY * 20.0) // 200kHz // Change to SYSTEM_FREQUENCY / 1 after changing EPWM Clock Divide Select to /1 #define USER_MOTOR1_RESOLVER_ADC_PWM_TICKS \ ((USER_SYSTEM_FREQ_MHz / USER_MOTOR1_RESOLVER_SAMPLE_FREQUENCY) * \ 500.0f - 1.0f) #define USER_MOTOR1_RESOLVER_DAC_PWM_TICKS \ ((USER_SYSTEM_FREQ_MHz / USER_MOTOR1_RESOLVER_EXC_PWM_FREQUENCY) * \ 1000.0f - 1.0f) #define USER_MOTOR1_RESOLVER_PLL_OMEGA (200.0f * MATH_TWO_PI) #define USER_MOTOR1_RESOLVER_PLL_ZETA (0.7f) #define USER_MOTOR1_RESOLVER_PLL_COMP_GAIN (-4.6585E-5f) #define USER_MOTOR1_RESOLVER_PLL_LPF_BW (100.0f) // Unit: Hz // Bias between Resolver zero and Id #define USER_MOTOR1_RESOLVER_POS_BIAS (-1.05097198f) // Unit: rad #define USER_MOTOR1_RESOLVER_THETA_BIAS_RAD (-1.05097198f) // Unit: rad #define USER_MOTOR1_RESOLVER_LPF_FC_HZ (100.0f) // Unit: Hz #define USER_MOTOR1_RESOLVER_SCOS_LPF_HZ (5000.0f) // Unit: Hz #define USER_MOTOR1_RESOLVER_CALIB_LPF_HZ (200.0f) // unit: Hz // sin/cos encoder related parameters defines #define USER_M1_PSINAB_OFFSET_SET (1928.65234f) #define USER_M1_PCOSAB_OFFSET_SET (1866.88171f) #define USER_M1_PSINAB_SCALE_SF_SET (0.5f / 2048.0f) #define USER_M1_PCOSAB_SCALE_SF_SET (0.5f / 2048.0f) #define USER_M1_PSINCD_OFFSET_SET (1928.65234f) #define USER_M1_PCOSCD_OFFSET_SET (1866.88171f) #define USER_M1_PSINCD_SCALE_SF_SET (0.5f / 2048.0f) #define USER_M1_PCOSCD_SCALE_SF_SET (0.5f / 2048.0f) #define USER_MOTOR1_PSINCOS_SAMPLE_FREQUENCY (20.0f) #define USER_MOTOR1_PSINCOS_PULSE_LINES (2048.0f) // Change to SYSTEM_FREQUENCY / 1 after changing EPWM Clock Divide Select to /1 #define USER_MOTOR1_PSINCOS_ADC_PWM_TICKS \ ((USER_SYSTEM_FREQ_MHz / USER_MOTOR1_PSINCOS_SAMPLE_FREQUENCY) * \ 500.0f - 1.0f) #define USER_MOTOR1_PSINCOS_PLL_OMEGA (200.0f * MATH_TWO_PI) #define USER_MOTOR1_PSINCOS_PLL_ZETA (0.7f) #define USER_MOTOR1_PSINCOS_PLL_COMP_GAIN (-4.6585E-5f) #define USER_MOTOR1_PSINCOS_PLL_LPF_BW (100.0f) // Unit: Hz // Bias between Resolver zero and Id #define USER_MOTOR1_PSINCOSAB_POS_BIAS (-1.05097198f) // Unit: rad #define USER_MOTOR1_PSINCOSCD_POS_BIAS (-1.05097198f) // Unit: rad #define USER_MOTOR1_PSINCOS_THETA_BIAS_RAD (2.33111715f) // Unit: rad #define USER_MOTOR1_PSINCOS_LPF_FC_HZ (100.0f) // Unit: Hz #define USER_MOTOR1_PSINCOS_SCOS_LPF_HZ (1000.0f) // unit: Hz #define USER_MOTOR1_PSINCOS_CALIB_LPF_HZ (200.0f) // unit: Hz // Current and Speed PI Regulators Tuning Coefficient #define USER_MOTOR1_GAIN_SPEED_LOW_Hz (60.0f) #define USER_MOTOR1_GAIN_SPEED_HIGH_Hz (150.0f) #define USER_MOTOR1_KP_SPD_START_SF (1.5f) // 0.1~100.0 #define USER_MOTOR1_KI_SPD_START_SF (1.5f) // 0.1~10.0 #define USER_MOTOR1_KP_SPD_LOW_SF (2.0f) // 0.1~100.0 #define USER_MOTOR1_KI_SPD_LOW_SF (2.0f) // 0.1~10.0 #define USER_MOTOR1_KP_SPD_HIGH_SF (1.0f) // 0.1~100.0 #define USER_MOTOR1_KI_SPD_HIGH_SF (1.0f) // 0.1~10.0 #define USER_MOTOR1_GAIN_IQ_LOW_A (2.0f) #define USER_MOTOR1_GAIN_IQ_HIGH_A (6.0f) #define USER_MOTOR1_KP_IQ_START_SF (1.5f) // 0.1~10.0 #define USER_MOTOR1_KI_IQ_START_SF (1.5f) // 0.1~10.0 #define USER_MOTOR1_KP_IQ_LOW_SF (2.0f) // 0.1~10.0 #define USER_MOTOR1_KI_IQ_LOW_SF (2.0f) // 0.1~10.0 #define USER_MOTOR1_KP_IQ_HIGH_SF (1.0f) // 0.1~10.0 #define USER_MOTOR1_KI_IQ_HIGH_SF (1.0f) // 0.1~10.0 #define USER_MOTOR1_KP_ID_SF (1.0f) // 0.1~10.0 #define USER_MOTOR1_KI_ID_SF (1.0f) // 0.1~10.0 //------------------------------------------------------------------------------ #elif (USER_MOTOR1 == AKM21G_CK9NGE00) // Refer to the description of the following parameters for Teknic_M2310PLN04K #define USER_MOTOR1_TYPE MOTOR_TYPE_PM #define USER_MOTOR1_NUM_POLE_PAIRS (3) #define USER_MOTOR1_Rr_Ohm (NULL) #define USER_MOTOR1_Rs_Ohm (0.724585772f) #define USER_MOTOR1_Ls_d_H (0.00115217688f) #define USER_MOTOR1_Ls_q_H (0.00115217688f) #define USER_MOTOR1_RATED_FLUX_VpHz (0.105363153f) #define USER_MOTOR1_MAGNETIZING_CURRENT_A (NULL) #define USER_MOTOR1_RES_EST_CURRENT_A (2.0f) #define USER_MOTOR1_IND_EST_CURRENT_A (-1.0f) #define USER_MOTOR1_MAX_CURRENT_A (8.5f) #define USER_MOTOR1_FLUX_EXC_FREQ_Hz (60.0f) #define USER_MOTOR1_INERTIA_Kgm2 (7.06154e-06) // Ls compensation coefficient #define USER_MOTOR1_Ls_d_COMP_COEF (0.15f) // 0.0f~0.5f #define USER_MOTOR1_Ls_q_COMP_COEF (0.35f) // 0.0f~0.5f #define USER_MOTOR1_Ls_MIN_NUM_COEF (0.55f) // 0.5f~1.0f #define USER_MOTOR1_FREQ_NEARZEROLIMIT_Hz (5.0f) // Hz #define USER_MOTOR1_FREQ_LOW_Hz (10.0f) // Hz #define USER_MOTOR1_FREQ_HIGH_Hz (400.0f) // Hz #define USER_MOTOR1_VOLT_MIN_V (3.0f) // Volt #define USER_MOTOR1_VOLT_MAX_V (24.0f) // Volt #define USER_MOTOR1_RATED_VOLTAGE_V (24.0f) // V #define USER_MOTOR1_FREQ_MIN_Hz (9.0f) // Hz #define USER_MOTOR1_FREQ_MAX_Hz (600.0f) // Hz #define USER_MOTOR1_FORCE_DELTA_A (0.05f) // A #define USER_MOTOR1_ALIGN_DELTA_A (0.01f) // A #define USER_MOTOR1_FLUX_CURRENT_A (0.5f) // A #define USER_MOTOR1_ALIGN_CURRENT_A (1.5f) // A #define USER_MOTOR1_STARTUP_CURRENT_A (3.5f) // A #define USER_MOTOR1_TORQUE_CURRENT_A (3.0f) // A #define USER_MOTOR1_OVER_CURRENT_A (7.5f) // A #define USER_MOTOR1_SPEED_START_Hz (5.0f) // Hz #define USER_MOTOR1_SPEED_FORCE_Hz (5.0f) // Hz #define USER_MOTOR1_ACCEL_START_Hzps (10.0f) // Hz/s #define USER_MOTOR1_ACCEL_MAX_Hzps (20.0f) // Hz/s #define USER_MOTOR1_SPEED_FS_Hz (3.0f) // Hz #define USER_MOTOR1_BRAKE_CURRENT_A (1.0f) // A #define USER_MOTOR1_BRAKE_TIME_DELAY (12000U) // 60s/5ms // for Rs online calibration with FAST #define USER_MOTOR1_RSONLINE_WAIT_TIME (60000U) // 5min/300s at 5ms base #define USER_MOTOR1_RSONLINE_WORK_TIME (24000U) //2min/120s at 5ms base // Only for encoder #define USER_MOTOR1_NUM_ENC_SLOTS (1000) // lines #define USER_MOTOR1_ENC_POS_MAX (USER_MOTOR1_NUM_ENC_SLOTS * 4 - 1) #define USER_MOTOR1_ENC_POS_OFFSET (668) // lines // Only for eSMO #define USER_MOTOR1_KSLIDE_MAX (0.50f) #define USER_MOTOR1_KSLIDE_MIN (0.10f) #define USER_MOTOR1_PLL_KP_MAX (10.0f) #define USER_MOTOR1_PLL_KP_MIN (1.50f) #define USER_MOTOR1_PLL_KP_SF (5.0f) #define USER_MOTOR1_PLL_KI (2.8125E-06f) // Not used, reserve #define USER_MOTOR1_BEMF_THRESHOLD (0.5f) #define USER_MOTOR1_BEMF_KSLF_FC_Hz (2.0f) #define USER_MOTOR1_THETA_OFFSET_SF (1.0f) #define USER_MOTOR1_SPEED_LPF_FC_Hz (200.0f) // Only for IS-BLDC #define USER_MOTOR1_RAMP_START_Hz (3.0f) #define USER_MOTOR1_RAMP_END_Hz (30.0f) #define USER_MOTOR1_RAMP_DELAY (5) #define USER_MOTOR1_ISBLDC_INT_MAX (0.015f) #define USER_MOTOR1_ISBLDC_INT_MIN (0.010f) // sin/cos encoder related parameters defines #define USER_M1_PSINAB_OFFSET_SET (1928.65234f) #define USER_M1_PCOSAB_OFFSET_SET (1866.88171f) #define USER_M1_PSINAB_SCALE_SF_SET (0.25f / 2048.0f) #define USER_M1_PCOSAB_SCALE_SF_SET (0.25f / 2048.0f) #define USER_M1_PSINCD_OFFSET_SET (1928.65234f) #define USER_M1_PCOSCD_OFFSET_SET (1866.88171f) #define USER_M1_PSINCD_SCALE_SF_SET (0.25f / 2048.0f) #define USER_M1_PCOSCD_SCALE_SF_SET (0.25f / 2048.0f) #define USER_MOTOR1_PSINCOS_SAMPLE_FREQUENCY (20.0f) #define USER_MOTOR1_PSINCOS_PULSE_LINES (2048.0f) #define USER_MOTOR1_PSINCOS_LINES_MAX (USER_MOTOR1_PSINCOS_PULSE_LINES * 4.0f - 1.0f) // Change to SYSTEM_FREQUENCY / 1 after changing EPWM Clock Divide Select to /1 #define USER_MOTOR1_PSINCOS_ADC_PWM_TICKS \ ((USER_SYSTEM_FREQ_MHz / USER_MOTOR1_PSINCOS_SAMPLE_FREQUENCY) * \ 500.0f - 1.0f) #define USER_MOTOR1_PSINCOS_PLL_OMEGA (200.0f * MATH_TWO_PI) #define USER_MOTOR1_PSINCOS_PLL_ZETA (0.7f) #define USER_MOTOR1_PSINCOS_PLL_COMP_GAIN (-4.6585E-5f) #define USER_MOTOR1_PSINCOS_PLL_LPF_BW (100.0f) // Unit: Hz // Bias between Resolver zero and Id #define USER_MOTOR1_PSINCOSAB_POS_BIAS (-1.05097198f) // Unit: rad #define USER_MOTOR1_PSINCOSCD_POS_BIAS (-1.05097198f) // Unit: rad #define USER_MOTOR1_PSINCOS_THETA_BIAS_RAD (2.33111715f) // Unit: rad #define USER_MOTOR1_PSINCOS_LPF_FC_HZ (100.0f) // Unit: Hz #define USER_MOTOR1_PSINCOS_SCOS_LPF_HZ (5000.0f) // unit: Hz #define USER_MOTOR1_PSINCOS_CALIB_LPF_HZ (200.0f) // unit: Hz // Current and Speed PI Regulators Tuning Coefficient #define USER_MOTOR1_GAIN_SPEED_LOW_Hz (60.0f) #define USER_MOTOR1_GAIN_SPEED_HIGH_Hz (150.0f) #define USER_MOTOR1_KP_SPD_START_SF (1.5f) // 0.1~100.0 #define USER_MOTOR1_KI_SPD_START_SF (1.5f) // 0.1~10.0 #define USER_MOTOR1_KP_SPD_LOW_SF (2.0f) // 0.1~100.0 #define USER_MOTOR1_KI_SPD_LOW_SF (2.0f) // 0.1~10.0 #define USER_MOTOR1_KP_SPD_HIGH_SF (1.0f) // 0.1~100.0 #define USER_MOTOR1_KI_SPD_HIGH_SF (1.0f) // 0.1~10.0 #define USER_MOTOR1_GAIN_IQ_LOW_A (2.0f) #define USER_MOTOR1_GAIN_IQ_HIGH_A (6.0f) #define USER_MOTOR1_KP_IQ_START_SF (1.5f) // 0.1~10.0 #define USER_MOTOR1_KI_IQ_START_SF (1.5f) // 0.1~10.0 #define USER_MOTOR1_KP_IQ_LOW_SF (2.0f) // 0.1~10.0 #define USER_MOTOR1_KI_IQ_LOW_SF (2.0f) // 0.1~10.0 #define USER_MOTOR1_KP_IQ_HIGH_SF (1.0f) // 0.1~10.0 #define USER_MOTOR1_KI_IQ_HIGH_SF (1.0f) // 0.1~10.0 #define USER_MOTOR1_KP_ID_SF (1.0f) // 0.1~10.0 #define USER_MOTOR1_KI_ID_SF (1.0f) // 0.1~10.0 //------------------------------------------------------------------------------ #elif (USER_MOTOR1 == Anaheim_BLY172S_24V) // Refer to the description of the following parameters for Teknic_M2310PLN04K #define USER_MOTOR1_TYPE MOTOR_TYPE_PM #define USER_MOTOR1_NUM_POLE_PAIRS (4) #define USER_MOTOR1_Rr_Ohm (NULL) #define USER_MOTOR1_Rs_Ohm (0.399648607f) #define USER_MOTOR1_Ls_d_H (0.000585399743f) #define USER_MOTOR1_Ls_q_H (0.000585399743f) #define USER_MOTOR1_RATED_FLUX_VpHz (0.0343291275f) #define USER_MOTOR1_MAGNETIZING_CURRENT_A (NULL) #define USER_MOTOR1_RES_EST_CURRENT_A (1.5f) #define USER_MOTOR1_IND_EST_CURRENT_A (-1.5f) #define USER_MOTOR1_MAX_CURRENT_A (7.5f) #define USER_MOTOR1_FLUX_EXC_FREQ_Hz (40.0f) #define USER_MOTOR1_NUM_ENC_SLOTS (2000) #define USER_MOTOR1_INERTIA_Kgm2 (4.80185e-06) // Ls compensation coefficient #define USER_MOTOR1_Ls_d_COMP_COEF (0.15f) // 0.0f~0.5f #define USER_MOTOR1_Ls_q_COMP_COEF (0.35f) // 0.0f~0.5f #define USER_MOTOR1_Ls_MIN_NUM_COEF (0.55f) // 0.5f~1.0f #define USER_MOTOR1_FREQ_NEARZEROLIMIT_Hz (5.0f) // Hz #define USER_MOTOR1_RATED_VOLTAGE_V (24.0f) #define USER_MOTOR1_FREQ_MIN_Hz (9.0f) // Hz #define USER_MOTOR1_FREQ_MAX_Hz (600.0f) // Hz #define USER_MOTOR1_FREQ_NEARZEROLIMIT_Hz (5.0f) // Hz #define USER_MOTOR1_FREQ_LOW_Hz (5.0f) // Hz #define USER_MOTOR1_FREQ_HIGH_Hz (400.0f) // Hz #define USER_MOTOR1_VOLT_MIN_V (2.0f) // Volt #define USER_MOTOR1_VOLT_MAX_V (24.0f) // Volt #define USER_MOTOR1_FORCE_DELTA_A (0.05f) // A #define USER_MOTOR1_ALIGN_DELTA_A (0.01f) // A #define USER_MOTOR1_FLUX_CURRENT_A (0.5f) // A #define USER_MOTOR1_ALIGN_CURRENT_A (3.5f) // A #define USER_MOTOR1_STARTUP_CURRENT_A (5.5f) // A #define USER_MOTOR1_TORQUE_CURRENT_A (4.0f) // A #define USER_MOTOR1_OVER_CURRENT_A (9.5f) // A #define USER_MOTOR1_SPEED_START_Hz (20.0f) #define USER_MOTOR1_SPEED_FORCE_Hz (15.0f) #define USER_MOTOR1_ACCEL_START_Hzps (10.0f) #define USER_MOTOR1_ACCEL_MAX_Hzps (20.0f) #define USER_MOTOR1_SPEED_FS_Hz (3.0f) #define USER_MOTOR1_ENC_POS_MAX (USER_MOTOR1_NUM_ENC_SLOTS * 4 - 1) #define USER_MOTOR1_ENC_POS_OFFSET (668) // Only for eSMO #define USER_MOTOR1_KSLIDE_MAX (0.55f) #define USER_MOTOR1_KSLIDE_MIN (0.10f) #define USER_MOTOR1_PLL_KP_MAX (7.25f) #define USER_MOTOR1_PLL_KP_MIN (1.75f) #define USER_MOTOR1_PLL_KP_SF (20.0f) #define USER_MOTOR1_PLL_KI (2.8125E-06f) // Not used, reserve #define USER_MOTOR1_BEMF_THRESHOLD (0.5f) #define USER_MOTOR1_BEMF_KSLF_FC_Hz (1.0f) #define USER_MOTOR1_THETA_OFFSET_SF (1.0f) #define USER_MOTOR1_SPEED_LPF_FC_Hz (200.0f) // for IS-BLDC #define USER_MOTOR1_RAMP_START_Hz (3.0f) #define USER_MOTOR1_RAMP_END_Hz (30.0f) #define USER_MOTOR1_RAMP_DELAY (5) #define USER_MOTOR1_ISBLDC_INT_MAX (0.015f) #define USER_MOTOR1_ISBLDC_INT_MIN (0.010f) // for Rs online calibration with FAST #define USER_MOTOR1_RSONLINE_WAIT_TIME (60000U) // 5min/300s at 5ms base #define USER_MOTOR1_RSONLINE_WORK_TIME (24000U) //2min/120s at 5ms base // Current and Speed PI Regulators Tuning Coefficient #define USER_MOTOR1_GAIN_SPEED_LOW_Hz (60.0f) #define USER_MOTOR1_GAIN_SPEED_HIGH_Hz (150.0f) #define USER_MOTOR1_KP_SPD_START_SF (1.5f) // 0.1~100.0 #define USER_MOTOR1_KI_SPD_START_SF (1.5f) // 0.1~10.0 #define USER_MOTOR1_KP_SPD_LOW_SF (2.0f) // 0.1~100.0 #define USER_MOTOR1_KI_SPD_LOW_SF (2.0f) // 0.1~10.0 #define USER_MOTOR1_KP_SPD_HIGH_SF (1.0f) // 0.1~100.0 #define USER_MOTOR1_KI_SPD_HIGH_SF (1.0f) // 0.1~10.0 #define USER_MOTOR1_GAIN_IQ_LOW_A (2.0f) #define USER_MOTOR1_GAIN_IQ_HIGH_A (6.0f) #define USER_MOTOR1_KP_IQ_START_SF (1.5f) // 0.1~10.0 #define USER_MOTOR1_KI_IQ_START_SF (1.5f) // 0.1~10.0 #define USER_MOTOR1_KP_IQ_LOW_SF (2.0f) // 0.1~10.0 #define USER_MOTOR1_KI_IQ_LOW_SF (2.0f) // 0.1~10.0 #define USER_MOTOR1_KP_IQ_HIGH_SF (1.0f) // 0.1~10.0 #define USER_MOTOR1_KI_IQ_HIGH_SF (1.0f) // 0.1~10.0 #define USER_MOTOR1_KP_ID_SF (1.0f) // 0.1~10.0 #define USER_MOTOR1_KI_ID_SF (1.0f) // 0.1~10.0 #elif (USER_MOTOR1 == Baldor_BSM90N175) // Refer to the description of the following parameters for Teknic_M2310PLN04K #define USER_MOTOR1_TYPE MOTOR_TYPE_PM #define USER_MOTOR1_NUM_POLE_PAIRS (4) #define USER_MOTOR1_Rr_Ohm (0.0) #define USER_MOTOR1_Rs_Ohm (0.636681914f) #define USER_MOTOR1_Ls_d_H (0.00240929401f) #define USER_MOTOR1_Ls_q_H (0.00240929401f) #define USER_MOTOR1_RATED_FLUX_VpHz (0.635046303f) #define USER_MOTOR1_MAGNETIZING_CURRENT_A (NULL) #define USER_MOTOR1_RES_EST_CURRENT_A (1.5f) // A - 10~30% of rated current of the motor #define USER_MOTOR1_IND_EST_CURRENT_A (-1.5f) // A - 10~30% of rated current of the motor, just enough to enable rotation #define USER_MOTOR1_MAX_CURRENT_A (9.5f) // A - 30~150% of rated current of the motor #define USER_MOTOR1_FLUX_EXC_FREQ_Hz (40.0f) // Hz - 10~30% of rated frequency of the motor #define USER_MOTOR1_NUM_ENC_SLOTS (2500.0) #define USER_MOTOR1_INERTIA_Kgm2 (6.327e-4) #define USER_MOTOR1_FREQ_NEARZEROLIMIT_Hz (5.0f) // Hz #define USER_MOTOR1_RATED_VOLTAGE_V (200.0f) #define USER_MOTOR1_FREQ_MIN_Hz (5.0f) // Hz #define USER_MOTOR1_FREQ_MAX_Hz (400.0f) // Hz #define USER_MOTOR1_FREQ_LOW_Hz (10.0f) // Hz #define USER_MOTOR1_FREQ_HIGH_Hz (200.0f) // Hz #define USER_MOTOR1_VOLT_MIN_V (10.0f) // Volt #define USER_MOTOR1_VOLT_MAX_V (200.0f) // Volt #define USER_MOTOR1_FORCE_DELTA_A (0.05f) // A #define USER_MOTOR1_ALIGN_DELTA_A (0.01f) // A #define USER_MOTOR1_FLUX_CURRENT_A (0.5f) // A #define USER_MOTOR1_ALIGN_CURRENT_A (3.0f) // #define USER_MOTOR1_STARTUP_CURRENT_A (5.0f) // #define USER_MOTOR1_TORQUE_CURRENT_A (1.0f) // A #define USER_MOTOR1_OVER_CURRENT_A (9.5f) // #define USER_MOTOR1_SPEED_START_Hz (10.0f) // #define USER_MOTOR1_SPEED_FORCE_Hz (20.0f) // #define USER_MOTOR1_ACCEL_START_Hzps (5.0f) // #define USER_MOTOR1_ACCEL_MAX_Hzps (10.0f) // #define USER_MOTOR1_SPEED_FS_Hz (3.0f) // Only for eSMO #define USER_MOTOR1_KSLIDE_MAX (1.50f) // 2.0f #define USER_MOTOR1_KSLIDE_MIN (0.75f) #define USER_MOTOR1_PLL_KP_MAX (10.0f) #define USER_MOTOR1_PLL_KP_MIN (2.0f) #define USER_MOTOR1_PLL_KP_SF (5.0f) #define USER_MOTOR1_PLL_KI (2.8125E-06f) // Not used, reserve #define USER_MOTOR1_BEMF_THRESHOLD (0.5f) #define USER_MOTOR1_BEMF_KSLF_FC_Hz (2.0f) // 1.0f #define USER_MOTOR1_THETA_OFFSET_SF (1.0f) // 2.5f #define USER_MOTOR1_SPEED_LPF_FC_Hz (200.0f) // 100.0f // for Rs online calibration #define USER_MOTOR1_RSONLINE_WAIT_TIME (60000U) // 5min/300s at 5ms base #define USER_MOTOR1_RSONLINE_WORK_TIME (24000U) //2min/120s at 5ms base // Current and Speed PI Regulators Tuning Coefficient #define USER_MOTOR1_GAIN_SPEED_LOW_Hz (60.0f) #define USER_MOTOR1_GAIN_SPEED_HIGH_Hz (150.0f) #define USER_MOTOR1_KP_SPD_START_SF (1.5f) // 0.1~100.0 #define USER_MOTOR1_KI_SPD_START_SF (1.5f) // 0.1~10.0 #define USER_MOTOR1_KP_SPD_LOW_SF (2.0f) // 0.1~100.0 #define USER_MOTOR1_KI_SPD_LOW_SF (2.0f) // 0.1~10.0 #define USER_MOTOR1_KP_SPD_HIGH_SF (1.0f) // 0.1~100.0 #define USER_MOTOR1_KI_SPD_HIGH_SF (1.0f) // 0.1~10.0 #define USER_MOTOR1_GAIN_IQ_LOW_A (2.0f) #define USER_MOTOR1_GAIN_IQ_HIGH_A (6.0f) #define USER_MOTOR1_KP_IQ_START_SF (1.5f) // 0.1~10.0 #define USER_MOTOR1_KI_IQ_START_SF (1.5f) // 0.1~10.0 #define USER_MOTOR1_KP_IQ_LOW_SF (2.0f) // 0.1~10.0 #define USER_MOTOR1_KI_IQ_LOW_SF (2.0f) // 0.1~10.0 #define USER_MOTOR1_KP_IQ_HIGH_SF (1.0f) // 0.1~10.0 #define USER_MOTOR1_KI_IQ_HIGH_SF (1.0f) // 0.1~10.0 #define USER_MOTOR1_KP_ID_SF (1.0f) // 0.1~10.0 #define USER_MOTOR1_KI_ID_SF (1.0f) // 0.1~10.0 #elif (USER_MOTOR1 == QXA_A091ZE190A) // Refer to the description of the following parameters for Teknic_M2310PLN04K #define USER_MOTOR1_TYPE MOTOR_TYPE_PM #define USER_MOTOR1_NUM_POLE_PAIRS (3) #define USER_MOTOR1_Rr_Ohm (0.0) #define USER_MOTOR1_Rs_Ohm (0.771440625f) #define USER_MOTOR1_Ls_d_H (0.0132690407f) #define USER_MOTOR1_Ls_q_H (0.0132690407f) #define USER_MOTOR1_RATED_FLUX_VpHz (0.50693661f) #define USER_MOTOR1_MAGNETIZING_CURRENT_A (NULL) #define USER_MOTOR1_RES_EST_CURRENT_A (2.5f) #define USER_MOTOR1_IND_EST_CURRENT_A (-2.0f) #define USER_MOTOR1_MAX_CURRENT_A (8.0f) #define USER_MOTOR1_FLUX_EXC_FREQ_Hz (20.0f) #define USER_MOTOR1_NUM_ENC_SLOTS (2500.0f) #define USER_MOTOR1_INERTIA_Kgm2 (3.100017e-5) #define USER_MOTOR1_FREQ_NEARZEROLIMIT_Hz (5.0f) // Hz #define USER_MOTOR1_RATED_VOLTAGE_V (200.0f) #define USER_MOTOR1_FREQ_MIN_Hz (5.0f) // Hz #define USER_MOTOR1_FREQ_MAX_Hz (400.0f) // Hz #define USER_MOTOR1_FREQ_LOW_Hz (10.0f) // Hz #define USER_MOTOR1_FREQ_HIGH_Hz (200.0f) // Hz #define USER_MOTOR1_VOLT_MIN_V (10.0f) // Volt #define USER_MOTOR1_VOLT_MAX_V (200.0f) // Volt #define USER_MOTOR1_FORCE_DELTA_A (0.05f) // A #define USER_MOTOR1_ALIGN_DELTA_A (0.01f) // A #define USER_MOTOR1_FLUX_CURRENT_A (0.5f) // A #define USER_MOTOR1_ALIGN_CURRENT_A (3.0f) // #define USER_MOTOR1_STARTUP_CURRENT_A (5.0f) // #define USER_MOTOR1_TORQUE_CURRENT_A (1.0f) // A #define USER_MOTOR1_OVER_CURRENT_A (9.5f) // #define USER_MOTOR1_SPEED_START_Hz (10.0f) // #define USER_MOTOR1_SPEED_FORCE_Hz (20.0f) // #define USER_MOTOR1_ACCEL_START_Hzps (5.0f) // #define USER_MOTOR1_ACCEL_MAX_Hzps (10.0f) // #define USER_MOTOR1_SPEED_FS_Hz (3.0f) // Only for eSMO #define USER_MOTOR1_KSLIDE_MAX (1.50f) // 2.0f #define USER_MOTOR1_KSLIDE_MIN (0.75f) #define USER_MOTOR1_PLL_KP_MAX (10.0f) #define USER_MOTOR1_PLL_KP_MIN (2.0f) #define USER_MOTOR1_PLL_KP_SF (5.0f) #define USER_MOTOR1_PLL_KI (2.8125E-06f) // Not used, reserve #define USER_MOTOR1_BEMF_THRESHOLD (0.5f) #define USER_MOTOR1_BEMF_KSLF_FC_Hz (2.0f) // 1.0f #define USER_MOTOR1_THETA_OFFSET_SF (1.0f) // 2.5f #define USER_MOTOR1_SPEED_LPF_FC_Hz (200.0f) // 100.0f // for Rs online calibration #define USER_MOTOR1_RSONLINE_WAIT_TIME (60000U) // 5min/300s at 5ms base #define USER_MOTOR1_RSONLINE_WORK_TIME (24000U) //2min/120s at 5ms base // Current and Speed PI Regulators Tuning Coefficient #define USER_MOTOR1_GAIN_SPEED_LOW_Hz (60.0f) #define USER_MOTOR1_GAIN_SPEED_HIGH_Hz (150.0f) #define USER_MOTOR1_KP_SPD_START_SF (1.5f) // 0.1~100.0 #define USER_MOTOR1_KI_SPD_START_SF (1.5f) // 0.1~10.0 #define USER_MOTOR1_KP_SPD_LOW_SF (2.0f) // 0.1~100.0 #define USER_MOTOR1_KI_SPD_LOW_SF (2.0f) // 0.1~10.0 #define USER_MOTOR1_KP_SPD_HIGH_SF (1.0f) // 0.1~100.0 #define USER_MOTOR1_KI_SPD_HIGH_SF (1.0f) // 0.1~10.0 #define USER_MOTOR1_GAIN_IQ_LOW_A (2.0f) #define USER_MOTOR1_GAIN_IQ_HIGH_A (6.0f) #define USER_MOTOR1_KP_IQ_START_SF (1.5f) // 0.1~10.0 #define USER_MOTOR1_KI_IQ_START_SF (1.5f) // 0.1~10.0 #define USER_MOTOR1_KP_IQ_LOW_SF (2.0f) // 0.1~10.0 #define USER_MOTOR1_KI_IQ_LOW_SF (2.0f) // 0.1~10.0 #define USER_MOTOR1_KP_IQ_HIGH_SF (1.0f) // 0.1~10.0 #define USER_MOTOR1_KI_IQ_HIGH_SF (1.0f) // 0.1~10.0 #define USER_MOTOR1_KP_ID_SF (1.0f) // 0.1~10.0 #define USER_MOTOR1_KI_ID_SF (1.0f) // 0.1~10.0 #elif (USER_MOTOR1 == GMCC_KSK89D53U) // Refer to the description of the following parameters for Teknic_M2310PLN04K #define USER_MOTOR1_TYPE MOTOR_TYPE_PM #define USER_MOTOR1_NUM_POLE_PAIRS (3) #define USER_MOTOR1_Rr_Ohm (0.0) #define USER_MOTOR1_Rs_Ohm (1.175) #define USER_MOTOR1_Ls_d_H (0.0076) #define USER_MOTOR1_Ls_q_H (0.0109) #define USER_MOTOR1_RATED_FLUX_VpHz (0.5415546) #define USER_MOTOR1_MAGNETIZING_CURRENT_A (NULL) #define USER_MOTOR1_RES_EST_CURRENT_A (3.5) #define USER_MOTOR1_IND_EST_CURRENT_A (-3.0) #define USER_MOTOR1_MAX_CURRENT_A (8.0) #define USER_MOTOR1_FLUX_EXC_FREQ_Hz (20.0) #define USER_MOTOR1_NUM_ENC_SLOTS (2500.0) #define USER_MOTOR1_INERTIA_Kgm2 (0.00018) #define USER_MOTOR1_FREQ_NEARZEROLIMIT_Hz (5.0f) // Hz #define USER_MOTOR1_RATED_VOLTAGE_V (200.0f) #define USER_MOTOR1_FREQ_MIN_Hz (5.0f) // Hz #define USER_MOTOR1_FREQ_MAX_Hz (400.0f) // Hz #define USER_MOTOR1_FREQ_LOW_Hz (10.0f) // Hz #define USER_MOTOR1_FREQ_HIGH_Hz (200.0f) // Hz #define USER_MOTOR1_VOLT_MIN_V (10.0f) // Volt #define USER_MOTOR1_VOLT_MAX_V (200.0f) // Volt #define USER_MOTOR1_FORCE_DELTA_A (0.05f) // A #define USER_MOTOR1_ALIGN_DELTA_A (0.01f) // A #define USER_MOTOR1_FLUX_CURRENT_A (0.5f) // A #define USER_MOTOR1_ALIGN_CURRENT_A (3.0f) // #define USER_MOTOR1_STARTUP_CURRENT_A (5.0f) // #define USER_MOTOR1_TORQUE_CURRENT_A (1.0f) // A #define USER_MOTOR1_OVER_CURRENT_A (9.5f) // #define USER_MOTOR1_SPEED_START_Hz (10.0f) // #define USER_MOTOR1_SPEED_FORCE_Hz (20.0f) // #define USER_MOTOR1_ACCEL_START_Hzps (5.0f) // #define USER_MOTOR1_ACCEL_MAX_Hzps (10.0f) // #define USER_MOTOR1_SPEED_FS_Hz (3.0f) // Only for eSMO #define USER_MOTOR1_KSLIDE_MAX (1.50f) // 2.0f #define USER_MOTOR1_KSLIDE_MIN (0.75f) #define USER_MOTOR1_PLL_KP_MAX (10.0f) #define USER_MOTOR1_PLL_KP_MIN (2.0f) #define USER_MOTOR1_PLL_KP_SF (5.0f) #define USER_MOTOR1_PLL_KI (2.8125E-06f) // Not used, reserve #define USER_MOTOR1_BEMF_THRESHOLD (0.5f) #define USER_MOTOR1_BEMF_KSLF_FC_Hz (2.0f) // 1.0f #define USER_MOTOR1_THETA_OFFSET_SF (1.0f) // 2.5f #define USER_MOTOR1_SPEED_LPF_FC_Hz (200.0f) // 100.0f // for Rs online calibration #define USER_MOTOR1_RSONLINE_WAIT_TIME (60000U) // 5min/300s at 5ms base #define USER_MOTOR1_RSONLINE_WORK_TIME (24000U) //2min/120s at 5ms base // Current and Speed PI Regulators Tuning Coefficient #define USER_MOTOR1_GAIN_SPEED_LOW_Hz (60.0f) #define USER_MOTOR1_GAIN_SPEED_HIGH_Hz (150.0f) #define USER_MOTOR1_KP_SPD_START_SF (1.5f) // 0.1~100.0 #define USER_MOTOR1_KI_SPD_START_SF (1.5f) // 0.1~10.0 #define USER_MOTOR1_KP_SPD_LOW_SF (2.0f) // 0.1~100.0 #define USER_MOTOR1_KI_SPD_LOW_SF (2.0f) // 0.1~10.0 #define USER_MOTOR1_KP_SPD_HIGH_SF (1.0f) // 0.1~100.0 #define USER_MOTOR1_KI_SPD_HIGH_SF (1.0f) // 0.1~10.0 #define USER_MOTOR1_GAIN_IQ_LOW_A (2.0f) #define USER_MOTOR1_GAIN_IQ_HIGH_A (6.0f) #define USER_MOTOR1_KP_IQ_START_SF (1.5f) // 0.1~10.0 #define USER_MOTOR1_KI_IQ_START_SF (1.5f) // 0.1~10.0 #define USER_MOTOR1_KP_IQ_LOW_SF (2.0f) // 0.1~10.0 #define USER_MOTOR1_KI_IQ_LOW_SF (2.0f) // 0.1~10.0 #define USER_MOTOR1_KP_IQ_HIGH_SF (1.0f) // 0.1~10.0 #define USER_MOTOR1_KI_IQ_HIGH_SF (1.0f) // 0.1~10.0 #define USER_MOTOR1_KP_ID_SF (1.0f) // 0.1~10.0 #define USER_MOTOR1_KI_ID_SF (1.0f) // 0.1~10.0 //------------------------------------------------------------------------------ #elif (USER_MOTOR1 == Drone_BLK2BLADE) // Refer to the description of the following parameters for Teknic_M2310PLN04K #define USER_MOTOR1_TYPE MOTOR_TYPE_PM #define USER_MOTOR1_NUM_POLE_PAIRS (6) #define USER_MOTOR1_Rr_Ohm (NULL) #define USER_MOTOR1_Rs_Ohm (0.0614009798f) #define USER_MOTOR1_Ls_d_H (1.29998243e-05f) #define USER_MOTOR1_Ls_q_H (1.29998243e-05f) #define USER_MOTOR1_RATED_FLUX_VpHz (0.00359785813f) #define USER_MOTOR1_MAGNETIZING_CURRENT_A (NULL) #define USER_MOTOR1_RES_EST_CURRENT_A (4.5) #define USER_MOTOR1_IND_EST_CURRENT_A (-3.0) //! \brief Defines the maximum current at the AD converter // Gain = 12, Rin=2.49k, Rdac=27.4k #define USER_MOTOR1_MAX_CURRENT_A (20.0) #define USER_MOTOR1_FLUX_EXC_FREQ_Hz (120.0) #define USER_MOTOR1_NUM_ENC_SLOTS (1000) #define USER_MOTOR1_INERTIA_Kgm2 (3.06154e-04) #define USER_MOTOR1_FREQ_NEARZEROLIMIT_Hz (5.0f) // Hz #define USER_MOTOR1_RATED_VOLTAGE_V (24.0) #define USER_MOTOR1_FREQ_MIN_Hz (5.0) // Hz #define USER_MOTOR1_FREQ_MAX_Hz (2000.0) // Hz #define USER_MOTOR1_FREQ_LOW_Hz (10.0) // Hz #define USER_MOTOR1_FREQ_HIGH_Hz (400.0) // Hz #define USER_MOTOR1_VOLT_MIN_V (2.0) // Volt #define USER_MOTOR1_VOLT_MAX_V (24.0) // Volt #define USER_MOTOR1_FORCE_DELTA_A (0.05) // A #define USER_MOTOR1_ALIGN_DELTA_A (0.01) // A #define USER_MOTOR1_FLUX_CURRENT_A (0.5) // A #define USER_MOTOR1_ALIGN_CURRENT_A (2.0) // A #define USER_MOTOR1_STARTUP_CURRENT_A (3.0) // #define USER_MOTOR1_TORQUE_CURRENT_A (2.0) // A //! \brief Defines the maximum current at the AD converter // Gain = 12, Rin=2.49k, Rdac=27.4k #define USER_MOTOR1_OVER_CURRENT_A (22.25) // #define USER_MOTOR1_SPEED_START_Hz (20.0f) #define USER_MOTOR1_SPEED_FORCE_Hz (20.0f) #define USER_MOTOR1_ACCEL_START_Hzps (10.0f) #define USER_MOTOR1_ACCEL_MAX_Hzps (20.0f) #define USER_MOTOR1_SPEED_FS_Hz (3.0f) // only for encoder #define USER_MOTOR1_ENC_POS_MAX (USER_MOTOR1_NUM_ENC_SLOTS * 4 - 1) #define USER_MOTOR1_ENC_POS_OFFSET (668) // Only for eSMO #define USER_MOTOR1_KSLIDE_MAX (0.55f) #define USER_MOTOR1_KSLIDE_MIN (0.10f) #define USER_MOTOR1_PLL_KP_MAX (7.25f) #define USER_MOTOR1_PLL_KP_MIN (1.75f) #define USER_MOTOR1_PLL_KP_SF (20.0f) #define USER_MOTOR1_PLL_KI (2.8125E-06f) // Not used, reserve #define USER_MOTOR1_BEMF_THRESHOLD (0.5f) #define USER_MOTOR1_BEMF_KSLF_FC_Hz (1.0f) #define USER_MOTOR1_THETA_OFFSET_SF (1.0f) #define USER_MOTOR1_SPEED_LPF_FC_Hz (200.0f) // for IS-BLDC #define USER_MOTOR1_RAMP_START_Hz (5.0f) #define USER_MOTOR1_RAMP_END_Hz (30.0f) #define USER_MOTOR1_RAMP_DELAY (1) #define USER_MOTOR1_ISBLDC_INT_MAX (0.015f) #define USER_MOTOR1_ISBLDC_INT_MIN (0.010f) // for Rs online calibration #define USER_MOTOR1_RSONLINE_WAIT_TIME (60000U) // 5min/300s at 5ms base #define USER_MOTOR1_RSONLINE_WORK_TIME (24000U) //2min/120s at 5ms base // Current and Speed PI Regulators Tuning Coefficient #define USER_MOTOR1_GAIN_SPEED_LOW_Hz (60.0f) #define USER_MOTOR1_GAIN_SPEED_HIGH_Hz (150.0f) #define USER_MOTOR1_KP_SPD_START_SF (1.5f) // 0.1~100.0 #define USER_MOTOR1_KI_SPD_START_SF (1.5f) // 0.1~10.0 #define USER_MOTOR1_KP_SPD_LOW_SF (2.0f) // 0.1~100.0 #define USER_MOTOR1_KI_SPD_LOW_SF (2.0f) // 0.1~10.0 #define USER_MOTOR1_KP_SPD_HIGH_SF (1.0f) // 0.1~100.0 #define USER_MOTOR1_KI_SPD_HIGH_SF (1.0f) // 0.1~10.0 #define USER_MOTOR1_GAIN_IQ_LOW_A (2.0f) #define USER_MOTOR1_GAIN_IQ_HIGH_A (6.0f) #define USER_MOTOR1_KP_IQ_START_SF (1.5f) // 0.1~10.0 #define USER_MOTOR1_KI_IQ_START_SF (1.5f) // 0.1~10.0 #define USER_MOTOR1_KP_IQ_LOW_SF (2.0f) // 0.1~10.0 #define USER_MOTOR1_KI_IQ_LOW_SF (2.0f) // 0.1~10.0 #define USER_MOTOR1_KP_IQ_HIGH_SF (1.0f) // 0.1~10.0 #define USER_MOTOR1_KI_IQ_HIGH_SF (1.0f) // 0.1~10.0 #define USER_MOTOR1_KP_ID_SF (1.0f) // 0.1~10.0 #define USER_MOTOR1_KI_ID_SF (1.0f) // 0.1~10.0 #elif (USER_MOTOR1 == Drone_DJI920KV) // Refer to the description of the following parameters for Teknic_M2310PLN04K #define USER_MOTOR1_TYPE MOTOR_TYPE_PM #define USER_MOTOR1_NUM_POLE_PAIRS (7) #define USER_MOTOR1_Rr_Ohm (NULL) #define USER_MOTOR1_Rs_Ohm (0.115332372f) #define USER_MOTOR1_Ls_d_H (1.76480826e-05f) #define USER_MOTOR1_Ls_q_H (1.76480826e-05f) #define USER_MOTOR1_RATED_FLUX_VpHz (0.00605002558f) #define USER_MOTOR1_MAGNETIZING_CURRENT_A (NULL) #define USER_MOTOR1_RES_EST_CURRENT_A (3.0) #define USER_MOTOR1_IND_EST_CURRENT_A (-2.5) #define USER_MOTOR1_MAX_CURRENT_A (20.0) #define USER_MOTOR1_FLUX_EXC_FREQ_Hz (120.0) #define USER_MOTOR1_NUM_ENC_SLOTS (1000) // N/A #define USER_MOTOR1_INERTIA_Kgm2 (5.06154e-06) #define USER_MOTOR1_FREQ_NEARZEROLIMIT_Hz (5.0f) // Hz #define USER_MOTOR1_RATED_VOLTAGE_V (12.0) #define USER_MOTOR1_FREQ_MIN_Hz (10.0) // Hz #define USER_MOTOR1_FREQ_MAX_Hz (2000.0) // Hz #define USER_MOTOR1_FREQ_LOW_Hz (10.0) // Hz #define USER_MOTOR1_FREQ_HIGH_Hz (1200.0) // Hz #define USER_MOTOR1_VOLT_MIN_V (3.0) // Volt #define USER_MOTOR1_VOLT_MAX_V (12.0) // Volt #define USER_MOTOR1_FORCE_DELTA_A (0.05) // A #define USER_MOTOR1_ALIGN_DELTA_A (0.01) // A #define USER_MOTOR1_FLUX_CURRENT_A (0.5) // A #define USER_MOTOR1_ALIGN_CURRENT_A (1.0) // A #define USER_MOTOR1_STARTUP_CURRENT_A (3.0) // #define USER_MOTOR1_TORQUE_CURRENT_A (2.0) // A #define USER_MOTOR1_OVER_CURRENT_A (16.5) // #define USER_MOTOR1_SPEED_START_Hz (20.0f) #define USER_MOTOR1_SPEED_FORCE_Hz (20.0) #define USER_MOTOR1_ACCEL_START_Hzps (10.0f) #define USER_MOTOR1_ACCEL_MAX_Hzps (100.0f) #define USER_MOTOR1_SPEED_FS_Hz (3.0f) // only for encoder, no available on this motor #define USER_MOTOR1_ENC_POS_MAX (USER_MOTOR1_NUM_ENC_SLOTS * 4 - 1) #define USER_MOTOR1_ENC_POS_OFFSET (668) // Only for eSMO #define USER_MOTOR1_KSLIDE_MAX (0.55f) #define USER_MOTOR1_KSLIDE_MIN (0.10f) #define USER_MOTOR1_PLL_KP_MAX (7.25f) #define USER_MOTOR1_PLL_KP_MIN (1.75f) #define USER_MOTOR1_PLL_KP_SF (20.0f) #define USER_MOTOR1_PLL_KI (2.8125E-06f) // Not used, reserve #define USER_MOTOR1_BEMF_THRESHOLD (0.5f) #define USER_MOTOR1_BEMF_KSLF_FC_Hz (1.0f) #define USER_MOTOR1_THETA_OFFSET_SF (1.0f) #define USER_MOTOR1_SPEED_LPF_FC_Hz (200.0f) // for IS-BLDC #define USER_MOTOR1_RAMP_START_Hz (5.0f) #define USER_MOTOR1_RAMP_END_Hz (30.0f) #define USER_MOTOR1_RAMP_DELAY (1) #define USER_MOTOR1_ISBLDC_INT_MAX (0.015f) #define USER_MOTOR1_ISBLDC_INT_MIN (0.010f) // for Rs online calibration #define USER_MOTOR1_RSONLINE_WAIT_TIME (60000U) // 5min/300s at 5ms base #define USER_MOTOR1_RSONLINE_WORK_TIME (24000U) //2min/120s at 5ms base // Current and Speed PI Regulators Tuning Coefficient #define USER_MOTOR1_GAIN_SPEED_LOW_Hz (60.0f) #define USER_MOTOR1_GAIN_SPEED_HIGH_Hz (150.0f) #define USER_MOTOR1_KP_SPD_START_SF (1.5f) // 0.1~100.0 #define USER_MOTOR1_KI_SPD_START_SF (1.5f) // 0.1~10.0 #define USER_MOTOR1_KP_SPD_LOW_SF (2.0f) // 0.1~100.0 #define USER_MOTOR1_KI_SPD_LOW_SF (2.0f) // 0.1~10.0 #define USER_MOTOR1_KP_SPD_HIGH_SF (1.0f) // 0.1~100.0 #define USER_MOTOR1_KI_SPD_HIGH_SF (1.0f) // 0.1~10.0 #define USER_MOTOR1_GAIN_IQ_LOW_A (2.0f) #define USER_MOTOR1_GAIN_IQ_HIGH_A (6.0f) #define USER_MOTOR1_KP_IQ_START_SF (1.5f) // 0.1~10.0 #define USER_MOTOR1_KI_IQ_START_SF (1.5f) // 0.1~10.0 #define USER_MOTOR1_KP_IQ_LOW_SF (2.0f) // 0.1~10.0 #define USER_MOTOR1_KI_IQ_LOW_SF (2.0f) // 0.1~10.0 #define USER_MOTOR1_KP_IQ_HIGH_SF (1.0f) // 0.1~10.0 #define USER_MOTOR1_KI_IQ_HIGH_SF (1.0f) // 0.1~10.0 #define USER_MOTOR1_KP_ID_SF (1.0f) // 0.1~10.0 #define USER_MOTOR1_KI_ID_SF (1.0f) // 0.1~10.0 #elif (USER_MOTOR1 == Drone_SF_Black) // Refer to the description of the following parameters for Teknic_M2310PLN04K #define USER_MOTOR1_TYPE MOTOR_TYPE_PM #define USER_MOTOR1_NUM_POLE_PAIRS (7) #define USER_MOTOR1_Rr_Ohm (NULL) #define USER_MOTOR1_Rs_Ohm (0.0276225284) #define USER_MOTOR1_Ls_d_H (1.25800107e-05) #define USER_MOTOR1_Ls_q_H (1.25800107e-05) #define USER_MOTOR1_RATED_FLUX_VpHz (0.02469966) #define USER_MOTOR1_MAGNETIZING_CURRENT_A (NULL) #define USER_MOTOR1_RES_EST_CURRENT_A (6.0) #define USER_MOTOR1_IND_EST_CURRENT_A (-3.0) #define USER_MOTOR1_MAX_CURRENT_A (25.0) #define USER_MOTOR1_FLUX_EXC_FREQ_Hz (80.0) #define USER_MOTOR1_NUM_ENC_SLOTS (1000) #define USER_MOTOR1_INERTIA_Kgm2 (7.06154e-05) #define USER_MOTOR1_RATED_VOLTAGE_V (24.0) #define USER_MOTOR1_FREQ_MIN_Hz (5.0) // Hz #define USER_MOTOR1_FREQ_MAX_Hz (2000.0) // Hz #define USER_MOTOR1_FREQ_LOW_Hz (10.0) // Hz #define USER_MOTOR1_FREQ_HIGH_Hz (400.0) // Hz #define USER_MOTOR1_VOLT_MIN_V (2.0) // Volt #define USER_MOTOR1_VOLT_MAX_V (24.0) // Volt #define USER_MOTOR1_STARTUP_CURRENT_A (3.0) // #define USER_MOTOR1_TORQUE_CURRENT_A (2.0) // A #define USER_MOTOR1_OVER_CURRENT_A (25.0) // #define USER_MOTOR1_SPEED_START_Hz (20.0f) #define USER_MOTOR1_SPEED_FORCE_Hz (20.0) #define USER_MOTOR1_ACCEL_START_Hzps (10.0f) #define USER_MOTOR1_ACCEL_MAX_Hzps (100.0f) #define USER_MOTOR1_SPEED_FS_Hz (3.0f) // Current and Speed PI Regulators Tuning Coefficient #define USER_MOTOR1_GAIN_SPEED_LOW_Hz (60.0f) #define USER_MOTOR1_GAIN_SPEED_HIGH_Hz (150.0f) #define USER_MOTOR1_KP_SPD_START_SF (1.5f) // 0.1~100.0 #define USER_MOTOR1_KI_SPD_START_SF (1.5f) // 0.1~10.0 #define USER_MOTOR1_KP_SPD_LOW_SF (2.0f) // 0.1~100.0 #define USER_MOTOR1_KI_SPD_LOW_SF (2.0f) // 0.1~10.0 #define USER_MOTOR1_KP_SPD_HIGH_SF (1.0f) // 0.1~100.0 #define USER_MOTOR1_KI_SPD_HIGH_SF (1.0f) // 0.1~10.0 #define USER_MOTOR1_GAIN_IQ_LOW_A (2.0f) #define USER_MOTOR1_GAIN_IQ_HIGH_A (6.0f) #define USER_MOTOR1_KP_IQ_START_SF (1.5f) // 0.1~10.0 #define USER_MOTOR1_KI_IQ_START_SF (1.5f) // 0.1~10.0 #define USER_MOTOR1_KP_IQ_LOW_SF (2.0f) // 0.1~10.0 #define USER_MOTOR1_KI_IQ_LOW_SF (2.0f) // 0.1~10.0 #define USER_MOTOR1_KP_IQ_HIGH_SF (1.0f) // 0.1~10.0 #define USER_MOTOR1_KI_IQ_HIGH_SF (1.0f) // 0.1~10.0 #define USER_MOTOR1_KP_ID_SF (1.0f) // 0.1~10.0 #define USER_MOTOR1_KI_ID_SF (1.0f) // 0.1~10.0 #elif (USER_MOTOR1 == AirFan_MFA0500_24V) // Refer to the description of the following parameters for Teknic_M2310PLN04K #define USER_MOTOR1_TYPE MOTOR_TYPE_PM #define USER_MOTOR1_NUM_POLE_PAIRS (2) #define USER_MOTOR1_Rr_Ohm (NULL) #define USER_MOTOR1_Rs_Ohm (0.150690928) #define USER_MOTOR1_Ls_d_H (2.34591134e-05) #define USER_MOTOR1_Ls_q_H (2.34591134e-05) #define USER_MOTOR1_RATED_FLUX_VpHz (0.00798716862f) #define USER_MOTOR1_MAGNETIZING_CURRENT_A (NULL) #define USER_MOTOR1_RES_EST_CURRENT_A (4.5) #define USER_MOTOR1_IND_EST_CURRENT_A (-3.0) #define USER_MOTOR1_MAX_CURRENT_A (16.5) #define USER_MOTOR1_FLUX_EXC_FREQ_Hz (200.0) #define USER_MOTOR1_NUM_ENC_SLOTS (1000) #define USER_MOTOR1_INERTIA_Kgm2 (7.06154e-05) // Ls compensation coefficient #define USER_MOTOR1_Ls_d_COMP_COEF (0.15f) // 0.0f~0.5f #define USER_MOTOR1_Ls_q_COMP_COEF (0.35f) // 0.0f~0.5f #define USER_MOTOR1_Ls_MIN_NUM_COEF (0.55f) // 0.5f~1.0f #define USER_MOTOR1_FREQ_NEARZEROLIMIT_Hz (5.0f) // Hz #define USER_MOTOR1_RATED_VOLTAGE_V (24.0) #define USER_MOTOR1_FREQ_MIN_Hz (9.0) // Hz #define USER_MOTOR1_FREQ_MAX_Hz (1500.0) // Hz #define USER_MOTOR1_FREQ_LOW_Hz (10.0) // Hz #define USER_MOTOR1_FREQ_HIGH_Hz (1000.0) // Hz #define USER_MOTOR1_VOLT_MIN_V (2.0) // Volt #define USER_MOTOR1_VOLT_MAX_V (14.0) // Volt #define USER_MOTOR1_FORCE_DELTA_A (0.05) // A #define USER_MOTOR1_ALIGN_DELTA_A (0.01) // A #define USER_MOTOR1_FLUX_CURRENT_A (0.5) // A #define USER_MOTOR1_ALIGN_CURRENT_A (2.5) // A #define USER_MOTOR1_STARTUP_CURRENT_A (4.5) // A #define USER_MOTOR1_TORQUE_CURRENT_A (2.0) // A #define USER_MOTOR1_OVER_CURRENT_A (16.5) // A #define USER_MOTOR1_SPEED_START_Hz (120.0) #define USER_MOTOR1_SPEED_FORCE_Hz (100.0) #define USER_MOTOR1_ACCEL_START_Hzps (10.0) #define USER_MOTOR1_ACCEL_MAX_Hzps (20.0) #define USER_MOTOR1_SPEED_FS_Hz (3.0) // only for encoder, N/A #define USER_MOTOR1_ENC_POS_MAX (USER_MOTOR1_NUM_ENC_SLOTS * 4 - 1) #define USER_MOTOR1_ENC_POS_OFFSET (668) // Only for eSMO #define USER_MOTOR1_KSLIDE_MAX (0.25f) #define USER_MOTOR1_KSLIDE_MIN (0.10f) #define USER_MOTOR1_PLL_KP_MAX (7.25f) #define USER_MOTOR1_PLL_KP_MIN (1.75f) #define USER_MOTOR1_PLL_KP_SF (5.00f) #define USER_MOTOR1_PLL_KI (2.8125E-06f) // Not used, reserve #define USER_MOTOR1_BEMF_THRESHOLD (0.25f) #define USER_MOTOR1_BEMF_KSLF_FC_Hz (1.0f) #define USER_MOTOR1_THETA_OFFSET_SF (1.0f) #define USER_MOTOR1_SPEED_LPF_FC_Hz (200.0f) // for IS-NBLDC #define USER_MOTOR1_RAMP_START_Hz (5.0) #define USER_MOTOR1_RAMP_END_Hz (30.0) #define USER_MOTOR1_RAMP_DELAY (1) // for Rs online calibration #define USER_MOTOR1_RSONLINE_WAIT_TIME (60000U) // 5min/300s at 5ms base #define USER_MOTOR1_RSONLINE_WORK_TIME (24000U) //2min/120s at 5ms base // Current and Speed PI Regulators Tuning Coefficient #define USER_MOTOR1_GAIN_SPEED_LOW_Hz (60.0f) #define USER_MOTOR1_GAIN_SPEED_HIGH_Hz (150.0f) #define USER_MOTOR1_KP_SPD_START_SF (1.5f) // 0.1~100.0 #define USER_MOTOR1_KI_SPD_START_SF (1.5f) // 0.1~10.0 #define USER_MOTOR1_KP_SPD_LOW_SF (2.0f) // 0.1~100.0 #define USER_MOTOR1_KI_SPD_LOW_SF (2.0f) // 0.1~10.0 #define USER_MOTOR1_KP_SPD_HIGH_SF (1.0f) // 0.1~100.0 #define USER_MOTOR1_KI_SPD_HIGH_SF (1.0f) // 0.1~10.0 #define USER_MOTOR1_GAIN_IQ_LOW_A (2.0f) #define USER_MOTOR1_GAIN_IQ_HIGH_A (6.0f) #define USER_MOTOR1_KP_IQ_START_SF (1.5f) // 0.1~10.0 #define USER_MOTOR1_KI_IQ_START_SF (1.5f) // 0.1~10.0 #define USER_MOTOR1_KP_IQ_LOW_SF (2.0f) // 0.1~10.0 #define USER_MOTOR1_KI_IQ_LOW_SF (2.0f) // 0.1~10.0 #define USER_MOTOR1_KP_IQ_HIGH_SF (1.0f) // 0.1~10.0 #define USER_MOTOR1_KI_IQ_HIGH_SF (1.0f) // 0.1~10.0 #define USER_MOTOR1_KP_ID_SF (1.0f) // 0.1~10.0 #define USER_MOTOR1_KI_ID_SF (1.0f) // 0.1~10.0 #elif (USER_MOTOR1 == Nedic_EPSMS037_D12V) #define USER_MOTOR1_TYPE MOTOR_TYPE_PM #define USER_MOTOR1_NUM_POLE_PAIRS (4) #define USER_MOTOR1_Rr_Ohm (0.0) #define USER_MOTOR1_Rs_Ohm (0.0412785485) #define USER_MOTOR1_Ls_d_H (0.000121561985) #define USER_MOTOR1_Ls_q_H (0.000121561985) #define USER_MOTOR1_RATED_FLUX_VpHz (0.0572981499) #define USER_MOTOR1_MAGNETIZING_CURRENT_A (NULL) #define USER_MOTOR1_RES_EST_CURRENT_A (5.0) #define USER_MOTOR1_IND_EST_CURRENT_A (-4.0) #define USER_MOTOR1_MAX_CURRENT_A (12.5) #define USER_MOTOR1_FLUX_EXC_FREQ_Hz (40.0) #define USER_MOTOR1_NUM_ENC_SLOTS (1000.0) #define USER_MOTOR1_INERTIA_Kgm2 (0.015) #define USER_MOTOR1_RATED_VOLTAGE_V (12.0) #define USER_MOTOR1_FREQ_MIN_Hz (5.0) // Hz #define USER_MOTOR1_FREQ_MAX_Hz (1500.0) // Hz #define USER_MOTOR1_FREQ_LOW_Hz (10.0) // Hz #define USER_MOTOR1_FREQ_HIGH_Hz (1000.0) // Hz #define USER_MOTOR1_VOLT_MIN_V (2.0) // Volt #define USER_MOTOR1_VOLT_MAX_V (12.0) // Volt #define USER_MOTOR1_STARTUP_CURRENT_A (2.0) // #define USER_MOTOR1_TORQUE_CURRENT_A (1.5) // A #define USER_MOTOR1_OVER_CURRENT_A (12.5) // #define USER_MOTOR1_SPEED_START_Hz (10.0) // #define USER_MOTOR1_SPEED_FORCE_Hz (20.0) #define USER_MOTOR1_ACCEL_START_Hzps (10.0) // #define USER_MOTOR1_ACCEL_MAX_Hzps (100.0) // #define USER_MOTOR1_SPEED_FS_Hz (3.0f) // Current and Speed PI Regulators Tuning Coefficient #define USER_MOTOR1_GAIN_SPEED_LOW_Hz (60.0f) #define USER_MOTOR1_GAIN_SPEED_HIGH_Hz (150.0f) #define USER_MOTOR1_KP_SPD_START_SF (1.5f) // 0.1~100.0 #define USER_MOTOR1_KI_SPD_START_SF (1.5f) // 0.1~10.0 #define USER_MOTOR1_KP_SPD_LOW_SF (2.0f) // 0.1~100.0 #define USER_MOTOR1_KI_SPD_LOW_SF (2.0f) // 0.1~10.0 #define USER_MOTOR1_KP_SPD_HIGH_SF (1.0f) // 0.1~100.0 #define USER_MOTOR1_KI_SPD_HIGH_SF (1.0f) // 0.1~10.0 #define USER_MOTOR1_GAIN_IQ_LOW_A (2.0f) #define USER_MOTOR1_GAIN_IQ_HIGH_A (6.0f) #define USER_MOTOR1_KP_IQ_START_SF (1.5f) // 0.1~10.0 #define USER_MOTOR1_KI_IQ_START_SF (1.5f) // 0.1~10.0 #define USER_MOTOR1_KP_IQ_LOW_SF (2.0f) // 0.1~10.0 #define USER_MOTOR1_KI_IQ_LOW_SF (2.0f) // 0.1~10.0 #define USER_MOTOR1_KP_IQ_HIGH_SF (1.0f) // 0.1~10.0 #define USER_MOTOR1_KI_IQ_HIGH_SF (1.0f) // 0.1~10.0 #define USER_MOTOR1_KP_ID_SF (1.0f) // 0.1~10.0 #define USER_MOTOR1_KI_ID_SF (1.0f) // 0.1~10.0 #elif (USER_MOTOR1 == ziehlab_Fan160hv) // Refer to the description of the following parameters for Teknic_M2310PLN04K #define USER_MOTOR1_TYPE MOTOR_TYPE_PM #define USER_MOTOR1_NUM_POLE_PAIRS (4) #define USER_MOTOR1_Rr_Ohm (0.0) #define USER_MOTOR1_Rs_Ohm (24.0002041) #define USER_MOTOR1_Ls_d_H (0.125637174) #define USER_MOTOR1_Ls_q_H (0.125637174) #define USER_MOTOR1_RATED_FLUX_VpHz (1.42636561) #define USER_MOTOR1_MAGNETIZING_CURRENT_A (NULL) #define USER_MOTOR1_RES_EST_CURRENT_A (1.25) #define USER_MOTOR1_IND_EST_CURRENT_A (-0.5) #define USER_MOTOR1_MAX_CURRENT_A (3.75) #define USER_MOTOR1_FLUX_EXC_FREQ_Hz (15.0) #define USER_MOTOR1_NUM_ENC_SLOTS (2500.0) #define USER_MOTOR1_INERTIA_Kgm2 (27.5e-5) #define USER_MOTOR1_FREQ_NEARZEROLIMIT_Hz (5.0f) // Hz #define USER_MOTOR1_RATED_VOLTAGE_V (200.0) #define USER_MOTOR1_FREQ_MIN_Hz (5.0) // Hz #define USER_MOTOR1_FREQ_MAX_Hz (400.0) // Hz #define USER_MOTOR1_FREQ_LOW_Hz (10.0) // Hz #define USER_MOTOR1_FREQ_HIGH_Hz (200.0) // Hz #define USER_MOTOR1_VOLT_MIN_V (20.0) // Volt #define USER_MOTOR1_VOLT_MAX_V (200.0) // Volt #define USER_MOTOR1_FORCE_DELTA_A (0.05) // A #define USER_MOTOR1_ALIGN_DELTA_A (0.01) // A #define USER_MOTOR1_FLUX_CURRENT_A (0.0) // A #define USER_MOTOR1_ALIGN_CURRENT_A (0.0) // A #define USER_MOTOR1_STARTUP_CURRENT_A (2.0) // A #define USER_MOTOR1_TORQUE_CURRENT_A (1.5) // A #define USER_MOTOR1_OVER_CURRENT_A (3.0) // A #define USER_MOTOR1_SPEED_START_Hz (20.0) // #define USER_MOTOR1_SPEED_FORCE_Hz (30.0) // #define USER_MOTOR1_ACCEL_START_Hzps (10.0) // #define USER_MOTOR1_ACCEL_MAX_Hzps (10.0) // #define USER_MOTOR1_SPEED_FS_Hz (3.0f) // only for encoder #define USER_MOTOR1_ENC_POS_MAX (USER_MOTOR1_NUM_ENC_SLOTS * 4 - 1) #define USER_MOTOR1_ENC_POS_OFFSET (668) // Only for eSMO #define USER_MOTOR1_KSLIDE_MAX (0.55f) #define USER_MOTOR1_KSLIDE_MIN (0.10f) #define USER_MOTOR1_PLL_KP_MAX (7.25f) #define USER_MOTOR1_PLL_KP_MIN (1.75f) #define USER_MOTOR1_PLL_KP_SF (20.0f) #define USER_MOTOR1_PLL_KI (2.8125E-06f) // Not used, reserve #define USER_MOTOR1_BEMF_THRESHOLD (0.5f) #define USER_MOTOR1_BEMF_KSLF_FC_Hz (1.0f) #define USER_MOTOR1_THETA_OFFSET_SF (1.0f) #define USER_MOTOR1_SPEED_LPF_FC_Hz (200.0f) // for IS-BLDC #define USER_MOTOR1_RAMP_START_Hz (5.0f) #define USER_MOTOR1_RAMP_END_Hz (30.0f) #define USER_MOTOR1_RAMP_DELAY (1) #define USER_MOTOR1_ISBLDC_INT_MAX (0.015f) #define USER_MOTOR1_ISBLDC_INT_MIN (0.010f) // for Rs online calibration #define USER_MOTOR1_RSONLINE_WAIT_TIME (60000U) // 5min/300s at 5ms base #define USER_MOTOR1_RSONLINE_WORK_TIME (24000U) //2min/120s at 5ms base // Current and Speed PI Regulators Tuning Coefficient #define USER_MOTOR1_GAIN_SPEED_LOW_Hz (60.0f) #define USER_MOTOR1_GAIN_SPEED_HIGH_Hz (150.0f) #define USER_MOTOR1_KP_SPD_START_SF (1.5f) // 0.1~100.0 #define USER_MOTOR1_KI_SPD_START_SF (1.5f) // 0.1~10.0 #define USER_MOTOR1_KP_SPD_LOW_SF (2.0f) // 0.1~100.0 #define USER_MOTOR1_KI_SPD_LOW_SF (2.0f) // 0.1~10.0 #define USER_MOTOR1_KP_SPD_HIGH_SF (1.0f) // 0.1~100.0 #define USER_MOTOR1_KI_SPD_HIGH_SF (1.0f) // 0.1~10.0 #define USER_MOTOR1_GAIN_IQ_LOW_A (2.0f) #define USER_MOTOR1_GAIN_IQ_HIGH_A (6.0f) #define USER_MOTOR1_KP_IQ_START_SF (1.5f) // 0.1~10.0 #define USER_MOTOR1_KI_IQ_START_SF (1.5f) // 0.1~10.0 #define USER_MOTOR1_KP_IQ_LOW_SF (2.0f) // 0.1~10.0 #define USER_MOTOR1_KI_IQ_LOW_SF (2.0f) // 0.1~10.0 #define USER_MOTOR1_KP_IQ_HIGH_SF (1.0f) // 0.1~10.0 #define USER_MOTOR1_KI_IQ_HIGH_SF (1.0f) // 0.1~10.0 #define USER_MOTOR1_KP_ID_SF (1.0f) // 0.1~10.0 #define USER_MOTOR1_KI_ID_SF (1.0f) // 0.1~10.0 #elif (USER_MOTOR1 == embpast_Fan160hv) // Refer to the description of the following parameters for Teknic_M2310PLN04K #define USER_MOTOR1_TYPE MOTOR_TYPE_PM #define USER_MOTOR1_NUM_POLE_PAIRS (4) #define USER_MOTOR1_Rr_Ohm (0.0) #define USER_MOTOR1_Rs_Ohm (8.76899433) #define USER_MOTOR1_Ls_d_H (0.0284830406) #define USER_MOTOR1_Ls_q_H (0.0284830406) #define USER_MOTOR1_RATED_FLUX_VpHz (0.280854076) #define USER_MOTOR1_MAGNETIZING_CURRENT_A (NULL) #define USER_MOTOR1_RES_EST_CURRENT_A (1.25) #define USER_MOTOR1_IND_EST_CURRENT_A (-0.30) #define USER_MOTOR1_MAX_CURRENT_A (3.5) #define USER_MOTOR1_FLUX_EXC_FREQ_Hz (20.0) #define USER_MOTOR1_NUM_ENC_SLOTS (2500.0) #define USER_MOTOR1_INERTIA_Kgm2 (27.5e-5) #define USER_MOTOR1_FREQ_NEARZEROLIMIT_Hz (5.0f) // Hz #define USER_MOTOR1_RATED_VOLTAGE_V (200.0) #define USER_MOTOR1_FREQ_MIN_Hz (5.0) // Hz #define USER_MOTOR1_FREQ_MAX_Hz (400.0) // Hz #define USER_MOTOR1_FREQ_LOW_Hz (10.0) // Hz #define USER_MOTOR1_FREQ_HIGH_Hz (200.0) // Hz #define USER_MOTOR1_VOLT_MIN_V (20.0) // Volt #define USER_MOTOR1_VOLT_MAX_V (200.0) // Volt #define USER_MOTOR1_FORCE_DELTA_A (0.05) // A #define USER_MOTOR1_ALIGN_DELTA_A (0.01) // A #define USER_MOTOR1_FLUX_CURRENT_A (0.0) // A #define USER_MOTOR1_ALIGN_CURRENT_A (0.0) // A #define USER_MOTOR1_STARTUP_CURRENT_A (2.0) // A #define USER_MOTOR1_TORQUE_CURRENT_A (1.0) // A #define USER_MOTOR1_OVER_CURRENT_A (6.25) // A #define USER_MOTOR1_SPEED_START_Hz (20.0) // #define USER_MOTOR1_SPEED_FORCE_Hz (30.0) // #define USER_MOTOR1_ACCEL_START_Hzps (10.0) // #define USER_MOTOR1_ACCEL_MAX_Hzps (20.0) // #define USER_MOTOR1_SPEED_FS_Hz (3.0f) // only for encoder #define USER_MOTOR1_ENC_POS_MAX (USER_MOTOR1_NUM_ENC_SLOTS * 4 - 1) #define USER_MOTOR1_ENC_POS_OFFSET (668) // Only for eSMO #define USER_MOTOR1_KSLIDE_MAX (0.55f) #define USER_MOTOR1_KSLIDE_MIN (0.10f) #define USER_MOTOR1_PLL_KP_MAX (7.25f) #define USER_MOTOR1_PLL_KP_MIN (1.75f) #define USER_MOTOR1_PLL_KP_SF (20.0f) #define USER_MOTOR1_PLL_KI (2.8125E-06f) // Not used, reserve #define USER_MOTOR1_BEMF_THRESHOLD (0.5f) #define USER_MOTOR1_BEMF_KSLF_FC_Hz (1.0f) #define USER_MOTOR1_THETA_OFFSET_SF (1.0f) #define USER_MOTOR1_SPEED_LPF_FC_Hz (200.0f) // for IS-BLDC #define USER_MOTOR1_RAMP_START_Hz (5.0f) #define USER_MOTOR1_RAMP_END_Hz (30.0f) #define USER_MOTOR1_RAMP_DELAY (1) #define USER_MOTOR1_ISBLDC_INT_MAX (0.015f) #define USER_MOTOR1_ISBLDC_INT_MIN (0.010f) // for Rs online calibration #define USER_MOTOR1_RSONLINE_WAIT_TIME (60000U) // 5min/300s at 5ms base #define USER_MOTOR1_RSONLINE_WORK_TIME (24000U) //2min/120s at 5ms base // Current and Speed PI Regulators Tuning Coefficient #define USER_MOTOR1_GAIN_SPEED_LOW_Hz (60.0f) #define USER_MOTOR1_GAIN_SPEED_HIGH_Hz (150.0f) #define USER_MOTOR1_KP_SPD_START_SF (1.5f) // 0.1~100.0 #define USER_MOTOR1_KI_SPD_START_SF (1.5f) // 0.1~10.0 #define USER_MOTOR1_KP_SPD_LOW_SF (2.0f) // 0.1~100.0 #define USER_MOTOR1_KI_SPD_LOW_SF (2.0f) // 0.1~10.0 #define USER_MOTOR1_KP_SPD_HIGH_SF (1.0f) // 0.1~100.0 #define USER_MOTOR1_KI_SPD_HIGH_SF (1.0f) // 0.1~10.0 #define USER_MOTOR1_GAIN_IQ_LOW_A (2.0f) #define USER_MOTOR1_GAIN_IQ_HIGH_A (6.0f) #define USER_MOTOR1_KP_IQ_START_SF (1.5f) // 0.1~10.0 #define USER_MOTOR1_KI_IQ_START_SF (1.5f) // 0.1~10.0 #define USER_MOTOR1_KP_IQ_LOW_SF (2.0f) // 0.1~10.0 #define USER_MOTOR1_KI_IQ_LOW_SF (2.0f) // 0.1~10.0 #define USER_MOTOR1_KP_IQ_HIGH_SF (1.0f) // 0.1~10.0 #define USER_MOTOR1_KI_IQ_HIGH_SF (1.0f) // 0.1~10.0 #define USER_MOTOR1_KP_ID_SF (1.0f) // 0.1~10.0 #define USER_MOTOR1_KI_ID_SF (1.0f) // 0.1~10.0 #elif (USER_MOTOR1 == Anaheim_BLWS235D) // Refer to the description of the following parameters for Teknic_M2310PLN04K #define USER_MOTOR1_TYPE MOTOR_TYPE_PM #define USER_MOTOR1_NUM_POLE_PAIRS (2) #define USER_MOTOR1_Rr_Ohm (NULL) #define USER_MOTOR1_Rs_Ohm (5.44400978) #define USER_MOTOR1_Ls_d_H (0.0224932302) #define USER_MOTOR1_Ls_q_H (0.0224932302) #define USER_MOTOR1_RATED_FLUX_VpHz (0.560590863) #define USER_MOTOR1_MAGNETIZING_CURRENT_A (NULL) #define USER_MOTOR1_RES_EST_CURRENT_A (1.0) #define USER_MOTOR1_IND_EST_CURRENT_A (-1.0) #define USER_MOTOR1_MAX_CURRENT_A (2.5) #define USER_MOTOR1_FLUX_EXC_FREQ_Hz (40.0) #define USER_MOTOR1_INERTIA_Kgm2 (0.0000230206204) // 0.003261 oz-in-sec2 #define USER_MOTOR1_RATED_VOLTAGE_V (160.0) #define USER_MOTOR1_FREQ_MIN_Hz (5.0) // Hz #define USER_MOTOR1_FREQ_MAX_Hz (200.0) // Hz #define USER_MOTOR1_FREQ_LOW_Hz (10.0) // Hz #define USER_MOTOR1_FREQ_HIGH_Hz (200.0) // Hz #define USER_MOTOR1_VOLT_MIN_V (20.0) // Volt #define USER_MOTOR1_VOLT_MAX_V (160.0) // Volt #define USER_MOTOR1_FORCE_DELTA_A (0.05) // A #define USER_MOTOR1_ALIGN_DELTA_A (0.01) // A #define USER_MOTOR1_FLUX_CURRENT_A (0.5) // A #define USER_MOTOR1_ALIGN_CURRENT_A (1.0) // A #define USER_MOTOR1_STARTUP_CURRENT_A (1.5) // #define USER_MOTOR1_TORQUE_CURRENT_A (1.0) // A #define USER_MOTOR1_OVER_CURRENT_A (2.0) // #define USER_MOTOR1_SPEED_START_Hz (30.0) #define USER_MOTOR1_SPEED_FORCE_Hz (20.0) #define USER_MOTOR1_ACCEL_START_Hzps (10.0) // #define USER_MOTOR1_ACCEL_MAX_Hzps (100.0) // #define USER_MOTOR1_SPEED_FS_Hz (3.0f) #if defined(MOTOR1_FAST) // Only for FAST #define USER_MOTOR1_Ls_d_COMP_COEF (0.15f) // 0.0f~0.5f #define USER_MOTOR1_Ls_q_COMP_COEF (0.35f) // 0.0f~0.5f #define USER_MOTOR1_Ls_MIN_NUM_COEF (0.55f) // 0.5f~1.0f #define USER_MOTOR1_FREQ_NEARZEROLIMIT_Hz (5.0f) // Hz // for Rs online calibration #define USER_MOTOR1_RSONLINE_WAIT_TIME (60000U) // 5min/300s at 5ms base #define USER_MOTOR1_RSONLINE_WORK_TIME (24000U) //2min/120s at 5ms base #endif // MOTOR1_FAST #if defined(MOTOR1_ESMO) // Only for eSMO #define USER_MOTOR1_KSLIDE_MAX (1.50f) // 2.0f #define USER_MOTOR1_KSLIDE_MIN (0.75f) #define USER_MOTOR1_PLL_KP_MAX (10.0f) #define USER_MOTOR1_PLL_KP_MIN (2.0f) #define USER_MOTOR1_PLL_KP_SF (5.0f) #define USER_MOTOR1_PLL_KI (2.8125E-06f) // Not used, reserve #define USER_MOTOR1_BEMF_THRESHOLD (0.5f) #define USER_MOTOR1_BEMF_KSLF_FC_Hz (2.0f) // 1.0f #define USER_MOTOR1_THETA_OFFSET_SF (1.0f) // 2.5f #define USER_MOTOR1_SPEED_LPF_FC_Hz (200.0f) // 100.0f #endif // MOTOR1_ESMO #if defined(MOTOR1_ENC) // Only for encoder #define USER_MOTOR1_NUM_ENC_SLOTS (NULL) #define USER_MOTOR1_ENC_POS_MAX (USER_MOTOR1_NUM_ENC_SLOTS * 4 - 1) #define USER_MOTOR1_ENC_POS_OFFSET (668) // lines #endif // MOTOR1_ENC #if defined(MOTOR1_HALL) // Only for hall sensor #define USER_MOTOR1_HALL_DELTA_rad (MATH_TWO_PI / 36.0f) // rad #endif // MOTOR1_HALL #if defined(MOTOR1_ISBLDC) // for IS-BLDC #define USER_MOTOR1_RAMP_START_Hz (5.0f) #define USER_MOTOR1_RAMP_END_Hz (30.0f) #define USER_MOTOR1_RAMP_DELAY (1) #define USER_MOTOR1_ISBLDC_INT_MAX (0.015f) #define USER_MOTOR1_ISBLDC_INT_MIN (0.010f) #endif // MOTOR1_ISBLDC // Current and Speed PI Regulators Tuning Coefficient #define USER_MOTOR1_GAIN_SPEED_LOW_Hz (60.0f) #define USER_MOTOR1_GAIN_SPEED_HIGH_Hz (150.0f) #define USER_MOTOR1_KP_SPD_START_SF (1.5f) // 0.1~100.0 #define USER_MOTOR1_KI_SPD_START_SF (1.5f) // 0.1~10.0 #define USER_MOTOR1_KP_SPD_LOW_SF (2.0f) // 0.1~100.0 #define USER_MOTOR1_KI_SPD_LOW_SF (2.0f) // 0.1~10.0 #define USER_MOTOR1_KP_SPD_HIGH_SF (1.0f) // 0.1~100.0 #define USER_MOTOR1_KI_SPD_HIGH_SF (1.0f) // 0.1~10.0 #define USER_MOTOR1_GAIN_IQ_LOW_A (2.0f) #define USER_MOTOR1_GAIN_IQ_HIGH_A (6.0f) #define USER_MOTOR1_KP_IQ_START_SF (1.5f) // 0.1~10.0 #define USER_MOTOR1_KI_IQ_START_SF (1.5f) // 0.1~10.0 #define USER_MOTOR1_KP_IQ_LOW_SF (2.0f) // 0.1~10.0 #define USER_MOTOR1_KI_IQ_LOW_SF (2.0f) // 0.1~10.0 #define USER_MOTOR1_KP_IQ_HIGH_SF (1.0f) // 0.1~10.0 #define USER_MOTOR1_KI_IQ_HIGH_SF (1.0f) // 0.1~10.0 #define USER_MOTOR1_KP_ID_SF (1.0f) // 0.1~10.0 #define USER_MOTOR1_KI_ID_SF (1.0f) // 0.1~10.0 #elif (USER_MOTOR1 == Anaheim_BLZ362S) // Refer to the description of the following parameters for Teknic_M2310PLN04K #define USER_MOTOR1_TYPE MOTOR_TYPE_PM #define USER_MOTOR1_NUM_POLE_PAIRS (4) #define USER_MOTOR1_Rr_Ohm (NULL) #define USER_MOTOR1_Rs_Ohm (0.562865257f) #define USER_MOTOR1_Ls_d_H (0.00117779721f) #define USER_MOTOR1_Ls_q_H (0.00117779721f) #define USER_MOTOR1_RATED_FLUX_VpHz (0.276417136f) #define USER_MOTOR1_MAGNETIZING_CURRENT_A (NULL) #define USER_MOTOR1_RES_EST_CURRENT_A (2.5) #define USER_MOTOR1_IND_EST_CURRENT_A (-1.5) #define USER_MOTOR1_MAX_CURRENT_A (7.5) #define USER_MOTOR1_FLUX_EXC_FREQ_Hz (40.0) #define USER_MOTOR1_NUM_ENC_SLOTS (NULL) #define USER_MOTOR1_INERTIA_Kgm2 (0.0000230206204) // 0.003261 oz-in-sec2 #define USER_MOTOR1_FREQ_NEARZEROLIMIT_Hz (5.0f) // Hz #define USER_MOTOR1_RATED_VOLTAGE_V (160.0) #define USER_MOTOR1_FREQ_MIN_Hz (5.0) // Hz #define USER_MOTOR1_FREQ_MAX_Hz (200.0) // Hz #define USER_MOTOR1_FREQ_LOW_Hz (10.0) // Hz #define USER_MOTOR1_FREQ_HIGH_Hz (200.0) // Hz #define USER_MOTOR1_VOLT_MIN_V (20.0) // Volt #define USER_MOTOR1_VOLT_MAX_V (160.0) // Volt #define USER_MOTOR1_FORCE_DELTA_A (0.05) // A #define USER_MOTOR1_ALIGN_DELTA_A (0.01) // A #define USER_MOTOR1_FLUX_CURRENT_A (0.5) // A #define USER_MOTOR1_ALIGN_CURRENT_A (2.0) // A #define USER_MOTOR1_STARTUP_CURRENT_A (4.5) // #define USER_MOTOR1_TORQUE_CURRENT_A (0.5) // A #define USER_MOTOR1_OVER_CURRENT_A (6.5) // #define USER_MOTOR1_SPEED_START_Hz (30.0) #define USER_MOTOR1_SPEED_FORCE_Hz (20.0) #define USER_MOTOR1_ACCEL_START_Hzps (10.0) // #define USER_MOTOR1_ACCEL_MAX_Hzps (100.0) // #define USER_MOTOR1_SPEED_FS_Hz (3.0f) // only for encoder #define USER_MOTOR1_ENC_POS_MAX (USER_MOTOR1_NUM_ENC_SLOTS * 4 - 1) #define USER_MOTOR1_ENC_POS_OFFSET (668) // Only for eSMO #define USER_MOTOR1_KSLIDE_MAX (1.50f) // 2.0f #define USER_MOTOR1_KSLIDE_MIN (0.75f) #define USER_MOTOR1_PLL_KP_MAX (10.0f) #define USER_MOTOR1_PLL_KP_MIN (2.0f) #define USER_MOTOR1_PLL_KP_SF (5.0f) #define USER_MOTOR1_PLL_KI (2.8125E-06f) // Not used, reserve #define USER_MOTOR1_BEMF_THRESHOLD (0.5f) #define USER_MOTOR1_BEMF_KSLF_FC_Hz (2.0f) // 1.0f #define USER_MOTOR1_THETA_OFFSET_SF (1.0f) // 2.5f #define USER_MOTOR1_SPEED_LPF_FC_Hz (200.0f) // 100.0f // for IS-BLDC #define USER_MOTOR1_RAMP_START_Hz (5.0f) #define USER_MOTOR1_RAMP_END_Hz (30.0f) #define USER_MOTOR1_RAMP_DELAY (1) #define USER_MOTOR1_ISBLDC_INT_MAX (0.015f) #define USER_MOTOR1_ISBLDC_INT_MIN (0.010f) // for Rs online calibration #define USER_MOTOR1_RSONLINE_WAIT_TIME (60000U) // 5min/300s at 5ms base #define USER_MOTOR1_RSONLINE_WORK_TIME (24000U) //2min/120s at 5ms base // Current and Speed PI Regulators Tuning Coefficient #define USER_MOTOR1_GAIN_SPEED_LOW_Hz (60.0f) #define USER_MOTOR1_GAIN_SPEED_HIGH_Hz (150.0f) #define USER_MOTOR1_KP_SPD_START_SF (1.5f) // 0.1~100.0 #define USER_MOTOR1_KI_SPD_START_SF (1.5f) // 0.1~10.0 #define USER_MOTOR1_KP_SPD_LOW_SF (2.0f) // 0.1~100.0 #define USER_MOTOR1_KI_SPD_LOW_SF (2.0f) // 0.1~10.0 #define USER_MOTOR1_KP_SPD_HIGH_SF (1.0f) // 0.1~100.0 #define USER_MOTOR1_KI_SPD_HIGH_SF (1.0f) // 0.1~10.0 #define USER_MOTOR1_GAIN_IQ_LOW_A (2.0f) #define USER_MOTOR1_GAIN_IQ_HIGH_A (6.0f) #define USER_MOTOR1_KP_IQ_START_SF (1.5f) // 0.1~10.0 #define USER_MOTOR1_KI_IQ_START_SF (1.5f) // 0.1~10.0 #define USER_MOTOR1_KP_IQ_LOW_SF (2.0f) // 0.1~10.0 #define USER_MOTOR1_KI_IQ_LOW_SF (2.0f) // 0.1~10.0 #define USER_MOTOR1_KP_IQ_HIGH_SF (1.0f) // 0.1~10.0 #define USER_MOTOR1_KI_IQ_HIGH_SF (1.0f) // 0.1~10.0 #define USER_MOTOR1_KP_ID_SF (1.0f) // 0.1~10.0 #define USER_MOTOR1_KI_ID_SF (1.0f) // 0.1~10.0 #elif (USER_MOTOR1 == Regal_Beloit_5SME39DL0756) // Refer to the description of the following parameters for Teknic_M2310PLN04K #define USER_MOTOR1_TYPE MOTOR_TYPE_PM #define USER_MOTOR1_NUM_POLE_PAIRS (3) #define USER_MOTOR1_Rr_Ohm (0.0) #define USER_MOTOR1_Rs_Ohm (4.581007) #define USER_MOTOR1_Ls_d_H (0.03727356) #define USER_MOTOR1_Ls_q_H (0.03727356) #define USER_MOTOR1_RATED_FLUX_VpHz (0.6589699) #define USER_MOTOR1_MAGNETIZING_CURRENT_A (NULL) #define USER_MOTOR1_RES_EST_CURRENT_A (1.0) #define USER_MOTOR1_IND_EST_CURRENT_A (-1.0) #define USER_MOTOR1_MAX_CURRENT_A (2.6) #define USER_MOTOR1_FLUX_EXC_FREQ_Hz (20.0) #define USER_MOTOR1_NUM_ENC_SLOTS (NULL) // Current and Speed PI Regulators Tuning Coefficient #define USER_MOTOR1_GAIN_SPEED_LOW_Hz (60.0f) #define USER_MOTOR1_GAIN_SPEED_HIGH_Hz (150.0f) #define USER_MOTOR1_KP_SPD_START_SF (1.5f) // 0.1~100.0 #define USER_MOTOR1_KI_SPD_START_SF (1.5f) // 0.1~10.0 #define USER_MOTOR1_KP_SPD_LOW_SF (2.0f) // 0.1~100.0 #define USER_MOTOR1_KI_SPD_LOW_SF (2.0f) // 0.1~10.0 #define USER_MOTOR1_KP_SPD_HIGH_SF (1.0f) // 0.1~100.0 #define USER_MOTOR1_KI_SPD_HIGH_SF (1.0f) // 0.1~10.0 #define USER_MOTOR1_GAIN_IQ_LOW_A (2.0f) #define USER_MOTOR1_GAIN_IQ_HIGH_A (6.0f) #define USER_MOTOR1_KP_IQ_START_SF (1.5f) // 0.1~10.0 #define USER_MOTOR1_KI_IQ_START_SF (1.5f) // 0.1~10.0 #define USER_MOTOR1_KP_IQ_LOW_SF (2.0f) // 0.1~10.0 #define USER_MOTOR1_KI_IQ_LOW_SF (2.0f) // 0.1~10.0 #define USER_MOTOR1_KP_IQ_HIGH_SF (1.0f) // 0.1~10.0 #define USER_MOTOR1_KI_IQ_HIGH_SF (1.0f) // 0.1~10.0 #define USER_MOTOR1_KP_ID_SF (1.0f) // 0.1~10.0 #define USER_MOTOR1_KI_ID_SF (1.0f) // 0.1~10.0 #elif (USER_MOTOR1 == Drone9616_110KV_48V) // Refer to the description of the following parameters for Teknic_M2310PLN04K #define USER_MOTOR1_TYPE MOTOR_TYPE_PM #define USER_MOTOR1_NUM_POLE_PAIRS (7) #define USER_MOTOR1_Rr_Ohm (NULL) #define USER_MOTOR1_Rs_Ohm (0.0282184016) #define USER_MOTOR1_Ls_d_H (1.39398744e-05) #define USER_MOTOR1_Ls_q_H (1.39398744e-05) #define USER_MOTOR1_RATED_FLUX_VpHz (0.0159354247) #define USER_MOTOR1_MAGNETIZING_CURRENT_A (NULL) #define USER_MOTOR1_RES_EST_CURRENT_A (3.5) #define USER_MOTOR1_IND_EST_CURRENT_A (-3.0) #define USER_MOTOR1_MAX_CURRENT_A (50.0) #define USER_MOTOR1_FLUX_EXC_FREQ_Hz (60.0) #define USER_MOTOR1_NUM_ENC_SLOTS (NULL) #define USER_MOTOR1_INERTIA_Kgm2 (4.80185e-06) // Ls compensation coefficient #define USER_MOTOR1_Ls_d_COMP_COEF (0.15f) // 0.0f~0.5f #define USER_MOTOR1_Ls_q_COMP_COEF (0.35f) // 0.0f~0.5f #define USER_MOTOR1_Ls_MIN_NUM_COEF (0.55f) // 0.5f~1.0f #define USER_MOTOR1_FREQ_NEARZEROLIMIT_Hz (5.0f) // Hz #define USER_MOTOR1_RATED_VOLTAGE_V (48.0) #define USER_MOTOR1_FREQ_MIN_Hz (10.0) // Hz #define USER_MOTOR1_FREQ_MAX_Hz (1200.0) // Hz #define USER_MOTOR1_FREQ_LOW_Hz (10.0) // Hz #define USER_MOTOR1_FREQ_HIGH_Hz (400.0) // Hz #define USER_MOTOR1_VOLT_MIN_V (2.0) // Volt #define USER_MOTOR1_VOLT_MAX_V (48.0) // Volt #define USER_MOTOR1_FORCE_DELTA_A (0.05) // A #define USER_MOTOR1_ALIGN_DELTA_A (0.01) // A #define USER_MOTOR1_FLUX_CURRENT_A (0.5) // A #define USER_MOTOR1_ALIGN_CURRENT_A (1.5) // #define USER_MOTOR1_STARTUP_CURRENT_A (5.0) // #define USER_MOTOR1_TORQUE_CURRENT_A (2.0) // A #define USER_MOTOR1_OVER_CURRENT_A (75.0) // #define USER_MOTOR1_SPEED_START_Hz (75.0) #define USER_MOTOR1_SPEED_FORCE_Hz (60.0) #define USER_MOTOR1_ACCEL_START_Hzps (10.0) #define USER_MOTOR1_ACCEL_MAX_Hzps (50.0) #define USER_MOTOR1_SPEED_FS_Hz (3.0) // only for encoder #define USER_MOTOR1_ENC_POS_MAX (USER_MOTOR1_NUM_ENC_SLOTS * 4 - 1) #define USER_MOTOR1_ENC_POS_OFFSET (668) // Only for eSMO #define USER_MOTOR1_KSLIDE_MAX (1.00f) // 2.0f #define USER_MOTOR1_KSLIDE_MIN (0.05f) #define USER_MOTOR1_PLL_KP_MAX (15.0f) #define USER_MOTOR1_PLL_KP_MIN (2.0f) #define USER_MOTOR1_PLL_KP_SF (20.0f) #define USER_MOTOR1_PLL_KI (2.8125E-06f) // Not used, reserve #define USER_MOTOR1_BEMF_THRESHOLD (0.05f) #define USER_MOTOR1_BEMF_KSLF_FC_Hz (2.0f) // 1.0f #define USER_MOTOR1_THETA_OFFSET_SF (1.0f) // 2.5f #define USER_MOTOR1_SPEED_LPF_FC_Hz (200.0f) // 100.0f // for IS-BLDC #define USER_MOTOR1_RAMP_START_Hz (5.0f) #define USER_MOTOR1_RAMP_END_Hz (30.0f) #define USER_MOTOR1_RAMP_DELAY (1) #define USER_MOTOR1_ISBLDC_INT_MAX (0.015f) #define USER_MOTOR1_ISBLDC_INT_MIN (0.010f) // for Rs online calibration #define USER_MOTOR1_RSONLINE_WAIT_TIME (60000U) // 5min/300s at 5ms base #define USER_MOTOR1_RSONLINE_WORK_TIME (24000U) //2min/120s at 5ms base // Current and Speed PI Regulators Tuning Coefficient #define USER_MOTOR1_GAIN_SPEED_LOW_Hz (60.0f) #define USER_MOTOR1_GAIN_SPEED_HIGH_Hz (150.0f) #define USER_MOTOR1_KP_SPD_START_SF (1.5f) // 0.1~100.0 #define USER_MOTOR1_KI_SPD_START_SF (1.5f) // 0.1~10.0 #define USER_MOTOR1_KP_SPD_LOW_SF (2.0f) // 0.1~100.0 #define USER_MOTOR1_KI_SPD_LOW_SF (2.0f) // 0.1~10.0 #define USER_MOTOR1_KP_SPD_HIGH_SF (1.0f) // 0.1~100.0 #define USER_MOTOR1_KI_SPD_HIGH_SF (1.0f) // 0.1~10.0 #define USER_MOTOR1_GAIN_IQ_LOW_A (2.0f) #define USER_MOTOR1_GAIN_IQ_HIGH_A (6.0f) #define USER_MOTOR1_KP_IQ_START_SF (1.5f) // 0.1~10.0 #define USER_MOTOR1_KI_IQ_START_SF (1.5f) // 0.1~10.0 #define USER_MOTOR1_KP_IQ_LOW_SF (2.0f) // 0.1~10.0 #define USER_MOTOR1_KI_IQ_LOW_SF (2.0f) // 0.1~10.0 #define USER_MOTOR1_KP_IQ_HIGH_SF (1.0f) // 0.1~10.0 #define USER_MOTOR1_KI_IQ_HIGH_SF (1.0f) // 0.1~10.0 #define USER_MOTOR1_KP_ID_SF (1.0f) // 0.1~10.0 #define USER_MOTOR1_KI_ID_SF (1.0f) // 0.1~10.0 #elif (USER_MOTOR1 == Anaheim_BLY341S_48V) // Refer to the description of the following parameters for Teknic_M2310PLN04K #define USER_MOTOR1_TYPE MOTOR_TYPE_PM #define USER_MOTOR1_NUM_POLE_PAIRS (4) #define USER_MOTOR1_Rr_Ohm (NULL) #define USER_MOTOR1_Rs_Ohm (0.463800967) #define USER_MOTOR1_Ls_d_H (0.00114538975) #define USER_MOTOR1_Ls_q_H (0.00114538975) #define USER_MOTOR1_RATED_FLUX_VpHz (0.0978558362) #define USER_MOTOR1_MAGNETIZING_CURRENT_A (NULL) #define USER_MOTOR1_RES_EST_CURRENT_A (2.5) #define USER_MOTOR1_IND_EST_CURRENT_A (-2.0) #define USER_MOTOR1_MAX_CURRENT_A (20.0) #define USER_MOTOR1_FLUX_EXC_FREQ_Hz (20.0) #define USER_MOTOR1_NUM_ENC_SLOTS (NULL) #define USER_MOTOR1_FREQ_MIN_Hz (5.0) // Hz #define USER_MOTOR1_FREQ_MAX_Hz (300.0) // Hz #define USER_MOTOR1_FREQ_LOW_Hz (10.0) // Hz #define USER_MOTOR1_FREQ_HIGH_Hz (200.0) // Hz #define USER_MOTOR1_VOLT_MIN_V (4.0) // Volt #define USER_MOTOR1_VOLT_MAX_V (24.0) // Volt #elif (USER_MOTOR1 == Anaheim_BLY341S_Y24V) #define USER_MOTOR1_TYPE MOTOR_TYPE_PM #define USER_MOTOR1_NUM_POLE_PAIRS (4) #define USER_MOTOR1_Rr_Ohm (NULL) #define USER_MOTOR1_Rs_Ohm (0.133211181) #define USER_MOTOR1_Ls_d_H (0.000275031634) #define USER_MOTOR1_Ls_q_H (0.000275031634) #define USER_MOTOR1_RATED_FLUX_VpHz (0.0514687076) #define USER_MOTOR1_MAGNETIZING_CURRENT_A (NULL) #define USER_MOTOR1_RES_EST_CURRENT_A (4.5) #define USER_MOTOR1_IND_EST_CURRENT_A (-4.0) #define USER_MOTOR1_MAX_CURRENT_A (12.0) #define USER_MOTOR1_FLUX_EXC_FREQ_Hz (20.0) #define USER_MOTOR1_NUM_ENC_SLOTS (NULL) #define USER_MOTOR1_INERTIA_Kgm2 (3.99683e-05) // 0.00566 oz-in-sec2 #define USER_MOTOR1_RATED_VOLTAGE_V (24.0) #define USER_MOTOR1_FREQ_MIN_Hz (5.0) // Hz #define USER_MOTOR1_FREQ_MAX_Hz (300.0) // Hz #define USER_MOTOR1_FREQ_LOW_Hz (10.0) // Hz #define USER_MOTOR1_FREQ_HIGH_Hz (200.0) // Hz #define USER_MOTOR1_VOLT_MIN_V (4.0) // Volt #define USER_MOTOR1_VOLT_MAX_V (24.0) // Volt #define USER_MOTOR1_STARTUP_CURRENT_A (3.0) // #define USER_MOTOR1_TORQUE_CURRENT_A (1.5) // A #define USER_MOTOR1_OVER_CURRENT_A (6.0) // #define USER_MOTOR1_SPEED_START_Hz (10.0) #define USER_MOTOR1_ACCEL_START_Hzps (10.0) #define USER_MOTOR1_ACCEL_MAX_Hzps (20.0) // Current and Speed PI Regulators Tuning Coefficient #define USER_MOTOR1_GAIN_SPEED_LOW_Hz (60.0f) #define USER_MOTOR1_GAIN_SPEED_HIGH_Hz (150.0f) #define USER_MOTOR1_KP_SPD_START_SF (1.5f) // 0.1~100.0 #define USER_MOTOR1_KI_SPD_START_SF (1.5f) // 0.1~10.0 #define USER_MOTOR1_KP_SPD_LOW_SF (2.0f) // 0.1~100.0 #define USER_MOTOR1_KI_SPD_LOW_SF (2.0f) // 0.1~10.0 #define USER_MOTOR1_KP_SPD_HIGH_SF (1.0f) // 0.1~100.0 #define USER_MOTOR1_KI_SPD_HIGH_SF (1.0f) // 0.1~10.0 #define USER_MOTOR1_GAIN_IQ_LOW_A (2.0f) #define USER_MOTOR1_GAIN_IQ_HIGH_A (6.0f) #define USER_MOTOR1_KP_IQ_START_SF (1.5f) // 0.1~10.0 #define USER_MOTOR1_KI_IQ_START_SF (1.5f) // 0.1~10.0 #define USER_MOTOR1_KP_IQ_LOW_SF (2.0f) // 0.1~10.0 #define USER_MOTOR1_KI_IQ_LOW_SF (2.0f) // 0.1~10.0 #define USER_MOTOR1_KP_IQ_HIGH_SF (1.0f) // 0.1~10.0 #define USER_MOTOR1_KI_IQ_HIGH_SF (1.0f) // 0.1~10.0 #define USER_MOTOR1_KP_ID_SF (1.0f) // 0.1~10.0 #define USER_MOTOR1_KI_ID_SF (1.0f) // 0.1~10.0 #elif (USER_MOTOR1 == Anaheim_BLY341S_D24V) // Refer to the description of the following parameters for Teknic_M2310PLN04K #define USER_MOTOR1_TYPE MOTOR_TYPE_PM #define USER_MOTOR1_NUM_POLE_PAIRS (4) #define USER_MOTOR1_Rr_Ohm (NULL) #define USER_MOTOR1_Rs_Ohm (0.0544644073) #define USER_MOTOR1_Ls_d_H (9.58044038e-05) #define USER_MOTOR1_Ls_q_H (9.58044038e-05) #define USER_MOTOR1_RATED_FLUX_VpHz (0.0544644073) #define USER_MOTOR1_MAGNETIZING_CURRENT_A (NULL) #define USER_MOTOR1_RES_EST_CURRENT_A (4.0) #define USER_MOTOR1_IND_EST_CURRENT_A (-3.5) #define USER_MOTOR1_MAX_CURRENT_A (8.0) #define USER_MOTOR1_FLUX_EXC_FREQ_Hz (40.0) #define USER_MOTOR1_NUM_ENC_SLOTS (NULL) #define USER_MOTOR1_INERTIA_Kgm2 (3.99683e-05) // 0.00566 oz-in-sec2 #define USER_MOTOR1_RATED_VOLTAGE_V (24.0) #define USER_MOTOR1_FREQ_MIN_Hz (5.0) // Hz #define USER_MOTOR1_FREQ_MAX_Hz (300.0) // Hz #define USER_MOTOR1_FREQ_LOW_Hz (10.0) // Hz #define USER_MOTOR1_FREQ_HIGH_Hz (200.0) // Hz #define USER_MOTOR1_VOLT_MIN_V (4.0) // Volt #define USER_MOTOR1_VOLT_MAX_V (24.0) // Volt #define USER_MOTOR1_STARTUP_CURRENT_A (3.0) // #define USER_MOTOR1_TORQUE_CURRENT_A (1.5) // A #define USER_MOTOR1_OVER_CURRENT_A (8.5) // #define USER_MOTOR1_SPEED_START_Hz (10.0) #define USER_MOTOR1_ACCEL_START_Hzps (10.0) #define USER_MOTOR1_ACCEL_MAX_Hzps (20.0) // Current and Speed PI Regulators Tuning Coefficient #define USER_MOTOR1_GAIN_SPEED_LOW_Hz (60.0f) #define USER_MOTOR1_GAIN_SPEED_HIGH_Hz (150.0f) #define USER_MOTOR1_KP_SPD_START_SF (1.5f) // 0.1~100.0 #define USER_MOTOR1_KI_SPD_START_SF (1.5f) // 0.1~10.0 #define USER_MOTOR1_KP_SPD_LOW_SF (2.0f) // 0.1~100.0 #define USER_MOTOR1_KI_SPD_LOW_SF (2.0f) // 0.1~10.0 #define USER_MOTOR1_KP_SPD_HIGH_SF (1.0f) // 0.1~100.0 #define USER_MOTOR1_KI_SPD_HIGH_SF (1.0f) // 0.1~10.0 #define USER_MOTOR1_GAIN_IQ_LOW_A (2.0f) #define USER_MOTOR1_GAIN_IQ_HIGH_A (6.0f) #define USER_MOTOR1_KP_IQ_START_SF (1.5f) // 0.1~10.0 #define USER_MOTOR1_KI_IQ_START_SF (1.5f) // 0.1~10.0 #define USER_MOTOR1_KP_IQ_LOW_SF (2.0f) // 0.1~10.0 #define USER_MOTOR1_KI_IQ_LOW_SF (2.0f) // 0.1~10.0 #define USER_MOTOR1_KP_IQ_HIGH_SF (1.0f) // 0.1~10.0 #define USER_MOTOR1_KI_IQ_HIGH_SF (1.0f) // 0.1~10.0 #define USER_MOTOR1_KP_ID_SF (1.0f) // 0.1~10.0 #define USER_MOTOR1_KI_ID_SF (1.0f) // 0.1~10.0 #elif (USER_MOTOR1 == EMSYNERGY_LVACI) // Refer to the description of the following parameters for Teknic_M2310PLN04K #define USER_MOTOR1_TYPE MOTOR_TYPE_INDUCTION #define USER_MOTOR1_NUM_POLE_PAIRS (2) #define USER_MOTOR1_Rr_Ohm (1.05) #define USER_MOTOR1_Rs_Ohm (1.79) #define USER_MOTOR1_Ls_d_H (0.00681) #define USER_MOTOR1_Ls_q_H (0.00681) #define USER_MOTOR1_RATED_FLUX_VpHz (0.8165f*14.7f*1.4142f/50.0f) #define USER_MOTOR1_MAGNETIZING_CURRENT_A (0.91f*1.4142f) #define USER_MOTOR1_RES_EST_CURRENT_A (0.5f) #define USER_MOTOR1_IND_EST_CURRENT_A (NULL) #define USER_MOTOR1_MAX_CURRENT_A (2.50) #define USER_MOTOR1_FLUX_EXC_FREQ_Hz (10.0) #define USER_MOTOR1_NUM_ENC_SLOTS (NULL) #define USER_MOTOR1_INERTIA_Kgm2 (7.06154e-06) #define USER_MOTOR1_FREQ_NEARZEROLIMIT_Hz (5.0f) // Hz #define USER_MOTOR1_RATED_VOLTAGE_V (24.0) #define USER_MOTOR1_FREQ_MIN_Hz (5.0) // Hz #define USER_MOTOR1_FREQ_MAX_Hz (400.0) // Hz #define USER_MOTOR1_FREQ_LOW_Hz (10.0) // Hz #define USER_MOTOR1_FREQ_HIGH_Hz (200.0) // Hz #define USER_MOTOR1_VOLT_MIN_V (20.0) // Volt #define USER_MOTOR1_VOLT_MAX_V (200.0) // Volt #define USER_MOTOR1_FORCE_DELTA_A (0.05f) // A #define USER_MOTOR1_ALIGN_DELTA_A (0.01f) // A #define USER_MOTOR1_FLUX_CURRENT_A (0.5f) // A #define USER_MOTOR1_ALIGN_CURRENT_A (1.5f) // A #define USER_MOTOR1_STARTUP_CURRENT_A (1.5f) // A #define USER_MOTOR1_TORQUE_CURRENT_A (1.0f) // A #define USER_MOTOR1_OVER_CURRENT_A (5.0) // A #define USER_MOTOR1_SPEED_START_Hz (30.0) #define USER_MOTOR1_SPEED_FORCE_Hz (25.0) #define USER_MOTOR1_ACCEL_START_Hzps (10.0) #define USER_MOTOR1_ACCEL_MAX_Hzps (20.0) #define USER_MOTOR1_SPEED_FS_Hz (3.0) // only for encoder, N/A #define USER_MOTOR1_ENC_POS_MAX (USER_MOTOR1_NUM_ENC_SLOTS * 4 - 1) #define USER_MOTOR1_ENC_POS_OFFSET (668) // Only for eSMO, N/A #define USER_MOTOR1_KSLIDE_MAX (1.50f) #define USER_MOTOR1_KSLIDE_MIN (0.15f) #define USER_MOTOR1_PLL_KP_MAX (7.25f) #define USER_MOTOR1_PLL_KP_MIN (1.25f) #define USER_MOTOR1_PLL_KP_SF (5.0f) #define USER_MOTOR1_PLL_KI (2.8125E-06f) // Not used, reserve #define USER_MOTOR1_BEMF_THRESHOLD (0.5f) #define USER_MOTOR1_BEMF_KSLF_FC_Hz (2.0f) #define USER_MOTOR1_THETA_OFFSET_SF (1.0f) #define USER_MOTOR1_SPEED_LPF_FC_Hz (200.0f) // for IS-BLDC, N/A #define USER_MOTOR1_RAMP_START_Hz (5.0f) #define USER_MOTOR1_RAMP_END_Hz (30.0f) #define USER_MOTOR1_RAMP_DELAY (1) #define USER_MOTOR1_ISBLDC_INT_MAX (0.015f) #define USER_MOTOR1_ISBLDC_INT_MIN (0.010f) // for Rs online calibration #define USER_MOTOR1_RSONLINE_WAIT_TIME (60000U) // 5min/300s at 5ms base #define USER_MOTOR1_RSONLINE_WORK_TIME (24000U) //2min/120s at 5ms base #elif (USER_MOTOR1 == Marathon_5K33GN2A) // Refer to the description of the following parameters for Teknic_M2310PLN04K #define USER_MOTOR1_TYPE MOTOR_TYPE_INDUCTION #define USER_MOTOR1_NUM_POLE_PAIRS (2) #define USER_MOTOR1_Rr_Ohm (5.508003) #define USER_MOTOR1_Rs_Ohm (10.71121) #define USER_MOTOR1_Ls_d_H (0.05296588) #define USER_MOTOR1_Ls_q_H (0.05296588) #define USER_MOTOR1_RATED_FLUX_VpHz (0.8165*220.0/60.0) #define USER_MOTOR1_MAGNETIZING_CURRENT_A (1.378) #define USER_MOTOR1_RES_EST_CURRENT_A (1.0) #define USER_MOTOR1_IND_EST_CURRENT_A (NULL) #define USER_MOTOR1_MAX_CURRENT_A (3.0) #define USER_MOTOR1_FLUX_EXC_FREQ_Hz (5.0) #define USER_MOTOR1_NUM_ENC_SLOTS (NULL) #define USER_MOTOR1_FREQ_MIN_Hz (5.0) // Hz #define USER_MOTOR1_FREQ_MAX_Hz (400.0) // Hz #define USER_MOTOR1_FREQ_LOW_Hz (10.0) // Hz #define USER_MOTOR1_FREQ_HIGH_Hz (200.0) // Hz #define USER_MOTOR1_VOLT_MIN_V (20.0) // Volt #define USER_MOTOR1_VOLT_MAX_V (200.0) // Volt #elif (USER_MOTOR1 == Marathon_56H17T2011A) // Refer to the description of the following parameters for Teknic_M2310PLN04K #define USER_MOTOR1_TYPE MOTOR_TYPE_INDUCTION #define USER_MOTOR1_NUM_POLE_PAIRS (2) #define USER_MOTOR1_Rr_Ohm (5.159403) #define USER_MOTOR1_Rs_Ohm (7.924815) #define USER_MOTOR1_Ls_d_H (0.03904648) #define USER_MOTOR1_Ls_q_H (0.03904648) #define USER_MOTOR1_RATED_FLUX_VpHz (0.8*0.8165*230.0/60.0) #define USER_MOTOR1_MAGNETIZING_CURRENT_A (0.9941965) #define USER_MOTOR1_RES_EST_CURRENT_A (0.5) #define USER_MOTOR1_IND_EST_CURRENT_A (NULL) #define USER_MOTOR1_MAX_CURRENT_A (2.0) #define USER_MOTOR1_FLUX_EXC_FREQ_Hz (5.0) #define USER_MOTOR1_NUM_ENC_SLOTS (NULL) #define USER_MOTOR1_INERTIA_Kgm2 (6.300017e-5) #define USER_MOTOR1_FREQ_NEARZEROLIMIT_Hz (5.0f) // Hz #define USER_MOTOR1_RATED_VOLTAGE_V (200.0f) #define USER_MOTOR1_FREQ_MIN_Hz (5.0f) // Hz #define USER_MOTOR1_FREQ_MAX_Hz (400.0f) // Hz #define USER_MOTOR1_FREQ_MIN_Hz (5.0) // Hz #define USER_MOTOR1_FREQ_MAX_Hz (400.0) // Hz #define USER_MOTOR1_FREQ_LOW_Hz (10.0) // Hz #define USER_MOTOR1_FREQ_HIGH_Hz (200.0) // Hz #define USER_MOTOR1_VOLT_MIN_V (20.0) // Volt #define USER_MOTOR1_VOLT_MAX_V (200.0) // Volt #define USER_MOTOR1_FORCE_DELTA_A (0.05f) // A #define USER_MOTOR1_ALIGN_DELTA_A (0.01f) // A #define USER_MOTOR1_FLUX_CURRENT_A (0.5f) // A #define USER_MOTOR1_ALIGN_CURRENT_A (1.0f) // A #define USER_MOTOR1_STARTUP_CURRENT_A (2.5f) // A #define USER_MOTOR1_TORQUE_CURRENT_A (1.0f) // A #define USER_MOTOR1_OVER_CURRENT_A (4.5f) // A #define USER_MOTOR1_SPEED_START_Hz (30.0f) #define USER_MOTOR1_SPEED_FORCE_Hz (20.0f) #define USER_MOTOR1_ACCEL_START_Hzps (10.0f) // Hz/s #define USER_MOTOR1_ACCEL_MAX_Hzps (20.0f) // Hz/s #define USER_MOTOR1_SPEED_FS_Hz (3.0f) // only for encoder #define USER_MOTOR1_ENC_POS_MAX (USER_MOTOR1_NUM_ENC_SLOTS * 4 - 1) #define USER_MOTOR1_ENC_POS_OFFSET (668) #elif (USER_MOTOR1 == Dayton_3N352C) // Refer to the description of the following parameters for Teknic_M2310PLN04K #define USER_MOTOR1_TYPE MOTOR_TYPE_INDUCTION #define USER_MOTOR1_NUM_POLE_PAIRS (2) #define USER_MOTOR1_Rr_Ohm (2.428799) #define USER_MOTOR1_Rs_Ohm (2.863202) #define USER_MOTOR1_Ls_d_H (0.02391323) #define USER_MOTOR1_Ls_q_H (0.02391323) #define USER_MOTOR1_RATED_FLUX_VpHz (0.8165*230.0/60.0) #define USER_MOTOR1_MAGNETIZING_CURRENT_A (NULL) #define USER_MOTOR1_RES_EST_CURRENT_A (1.0) #define USER_MOTOR1_IND_EST_CURRENT_A (NULL) #define USER_MOTOR1_MAX_CURRENT_A (3.0) #define USER_MOTOR1_FLUX_EXC_FREQ_Hz (5.0) #define USER_MOTOR1_NUM_ENC_SLOTS (NULL) //------------------------------------------------------------------ #elif (USER_MOTOR1 == my_pm_motor_1) // Refer to the description of the following parameters for Teknic_M2310PLN04K #define USER_MOTOR1_TYPE MOTOR_TYPE_PM #define USER_MOTOR1_NUM_POLE_PAIRS (3) #define USER_MOTOR1_Rr_Ohm (NULL) #define USER_MOTOR1_Rs_Ohm (0.007) #define USER_MOTOR1_Ls_d_H (0.000021) #define USER_MOTOR1_Ls_q_H (0.000021) #define USER_MOTOR1_RATED_FLUX_VpHz (0.027) #define USER_MOTOR1_MAGNETIZING_CURRENT_A (NULL) #define USER_MOTOR1_RES_EST_CURRENT_A (10.0f) #define USER_MOTOR1_IND_EST_CURRENT_A (-10.0f) #define USER_MOTOR1_MAX_CURRENT_A (45.0f) #define USER_MOTOR1_FLUX_EXC_FREQ_Hz (40.0f) // Number of lines on the motor's quadrature encoder #define USER_MOTOR1_NUM_ENC_SLOTS (1000) #define USER_MOTOR1_INERTIA_Kgm2 (0.0014) // Ls compensation coefficient #define USER_MOTOR1_Ls_d_COMP_COEF (0.15f) // 0.0f~0.5f #define USER_MOTOR1_Ls_q_COMP_COEF (0.35f) // 0.0f~0.5f #define USER_MOTOR1_Ls_MIN_NUM_COEF (0.55f) // 0.5f~1.0f #define USER_MOTOR1_FREQ_NEARZEROLIMIT_Hz (5.0f) // Hz #define USER_MOTOR1_RATED_VOLTAGE_V (12.0f) #define USER_MOTOR1_FREQ_MIN_Hz (9.0f) // Hz #define USER_MOTOR1_FREQ_MAX_Hz (500.0f) // Hz #define USER_MOTOR1_FREQ_LOW_Hz (5.0f) // Hz #define USER_MOTOR1_FREQ_HIGH_Hz (120.0f) // Hz #define USER_MOTOR1_VOLT_MIN_V (1.0f) // Volt #define USER_MOTOR1_VOLT_MAX_V (6.0f) // Volt #define USER_MOTOR1_FORCE_DELTA_A (0.05f) // A #define USER_MOTOR1_ALIGN_DELTA_A (0.01f) // A #define USER_MOTOR1_FLUX_CURRENT_A (0.5f) // A #define USER_MOTOR1_ALIGN_CURRENT_A (1.5f) // A #define USER_MOTOR1_STARTUP_CURRENT_A (10.0f) // A #define USER_MOTOR1_TORQUE_CURRENT_A (2.0f) // A #define USER_MOTOR1_OVER_CURRENT_A (47.0f) // A #define USER_MOTOR1_BRAKE_CURRENT_A (1.0f) // A #define USER_MOTOR1_BRAKE_TIME_DELAY (12000U) // 60s/5ms #define USER_MOTOR1_SPEED_START_Hz (30.0f) #define USER_MOTOR1_SPEED_FORCE_Hz (25.0f) #define USER_MOTOR1_ACCEL_START_Hzps (10.0f) #define USER_MOTOR1_ACCEL_MAX_Hzps (20.0f) #define USER_MOTOR1_SPEED_FS_Hz (3.0f) // only for encoder #define USER_MOTOR1_ENC_POS_MAX (USER_MOTOR1_NUM_ENC_SLOTS * 4 - 1) #define USER_MOTOR1_ENC_POS_OFFSET (668) // Only for eSMO #define USER_MOTOR1_KSLIDE_MAX (0.75f) // #define USER_MOTOR1_KSLIDE_MIN (0.15f) #define USER_MOTOR1_PLL_KP_MAX (6.75f) // #define USER_MOTOR1_PLL_KP_MIN (0.75f) #define USER_MOTOR1_PLL_KP_SF (5.0f) #define USER_MOTOR1_PLL_KI (2.8125E-06f) // Not used, reserve #define USER_MOTOR1_BEMF_THRESHOLD (0.5f) #define USER_MOTOR1_BEMF_KSLF_FC_Hz (1.0f) #define USER_MOTOR1_THETA_OFFSET_SF (1.0f) #define USER_MOTOR1_SPEED_LPF_FC_Hz (200.0f) // for IS-BLDC #define USER_MOTOR1_RAMP_START_Hz (3.0f) #define USER_MOTOR1_RAMP_END_Hz (30.0f) #define USER_MOTOR1_RAMP_DELAY (5) #define USER_MOTOR1_ISBLDC_INT_MAX (0.015f) #define USER_MOTOR1_ISBLDC_INT_MIN (0.010f) // for Rs online calibration #define USER_MOTOR1_RSONLINE_WAIT_TIME (60000U) // 5min/300s at 5ms base #define USER_MOTOR1_RSONLINE_WORK_TIME (24000U) //2min/120s at 5ms base // Current and Speed PI Regulators Tuning Coefficient #define USER_MOTOR1_GAIN_SPEED_LOW_Hz (60.0f) #define USER_MOTOR1_GAIN_SPEED_HIGH_Hz (150.0f) #define USER_MOTOR1_KP_SPD_START_SF (1.5f) // 0.1~100.0 #define USER_MOTOR1_KI_SPD_START_SF (1.5f) // 0.1~10.0 #define USER_MOTOR1_KP_SPD_LOW_SF (2.0f) // 0.1~100.0 #define USER_MOTOR1_KI_SPD_LOW_SF (2.0f) // 0.1~10.0 #define USER_MOTOR1_KP_SPD_HIGH_SF (1.0f) // 0.1~100.0 #define USER_MOTOR1_KI_SPD_HIGH_SF (1.0f) // 0.1~10.0 #define USER_MOTOR1_GAIN_IQ_LOW_A (2.0f) #define USER_MOTOR1_GAIN_IQ_HIGH_A (6.0f) #define USER_MOTOR1_KP_IQ_START_SF (1.5f) // 0.1~10.0 #define USER_MOTOR1_KI_IQ_START_SF (1.5f) // 0.1~10.0 #define USER_MOTOR1_KP_IQ_LOW_SF (2.0f) // 0.1~10.0 #define USER_MOTOR1_KI_IQ_LOW_SF (2.0f) // 0.1~10.0 #define USER_MOTOR1_KP_IQ_HIGH_SF (1.0f) // 0.1~10.0 #define USER_MOTOR1_KI_IQ_HIGH_SF (1.0f) // 0.1~10.0 #define USER_MOTOR1_KP_ID_SF (1.0f) // 0.1~10.0 #define USER_MOTOR1_KI_ID_SF (1.0f) // 0.1~10.0 #elif (USER_MOTOR1 == my_aci_motor_2) // Refer to the description of the following parameters for Teknic_M2310PLN04K #define USER_MOTOR1_TYPE MOTOR_TYPE_INDUCTION #define USER_MOTOR1_NUM_POLE_PAIRS (2) #define USER_MOTOR1_Rr_Ohm (NULL) #define USER_MOTOR1_Rs_Ohm (NULL) #define USER_MOTOR1_Ls_d_H (NULL) #define USER_MOTOR1_Ls_q_H (NULL) #define USER_MOTOR1_RATED_FLUX_VpHz (0.8165f * 230.0f / 60.0f) #define USER_MOTOR1_MAGNETIZING_CURRENT_A (NULL) #define USER_MOTOR1_RES_EST_CURRENT_A (0.5f) #define USER_MOTOR1_IND_EST_CURRENT_A (NULL) #define USER_MOTOR1_MAX_CURRENT_A (5.0f) #define USER_MOTOR1_FLUX_EXC_FREQ_Hz (5.0f) // Number of lines on the motor's quadrature encoder #define USER_MOTOR1_NUM_ENC_SLOTS (1000) #define USER_MOTOR1_FREQ_MIN_Hz (5.0f) // Hz #define USER_MOTOR1_FREQ_MAX_Hz (300.0f) // Hz #define USER_MOTOR1_FREQ_LOW_Hz (10.0f) // Hz #define USER_MOTOR1_FREQ_HIGH_Hz (400.0f) // Hz #define USER_MOTOR1_VOLT_MIN_V (4.0f) // Volt #define USER_MOTOR1_VOLT_MAX_V (24.0f) // Volt // Current and Speed PI Regulators Tuning Coefficient #define USER_MOTOR1_GAIN_SPEED_LOW_Hz (60.0f) #define USER_MOTOR1_GAIN_SPEED_HIGH_Hz (150.0f) #define USER_MOTOR1_KP_SPD_START_SF (1.5f) // 0.1~100.0 #define USER_MOTOR1_KI_SPD_START_SF (1.5f) // 0.1~10.0 #define USER_MOTOR1_KP_SPD_LOW_SF (2.0f) // 0.1~100.0 #define USER_MOTOR1_KI_SPD_LOW_SF (2.0f) // 0.1~10.0 #define USER_MOTOR1_KP_SPD_HIGH_SF (1.0f) // 0.1~100.0 #define USER_MOTOR1_KI_SPD_HIGH_SF (1.0f) // 0.1~10.0 #define USER_MOTOR1_GAIN_IQ_LOW_A (2.0f) #define USER_MOTOR1_GAIN_IQ_HIGH_A (6.0f) #define USER_MOTOR1_KP_IQ_START_SF (1.5f) // 0.1~10.0 #define USER_MOTOR1_KI_IQ_START_SF (1.5f) // 0.1~10.0 #define USER_MOTOR1_KP_IQ_LOW_SF (2.0f) // 0.1~10.0 #define USER_MOTOR1_KI_IQ_LOW_SF (2.0f) // 0.1~10.0 #define USER_MOTOR1_KP_IQ_HIGH_SF (1.0f) // 0.1~10.0 #define USER_MOTOR1_KI_IQ_HIGH_SF (1.0f) // 0.1~10.0 #define USER_MOTOR1_KP_ID_SF (1.0f) // 0.1~10.0 #define USER_MOTOR1_KI_ID_SF (1.0f) // 0.1~10.0 #else #error No motor type specified #endif //! \brief Defines the maximum current slope for Id trajectory //! #define USER_M1_MAX_CURRENT_DELTA_A (USER_MOTOR1_RES_EST_CURRENT_A / USER_M1_ISR_FREQ_Hz) //! \brief Defines the maximum current slope for Id trajectory during power warp mode //! #define USER_M1_MAX_CURRENT_DELTA_PW_A (0.3 * USER_MOTOR1_RES_EST_CURRENT_A / USER_M1_ISR_FREQ_Hz) #ifndef USER_MOTOR1 #error Motor type is not defined in user_mtr1.h #endif #ifndef USER_MOTOR1_TYPE #error The motor type is not defined in user_mtr1.h #endif #ifndef USER_MOTOR1_NUM_POLE_PAIRS #error Number of motor pole pairs is not defined in user_mtr1.h #endif #ifndef USER_MOTOR1_Rr_Ohm #error The rotor resistance is not defined in user_mtr1.h #endif #ifndef USER_MOTOR1_Rs_Ohm #error The stator resistance is not defined in user_mtr1.h #endif #ifndef USER_MOTOR1_Ls_d_H #error The direct stator inductance is not defined in user_mtr1.h #endif #ifndef USER_MOTOR1_Ls_q_H #error The quadrature stator inductance is not defined in user_mtr1.h #endif #ifndef USER_MOTOR1_RATED_FLUX_VpHz #error The rated flux of motor is not defined in user_mtr1.h #endif #ifndef USER_MOTOR1_MAGNETIZING_CURRENT_A #error The magnetizing current is not defined in user_mtr1.h #endif #ifndef USER_MOTOR1_RES_EST_CURRENT_A #error The resistance estimation current is not defined in user_mtr1.h #endif #ifndef USER_MOTOR1_IND_EST_CURRENT_A #error The inductance estimation current is not defined in user_mtr1.h #endif #ifndef USER_MOTOR1_MAX_CURRENT_A #error The maximum current is not defined in user_mtr1.h #endif #ifndef USER_MOTOR1_FLUX_EXC_FREQ_Hz #error The flux excitation frequency is not defined in user_mtr1.h #endif #if ((USER_M1_NUM_CURRENT_SENSORS < 2) || (USER_M1_NUM_CURRENT_SENSORS > 3)) #error The number of current sensors must be 2 or 3 #endif #if (USER_M1_NUM_VOLTAGE_SENSORS != 3) #error The number of voltage sensors must be 3 #endif // ************************************************************************** // the Defines //! \brief Defines the minimum ADC value for pot #define USER_M1_POT_ADC_MIN (200U) // 0 < the value < 4096 //! \brief Defines the maximum ADC value for pot #define USER_M1_POT_ADC_MAX (4096U - 200U) // 0 < the value < 4096 //! \brief Defines the speed conversion coefficient for pot #define USER_M1_POT_SPEED_SF USER_MOTOR1_FREQ_MAX_Hz / ((float32_t)(USER_M1_POT_ADC_MAX - USER_M1_POT_ADC_MIN)) //! \brief Defines the minimum frequency for pot #define USER_M1_POT_SPEED_MIN_Hz (USER_MOTOR1_FREQ_MAX_Hz * 0.1f) //! \brief Defines the maximum frequency for pot #define USER_M1_POT_SPEED_MAX_Hz (USER_MOTOR1_FREQ_MAX_Hz * 0.5f) //! \brief Defines the pot signal wait delay time #define USER_M1_WAIT_TIME_SET (500U) // 0.5s/1ms //! \brief Defines the minimum frequency for pulse input #define USER_M1_SPEED_CAP_MIN_Hz (15.0f) //! \brief Defines the maximum frequency for pulse input #define USER_M1_SPEED_CAP_MAX_Hz (600.0f) //! \brief Defines the pulse capture wait delay time #define USER_M1_CAP_WAIT_TIME_SET (200U) // 0.2s/1ms //! \brief Defines the switch signal wait delay time #define USER_M1_SWITCH_WAIT_TIME_SET (50U) // 0.05s/1ms // ************************************************************************** // the typedefs // ************************************************************************** // the globals extern USER_Params userParams_M1; #if defined(BSXL8323RS_REVA) || defined(BSXL8353RS_REVA) || \ defined(BSXL8316RT_REVA) // Watch window interface to the drv8323/drv8353/DRV8316 SPI extern DRVIC_VARS_t drvicVars_M1; #endif // BSXL8323RS_REVA | BSXL8353RS_REVA | BSXL8316RT_REVA // ************************************************************************** // the functions //! \param[in] pUserParams The pointer to the user param structure extern void USER_setMotor1Params(userParams_Handle handle); //***************************************************************************** // // Close the Doxygen group. //! @} // //***************************************************************************** //***************************************************************************** // // Mark the end of the C bindings section for C++ compilers. // //***************************************************************************** #ifdef __cplusplus } #endif #endif // end of USER_MTR1_H definition
2. 由於欲測試更大負載,但Rshunt=7mΩ時電流已達飽和,故將Rshunt更換為2mΩ,此時問題產生,即便如何調高USER_MOTOR1_MAX_CURRENT_A,電流始終被限制在約peak-peak 100左右,詳細參數及測試波形如下圖
//#############################################################################
// $Copyright:
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//! \file /solutions/universal_motorcontrol_lab/common/include/user_mtr1.h
//! \brief Contains the user related definitions
//! This file is used for each device includes F28002x, F28003x, F280013x,
//! F280015x, and the other newer C2000 MCUs.
//!
#ifndef USER_MTR1_H
#define USER_MTR1_H
//*****************************************************************************
//
// If building with a C++ compiler, make all of the definitions in this header
// have a C binding.
//
//*****************************************************************************
#ifdef __cplusplus
extern "C"
{
#endif
//*****************************************************************************
//
//! \defgroup USER USER_MTR1
//! @{
//
//*****************************************************************************
//
// the includes
// platforms
#include "hal.h"
// modules
#include "userParams.h"
#include "user_common.h"
// *****************************************************************************
// the defines
//------------------------------------------------------------------------------
#if defined(HVMTRPFC_REV1P1)
// Bypass the 820k resistor for low voltage motor on this kit
//#define LV_JUMPER_EN // Bypass the 820k resistor
#ifndef LV_JUMPER_EN
//! \brief Defines the nominal DC bus voltage, V
//!
#define USER_M1_NOMINAL_DC_BUS_VOLTAGE_V (220.0f)
//! \brief Defines the maximum voltage at the AD converter
// Full scale voltage of AD converter, not the current voltage
#define USER_M1_ADC_FULL_SCALE_VOLTAGE_V (409.90f)
//! \brief Defines the analog voltage filter pole location, Hz
//!
#define USER_M1_VOLTAGE_FILTER_POLE_Hz (375.55f)
#else // Populate jumpers on J1/J2/J3/J4 for short R20/R23/R26/R37 for low voltage motor
//! \brief Defines the nominal DC bus voltage, V
//!
#define USER_M1_NOMINAL_DC_BUS_VOLTAGE_V (24.0f)
//! \brief Defines the maximum voltage at the AD converter
// Full scale voltage of AD converter, not the current voltage
#define USER_M1_ADC_FULL_SCALE_VOLTAGE_V (112.21f)
//! \brief Defines the analog voltage filter pole location, Hz
//!
#define USER_M1_VOLTAGE_FILTER_POLE_Hz (381.15f)
#endif
// High Voltage motor control kit
#if defined(MOTOR1_DCLINKSS) || defined(MOTOR1_ISBLDC)
//! \brief Defines the maximum current at the AD converter
#define USER_M1_ADC_FULL_SCALE_CURRENT_A (19.995f)
//! \brief Defines the sign of the current_sf based on
//! the polarity of the current feedback circuit
//!
//! the "sign" = -1.0f if the current feedback polarity is positive that
//! means the same pin of the shunt resistor is connected to ground and
//! is also connected to the noninverting pin of the operational amplifier
//!
//! the "sign" = 1.0f if the current feedback polarity is negative that
//! means the same pin of the shunt resistor is connected to ground and
//! is also connected to the inverting pin of the operational amplifier
#define USER_M1_SIGN_CURRENT_SF (-1.0f)
//! \brief ADC current offsets for dc-link
#define USER_M1_IDC_OFFSET_A (9.997f)
//! \brief ADC current offsets for dc-link
#define USER_M1_IDC_OFFSET_AD (2048.0f)
#define USER_M1_IDC_OFFSET_AD_MAX (USER_M1_IDC_OFFSET_AD + 100.0f)
#define USER_M1_IDC_OFFSET_AD_MIN (USER_M1_IDC_OFFSET_AD - 100.0f)
#else // !(MOTOR1_ISBLDC || MOTOR1_DCLINKSS)
//! \brief Defines the maximum current at the AD converter
#define USER_M1_ADC_FULL_SCALE_CURRENT_A (19.995f)
//! \brief Defines the sign of the current_sf based on
//! the polarity of the current feedback circuit
//!
//! the "sign" = -1.0f if the current feedback polarity is positive that
//! means the same pin of the shunt resistor is connected to ground and
//! is also connected to the inverting pin of the operational amplifier
//!
//! the "sign" = 1.0f if the current feedback polarity is negative that
//! means the same pin of the shunt resistor is connected to ground and
//! is also connected to the noninverting pin of the operational amplifier
#define USER_M1_SIGN_CURRENT_SF (1.0f)
#endif // !(MOTOR1_ISBLDC || MOTOR1_DCLINKSS)
//! \brief ADC current offsets for A, B, and C phases
#define USER_M1_IA_OFFSET_AD (2049.367f)
#define USER_M1_IB_OFFSET_AD (2042.771f)
#define USER_M1_IC_OFFSET_AD (2054.451f)
//! \brief ADC current offset for CMPSS
#define USER_M1_IS_OFFSET_CMPSS (uint16_t)((USER_M1_IA_OFFSET_AD + USER_M1_IB_OFFSET_AD + USER_M1_IC_OFFSET_AD) / 3.0f)
//! \brief ADC voltage offsets for A, B, and C phases
#define USER_M1_VA_OFFSET_SF (0.503290117f)
#define USER_M1_VB_OFFSET_SF (0.500881076f)
#define USER_M1_VC_OFFSET_SF (0.497107089f)
//! \brief DC bus over voltage threshold
#define USER_M1_OVER_VOLTAGE_FAULT_V (380.0f)
//! \brief DC bus over voltage threshold
#define USER_M1_OVER_VOLTAGE_NORM_V (350.0f)
//! \brief DC bus under voltage threshold
#define USER_M1_UNDER_VOLTAGE_FAULT_V (12.0f)
//! \brief DC bus under voltage threshold
#define USER_M1_UNDER_VOLTAGE_NORM_V (15.0f)
//! \brief motor lost phase current threshold
#define USER_M1_LOST_PHASE_CURRENT_A (0.2f)
//! \brief motor unbalance ratio percent threshold
#define USER_M1_UNBALANCE_RATIO (0.2f)
//! \brief motor over load power threshold
#define USER_M1_OVER_LOAD_POWER_W (250.0f)
//! \brief motor stall current threshold
#define USER_M1_STALL_CURRENT_A (10.0f)
//! \brief motor fault check current threshold
#define USER_M1_FAULT_CHECK_CURRENT_A (0.2f)
//! \brief motor failed maximum speed threshold
#define USER_M1_FAIL_SPEED_MAX_HZ (500.0f)
//! \brief motor failed minimum speed threshold
#define USER_M1_FAIL_SPEED_MIN_HZ (5.0f)
//! \brief Defines the number of failed torque
//!
#define USER_M1_TORQUE_FAILED_SET (0.000001f)
// end of HVMTRPFC_REV1P1
//------------------------------------------------------------------------------
#elif defined(DRV8329AEVM_REVA) // LaunchPad-F280025
//! \brief Defines the nominal DC bus voltage, V
//!
#define USER_M1_NOMINAL_DC_BUS_VOLTAGE_V (48.0f)
//! \brief Defines the maximum voltage at the AD converter
#define USER_M1_ADC_FULL_SCALE_VOLTAGE_V (76.04549098f) // 110k/4.99k
//! \brief Defines the analog voltage filter pole location, Hz
#define USER_M1_VOLTAGE_FILTER_POLE_Hz (326.6255675f) // 110k/4.99k/100nF
//! \brief Defines the maximum current at the AD converter
//! Set the gain of the CSA, the value should be set accordingly.
//! CSAGAIN=5V/V(J2=GND), CSAGAIN=10V/V(J2=50K), CSAGAIN=20V/V(J2=200K), CSAGAIN=40V/V(J2=DNP)
//#define USER_M1_ADC_FULL_SCALE_CURRENT_A (82.5f) // Rs=0.001/gain=40/J2=DNP
//#define USER_M1_ADC_FULL_SCALE_CURRENT_A (66.0f) // Rs=0.0025/gain=20/J2=200K
#define USER_M1_ADC_FULL_SCALE_CURRENT_A (33.0f) // Rs=0.0025/gain=40/J2=DNP
// Single shunt
#if defined(MOTOR1_DCLINKSS) || defined(MOTOR1_ISBLDC)
//! \brief Defines the sign of the current_sf based on
//! the polarity of the current feedback circuit
//!
//! the "sign" = -1.0f if the current feedback polarity is positive that
//! means the same pin of the shunt resistor is connected to ground and
//! is also connected to the noninverting pin (+) of the operational amplifier
//!
//! the "sign" = 1.0f if the current feedback polarity is negative that
//! means the same pin of the shunt resistor is connected to ground and
//! is also connected to the inverting pin (-) of the operational amplifier
#define USER_M1_SIGN_CURRENT_SF (1.0f)
//! \brief ADC current offsets for dc-link
// the dc-link offset current for DRV8329AEVM_REVA
#define USER_M1_IDC_OFFSET_A (USER_M1_ADC_FULL_SCALE_CURRENT_A / 2.0f)
//! \brief ADC current offsets for dc-link
#define USER_M1_IDC_OFFSET_AD (516.717f) //~=4096.0/8.0
//! \brief ADC current offset for CMPSS
#define USER_M1_IDC_OFFSET_CMPSS (uint16_t)(USER_M1_IDC_OFFSET_AD)
#define USER_M1_IDC_OFFSET_AD_MAX (USER_M1_IDC_OFFSET_AD + 100.0f)
#define USER_M1_IDC_OFFSET_AD_MIN (USER_M1_IDC_OFFSET_AD - 100.0f)
#else //!MOTOR1_DCLINKSS | !MOTOR1_ISBLDC
#error This inverter board only supports single shunt!
#endif // !MOTOR1_DCLINKSS | !MOTOR1_ISBLDC
//! \brief ADC voltage offsets for A, B, and C phases
#define USER_M1_VA_OFFSET_SF (0.507042527f)
#define USER_M1_VB_OFFSET_SF (0.505379438f)
#define USER_M1_VC_OFFSET_SF (0.50771445f)
//! \brief DC bus over voltage threshold
#define USER_M1_OVER_VOLTAGE_FAULT_V (54.5f)
//! \brief DC bus over voltage threshold
#define USER_M1_OVER_VOLTAGE_NORM_V (52.5f)
//! \brief DC bus under voltage threshold
#define USER_M1_UNDER_VOLTAGE_FAULT_V (8.0f)
//! \brief DC bus under voltage threshold
#define USER_M1_UNDER_VOLTAGE_NORM_V (10.0f)
//! \brief motor lost phase current threshold
#define USER_M1_LOST_PHASE_CURRENT_A (0.01f)
//! \brief motor unbalance ratio percent threshold
#define USER_M1_UNBALANCE_RATIO (0.2f)
//! \brief motor over load power threshold
#define USER_M1_OVER_LOAD_POWER_W (90.0f)
//! \brief motor stall current threshold
#define USER_M1_STALL_CURRENT_A (10.0f)
//! \brief motor fault check current threshold
#define USER_M1_FAULT_CHECK_CURRENT_A (0.2f)
//! \brief motor failed maximum speed threshold
#define USER_M1_FAIL_SPEED_MAX_HZ (1800.0f)
//! \brief motor failed minimum speed threshold
#define USER_M1_FAIL_SPEED_MIN_HZ (5.0f)
//! \brief Defines the number of failed torque
//!
#define USER_M1_TORQUE_FAILED_SET (0.000001f)
// end of DRV8329AEVM_REVA
//------------------------------------------------------------------------------
#elif defined(BSXL8323RS_REVA)
//! \brief Defines the nominal DC bus voltage, V
//!
#define USER_M1_NOMINAL_DC_BUS_VOLTAGE_V (12.0f)
//! \brief Defines the maximum voltage at the AD converter
#define USER_M1_ADC_FULL_SCALE_VOLTAGE_V (57.52845691f)
//! \brief Defines the analog voltage filter pole location, Hz
#define USER_M1_VOLTAGE_FILTER_POLE_Hz (720.0f) // caps=47nF
//! \brief Defines the maximum current at the AD converter
//for Rshunt=0.002omh
#define USER_M1_ADC_FULL_SCALE_CURRENT_A (330.0f) // CSA_GAIN=5VpV
//#define USER_M1_ADC_FULL_SCALE_CURRENT_A (165.0f) // CSA_GAIN=10VpV
//#define USER_M1_ADC_FULL_SCALE_CURRENT_A (82.5f) // CSA_GAIN=20VpV
//for Rshunt=0.007omh
//#define USER_M1_ADC_FULL_SCALE_CURRENT_A (94.28571429f) // CSA_GAIN=5VpV
//#define USER_M1_ADC_FULL_SCALE_CURRENT_A (47.14285714f) // CSA_GAIN=10VpV
//#define USER_M1_ADC_FULL_SCALE_CURRENT_A (23.57142857f) // CSA_GAIN=20VpV
#if defined(MOTOR1_DCLINKSS) || defined(MOTOR1_ISBLDC)
//! \brief Defines the sign of the current_sf based on
//! the polarity of the current feedback circuit
//!
//! the "sign" = -1.0f if the current feedback polarity is positive that
//! means the same pin of the shunt resistor is connected to ground and
//! is also connected to the noninverting pin of the operational amplifier
//!
//! the "sign" = 1.0f if the current feedback polarity is negative that
//! means the same pin of the shunt resistor is connected to ground and
//! is also connected to the inverting pin of the operational amplifier
#define USER_M1_SIGN_CURRENT_SF (-1.0f)
//! \brief ADC current offsets for dc-link
// the dc-link offset current for BSXL8323RS_REVA
#define USER_M1_IDC_OFFSET_A (USER_M1_ADC_FULL_SCALE_CURRENT_A / 2.0f)
//! \brief ADC current offsets for A, B, and C phases
#define USER_M1_IDC_OFFSET_AD (2048.0f)
#define USER_M1_IDC_OFFSET_AD_MAX (USER_M1_IDC_OFFSET_AD + 100.0f)
#define USER_M1_IDC_OFFSET_AD_MIN (USER_M1_IDC_OFFSET_AD - 100.0f)
#else //!MOTOR1_DCLINKSS
//! \brief Defines the sign of the current_sf based on
//! the polarity of the current feedback circuit
//!
//! the "sign" = -1.0f if the current feedback polarity is positive that
//! means the same pin of the shunt resistor is connected to ground and
//! is also connected to the inverting pin of the operational amplifier
//!
//! the "sign" = 1.0f if the current feedback polarity is negative that
//! means the same pin of the shunt resistor is connected to ground and
//! is also connected to the noninverting pin of the operational amplifier
#define USER_M1_SIGN_CURRENT_SF (1.0f)
//! \brief ADC current offsets for A, B, and C phases
// the ADC current offsets for A/B/C phases, one-time hardware dependent
#define USER_M1_IA_OFFSET_AD (2030.99646f)
#define USER_M1_IB_OFFSET_AD (2016.76001f)
#define USER_M1_IC_OFFSET_AD (2007.99329f)
//! \brief ADC current offset for CMPSS
#define USER_M1_IS_OFFSET_CMPSS (uint16_t)((USER_M1_IA_OFFSET_AD + USER_M1_IB_OFFSET_AD + USER_M1_IC_OFFSET_AD) / 3.0f)
//! \brief ADC voltage offsets for A, B, and C phases
// the ADC voltage offsets for A/B/C phases, one-time hardware dependent
#define USER_M1_VA_OFFSET_SF (0.498977453f)
#define USER_M1_VB_OFFSET_SF (0.497419506f)
#define USER_M1_VC_OFFSET_SF (0.500700474f)
#endif // !MOTOR1_DCLINKSS
//! \brief DC bus over voltage threshold
#define USER_M1_OVER_VOLTAGE_FAULT_V (54.5f)
//! \brief DC bus over voltage threshold
#define USER_M1_OVER_VOLTAGE_NORM_V (52.5f)
//! \brief DC bus under voltage threshold
#define USER_M1_UNDER_VOLTAGE_FAULT_V (8.0f)
//! \brief DC bus under voltage threshold
#define USER_M1_UNDER_VOLTAGE_NORM_V (10.0f)
//! \brief motor lost phase current threshold
#define USER_M1_LOST_PHASE_CURRENT_A (0.2f)
//! \brief motor unbalance ratio percent threshold
#define USER_M1_UNBALANCE_RATIO (0.2f)
//! \brief motor over load power threshold
#define USER_M1_OVER_LOAD_POWER_W (1500.0f)
//! \brief motor stall current threshold
#define USER_M1_STALL_CURRENT_A (10.0f)
//! \brief motor fault check current threshold
#define USER_M1_FAULT_CHECK_CURRENT_A (0.2f)
//! \brief motor failed maximum speed threshold
#define USER_M1_FAIL_SPEED_MAX_HZ (1500.0f)
//! \brief motor failed minimum speed threshold
#define USER_M1_FAIL_SPEED_MIN_HZ (5.0f)
//! \brief Defines the number of failed torque
//! unit: N.m
#define USER_M1_TORQUE_FAILED_SET (0.000001f)
// end of BSXL8323RS_REVA
//------------------------------------------------------------------------------
#elif defined(BSXL8323RH_REVB) // LaunchPad-F280025
//! \brief Defines the nominal DC bus voltage, V
//!
#define USER_M1_NOMINAL_DC_BUS_VOLTAGE_V (48.0f)
//! \brief Defines the maximum voltage at the AD converter
#define USER_M1_ADC_FULL_SCALE_VOLTAGE_V (57.52845691f)
//! \brief Defines the analog voltage filter pole location, Hz
#define USER_M1_VOLTAGE_FILTER_POLE_Hz (680.4839141f) // 47nF
//! \brief Defines the maximum current at the AD converter
//! Place a 47k(ohm) resistor (R22) pull-down on MODE pin
#define USER_M1_ADC_FULL_SCALE_CURRENT_A (47.14285714f) // gain=10
#if defined(MOTOR1_DCLINKSS) || defined(MOTOR1_ISBLDC)
//! \brief Defines the sign of the current_sf based on
//! the polarity of the current feedback circuit
//!
//! the "sign" = -1.0f if the current feedback polarity is positive that
//! means the same pin of the shunt resistor is connected to ground and
//! is also connected to the noninverting pin of the operational amplifier
//!
//! the "sign" = 1.0f if the current feedback polarity is negative that
//! means the same pin of the shunt resistor is connected to ground and
//! is also connected to the inverting pin of the operational amplifier
#define USER_M1_SIGN_CURRENT_SF (-1.0f)
//! \brief ADC current offsets for dc-link
// the dc-link offset current for BSXL8323RH_REVB
#define USER_M1_IDC_OFFSET_A (USER_M1_ADC_FULL_SCALE_CURRENT_A / 2.0f)
//! \brief ADC current offsets for dc-link
#define USER_M1_IDC_OFFSET_AD (2048.0f)
#define USER_M1_IDC_OFFSET_AD_MAX (USER_M1_IDC_OFFSET_AD + 100.0f)
#define USER_M1_IDC_OFFSET_AD_MIN (USER_M1_IDC_OFFSET_AD - 100.0f)
#else //!MOTOR1_DCLINKSS
//! \brief Defines the sign of the current_sf based on
//! the polarity of the current feedback circuit
//!
//! the "sign" = -1.0f if the current feedback polarity is positive that
//! means the same pin of the shunt resistor is connected to ground and
//! is also connected to the inverting pin of the operational amplifier
//!
//! the "sign" = 1.0f if the current feedback polarity is negative that
//! means the same pin of the shunt resistor is connected to ground and
//! is also connected to the noninverting pin of the operational amplifier
#define USER_M1_SIGN_CURRENT_SF (1.0f)
//! \brief ADC current offsets for A, B, and C phases
#define USER_M1_IA_OFFSET_AD (2045.40015f)
#define USER_M1_IB_OFFSET_AD (2012.86694f)
#define USER_M1_IC_OFFSET_AD (2031.59741f)
//! \brief ADC current offset for CMPSS
#define USER_M1_IS_OFFSET_CMPSS (uint16_t)((USER_M1_IA_OFFSET_AD + USER_M1_IB_OFFSET_AD + USER_M1_IC_OFFSET_AD) / 3.0f)
//! \brief ADC voltage offsets for A, B, and C phases
#define USER_M1_VA_OFFSET_SF (0.507042527f)
#define USER_M1_VB_OFFSET_SF (0.505379438f)
#define USER_M1_VC_OFFSET_SF (0.50771445f)
#endif // !MOTOR1_DCLINKSS
//! \brief DC bus over voltage threshold
#define USER_M1_OVER_VOLTAGE_FAULT_V (54.5f)
//! \brief DC bus over voltage threshold
#define USER_M1_OVER_VOLTAGE_NORM_V (52.5f)
//! \brief DC bus under voltage threshold
#define USER_M1_UNDER_VOLTAGE_FAULT_V (8.0f)
//! \brief DC bus under voltage threshold
#define USER_M1_UNDER_VOLTAGE_NORM_V (10.0f)
//! \brief motor lost phase current threshold
#define USER_M1_LOST_PHASE_CURRENT_A (0.01f)
//! \brief motor unbalance ratio percent threshold
#define USER_M1_UNBALANCE_RATIO (0.2f)
//! \brief motor over load power threshold
#define USER_M1_OVER_LOAD_POWER_W (90.0f)
//! \brief motor stall current threshold
#define USER_M1_STALL_CURRENT_A (10.0f)
//! \brief motor fault check current threshold
#define USER_M1_FAULT_CHECK_CURRENT_A (0.2f)
//! \brief motor failed maximum speed threshold
#define USER_M1_FAIL_SPEED_MAX_HZ (1800.0f)
//! \brief motor failed minimum speed threshold
#define USER_M1_FAIL_SPEED_MIN_HZ (5.0f)
//! \brief Defines the number of failed torque
//!
#define USER_M1_TORQUE_FAILED_SET (0.000001f)
// end of BSXL8323RH_REVB
//------------------------------------------------------------------------------
#elif defined(BSXL8353RS_REVA)
//! \brief Defines the nominal DC bus voltage, V
//!
#define USER_M1_NOMINAL_DC_BUS_VOLTAGE_V (48.0f)
//! \brief Defines the maximum voltage at the AD converter
#define USER_M1_ADC_FULL_SCALE_VOLTAGE_V (132.7979508f)
//! \brief Defines the analog voltage filter pole location, Hz
#define USER_M1_VOLTAGE_FILTER_POLE_Hz (338.1100618f) // 9.76k/47nF
//! \brief Defines the maximum current at the AD converter
//#define USER_M1_ADC_FULL_SCALE_CURRENT_A (94.28571429f) // gain=5
#define USER_M1_ADC_FULL_SCALE_CURRENT_A (47.14285714f) // gain=10
#if defined(MOTOR1_DCLINKSS) || defined(MOTOR1_ISBLDC)
//! \brief Defines the sign of the current_sf based on
//! the polarity of the current feedback circuit
//!
//! the "sign" = -1.0f if the current feedback polarity is positive that
//! means the same pin of the shunt resistor is connected to ground and
//! is also connected to the noninverting pin of the operational amplifier
//!
//! the "sign" = 1.0f if the current feedback polarity is negative that
//! means the same pin of the shunt resistor is connected to ground and
//! is also connected to the inverting pin of the operational amplifier
#define USER_M1_SIGN_CURRENT_SF (-1.0f)
#error "Single shunt is not supported on this kit"
#else //!MOTOR1_DCLINKSS
//! \brief Defines the sign of the current_sf based on
//! the polarity of the current feedback circuit
//!
//! the "sign" = -1.0f if the current feedback polarity is positive that
//! means the same pin of the shunt resistor is connected to ground and
//! is also connected to the inverting pin of the operational amplifier
//!
//! the "sign" = 1.0f if the current feedback polarity is negative that
//! means the same pin of the shunt resistor is connected to ground and
//! is also connected to the noninverting pin of the operational amplifier
#define USER_M1_SIGN_CURRENT_SF (1.0f)
//! \brief ADC current offsets for A, B, and C phases
#define USER_M1_IA_OFFSET_AD (2048.0f)
#define USER_M1_IB_OFFSET_AD (2048.0f)
#define USER_M1_IC_OFFSET_AD (2048.0f)
//! \brief ADC current offset for CMPSS
#define USER_M1_IS_OFFSET_CMPSS (uint16_t)((USER_M1_IA_OFFSET_AD + USER_M1_IB_OFFSET_AD + USER_M1_IC_OFFSET_AD) / 3.0f)
//! \brief ADC voltage offsets for A, B, and C phases
#define USER_M1_VA_OFFSET_SF (0.500514159f)
#define USER_M1_VB_OFFSET_SF (0.506255884f)
#define USER_M1_VC_OFFSET_SF (0.503381569f)
#endif // !MOTOR1_DCLINKSS
//! \brief DC bus over voltage threshold
#define USER_M1_OVER_VOLTAGE_FAULT_V (40.0f)
//! \brief DC bus over voltage threshold
#define USER_M1_OVER_VOLTAGE_NORM_V (36.0f)
//! \brief DC bus under voltage threshold
#define USER_M1_UNDER_VOLTAGE_FAULT_V (10.0f)
//! \brief DC bus under voltage threshold
#define USER_M1_UNDER_VOLTAGE_NORM_V (12.0f)
//! \brief motor lost phase current threshold
#define USER_M1_LOST_PHASE_CURRENT_A (0.2f)
//! \brief motor unbalance ratio percent threshold
#define USER_M1_UNBALANCE_RATIO (0.2f)
//! \brief motor over load power threshold
#define USER_M1_OVER_LOAD_POWER_W (50.0f)
//! \brief motor stall current threshold
#define USER_M1_STALL_CURRENT_A (10.0f)
//! \brief motor fault check current threshold
#define USER_M1_FAULT_CHECK_CURRENT_A (0.2f)
//! \brief motor failed maximum speed threshold
#define USER_M1_FAIL_SPEED_MAX_HZ (500.0f)
//! \brief motor failed minimum speed threshold
#define USER_M1_FAIL_SPEED_MIN_HZ (5.0f)
//! \brief Defines the number of failed torque
//!
#define USER_M1_TORQUE_FAILED_SET (0.000001f)
// end of BSXL8353RS_REVA
//------------------------------------------------------------------------------
#elif defined(BSXL3PHGAN_REVA)
//! \brief Defines the nominal DC bus voltage, V
//!
#define USER_M1_NOMINAL_DC_BUS_VOLTAGE_V (48.0f)
//! \brief Defines the maximum voltage at the AD converter
#define USER_M1_ADC_FULL_SCALE_VOLTAGE_V (81.49905213f)
//! \brief Defines the analog voltage filter pole location, Hz
#define USER_M1_VOLTAGE_FILTER_POLE_Hz (1103.026917f) // 33nF
//! \brief Defines the maximum current at the AD converter
#define USER_M1_ADC_FULL_SCALE_CURRENT_A (33.0f) // gain=20
//! \brief Defines the sign of the current_sf based on
//! the polarity of the current feedback circuit
//!
//! the "sign" = -1.0f if the current feedback polarity is positive that
//! means the same pin of the inline shunt resistor is connected to the
//! output of the three-phase power inverter and is also connected to
//! the inverting pin of the operational amplifier
//!
//! the "sign" = 1.0f if the current feedback polarity is positive that
//! means the same pin of the inline shunt resistor is connected to the
//! output of the three-phase power inverter and is also connected to
//! the non-inverting pin of the operational amplifier
#define USER_M1_SIGN_CURRENT_SF (-1.0f)
//! \brief ADC current offsets for A, B, and C phases
#define USER_M1_IA_OFFSET_AD (2048.0f)
#define USER_M1_IB_OFFSET_AD (2048.0f)
#define USER_M1_IC_OFFSET_AD (2048.0f)
//! \brief ADC current offset for CMPSS
#define USER_M1_IS_OFFSET_CMPSS (uint16_t)((USER_M1_IA_OFFSET_AD + USER_M1_IB_OFFSET_AD + USER_M1_IC_OFFSET_AD) / 3.0f)
//! \brief ADC voltage offsets for A, B, and C phases
#define USER_M1_VA_OFFSET_SF (0.500514159f)
#define USER_M1_VB_OFFSET_SF (0.506255884f)
#define USER_M1_VC_OFFSET_SF (0.503381569f)
//! \brief DC bus over voltage threshold
#define USER_M1_OVER_VOLTAGE_FAULT_V (40.0f)
//! \brief DC bus over voltage threshold
#define USER_M1_OVER_VOLTAGE_NORM_V (36.0f)
//! \brief DC bus under voltage threshold
#define USER_M1_UNDER_VOLTAGE_FAULT_V (10.0f)
//! \brief DC bus under voltage threshold
#define USER_M1_UNDER_VOLTAGE_NORM_V (12.0f)
//! \brief motor lost phase current threshold
#define USER_M1_LOST_PHASE_CURRENT_A (0.2f)
//! \brief motor unbalance ratio percent threshold
#define USER_M1_UNBALANCE_RATIO (0.2f)
//! \brief motor over load power threshold
#define USER_M1_OVER_LOAD_POWER_W (50.0f)
//! \brief motor stall current threshold
#define USER_M1_STALL_CURRENT_A (10.0f)
//! \brief motor fault check current threshold
#define USER_M1_FAULT_CHECK_CURRENT_A (0.2f)
//! \brief motor failed maximum speed threshold
#define USER_M1_FAIL_SPEED_MAX_HZ (500.0f)
//! \brief motor failed minimum speed threshold
#define USER_M1_FAIL_SPEED_MIN_HZ (5.0f)
//! \brief Defines the number of failed torque
//!
#define USER_M1_TORQUE_FAILED_SET (0.000001f)
// end of BSXL3PHGAN_REVA
//------------------------------------------------------------------------------
#elif defined(BSXL8316RT_REVA)
//! \brief Defines the nominal DC bus voltage, V
//!
#define USER_M1_NOMINAL_DC_BUS_VOLTAGE_V (48.0f)
//! \brief Defines the maximum voltage at the AD converter
#define USER_M1_ADC_FULL_SCALE_VOLTAGE_V (44.28f)
//! \brief Defines the analog voltage filter pole location, Hz
#define USER_M1_VOLTAGE_FILTER_POLE_Hz (284.722f) // 100nF
//! \brief Defines the maximum current at the AD converter
//! DRV8316 = VREF = 3V, GAIN = 0.15V/A || 3.3V / 0.15V/A = 22.0A
//! GAIN = 0.30V/A || 3.3V / 0.30V/A = 11.0A
//! GAIN = 0.60V/A || 3.3V / 0.60V/A = 5.50A
//! GAIN = 1.20V/A || 3.3V / 1.20V/A = 2.75A
//! Change this ADC scale current value that must match the CSA gain in hal.c
#define USER_M1_ADC_FULL_SCALE_CURRENT_A (22.0f) // GAIN = 0.15V/A
//#define USER_M1_ADC_FULL_SCALE_CURRENT_A (11.0f) // GAIN = 0.30V/A
//! \brief Defines the sign of the current_sf based on
//! the polarity of the current feedback circuit
//!
//! the "sign" = -1.0f if the current feedback polarity is positive that
//! means the same pin of the shunt resistor is connected to ground and
//! is also connected to the inverting pin of the operational amplifier
//!
//! the "sign" = 1.0f if the current feedback polarity is negative that
//! means the same pin of the shunt resistor is connected to ground and
//! is also connected to the noninverting pin of the operational amplifier
#define USER_M1_SIGN_CURRENT_SF (1.0f)
//! \brief ADC current offsets for A, B, and C phases
#define USER_M1_IA_OFFSET_AD (1869.6f)
#define USER_M1_IB_OFFSET_AD (1877.3f)
#define USER_M1_IC_OFFSET_AD (1876.9f)
//! \brief ADC current offset for CMPSS
#define USER_M1_IS_OFFSET_CMPSS (uint16_t)((USER_M1_IA_OFFSET_AD + USER_M1_IB_OFFSET_AD + USER_M1_IC_OFFSET_AD) / 3.0f)
//! \brief ADC voltage offsets for A, B, and C phases
#define USER_M1_VA_OFFSET_SF (0.477463514f)
#define USER_M1_VB_OFFSET_SF (0.479326069f)
#define USER_M1_VC_OFFSET_SF (0.477675498f)
//! \brief DC bus over voltage threshold
#define USER_M1_OVER_VOLTAGE_FAULT_V (40.0f)
//! \brief DC bus over voltage threshold
#define USER_M1_OVER_VOLTAGE_NORM_V (36.0f)
//! \brief DC bus under voltage threshold
#define USER_M1_UNDER_VOLTAGE_FAULT_V (10.0f)
//! \brief DC bus under voltage threshold
#define USER_M1_UNDER_VOLTAGE_NORM_V (12.0f)
//! \brief motor lost phase current threshold
#define USER_M1_LOST_PHASE_CURRENT_A (0.2f)
//! \brief motor unbalance ratio percent threshold
#define USER_M1_UNBALANCE_RATIO (0.2f)
//! \brief motor over load power threshold
#define USER_M1_OVER_LOAD_POWER_W (50.0f)
//! \brief motor stall current threshold
#define USER_M1_STALL_CURRENT_A (10.0f)
//! \brief motor fault check current threshold
#define USER_M1_FAULT_CHECK_CURRENT_A (0.2f)
//! \brief motor failed maximum speed threshold
#define USER_M1_FAIL_SPEED_MAX_HZ (500.0f)
//! \brief motor failed minimum speed threshold
#define USER_M1_FAIL_SPEED_MIN_HZ (5.0f)
//! \brief Defines the number of failed torque
//!
#define USER_M1_TORQUE_FAILED_SET (0.000001f)
// end of BSXL8316RT_REVA
//------------------------------------------------------------------------------
//------------------------------------------------------------------------------
//------------------------------------------------------------------------------
#else // No Board Selection
#error The board parameters are not defined in user_mtr1.h
#endif // No Board Selection
//------------------------------------------------------------------------------
//! \brief ADC current offsets checking value for A, B, and C phases
// the error threshold to check if the ADC offset of the phase current sensing circuit is correct.
#define USER_M1_IS_OFFSET_AD_DELTA (150.0f) // The value is 0.0f~1024.0f
// the high threshold of the ADC offsets checking value for A/B/C phase current
#define USER_M1_IA_OFFSET_AD_MAX (USER_M1_IA_OFFSET_AD + USER_M1_IS_OFFSET_AD_DELTA)
#define USER_M1_IB_OFFSET_AD_MAX (USER_M1_IB_OFFSET_AD + USER_M1_IS_OFFSET_AD_DELTA)
#define USER_M1_IC_OFFSET_AD_MAX (USER_M1_IC_OFFSET_AD + USER_M1_IS_OFFSET_AD_DELTA)
// the low threshold of the ADC offsets checking value for A phase current
#define USER_M1_IA_OFFSET_AD_MIN (USER_M1_IA_OFFSET_AD - USER_M1_IS_OFFSET_AD_DELTA)
#define USER_M1_IB_OFFSET_AD_MIN (USER_M1_IB_OFFSET_AD - USER_M1_IS_OFFSET_AD_DELTA)
#define USER_M1_IC_OFFSET_AD_MIN (USER_M1_IC_OFFSET_AD - USER_M1_IS_OFFSET_AD_DELTA)
#define USER_M1_IS_OFFSET_AD_MAX (USER_M1_IA_OFFSET_AD + USER_M1_IB_OFFSET_AD + USER_M1_IC_OFFSET_AD + (USER_M1_IS_OFFSET_AD_DELTA * 3.0f))
#define USER_M1_IS_OFFSET_AD_MIN (USER_M1_IA_OFFSET_AD + USER_M1_IB_OFFSET_AD + USER_M1_IC_OFFSET_AD - (USER_M1_IS_OFFSET_AD_DELTA * 3.0f))
//! \brief ADC voltage offsets for A, B, and C phases
// the error threshold to check if the ADC offset of the phase voltage sensing circuit is correct
#define USER_M1_VA_OFFSET_SF_DELTA (0.05f) // The value is 0.0f ~ 0.5f
// the high threshold of the ADC offsets checking value for A/B/C phase voltage
#define USER_M1_VA_OFFSET_SF_MAX (USER_M1_VA_OFFSET_SF + USER_M1_VA_OFFSET_SF_DELTA)
#define USER_M1_VB_OFFSET_SF_MAX (USER_M1_VB_OFFSET_SF + USER_M1_VA_OFFSET_SF_DELTA)
#define USER_M1_VC_OFFSET_SF_MAX (USER_M1_VC_OFFSET_SF + USER_M1_VA_OFFSET_SF_DELTA)
// the low threshold of the ADC offsets checking value for A/B/C phase voltage
#define USER_M1_VA_OFFSET_SF_MIN (USER_M1_VA_OFFSET_SF - USER_M1_VA_OFFSET_SF_DELTA)
#define USER_M1_VB_OFFSET_SF_MIN (USER_M1_VB_OFFSET_SF - USER_M1_VA_OFFSET_SF_DELTA)
#define USER_M1_VC_OFFSET_SF_MIN (USER_M1_VC_OFFSET_SF - USER_M1_VA_OFFSET_SF_DELTA)
#define USER_M1_VS_OFFSET_SF_MAX (USER_M1_VA_OFFSET_SF + USER_M1_VB_OFFSET_SF + USER_M1_VC_OFFSET_SF + (USER_M1_VA_OFFSET_SF_DELTA * 3.0f))
#define USER_M1_VS_OFFSET_SF_MIN (USER_M1_VA_OFFSET_SF + USER_M1_VB_OFFSET_SF + USER_M1_VC_OFFSET_SF - (USER_M1_VA_OFFSET_SF_DELTA * 3.0f))
//******************************************************************************
//! \brief Defines the number of pwm clock ticks per isr clock tick
//! Note: Valid values are 1, 2 or 3 only
#define USER_M1_NUM_PWM_TICKS_PER_ISR_TICK (2)
//! \brief Defines the number of ISR clock ticks per current controller clock tick
//!
#define USER_M1_NUM_ISR_TICKS_PER_CURRENT_TICK (1)
//! \brief Defines the number of ISR clock ticks per speed controller clock tick
//!
#define USER_M1_NUM_ISR_TICKS_PER_SPEED_TICK (10)
//! \brief Defines the number of current sensors
//!
#define USER_M1_NUM_CURRENT_SENSORS (3)
//! \brief Defines the number of voltage sensors
//!
#define USER_M1_NUM_VOLTAGE_SENSORS (3)
//! \brief Defines the Pulse Width Modulation (PWM) frequency, kHz
//!
#define USER_M1_PWM_FREQ_kHz (40.0f)
#define USER_M1_PWM_TBPRD_NUM (uint16_t)(USER_SYSTEM_FREQ_MHz * 1000.0f / USER_M1_PWM_FREQ_kHz / 2.0f)
//! \brief Defines the Pulse Width Modulation (PWM) period, usec
//!
#define USER_M1_PWM_PERIOD_usec (1000.0f / USER_M1_PWM_FREQ_kHz)
//! \brief Defines the Interrupt Service Routine (ISR) frequency, Hz
//!
#define USER_M1_ISR_FREQ_Hz (USER_M1_PWM_FREQ_kHz * 1000.0f / (float32_t)USER_M1_NUM_PWM_TICKS_PER_ISR_TICK)
//! \brief Defines the Interrupt Service Routine (ISR) period, usec
//!
#define USER_M1_ISR_PERIOD_usec (USER_M1_PWM_PERIOD_usec * (float32_t)USER_M1_NUM_PWM_TICKS_PER_ISR_TICK)
//! \brief Defines the direct voltage (Vd) scale factor
//!
#define USER_M1_VD_SF (0.95f)
//! \brief Defines the voltage scale factor for the system
//!
#define USER_M1_VOLTAGE_SF (USER_M1_ADC_FULL_SCALE_VOLTAGE_V / 4096.0f)
//! \brief Defines the current scale factor for the system
//!
#define USER_M1_CURRENT_SF (USER_M1_ADC_FULL_SCALE_CURRENT_A / 4096.0f)
//! \brief Defines the current scale invert factor for the system
//!
#define USER_M1_CURRENT_INV_SF (4096.0f / USER_M1_ADC_FULL_SCALE_CURRENT_A)
//! \brief Defines the analog voltage filter pole location, rad/s
//!
#define USER_M1_VOLTAGE_FILTER_POLE_rps (MATH_TWO_PI * USER_M1_VOLTAGE_FILTER_POLE_Hz)
//! \brief Defines the maximum Vs magnitude in per units allowed
//! \brief This value sets the maximum magnitude for the output of the Id and
//! \brief Iq PI current controllers. The Id and Iq current controller outputs
//! \brief are Vd and Vq. The relationship between Vs, Vd, and Vq is:
//! \brief Vs = sqrt(Vd^2 + Vq^2). In this FOC controller, the Vd value is set
//! \brief equal to USER_MAX_VS_MAG*USER_VD_MAG_FACTOR.
//! \brief so the Vq value is set equal to sqrt(USER_MAX_VS_MAG^2 - Vd^2).
//!
//! \brief Set USER_MAX_VS_MAG = 0.5 for a pure sinewave with a peak at
//! \brief SQRT(3)/2 = 86.6% duty cycle. No current reconstruction
//! \brief is needed for this scenario.
//!
//! \brief Set USER_MAX_VS_MAG = 1/SQRT(3) = 0.5774 for a pure sinewave
//! \brief with a peak at 100% duty cycle. Current reconstruction
//! \brief will be needed for this scenario (Lab08).
//!
//! \brief Set USER_MAX_VS_MAG = 2/3 = 0.6666 to create a trapezoidal
//! \brief voltage waveform. Current reconstruction will be needed
//! \brief for this scenario (Lab08).
//!
//! \brief For space vector over-modulation, see lab08 for details on
//! \brief system requirements that will allow the SVM generator to
//! \brief go all the way to trapezoidal.
//!
//#define USER_M1_MAX_VS_MAG_PU (0.66f)
//#define USER_M1_MAX_VS_MAG_PU (0.65f)
#define USER_M1_MAX_VS_MAG_PU (0.576f)
//#define USER_M1_MAX_VS_MAG_PU (0.565f)
//#define USER_M1_MAX_VS_MAG_PU (0.5f)
//! \brief Defines the reference Vs magnitude in per units allowed
//! \ Set the value equal from 0.5 to 0.95 of the maximum Vs magnitude
#define USER_M1_VS_REF_MAG_PU (0.8f * USER_MAX_VS_MAG_PU)
//! \brief Defines the R/L excitation frequency, Hz
//!
#define USER_M1_R_OVER_L_EXC_FREQ_Hz (300.0f)
//! \brief Defines the R/L Kp scale factor, pu
//! \brief Kp used during R/L is USER_M1_R_OVER_L_KP_SF * USER_M1_NOMINAL_DC_BUS_VOLTAGE_V / USER_MOTOR1_MAX_CURRENT_A;
//!
#define USER_M1_R_OVER_L_KP_SF (0.02f)
//! \brief Defines maximum acceleration for the estimation speed profiles, Hz/sec
//!
#define USER_M1_MAX_ACCEL_Hzps (2.0f)
//! \brief Defines the controller execution period, usec
//!
#define USER_M1_CTRL_PERIOD_usec ((float32_t)USER_M1_ISR_PERIOD_usec)
//! \brief Defines the controller execution period, sec
//!
#define USER_M1_CTRL_PERIOD_sec ((float32_t)USER_M1_CTRL_PERIOD_usec / 1000000.0f)
//! \brief Defines the IdRated delta to use during estimation
//!
#define USER_M1_IDRATED_DELTA_A (0.0001f)
#if defined(_FULL_FAST_LIB)
//! \brief Defines the forced angle frequency, Hz
#define USER_M1_FORCE_ANGLE_FREQ_Hz (1.0f)
//! \brief Defines the forced angle acceleration, Hz
#define USER_M1_FORCE_ANGLE_ACCEL_Hzps (10.0f)
#else // !_FULL_FAST_LIB
//! \brief Defines the forced angle frequency, Hz
#define USER_M1_FORCE_ANGLE_FREQ_Hz (1.0f)
#endif // !_FULL_FAST_LIB
//! \brief Defines the near zero speed limit for electrical frequency estimation, Hz
//! The flux integrator uses this limit to regulate flux integration
#define USER_M1_FREQ_NEARZEROSPEEDLIMIT_Hz (0.0f)
//! \brief Defines the fraction of IdRated to use during inductance estimation
//!
#define USER_M1_IDRATED_FRACTION_FOR_L_IDENT (0.5f)
//! \brief Defines the fraction of SpeedMax to use during inductance estimation
//!
#define USER_M1_SPEEDMAX_FRACTION_FOR_L_IDENT (1.0f)
//! \brief Defines the Power Warp gain for computing Id reference
//!
#define USER_M1_PW_GAIN (1.0f)
//! \brief Defines the pole location for the DC bus filter, rad/sec
//!
#define USER_M1_DCBUS_POLE_rps (100.0f)
//! \brief Defines the pole location for the voltage and current offset estimation, rad/s
//!
#define USER_M1_OFFSET_POLE_rps (20.0f)
//! \brief Defines the pole location for the speed control filter, rad/sec
//!
#define USER_M1_SPEED_POLE_rps (100.0f)
//! \brief Defines the pole location for the direction filter, rad/sec
//!
#define USER_M1_DIRECTION_POLE_rps (MATH_TWO_PI * 10.0f)
//! \brief Defines the pole location for the flux estimation, rad/sec
//!
#define USER_M1_FLUX_POLE_rps (10.0f)
//! \brief Defines the pole location for the R/L estimation, rad/sec
//!
#define USER_M1_R_OVER_L_POLE_rps (MATH_TWO_PI * 3.2f)
//! \brief Defines the convergence factor for the estimator
//!
#define USER_M1_EST_KAPPAQ (1.5f)
//! \brief Defines the scale factor for the flux estimation
//! the default value is 1.0f, change the value between 0.1f and 1.25f
//!
//#define USER_M1_EST_FLUX_HF_SF (0.120f)
#define USER_M1_EST_FLUX_HF_SF (0.250f)
//#define USER_M1_EST_FLUX_HF_SF (1.00f)
//! \brief Defines the scale factor for the frequency estimation
//! the default value is 1.0f, change the value between 0.5f and 1.5f
//!
#define USER_M1_EST_FREQ_HF_SF (1.00f)
//! \brief Defines the scale factor for the bemf estimation
//! the default value is 1.0f, change the value between 0.50f and 1.25f
//!
#define USER_M1_EST_BEMF_HF_SF (1.00f)
//------------------------------------------------------------------------------
//! brief Define the Kp gain for Field Weakening Control
#define USER_M1_FWC_KP 0.0525f
//! brief Define the Ki gain for Field Weakening Control
#define USER_M1_FWC_KI 0.00325f
//! brief Define the maximum current vector angle for Field Weakening Control
#define USER_M1_FWC_MAX_ANGLE -15.0f // degree
#define USER_M1_FWC_MAX_ANGLE_RAD USER_M1_FWC_MAX_ANGLE /180.0f * MATH_PI // rad
//! brief Define the minimum current vector angle for Field Weakening Control
#define USER_M1_FWC_MIN_ANGLE 0.0f // degree
#define USER_M1_FWC_MIN_ANGLE_RAD USER_M1_FWC_MIN_ANGLE /180.0f * MATH_PI // rad
//! \brief Defines the number of DC bus over/under voltage setting time
//! timer base = 5ms
#define USER_M1_VOLTAGE_FAULT_TIME_SET (500U) // in 5ms
//! \brief Defines the number of motor over load setting time
//! timer base = 5ms, 1s
#define USER_M1_OVER_LOAD_TIME_SET (200U)
//! \brief Defines the number of motor stall setting time
//! timer base = 5ms, 1s
#define USER_M1_STALL_TIME_SET (200U)
//! \brief Defines the number of phase unbalanced setting time
//! timer base = 5ms, 5s
#define USER_M1_UNBALANCE_TIME_SET (1000U)
//! \brief Defines the number of lost phase setting time
//! timer base = 5ms, 10s
#define USER_M1_LOST_PHASE_TIME_SET (2000U)
//! \brief Defines the number of over speed setting time
//! timer base = 5ms
#define USER_M1_OVER_SPEED_TIME_SET (600U)
//! \brief Defines the number of startup failed setting time
//! timer base = 5ms, 10s
#define USER_M1_STARTUP_FAIL_TIME_SET (2000U)
//! \brief Defines the number of over load setting times
//!
#define USER_M1_OVER_CURRENT_TIMES_SET (5U)
//! \brief Defines the number of stop wait time
//! timer base = 5ms, 10s
#define USER_M1_STOP_WAIT_TIME_SET (2000U)
//! \brief Defines the number of restart wait time
//! timer base = 5ms, 10s
#define USER_M1_RESTART_WAIT_TIME_SET (2000U)
//! \brief Defines the number of restart times when has a fault
//!
#define USER_M1_START_TIMES_SET (3U)
//! \brief Defines the alignment time
//! timer base = 5ms, 10s
#define USER_M1_ALIGN_TIME_SET (2000U)
//! \brief Defines the QEP unit ticks
#define USER_M1_QEP_UNIT_TIMER_TICKS (uint32_t)(USER_SYSTEM_FREQ_MHz/(2.0f * USER_M1_ISR_FREQ_Hz) * 1000000.0f)
//! \brief Defines the current filter pole location, Hz
#define USER_M1_IS_FILTER_POLE_Hz (7500.0f) // 7.5kHz
//! \brief Defines the current filter pole location, rad/s
//!
#define USER_M1_IS_FILTER_POLE_rps (MATH_TWO_PI * USER_M1_IS_FILTER_POLE_Hz)
//! \brief Defines the voltage filter pole location, Hz
#define USER_M1_VS_FILTER_POLE_Hz (30000.0f) // 30.0kHz
//! \brief Defines the voltage filter pole location, rad/s
//!
#define USER_M1_VS_FILTER_POLE_rps (MATH_TWO_PI * USER_M1_VS_FILTER_POLE_Hz)
//==============================================================================
// Only a few listed motor below are tested with the related algorithm as the comments
// Motor defines
// High voltage PMSM Motors
//#define USER_MOTOR1 Estun_EMJ_04APB22 //* Tested, FAST/eSMO/ENC
//#define USER_MOTOR1 Anaheim_BLWS235D //* Tested, FAST
//#define USER_MOTOR1 CHMotor_WM_Test
//#define USER_MOTOR1 Anaheim_BLZ362S
//#define USER_MOTOR1 ziehlab_Fan160hv //* Tested, FAST/eSMO
//#define USER_MOTOR1 embpast_Fan160hv //* Tested, FAST/eSMO
//#define USER_MOTOR1 GMCC_KSK89D53U //* Tested, FAST/eSMO
//#define USER_MOTOR1 QXA_A091ZE190A //* Tested, FAST/eSMO
//#define USER_MOTOR1 Baldor_BSM90N175 //* Tested, FAST/eSMO
//#define USER_MOTOR1 Marathon_N56PNRA10102 //* Tested, FAST
// Low Voltage PMSM Motors
//#define USER_MOTOR1 Anaheim_BLY172S_24V //* Tested, FAST/eSMO/HALL/ENC(MD)
//#define USER_MOTOR1 Teknic_M2310PLN04K //* Tested, FAST/eSMO/ENC/HALL
//#define USER_MOTOR1 Nedic_EPSMS037_D12V
//#define USER_MOTOR1 Anaheim_BLY341S_48V
//#define USER_MOTOR1 Anaheim_BLY341S_Y24V
//#define USER_MOTOR1 Anaheim_BLY341S_D24V
//#define USER_MOTOR1 Drone_DJI920KV //* Tested, FAST
//#define USER_MOTOR1 Drone_BLK2BLADE //* Tested, FAST
//#define USER_MOTOR1 Drone_SENSEFLY //* Tested, FAST
//#define USER_MOTOR1 Drone_SF_Black //* Tested, FAST
//#define USER_MOTOR1 Drone9616_110KV_48V //* Tested, FAST
//#define USER_MOTOR1 Tamagawa_TS4606N8302 //* Tested, FAST/Resolver
//#define USER_MOTOR1 AKM21G_CK9NGE00 //* Tested, FAST/sin&cos encoder
//#define USER_MOTOR1 AirFan_MFA0500_24V //* Tested, FAST
//#define USER_MOTOR1 Tool_Makita_GFD01 //* Tested, FAST
// ACI Motor
//#define USER_MOTOR1 Marathon_5K33GN2A
//#define USER_MOTOR1 Marathon_56H17T2011A
//#define USER_MOTOR1 Dayton_3N352C
//#define USER_MOTOR1 EMSYNERGY_LVACI
#define USER_MOTOR1 my_pm_motor_1
//#define USER_MOTOR1 my_aci_motor_2
//------------------------------------------------------------------------------
#if (USER_MOTOR1 == Teknic_M2310PLN04K)
// the motor type
#define USER_MOTOR1_TYPE MOTOR_TYPE_PM
// the number of pole pairs of the motor
#define USER_MOTOR1_NUM_POLE_PAIRS (4)
// the rotor resistance value of the motor, in Ohm
#define USER_MOTOR1_Rr_Ohm (NULL)
// the stator resistance value of the motor, in Ohm
#define USER_MOTOR1_Rs_Ohm (0.393955578f)
// the stator inductance value of the motor in the direct direction, in H
#define USER_MOTOR1_Ls_d_H (0.000190442806f)
// the stator inductance value of the motor in the quadrature direction, in H
#define USER_MOTOR1_Ls_q_H (0.000190442806f)
// the rated flux value of the motor, in V/Hz
#define USER_MOTOR1_RATED_FLUX_VpHz (0.0399353318f)
// the Id rated current value of the motor, in A. Induction motors only
#define USER_MOTOR1_MAGNETIZING_CURRENT_A (NULL)
// the maximum current value for stator resistance (R_s) identification, in A
#define USER_MOTOR1_RES_EST_CURRENT_A (1.5f)
// the maximum current value to use for stator inductance identification, in A
#define USER_MOTOR1_IND_EST_CURRENT_A (-1.0f)
// the maximum current value of the motor, in A
#define USER_MOTOR1_MAX_CURRENT_A (6.6f)
// the R/L excitation frequency for motor parameters identification, in Hz
#define USER_MOTOR1_FLUX_EXC_FREQ_Hz (60.0f)
// the inertia that describes the amount of mass, in Kg.m2
#define USER_MOTOR1_INERTIA_Kgm2 (7.06154e-06)
// the rated voltage of the motor, V
#define USER_MOTOR1_RATED_VOLTAGE_V (24.0f) // V
// the minimum rotation frequency if the motor (Hz)
#define USER_MOTOR1_FREQ_MIN_Hz (9.0f) // Hz
// the maximum/base rotation frequency of the motor (Hz)
#define USER_MOTOR1_FREQ_MAX_Hz (600.0f) // Hz
// V/f Profile Parameters for open-loop in build level 2
// the low frequency f_low of V/f profile, in Hz,
// set to 10% of rated motor frequency
#define USER_MOTOR1_FREQ_LOW_Hz (5.0f) // Hz
// the high frequency f_high of V/f profile, in Hz,
// set to 100% of rated motor frequency
#define USER_MOTOR1_FREQ_HIGH_Hz (400.0f) // Hz
// the minimum voltage V_min of V/f profile,
// the value is suggested to set to 15% of rated motor voltage, in Volt.
#define USER_MOTOR1_VOLT_MIN_V (1.0f) // Volt
// the maximum voltage, V_max of V/f profile,
// the value is suggested to set to 100% of rated motor voltage, in Volt
#define USER_MOTOR1_VOLT_MAX_V (24.0f) // Volt
// the current increasing delta value for running the motor with force open-loop , in A
#define USER_MOTOR1_FORCE_DELTA_A (0.05f) // A
// the current increasing delta value for motor rotor alignment, in A
#define USER_MOTOR1_ALIGN_DELTA_A (0.01f) // A
// the current for running the motor with force open-loop, in A
#define USER_MOTOR1_FLUX_CURRENT_A (0.5f) // A
// the current for motor rotor alignment, in A
#define USER_MOTOR1_ALIGN_CURRENT_A (1.5f) // A
// the current for start to run motor with closed-loop when the speed is
// lower than the startup setting speed, in A
#define USER_MOTOR1_STARTUP_CURRENT_A (3.5f) // A
// the current for running the motor with torque control mode when start the motor, in A.
#define USER_MOTOR1_TORQUE_CURRENT_A (3.0f) // A
// the over-current threshold for the motor, in A.
// The value can be set to 50%~300% of the rated current of the motor
#define USER_MOTOR1_OVER_CURRENT_A (7.5f) // A
// the speed threshold for start the motor, in Hz
#define USER_MOTOR1_SPEED_START_Hz (35.0f) // Hz
// the speed threshold for running the motor with force open-loop, in Hz
#define USER_MOTOR1_SPEED_FORCE_Hz (30.0f) // Hz
// the acceleration for start the motor, in Hz/s.
#define USER_MOTOR1_ACCEL_START_Hzps (10.0f) // Hz/s
// the maximum acceleration for running the motor, in Hz/s
#define USER_MOTOR1_ACCEL_MAX_Hzps (20.0f) // Hz/s
// the speed threshold for running the motor with flying start mode, in Hz
#define USER_MOTOR1_SPEED_FS_Hz (3.0f) // Hz
// the current for motor brake, in A.
#define USER_MOTOR1_BRAKE_CURRENT_A (1.0f) // A
// the duration time for motor brake, in 5ms time base
#define USER_MOTOR1_BRAKE_TIME_DELAY (12000U) // 60s/5ms
#if defined(MOTOR1_FAST)
// the slope coefficient for Ld compensation, (0.0f~0.5f)
#define USER_MOTOR1_Ls_d_COMP_COEF (0.15f) // 0.0f~0.5f
// the slope coefficient for Lq compensation, (0.0f~0.5f)
#define USER_MOTOR1_Ls_q_COMP_COEF (0.35f) // 0.0f~0.5f
// the minimum inductance coefficient for inductance compensation, (0.0f~0.5f)
#define USER_MOTOR1_Ls_MIN_NUM_COEF (0.55f) // 0.5f~1.0f
// the near zero speed limit for electrical frequency estimation, Hz.
// The flux integrator uses this limit to regulate flux integration
#define USER_MOTOR1_FREQ_NEARZEROLIMIT_Hz (5.0f) // Hz
// the waiting time without enabling the Rs online clibrartion, in 5ms
#define USER_MOTOR1_RSONLINE_WAIT_TIME (60000U) // 5min/300s at 5ms base
// the the duration time with enabling the Rs online clibrartion, in 5ms
#define USER_MOTOR1_RSONLINE_WORK_TIME (24000U) //2min/120s at 5ms base
#endif // MOTOR1_FAST
#if defined(MOTOR1_ESMO)
// Only for eSMO
// PLL (phase-locked loop)
// PID proportional, integral, derivative
// the sliding mode control maximum gain that equals to Ke*fmax/vscale/sqrt(2)*factor(max),
// tune the factor(0.1~10) based the test status
#define USER_MOTOR1_KSLIDE_MAX (0.50f)
// the sliding mode control minimum gain that equals to Ke*fmin/vscale/sqrt(2)*factor(min),
// tune the factor(0.1~10) based the test status
#define USER_MOTOR1_KSLIDE_MIN (0.10f)
// the PLL control maximum gain that equals to 2*(Damping factor)*(Natural frequency)*factor(max),
// tune the factor(0.1~10) based the test status
#define USER_MOTOR1_PLL_KP_MAX (10.0f)
// the PLL control minimum gain that equals to 2*(Damping factor)*(Natural frequency)*factor(min),
// tune the factor(0.1~5) based the test status
#define USER_MOTOR1_PLL_KP_MIN (1.50f)
// the PLL control gain adjusting coefficient that
// equals to (Kpll_max-Kpll_min)/fscale/fmax
#define USER_MOTOR1_PLL_KP_SF (5.0f)
// the phase-locked loop control integration gain that
// equals to (Natural frequency)*(Natural frequency)*Ts
#define USER_MOTOR1_PLL_KI (2.8125E-06f) // Not used, reserve
// the threshold of the estimated current error for sliding mode control that
// equals to (motor maximum BEMF voltage / rated voltage), (0.3~0.5 )
#define USER_MOTOR1_BEMF_THRESHOLD (0.5f)
// the parameters of the low-pass filter for the estimated back EMF,
// Kslf equal to (fc*2*PI()*Ts), (0.5~2.5)
#define USER_MOTOR1_BEMF_KSLF_FC_Hz (2.0f)
// the offset coefficient to compensate the error by using
// the low-pass filter that equals to 1.0, or [0.5~1.5]
#define USER_MOTOR1_THETA_OFFSET_SF (1.0f)
// the cut-off frequency of the low-pass filter to calculate the estimated speed, (100~400)
#define USER_MOTOR1_SPEED_LPF_FC_Hz (200.0f)
#endif // MOTOR1_ESMO
#if defined(MOTOR1_ENC)
// Only for encoder
#define USER_MOTOR1_NUM_ENC_SLOTS (1000) // lines
#define USER_MOTOR1_ENC_POS_MAX (USER_MOTOR1_NUM_ENC_SLOTS * 4 - 1)
#define USER_MOTOR1_ENC_POS_OFFSET (668) // lines
#endif // MOTOR1_ENC
#if defined(MOTOR1_HALL)
// Only for hall sensor
#define USER_MOTOR1_HALL_DELTA_rad (MATH_TWO_PI / 36.0f) // rad
#endif // MOTOR1_HALL
#if defined(MOTOR1_ISBLDC)
// Only for IS-BLDC
#define USER_MOTOR1_RAMP_START_Hz (3.0f)
#define USER_MOTOR1_RAMP_END_Hz (30.0f)
#define USER_MOTOR1_RAMP_DELAY (5)
#define USER_MOTOR1_ISBLDC_INT_MAX (0.015f)
#define USER_MOTOR1_ISBLDC_INT_MIN (0.010f)
#endif // MOTOR1_ISBLDC
// Current and Speed PI Regulators Tuning Coefficient
// the low speed threshold for adjusting the Kp and Ki of the speed PI regulator
#define USER_MOTOR1_GAIN_SPEED_LOW_Hz (60.0f) // 10%~50% of the rated speed
// the high speed threshold for adjusting the Kp and Ki of the speed PI regulator
#define USER_MOTOR1_GAIN_SPEED_HIGH_Hz (150.0f) // 50%~100% of the rated speed
// the gain coefficient to adjust the Kp of the speed PI regulator for startup
#define USER_MOTOR1_KP_SPD_START_SF (1.5f) // 0.1~100.0
// the gain coefficient to adjust the Ki of the speed PI regulator for startup
#define USER_MOTOR1_KI_SPD_START_SF (1.5f) // 0.1~10.0
// the low gain coefficient to adjust the Kp of the speed PI regulator
#define USER_MOTOR1_KP_SPD_LOW_SF (2.0f) // 0.1~100.0
// the low gain coefficient to adjust the Ki of the speed PI regulator
#define USER_MOTOR1_KI_SPD_LOW_SF (2.0f) // 0.1~10.0
// the high gain coefficient to adjust the Kp of the speed PI regulator
#define USER_MOTOR1_KP_SPD_HIGH_SF (1.0f) // 0.1~100.0
// the high gain coefficient to adjust the Ki of the speed PI regulator
#define USER_MOTOR1_KI_SPD_HIGH_SF (1.0f) // 0.1~10.0
// the low current threshold to adjust the Kp and Ki of the q-axis current PI regulator
#define USER_MOTOR1_GAIN_IQ_LOW_A (2.0f) // 10%~50% of the rated current
// the high current threshold to adjust the Kp and Ki of the q-axis current PI regulator
#define USER_MOTOR1_GAIN_IQ_HIGH_A (6.0f) // 50%~100% of the rated current
// the gain coefficient to adjust the Kp of the q-axis current PI regulator for startup
#define USER_MOTOR1_KP_IQ_START_SF (1.5f) // 0.1~10.0
// the gain coefficient to adjust the Ki of the q-axis current PI regulator for startup
#define USER_MOTOR1_KI_IQ_START_SF (1.5f) // 0.1~10.0
// the low gain coefficient to adjust the Kp of the q-axis current PI regulator
#define USER_MOTOR1_KP_IQ_LOW_SF (2.0f) // 0.1~10.0
// the low gain coefficient to adjust the Ki of the q-axis current PI regulator
#define USER_MOTOR1_KI_IQ_LOW_SF (2.0f) // 0.1~10.0
// the high gain coefficient to adjust the Kp of the d-axis current PI regulator
#define USER_MOTOR1_KP_IQ_HIGH_SF (1.0f) // 0.1~10.0
// the high gain coefficient to adjust the Ki of the d-axis current PI regulator
#define USER_MOTOR1_KI_IQ_HIGH_SF (1.0f) // 0.1~10.0
// the gain coefficient to adjust the Kp of the q-axis current PI regulator
#define USER_MOTOR1_KP_ID_SF (1.0f) // 0.1~10.0
// the gain coefficient to adjust the Ki of the q-axis current PI regulator
#define USER_MOTOR1_KI_ID_SF (1.0f) // 0.1~10.0
//-----------------------------------------------------------------------------
#elif (USER_MOTOR1 == Estun_EMJ_04APB22)
// Refer to the description of the following parameters for Teknic_M2310PLN04K
#define USER_MOTOR1_TYPE MOTOR_TYPE_PM
#define USER_MOTOR1_NUM_POLE_PAIRS (4)
#define USER_MOTOR1_Rr_Ohm (0.0f)
#define USER_MOTOR1_Rs_Ohm (2.62655902f)
#define USER_MOTOR1_Ls_d_H (0.00860825367f)
#define USER_MOTOR1_Ls_q_H (0.00860825367f)
#define USER_MOTOR1_RATED_FLUX_VpHz (0.377903223f)
#define USER_MOTOR1_MAGNETIZING_CURRENT_A (NULL)
#define USER_MOTOR1_RES_EST_CURRENT_A (1.0f)
#define USER_MOTOR1_IND_EST_CURRENT_A (-1.0f)
#define USER_MOTOR1_MAX_CURRENT_A (5.0f)
#define USER_MOTOR1_FLUX_EXC_FREQ_Hz (40.0f)
#define USER_MOTOR1_NUM_ENC_SLOTS (2500)
#define USER_MOTOR1_INERTIA_Kgm2 (3.100017e-5)
#define USER_MOTOR1_FREQ_NEARZEROLIMIT_Hz (5.0f) // Hz
// Ls compensation coefficient
#define USER_MOTOR1_Ls_d_COMP_COEF (0.15f) // 0.0f~0.5f
#define USER_MOTOR1_Ls_q_COMP_COEF (0.35f) // 0.0f~0.5f
#define USER_MOTOR1_Ls_MIN_NUM_COEF (0.55f) // 0.5f~1.0f
#define USER_MOTOR1_RATED_VOLTAGE_V (200.0f)
#define USER_MOTOR1_FREQ_MIN_Hz (5.0f) // Hz
#define USER_MOTOR1_FREQ_MAX_Hz (400.0f) // Hz
#define USER_MOTOR1_FREQ_LOW_Hz (10.0f) // Hz
#define USER_MOTOR1_FREQ_HIGH_Hz (200.0f) // Hz
#define USER_MOTOR1_VOLT_MIN_V (20.0f) // Volt
#define USER_MOTOR1_VOLT_MAX_V (200.0f) // Volt
#define USER_MOTOR1_FORCE_DELTA_A (0.05f) // A
#define USER_MOTOR1_ALIGN_DELTA_A (0.01f) // A
#define USER_MOTOR1_FLUX_CURRENT_A (0.5f) // A
#define USER_MOTOR1_ALIGN_CURRENT_A (1.0f) // A
#define USER_MOTOR1_STARTUP_CURRENT_A (1.5f) // A
#define USER_MOTOR1_TORQUE_CURRENT_A (1.0f) // A
#define USER_MOTOR1_OVER_CURRENT_A (4.5f) // A
#define USER_MOTOR1_SPEED_START_Hz (30.0f)
#define USER_MOTOR1_SPEED_FORCE_Hz (20.0f)
#define USER_MOTOR1_ACCEL_START_Hzps (10.0f) // Hz/s
#define USER_MOTOR1_ACCEL_MAX_Hzps (20.0f) // Hz/s
#define USER_MOTOR1_SPEED_FS_Hz (3.0f)
// only for encoder
#define USER_MOTOR1_ENC_POS_MAX (USER_MOTOR1_NUM_ENC_SLOTS * 4 - 1)
#define USER_MOTOR1_ENC_POS_OFFSET (668)
// Only for eSMO
#define USER_MOTOR1_KSLIDE_MAX (1.50f) // 2.0f
#define USER_MOTOR1_KSLIDE_MIN (0.75f)
#define USER_MOTOR1_PLL_KP_MAX (10.0f)
#define USER_MOTOR1_PLL_KP_MIN (2.0f)
#define USER_MOTOR1_PLL_KP_SF (5.0f)
#define USER_MOTOR1_PLL_KI (2.8125E-06f) // Not used, reserve
#define USER_MOTOR1_BEMF_THRESHOLD (0.5f)
#define USER_MOTOR1_BEMF_KSLF_FC_Hz (2.0f) // 1.0f
#define USER_MOTOR1_THETA_OFFSET_SF (1.0f) // 2.5f
#define USER_MOTOR1_SPEED_LPF_FC_Hz (200.0f) // 100.0f
// for IS-BLDC
#define USER_MOTOR1_RAMP_START_Hz (5.0f)
#define USER_MOTOR1_RAMP_END_Hz (30.0f)
#define USER_MOTOR1_RAMP_DELAY (1)
#define USER_MOTOR1_ISBLDC_INT_MAX (0.015f)
#define USER_MOTOR1_ISBLDC_INT_MIN (0.010f)
// for Rs online calibration
#define USER_MOTOR1_RSONLINE_WAIT_TIME (60000U) // 5min/300s at 5ms base
#define USER_MOTOR1_RSONLINE_WORK_TIME (24000U) //2min/120s at 5ms base
// Current and Speed PI Regulators Tuning Coefficient
#define USER_MOTOR1_GAIN_SPEED_LOW_Hz (60.0f)
#define USER_MOTOR1_GAIN_SPEED_HIGH_Hz (150.0f)
#define USER_MOTOR1_KP_SPD_START_SF (1.5f) // 0.1~100.0
#define USER_MOTOR1_KI_SPD_START_SF (1.5f) // 0.1~10.0
#define USER_MOTOR1_KP_SPD_LOW_SF (2.0f) // 0.1~100.0
#define USER_MOTOR1_KI_SPD_LOW_SF (2.0f) // 0.1~10.0
#define USER_MOTOR1_KP_SPD_HIGH_SF (1.0f) // 0.1~100.0
#define USER_MOTOR1_KI_SPD_HIGH_SF (1.0f) // 0.1~10.0
#define USER_MOTOR1_GAIN_IQ_LOW_A (2.0f)
#define USER_MOTOR1_GAIN_IQ_HIGH_A (6.0f)
#define USER_MOTOR1_KP_IQ_START_SF (1.5f) // 0.1~10.0
#define USER_MOTOR1_KI_IQ_START_SF (1.5f) // 0.1~10.0
#define USER_MOTOR1_KP_IQ_LOW_SF (2.0f) // 0.1~10.0
#define USER_MOTOR1_KI_IQ_LOW_SF (2.0f) // 0.1~10.0
#define USER_MOTOR1_KP_IQ_HIGH_SF (1.0f) // 0.1~10.0
#define USER_MOTOR1_KI_IQ_HIGH_SF (1.0f) // 0.1~10.0
#define USER_MOTOR1_KP_ID_SF (1.0f) // 0.1~10.0
#define USER_MOTOR1_KI_ID_SF (1.0f) // 0.1~10.0
//------------------------------------------------------------------------------
#elif (USER_MOTOR1 == Tool_Makita_GFD01)
// Refer to the description of the following parameters for Teknic_M2310PLN04K
#define USER_MOTOR1_TYPE MOTOR_TYPE_PM
#define USER_MOTOR1_NUM_POLE_PAIRS (2)
#define USER_MOTOR1_Rr_Ohm (NULL)
// 15kHz
//#define USER_MOTOR1_Rs_Ohm (0.0253030714f)
//#define USER_MOTOR1_Ls_d_H (2.89102645e-05f)
//#define USER_MOTOR1_Ls_q_H (2.89102645e-05f)
//#define USER_MOTOR1_RATED_FLUX_VpHz (0.0242515542f)
//// 25kHz
//#define USER_MOTOR1_Rs_Ohm (0.0250713862f)
//#define USER_MOTOR1_Ls_d_H (2.84397684e-05f)
//#define USER_MOTOR1_Ls_q_H (2.84397684e-05f)
//#define USER_MOTOR1_RATED_FLUX_VpHz (0.0242347941f)
// 20kHz
#define USER_MOTOR1_Rs_Ohm (0.0379858911f)
#define USER_MOTOR1_Ls_d_H (0.000106012929f)
#define USER_MOTOR1_Ls_q_H (0.000106012929f)
#define USER_MOTOR1_RATED_FLUX_VpHz (0.0138726495f)
#define USER_MOTOR1_MAGNETIZING_CURRENT_A (NULL)
#define USER_MOTOR1_RES_EST_CURRENT_A (5.0f)
#define USER_MOTOR1_IND_EST_CURRENT_A (-3.5f)
#define USER_MOTOR1_MAX_CURRENT_A (25.0f)
#define USER_MOTOR1_FLUX_EXC_FREQ_Hz (100.0f)
#define USER_MOTOR1_INERTIA_Kgm2 (7.06154e-06)
// Ls compensation coefficient
#define USER_MOTOR1_Ls_d_COMP_COEF (0.15f) // 0.0f~0.5f
#define USER_MOTOR1_Ls_q_COMP_COEF (0.35f) // 0.0f~0.5f
#define USER_MOTOR1_Ls_MIN_NUM_COEF (0.55f) // 0.5f~1.0f
#define USER_MOTOR1_FREQ_NEARZEROLIMIT_Hz (5.0f) // Hz
#define USER_MOTOR1_RATED_VOLTAGE_V (36.0f) // V
#define USER_MOTOR1_FREQ_MIN_Hz (10.0f) // Hz
#define USER_MOTOR1_FREQ_MAX_Hz (1500.0f) // Hz
#define USER_MOTOR1_FREQ_LOW_Hz (10.0f) // Hz
#define USER_MOTOR1_FREQ_HIGH_Hz (1500.0f) // Hz
#define USER_MOTOR1_VOLT_MIN_V (3.0f) // Volt
#define USER_MOTOR1_VOLT_MAX_V (36.0f) // Volt
#define USER_MOTOR1_FORCE_DELTA_A (0.05f) // A
#define USER_MOTOR1_ALIGN_DELTA_A (0.01f) // A
#define USER_MOTOR1_FLUX_CURRENT_A (0.5f) // A
#define USER_MOTOR1_ALIGN_CURRENT_A (1.0f) // A
#define USER_MOTOR1_STARTUP_CURRENT_A (8.5f) // A
#define USER_MOTOR1_TORQUE_CURRENT_A (5.0f) // A
#define USER_MOTOR1_OVER_CURRENT_A (26.5f) // A
#define USER_MOTOR1_SPEED_START_Hz (35.0f) // Hz
#define USER_MOTOR1_SPEED_FORCE_Hz (30.0f) // Hz
#define USER_MOTOR1_ACCEL_START_Hzps (50.0f) // Hz/s
#define USER_MOTOR1_ACCEL_MAX_Hzps (200.0f) // Hz/s
#define USER_MOTOR1_SPEED_FS_Hz (3.0f) // Hz
#define USER_MOTOR1_BRAKE_CURRENT_A (1.0f) // A
#define USER_MOTOR1_BRAKE_TIME_DELAY (12000U) // 60s/5ms
// Only for encoder
#define USER_MOTOR1_NUM_ENC_SLOTS (1000) // lines
#define USER_MOTOR1_ENC_POS_MAX (USER_MOTOR1_NUM_ENC_SLOTS * 4 - 1)
#define USER_MOTOR1_ENC_POS_OFFSET (668) // lines
// Only for eSMO
#define USER_MOTOR1_KSLIDE_MAX (0.50f)
#define USER_MOTOR1_KSLIDE_MIN (0.10f)
#define USER_MOTOR1_PLL_KP_MAX (10.0f)
#define USER_MOTOR1_PLL_KP_MIN (1.50f)
#define USER_MOTOR1_PLL_KP_SF (5.0f)
#define USER_MOTOR1_PLL_KI (2.8125E-06f) // Not used, reserve
#define USER_MOTOR1_BEMF_THRESHOLD (0.5f)
#define USER_MOTOR1_BEMF_KSLF_FC_Hz (2.0f)
#define USER_MOTOR1_THETA_OFFSET_SF (1.0f)
#define USER_MOTOR1_SPEED_LPF_FC_Hz (200.0f)
// Only for IS-BLDC
#define USER_MOTOR1_RAMP_START_Hz (3.0f)
#define USER_MOTOR1_RAMP_END_Hz (30.0f)
#define USER_MOTOR1_RAMP_DELAY (5)
#define USER_MOTOR1_ISBLDC_INT_MAX (0.015f)
#define USER_MOTOR1_ISBLDC_INT_MIN (0.010f)
// for Rs online calibration with FAST
#define USER_MOTOR1_RSONLINE_WAIT_TIME (60000U) // 5min/300s at 5ms base
#define USER_MOTOR1_RSONLINE_WORK_TIME (24000U) //2min/120s at 5ms base
// Controller Tuning Coefficient
#define USER_MOTOR1_GAIN_SPEED_LOW_Hz (60.0f)
#define USER_MOTOR1_GAIN_SPEED_HIGH_Hz (150.0f)
#define USER_MOTOR1_KP_SPD_START_SF (1.5f) // 0.1~100.0
#define USER_MOTOR1_KI_SPD_START_SF (1.5f) // 0.1~10.0
#define USER_MOTOR1_KP_SPD_LOW_SF (2.0f) // 0.1~100.0
#define USER_MOTOR1_KI_SPD_LOW_SF (2.0f) // 0.1~10.0
#define USER_MOTOR1_KP_SPD_HIGH_SF (1.0f) // 0.1~100.0
#define USER_MOTOR1_KI_SPD_HIGH_SF (1.0f) // 0.1~10.0
#define USER_MOTOR1_GAIN_IQ_LOW_A (2.0f)
#define USER_MOTOR1_GAIN_IQ_HIGH_A (6.0f)
#define USER_MOTOR1_KP_IQ_START_SF (1.5f) // 0.1~10.0
#define USER_MOTOR1_KI_IQ_START_SF (1.5f) // 0.1~10.0
#define USER_MOTOR1_KP_IQ_LOW_SF (2.0f) // 0.1~10.0
#define USER_MOTOR1_KI_IQ_LOW_SF (2.0f) // 0.1~10.0
#define USER_MOTOR1_KP_IQ_HIGH_SF (1.0f) // 0.1~10.0
#define USER_MOTOR1_KI_IQ_HIGH_SF (1.0f) // 0.1~10.0
#define USER_MOTOR1_KP_ID_SF (1.0f) // 0.1~10.0
#define USER_MOTOR1_KI_ID_SF (1.0f) // 0.1~10.0
//-----------------------------------------------------------------------------------------
#elif (USER_MOTOR1 == CHMotor_WM_Test)
// Refer to the description of the following parameters for Teknic_M2310PLN04K
#define USER_MOTOR1_TYPE MOTOR_TYPE_PM
#define USER_MOTOR1_NUM_POLE_PAIRS (8)
#define USER_MOTOR1_Rr_Ohm (0.0f)
#define USER_MOTOR1_Rs_Ohm (3.56442809f)
#define USER_MOTOR1_Ls_d_H (0.0478876233f)
#define USER_MOTOR1_Ls_q_H (0.0478876233f)
#define USER_MOTOR1_RATED_FLUX_VpHz (0.377903223f)
#define USER_MOTOR1_MAGNETIZING_CURRENT_A (NULL)
#define USER_MOTOR1_RES_EST_CURRENT_A (1.0f)
#define USER_MOTOR1_IND_EST_CURRENT_A (-1.0f)
#define USER_MOTOR1_MAX_CURRENT_A (5.0f)
#define USER_MOTOR1_FLUX_EXC_FREQ_Hz (40.0f)
#define USER_MOTOR1_NUM_ENC_SLOTS (2500)
#define USER_MOTOR1_INERTIA_Kgm2 (3.100017e-5)
#define USER_MOTOR1_FREQ_NEARZEROLIMIT_Hz (5.0f) // Hz
// Ls compensation coefficient
#define USER_MOTOR1_Ls_d_COMP_COEF (0.15f) // 0.0f~0.5f
#define USER_MOTOR1_Ls_q_COMP_COEF (0.35f) // 0.0f~0.5f
#define USER_MOTOR1_Ls_MIN_NUM_COEF (0.55f) // 0.5f~1.0f
#define USER_MOTOR1_RATED_VOLTAGE_V (200.0f)
#define USER_MOTOR1_FREQ_MIN_Hz (5.0f) // Hz
#define USER_MOTOR1_FREQ_MAX_Hz (400.0f) // Hz
#define USER_MOTOR1_FREQ_LOW_Hz (10.0f) // Hz
#define USER_MOTOR1_FREQ_HIGH_Hz (200.0f) // Hz
#define USER_MOTOR1_VOLT_MIN_V (20.0f) // Volt
#define USER_MOTOR1_VOLT_MAX_V (200.0f) // Volt
#define USER_MOTOR1_FORCE_DELTA_A (0.05f) // A
#define USER_MOTOR1_ALIGN_DELTA_A (0.01f) // A
#define USER_MOTOR1_FLUX_CURRENT_A (0.5f) // A
#define USER_MOTOR1_ALIGN_CURRENT_A (1.0f) // A
#define USER_MOTOR1_STARTUP_CURRENT_A (2.5f) // A
#define USER_MOTOR1_TORQUE_CURRENT_A (1.0f) // A
#define USER_MOTOR1_OVER_CURRENT_A (4.5f) // A
#define USER_MOTOR1_SPEED_START_Hz (30.0f)
#define USER_MOTOR1_SPEED_FORCE_Hz (20.0f)
#define USER_MOTOR1_ACCEL_START_Hzps (10.0f) // Hz/s
#define USER_MOTOR1_ACCEL_MAX_Hzps (20.0f) // Hz/s
#define USER_MOTOR1_SPEED_FS_Hz (3.0f)
// only for encoder
#define USER_MOTOR1_ENC_POS_MAX (USER_MOTOR1_NUM_ENC_SLOTS * 4 - 1)
#define USER_MOTOR1_ENC_POS_OFFSET (668)
// Only for eSMO
#define USER_MOTOR1_KSLIDE_MAX (1.50f) // 2.0f
#define USER_MOTOR1_KSLIDE_MIN (0.75f)
#define USER_MOTOR1_PLL_KP_MAX (10.0f)
#define USER_MOTOR1_PLL_KP_MIN (2.0f)
#define USER_MOTOR1_PLL_KP_SF (5.0f)
#define USER_MOTOR1_PLL_KI (2.8125E-06f) // Not used, reserve
#define USER_MOTOR1_BEMF_THRESHOLD (0.5f)
#define USER_MOTOR1_BEMF_KSLF_FC_Hz (2.0f) // 1.0f
#define USER_MOTOR1_THETA_OFFSET_SF (1.0f) // 2.5f
#define USER_MOTOR1_SPEED_LPF_FC_Hz (200.0f) // 100.0f
// for IS-BLDC
#define USER_MOTOR1_RAMP_START_Hz (5.0f)
#define USER_MOTOR1_RAMP_END_Hz (30.0f)
#define USER_MOTOR1_RAMP_DELAY (1)
#define USER_MOTOR1_ISBLDC_INT_MAX (0.015f)
#define USER_MOTOR1_ISBLDC_INT_MIN (0.010f)
// for Rs online calibration
#define USER_MOTOR1_RSONLINE_WAIT_TIME (60000U) // 5min/300s at 5ms base
#define USER_MOTOR1_RSONLINE_WORK_TIME (24000U) //2min/120s at 5ms base
// Current and Speed PI Regulators Tuning Coefficient
#define USER_MOTOR1_GAIN_SPEED_LOW_Hz (60.0f)
#define USER_MOTOR1_GAIN_SPEED_HIGH_Hz (150.0f)
#define USER_MOTOR1_KP_SPD_START_SF (1.5f) // 0.1~100.0
#define USER_MOTOR1_KI_SPD_START_SF (1.5f) // 0.1~10.0
#define USER_MOTOR1_KP_SPD_LOW_SF (2.0f) // 0.1~100.0
#define USER_MOTOR1_KI_SPD_LOW_SF (2.0f) // 0.1~10.0
#define USER_MOTOR1_KP_SPD_HIGH_SF (1.0f) // 0.1~100.0
#define USER_MOTOR1_KI_SPD_HIGH_SF (1.0f) // 0.1~10.0
#define USER_MOTOR1_GAIN_IQ_LOW_A (2.0f)
#define USER_MOTOR1_GAIN_IQ_HIGH_A (6.0f)
#define USER_MOTOR1_KP_IQ_START_SF (1.5f) // 0.1~10.0
#define USER_MOTOR1_KI_IQ_START_SF (1.5f) // 0.1~10.0
#define USER_MOTOR1_KP_IQ_LOW_SF (2.0f) // 0.1~10.0
#define USER_MOTOR1_KI_IQ_LOW_SF (2.0f) // 0.1~10.0
#define USER_MOTOR1_KP_IQ_HIGH_SF (1.0f) // 0.1~10.0
#define USER_MOTOR1_KI_IQ_HIGH_SF (1.0f) // 0.1~10.0
#define USER_MOTOR1_KP_ID_SF (1.0f) // 0.1~10.0
#define USER_MOTOR1_KI_ID_SF (1.0f) // 0.1~10.0
#elif (USER_MOTOR1 == Marathon_N56PNRA10102)
// Refer to the description of the following parameters for Teknic_M2310PLN04K
#define USER_MOTOR1_TYPE MOTOR_TYPE_PM
#define USER_MOTOR1_NUM_POLE_PAIRS (3)
#define USER_MOTOR1_Rr_Ohm (NULL)
#define USER_MOTOR1_Rs_Ohm (2.21783066f)
#define USER_MOTOR1_Ls_d_H (0.0271135084f)
#define USER_MOTOR1_Ls_q_H (0.0271135084f)
#define USER_MOTOR1_RATED_FLUX_VpHz (0.575999975f)
#define USER_MOTOR1_MAGNETIZING_CURRENT_A (NULL)
#define USER_MOTOR1_RES_EST_CURRENT_A (1.5f)
#define USER_MOTOR1_IND_EST_CURRENT_A (-1.0f)
#define USER_MOTOR1_MAX_CURRENT_A (5.0f)
#define USER_MOTOR1_FLUX_EXC_FREQ_Hz (20.0f)
#define USER_MOTOR1_NUM_ENC_SLOTS (2500)
#define USER_MOTOR1_INERTIA_Kgm2 (6.300017e-5)
#define USER_MOTOR1_FREQ_NEARZEROLIMIT_Hz (5.0f) // Hz
#define USER_MOTOR1_RATED_VOLTAGE_V (200.0f) // V
#define USER_MOTOR1_FREQ_MIN_Hz (5.0f) // Hz
#define USER_MOTOR1_FREQ_MAX_Hz (400.0f) // Hz
#define USER_MOTOR1_FREQ_LOW_Hz (10.0) // Hz
#define USER_MOTOR1_FREQ_HIGH_Hz (200.0) // Hz
#define USER_MOTOR1_VOLT_MIN_V (20.0) // Volt
#define USER_MOTOR1_VOLT_MAX_V (200.0) // Volt
#define USER_MOTOR1_FORCE_DELTA_A (0.05f) // A
#define USER_MOTOR1_ALIGN_DELTA_A (0.01f) // A
#define USER_MOTOR1_FLUX_CURRENT_A (0.5f) // A
#define USER_MOTOR1_ALIGN_CURRENT_A (1.0f) // A
#define USER_MOTOR1_STARTUP_CURRENT_A (2.5f) // A
#define USER_MOTOR1_TORQUE_CURRENT_A (1.0f) // A
#define USER_MOTOR1_OVER_CURRENT_A (4.5f) // A
#define USER_MOTOR1_SPEED_START_Hz (30.0f) // Hz
#define USER_MOTOR1_SPEED_FORCE_Hz (20.0f) // Hz
#define USER_MOTOR1_ACCEL_START_Hzps (10.0f) // Hz/s
#define USER_MOTOR1_ACCEL_MAX_Hzps (20.0f) // Hz/s
#define USER_MOTOR1_SPEED_FS_Hz (3.0f)
// only for encoder
#define USER_MOTOR1_ENC_POS_MAX (USER_MOTOR1_NUM_ENC_SLOTS * 4 - 1)
#define USER_MOTOR1_ENC_POS_OFFSET (668)
// Only for eSMO
#define USER_MOTOR1_KSLIDE_MAX (1.50f) // 1.5f
#define USER_MOTOR1_KSLIDE_MIN (0.75f)
#define USER_MOTOR1_PLL_KP_MAX (10.0f)
#define USER_MOTOR1_PLL_KP_MIN (2.0f)
#define USER_MOTOR1_PLL_KP_SF (5.0f)
#define USER_MOTOR1_PLL_KI (2.8125E-06f) // Not used, reserve
#define USER_MOTOR1_BEMF_THRESHOLD (0.5f)
#define USER_MOTOR1_BEMF_KSLF_FC_Hz (2.0f) // 2.0f
#define USER_MOTOR1_THETA_OFFSET_SF (1.0f) // 1.0f
#define USER_MOTOR1_SPEED_LPF_FC_Hz (200.0f) // 200.0f
// for IS-BLDC
#define USER_MOTOR1_RAMP_START_Hz (5.0f)
#define USER_MOTOR1_RAMP_END_Hz (30.0f)
#define USER_MOTOR1_RAMP_DELAY (1)
#define USER_MOTOR1_ISBLDC_INT_MAX (0.015f)
#define USER_MOTOR1_ISBLDC_INT_MIN (0.010f)
// for Rs online calibration
#define USER_MOTOR1_RSONLINE_WAIT_TIME (12000U) // 1min/60s at 5ms base
#define USER_MOTOR1_RSONLINE_WORK_TIME (12000U) //1min/60s at 5ms base
// Current and Speed PI Regulators Tuning Coefficient
#define USER_MOTOR1_GAIN_SPEED_LOW_Hz (60.0f)
#define USER_MOTOR1_GAIN_SPEED_HIGH_Hz (150.0f)
#define USER_MOTOR1_KP_SPD_START_SF (1.5f) // 0.1~100.0
#define USER_MOTOR1_KI_SPD_START_SF (1.5f) // 0.1~10.0
#define USER_MOTOR1_KP_SPD_LOW_SF (2.0f) // 0.1~100.0
#define USER_MOTOR1_KI_SPD_LOW_SF (2.0f) // 0.1~10.0
#define USER_MOTOR1_KP_SPD_HIGH_SF (1.0f) // 0.1~100.0
#define USER_MOTOR1_KI_SPD_HIGH_SF (1.0f) // 0.1~10.0
#define USER_MOTOR1_GAIN_IQ_LOW_A (2.0f)
#define USER_MOTOR1_GAIN_IQ_HIGH_A (6.0f)
#define USER_MOTOR1_KP_IQ_START_SF (1.5f) // 0.1~10.0
#define USER_MOTOR1_KI_IQ_START_SF (1.5f) // 0.1~10.0
#define USER_MOTOR1_KP_IQ_LOW_SF (2.0f) // 0.1~10.0
#define USER_MOTOR1_KI_IQ_LOW_SF (2.0f) // 0.1~10.0
#define USER_MOTOR1_KP_IQ_HIGH_SF (1.0f) // 0.1~10.0
#define USER_MOTOR1_KI_IQ_HIGH_SF (1.0f) // 0.1~10.0
#define USER_MOTOR1_KP_ID_SF (1.0f) // 0.1~10.0
#define USER_MOTOR1_KI_ID_SF (1.0f) // 0.1~10.0
//------------------------------------------------------------------------------
#elif (USER_MOTOR1 == Tamagawa_TS4606N8302)
// Refer to the description of the following parameters for Teknic_M2310PLN04K
#define USER_MOTOR1_TYPE MOTOR_TYPE_PM
#define USER_MOTOR1_NUM_POLE_PAIRS (4)
#define USER_MOTOR1_Rr_Ohm (NULL)
#define USER_MOTOR1_Rs_Ohm (0.214345068f)
#define USER_MOTOR1_Ls_d_H (0.000486983976f)
#define USER_MOTOR1_Ls_q_H (0.000486983976f)
#define USER_MOTOR1_RATED_FLUX_VpHz (0.0441591553f)
#define USER_MOTOR1_MAGNETIZING_CURRENT_A (NULL)
#define USER_MOTOR1_RES_EST_CURRENT_A (2.0f)
#define USER_MOTOR1_IND_EST_CURRENT_A (-1.0f)
#define USER_MOTOR1_MAX_CURRENT_A (8.5f)
#define USER_MOTOR1_FLUX_EXC_FREQ_Hz (60.0f)
#define USER_MOTOR1_INERTIA_Kgm2 (7.06154e-06)
// Ls compensation coefficient
#define USER_MOTOR1_Ls_d_COMP_COEF (0.15f) // 0.0f~0.5f
#define USER_MOTOR1_Ls_q_COMP_COEF (0.35f) // 0.0f~0.5f
#define USER_MOTOR1_Ls_MIN_NUM_COEF (0.55f) // 0.5f~1.0f
#define USER_MOTOR1_FREQ_NEARZEROLIMIT_Hz (5.0f) // Hz
#define USER_MOTOR1_FREQ_LOW_Hz (10.0f) // Hz
#define USER_MOTOR1_FREQ_HIGH_Hz (400.0f) // Hz
#define USER_MOTOR1_VOLT_MIN_V (3.0f) // Volt
#define USER_MOTOR1_VOLT_MAX_V (24.0f) // Volt
#define USER_MOTOR1_RATED_VOLTAGE_V (24.0f) // V
#define USER_MOTOR1_FREQ_MIN_Hz (9.0f) // Hz
#define USER_MOTOR1_FREQ_MAX_Hz (600.0f) // Hz
#define USER_MOTOR1_FORCE_DELTA_A (0.05f) // A
#define USER_MOTOR1_ALIGN_DELTA_A (0.01f) // A
#define USER_MOTOR1_FLUX_CURRENT_A (0.5f) // A
#define USER_MOTOR1_ALIGN_CURRENT_A (1.5f) // A
#define USER_MOTOR1_STARTUP_CURRENT_A (3.5f) // A
#define USER_MOTOR1_TORQUE_CURRENT_A (3.0f) // A
#define USER_MOTOR1_OVER_CURRENT_A (7.5f) // A
#define USER_MOTOR1_SPEED_START_Hz (5.0f) // Hz
#define USER_MOTOR1_SPEED_FORCE_Hz (5.0f) // Hz
#define USER_MOTOR1_ACCEL_START_Hzps (10.0f) // Hz/s
#define USER_MOTOR1_ACCEL_MAX_Hzps (20.0f) // Hz/s
#define USER_MOTOR1_SPEED_FS_Hz (3.0f) // Hz
#define USER_MOTOR1_BRAKE_CURRENT_A (1.0f) // A
#define USER_MOTOR1_BRAKE_TIME_DELAY (12000U) // 60s/5ms
// for Rs online calibration with FAST
#define USER_MOTOR1_RSONLINE_WAIT_TIME (60000U) // 5min/300s at 5ms base
#define USER_MOTOR1_RSONLINE_WORK_TIME (24000U) //2min/120s at 5ms base
// Only for encoder
#define USER_MOTOR1_NUM_ENC_SLOTS (1000) // lines
#define USER_MOTOR1_ENC_POS_MAX (USER_MOTOR1_NUM_ENC_SLOTS * 4 - 1)
#define USER_MOTOR1_ENC_POS_OFFSET (668) // lines
// Only for eSMO
#define USER_MOTOR1_KSLIDE_MAX (0.50f)
#define USER_MOTOR1_KSLIDE_MIN (0.10f)
#define USER_MOTOR1_PLL_KP_MAX (10.0f)
#define USER_MOTOR1_PLL_KP_MIN (1.50f)
#define USER_MOTOR1_PLL_KP_SF (5.0f)
#define USER_MOTOR1_PLL_KI (2.8125E-06f) // Not used, reserve
#define USER_MOTOR1_BEMF_THRESHOLD (0.5f)
#define USER_MOTOR1_BEMF_KSLF_FC_Hz (2.0f)
#define USER_MOTOR1_THETA_OFFSET_SF (1.0f)
#define USER_MOTOR1_SPEED_LPF_FC_Hz (200.0f)
// Only for IS-BLDC
#define USER_MOTOR1_RAMP_START_Hz (3.0f)
#define USER_MOTOR1_RAMP_END_Hz (30.0f)
#define USER_MOTOR1_RAMP_DELAY (5)
#define USER_MOTOR1_ISBLDC_INT_MAX (0.015f)
#define USER_MOTOR1_ISBLDC_INT_MIN (0.010f)
// Resolver related parameters defines
#define USER_M1_PEXC_OFFSET_SET (1574.6f)
#define USER_M1_PEXC_SCALE_SF_SET (0.5f / 2048.0f)
#define USER_M1_PSIN_OFFSET_SET (1849.927f)
#define USER_M1_PCOS_OFFSET_SET (1849.2431f)
#define USER_M1_PSIN_SCALE_SF_SET (0.0015059217f)
#define USER_M1_PCOS_SCALE_SF_SET (0.0015136319f)
// Decouple the main PWM frequency and resolver frequency
// Note that the ratio between PWM frequency resolver sampling frequency
// have to be integer value
#define USER_MOTOR1_RESOLVER_EXCITE_FREQUENCY (10.0f) // 10.0kHz
#define USER_MOTOR1_RESOLVER_SAMPLE_FREQUENCY (20.0f)
#define USER_MOTOR1_RESOLVER_EXC_PWM_FREQUENCY \
(USER_MOTOR1_RESOLVER_EXCITE_FREQUENCY * 20.0) // 200kHz
// Change to SYSTEM_FREQUENCY / 1 after changing EPWM Clock Divide Select to /1
#define USER_MOTOR1_RESOLVER_ADC_PWM_TICKS \
((USER_SYSTEM_FREQ_MHz / USER_MOTOR1_RESOLVER_SAMPLE_FREQUENCY) * \
500.0f - 1.0f)
#define USER_MOTOR1_RESOLVER_DAC_PWM_TICKS \
((USER_SYSTEM_FREQ_MHz / USER_MOTOR1_RESOLVER_EXC_PWM_FREQUENCY) * \
1000.0f - 1.0f)
#define USER_MOTOR1_RESOLVER_PLL_OMEGA (200.0f * MATH_TWO_PI)
#define USER_MOTOR1_RESOLVER_PLL_ZETA (0.7f)
#define USER_MOTOR1_RESOLVER_PLL_COMP_GAIN (-4.6585E-5f)
#define USER_MOTOR1_RESOLVER_PLL_LPF_BW (100.0f) // Unit: Hz
// Bias between Resolver zero and Id
#define USER_MOTOR1_RESOLVER_POS_BIAS (-1.05097198f) // Unit: rad
#define USER_MOTOR1_RESOLVER_THETA_BIAS_RAD (-1.05097198f) // Unit: rad
#define USER_MOTOR1_RESOLVER_LPF_FC_HZ (100.0f) // Unit: Hz
#define USER_MOTOR1_RESOLVER_SCOS_LPF_HZ (5000.0f) // Unit: Hz
#define USER_MOTOR1_RESOLVER_CALIB_LPF_HZ (200.0f) // unit: Hz
// sin/cos encoder related parameters defines
#define USER_M1_PSINAB_OFFSET_SET (1928.65234f)
#define USER_M1_PCOSAB_OFFSET_SET (1866.88171f)
#define USER_M1_PSINAB_SCALE_SF_SET (0.5f / 2048.0f)
#define USER_M1_PCOSAB_SCALE_SF_SET (0.5f / 2048.0f)
#define USER_M1_PSINCD_OFFSET_SET (1928.65234f)
#define USER_M1_PCOSCD_OFFSET_SET (1866.88171f)
#define USER_M1_PSINCD_SCALE_SF_SET (0.5f / 2048.0f)
#define USER_M1_PCOSCD_SCALE_SF_SET (0.5f / 2048.0f)
#define USER_MOTOR1_PSINCOS_SAMPLE_FREQUENCY (20.0f)
#define USER_MOTOR1_PSINCOS_PULSE_LINES (2048.0f)
// Change to SYSTEM_FREQUENCY / 1 after changing EPWM Clock Divide Select to /1
#define USER_MOTOR1_PSINCOS_ADC_PWM_TICKS \
((USER_SYSTEM_FREQ_MHz / USER_MOTOR1_PSINCOS_SAMPLE_FREQUENCY) * \
500.0f - 1.0f)
#define USER_MOTOR1_PSINCOS_PLL_OMEGA (200.0f * MATH_TWO_PI)
#define USER_MOTOR1_PSINCOS_PLL_ZETA (0.7f)
#define USER_MOTOR1_PSINCOS_PLL_COMP_GAIN (-4.6585E-5f)
#define USER_MOTOR1_PSINCOS_PLL_LPF_BW (100.0f) // Unit: Hz
// Bias between Resolver zero and Id
#define USER_MOTOR1_PSINCOSAB_POS_BIAS (-1.05097198f) // Unit: rad
#define USER_MOTOR1_PSINCOSCD_POS_BIAS (-1.05097198f) // Unit: rad
#define USER_MOTOR1_PSINCOS_THETA_BIAS_RAD (2.33111715f) // Unit: rad
#define USER_MOTOR1_PSINCOS_LPF_FC_HZ (100.0f) // Unit: Hz
#define USER_MOTOR1_PSINCOS_SCOS_LPF_HZ (1000.0f) // unit: Hz
#define USER_MOTOR1_PSINCOS_CALIB_LPF_HZ (200.0f) // unit: Hz
// Current and Speed PI Regulators Tuning Coefficient
#define USER_MOTOR1_GAIN_SPEED_LOW_Hz (60.0f)
#define USER_MOTOR1_GAIN_SPEED_HIGH_Hz (150.0f)
#define USER_MOTOR1_KP_SPD_START_SF (1.5f) // 0.1~100.0
#define USER_MOTOR1_KI_SPD_START_SF (1.5f) // 0.1~10.0
#define USER_MOTOR1_KP_SPD_LOW_SF (2.0f) // 0.1~100.0
#define USER_MOTOR1_KI_SPD_LOW_SF (2.0f) // 0.1~10.0
#define USER_MOTOR1_KP_SPD_HIGH_SF (1.0f) // 0.1~100.0
#define USER_MOTOR1_KI_SPD_HIGH_SF (1.0f) // 0.1~10.0
#define USER_MOTOR1_GAIN_IQ_LOW_A (2.0f)
#define USER_MOTOR1_GAIN_IQ_HIGH_A (6.0f)
#define USER_MOTOR1_KP_IQ_START_SF (1.5f) // 0.1~10.0
#define USER_MOTOR1_KI_IQ_START_SF (1.5f) // 0.1~10.0
#define USER_MOTOR1_KP_IQ_LOW_SF (2.0f) // 0.1~10.0
#define USER_MOTOR1_KI_IQ_LOW_SF (2.0f) // 0.1~10.0
#define USER_MOTOR1_KP_IQ_HIGH_SF (1.0f) // 0.1~10.0
#define USER_MOTOR1_KI_IQ_HIGH_SF (1.0f) // 0.1~10.0
#define USER_MOTOR1_KP_ID_SF (1.0f) // 0.1~10.0
#define USER_MOTOR1_KI_ID_SF (1.0f) // 0.1~10.0
//------------------------------------------------------------------------------
#elif (USER_MOTOR1 == AKM21G_CK9NGE00)
// Refer to the description of the following parameters for Teknic_M2310PLN04K
#define USER_MOTOR1_TYPE MOTOR_TYPE_PM
#define USER_MOTOR1_NUM_POLE_PAIRS (3)
#define USER_MOTOR1_Rr_Ohm (NULL)
#define USER_MOTOR1_Rs_Ohm (0.724585772f)
#define USER_MOTOR1_Ls_d_H (0.00115217688f)
#define USER_MOTOR1_Ls_q_H (0.00115217688f)
#define USER_MOTOR1_RATED_FLUX_VpHz (0.105363153f)
#define USER_MOTOR1_MAGNETIZING_CURRENT_A (NULL)
#define USER_MOTOR1_RES_EST_CURRENT_A (2.0f)
#define USER_MOTOR1_IND_EST_CURRENT_A (-1.0f)
#define USER_MOTOR1_MAX_CURRENT_A (8.5f)
#define USER_MOTOR1_FLUX_EXC_FREQ_Hz (60.0f)
#define USER_MOTOR1_INERTIA_Kgm2 (7.06154e-06)
// Ls compensation coefficient
#define USER_MOTOR1_Ls_d_COMP_COEF (0.15f) // 0.0f~0.5f
#define USER_MOTOR1_Ls_q_COMP_COEF (0.35f) // 0.0f~0.5f
#define USER_MOTOR1_Ls_MIN_NUM_COEF (0.55f) // 0.5f~1.0f
#define USER_MOTOR1_FREQ_NEARZEROLIMIT_Hz (5.0f) // Hz
#define USER_MOTOR1_FREQ_LOW_Hz (10.0f) // Hz
#define USER_MOTOR1_FREQ_HIGH_Hz (400.0f) // Hz
#define USER_MOTOR1_VOLT_MIN_V (3.0f) // Volt
#define USER_MOTOR1_VOLT_MAX_V (24.0f) // Volt
#define USER_MOTOR1_RATED_VOLTAGE_V (24.0f) // V
#define USER_MOTOR1_FREQ_MIN_Hz (9.0f) // Hz
#define USER_MOTOR1_FREQ_MAX_Hz (600.0f) // Hz
#define USER_MOTOR1_FORCE_DELTA_A (0.05f) // A
#define USER_MOTOR1_ALIGN_DELTA_A (0.01f) // A
#define USER_MOTOR1_FLUX_CURRENT_A (0.5f) // A
#define USER_MOTOR1_ALIGN_CURRENT_A (1.5f) // A
#define USER_MOTOR1_STARTUP_CURRENT_A (3.5f) // A
#define USER_MOTOR1_TORQUE_CURRENT_A (3.0f) // A
#define USER_MOTOR1_OVER_CURRENT_A (7.5f) // A
#define USER_MOTOR1_SPEED_START_Hz (5.0f) // Hz
#define USER_MOTOR1_SPEED_FORCE_Hz (5.0f) // Hz
#define USER_MOTOR1_ACCEL_START_Hzps (10.0f) // Hz/s
#define USER_MOTOR1_ACCEL_MAX_Hzps (20.0f) // Hz/s
#define USER_MOTOR1_SPEED_FS_Hz (3.0f) // Hz
#define USER_MOTOR1_BRAKE_CURRENT_A (1.0f) // A
#define USER_MOTOR1_BRAKE_TIME_DELAY (12000U) // 60s/5ms
// for Rs online calibration with FAST
#define USER_MOTOR1_RSONLINE_WAIT_TIME (60000U) // 5min/300s at 5ms base
#define USER_MOTOR1_RSONLINE_WORK_TIME (24000U) //2min/120s at 5ms base
// Only for encoder
#define USER_MOTOR1_NUM_ENC_SLOTS (1000) // lines
#define USER_MOTOR1_ENC_POS_MAX (USER_MOTOR1_NUM_ENC_SLOTS * 4 - 1)
#define USER_MOTOR1_ENC_POS_OFFSET (668) // lines
// Only for eSMO
#define USER_MOTOR1_KSLIDE_MAX (0.50f)
#define USER_MOTOR1_KSLIDE_MIN (0.10f)
#define USER_MOTOR1_PLL_KP_MAX (10.0f)
#define USER_MOTOR1_PLL_KP_MIN (1.50f)
#define USER_MOTOR1_PLL_KP_SF (5.0f)
#define USER_MOTOR1_PLL_KI (2.8125E-06f) // Not used, reserve
#define USER_MOTOR1_BEMF_THRESHOLD (0.5f)
#define USER_MOTOR1_BEMF_KSLF_FC_Hz (2.0f)
#define USER_MOTOR1_THETA_OFFSET_SF (1.0f)
#define USER_MOTOR1_SPEED_LPF_FC_Hz (200.0f)
// Only for IS-BLDC
#define USER_MOTOR1_RAMP_START_Hz (3.0f)
#define USER_MOTOR1_RAMP_END_Hz (30.0f)
#define USER_MOTOR1_RAMP_DELAY (5)
#define USER_MOTOR1_ISBLDC_INT_MAX (0.015f)
#define USER_MOTOR1_ISBLDC_INT_MIN (0.010f)
// sin/cos encoder related parameters defines
#define USER_M1_PSINAB_OFFSET_SET (1928.65234f)
#define USER_M1_PCOSAB_OFFSET_SET (1866.88171f)
#define USER_M1_PSINAB_SCALE_SF_SET (0.25f / 2048.0f)
#define USER_M1_PCOSAB_SCALE_SF_SET (0.25f / 2048.0f)
#define USER_M1_PSINCD_OFFSET_SET (1928.65234f)
#define USER_M1_PCOSCD_OFFSET_SET (1866.88171f)
#define USER_M1_PSINCD_SCALE_SF_SET (0.25f / 2048.0f)
#define USER_M1_PCOSCD_SCALE_SF_SET (0.25f / 2048.0f)
#define USER_MOTOR1_PSINCOS_SAMPLE_FREQUENCY (20.0f)
#define USER_MOTOR1_PSINCOS_PULSE_LINES (2048.0f)
#define USER_MOTOR1_PSINCOS_LINES_MAX (USER_MOTOR1_PSINCOS_PULSE_LINES * 4.0f - 1.0f)
// Change to SYSTEM_FREQUENCY / 1 after changing EPWM Clock Divide Select to /1
#define USER_MOTOR1_PSINCOS_ADC_PWM_TICKS \
((USER_SYSTEM_FREQ_MHz / USER_MOTOR1_PSINCOS_SAMPLE_FREQUENCY) * \
500.0f - 1.0f)
#define USER_MOTOR1_PSINCOS_PLL_OMEGA (200.0f * MATH_TWO_PI)
#define USER_MOTOR1_PSINCOS_PLL_ZETA (0.7f)
#define USER_MOTOR1_PSINCOS_PLL_COMP_GAIN (-4.6585E-5f)
#define USER_MOTOR1_PSINCOS_PLL_LPF_BW (100.0f) // Unit: Hz
// Bias between Resolver zero and Id
#define USER_MOTOR1_PSINCOSAB_POS_BIAS (-1.05097198f) // Unit: rad
#define USER_MOTOR1_PSINCOSCD_POS_BIAS (-1.05097198f) // Unit: rad
#define USER_MOTOR1_PSINCOS_THETA_BIAS_RAD (2.33111715f) // Unit: rad
#define USER_MOTOR1_PSINCOS_LPF_FC_HZ (100.0f) // Unit: Hz
#define USER_MOTOR1_PSINCOS_SCOS_LPF_HZ (5000.0f) // unit: Hz
#define USER_MOTOR1_PSINCOS_CALIB_LPF_HZ (200.0f) // unit: Hz
// Current and Speed PI Regulators Tuning Coefficient
#define USER_MOTOR1_GAIN_SPEED_LOW_Hz (60.0f)
#define USER_MOTOR1_GAIN_SPEED_HIGH_Hz (150.0f)
#define USER_MOTOR1_KP_SPD_START_SF (1.5f) // 0.1~100.0
#define USER_MOTOR1_KI_SPD_START_SF (1.5f) // 0.1~10.0
#define USER_MOTOR1_KP_SPD_LOW_SF (2.0f) // 0.1~100.0
#define USER_MOTOR1_KI_SPD_LOW_SF (2.0f) // 0.1~10.0
#define USER_MOTOR1_KP_SPD_HIGH_SF (1.0f) // 0.1~100.0
#define USER_MOTOR1_KI_SPD_HIGH_SF (1.0f) // 0.1~10.0
#define USER_MOTOR1_GAIN_IQ_LOW_A (2.0f)
#define USER_MOTOR1_GAIN_IQ_HIGH_A (6.0f)
#define USER_MOTOR1_KP_IQ_START_SF (1.5f) // 0.1~10.0
#define USER_MOTOR1_KI_IQ_START_SF (1.5f) // 0.1~10.0
#define USER_MOTOR1_KP_IQ_LOW_SF (2.0f) // 0.1~10.0
#define USER_MOTOR1_KI_IQ_LOW_SF (2.0f) // 0.1~10.0
#define USER_MOTOR1_KP_IQ_HIGH_SF (1.0f) // 0.1~10.0
#define USER_MOTOR1_KI_IQ_HIGH_SF (1.0f) // 0.1~10.0
#define USER_MOTOR1_KP_ID_SF (1.0f) // 0.1~10.0
#define USER_MOTOR1_KI_ID_SF (1.0f) // 0.1~10.0
//------------------------------------------------------------------------------
#elif (USER_MOTOR1 == Anaheim_BLY172S_24V)
// Refer to the description of the following parameters for Teknic_M2310PLN04K
#define USER_MOTOR1_TYPE MOTOR_TYPE_PM
#define USER_MOTOR1_NUM_POLE_PAIRS (4)
#define USER_MOTOR1_Rr_Ohm (NULL)
#define USER_MOTOR1_Rs_Ohm (0.399648607f)
#define USER_MOTOR1_Ls_d_H (0.000585399743f)
#define USER_MOTOR1_Ls_q_H (0.000585399743f)
#define USER_MOTOR1_RATED_FLUX_VpHz (0.0343291275f)
#define USER_MOTOR1_MAGNETIZING_CURRENT_A (NULL)
#define USER_MOTOR1_RES_EST_CURRENT_A (1.5f)
#define USER_MOTOR1_IND_EST_CURRENT_A (-1.5f)
#define USER_MOTOR1_MAX_CURRENT_A (7.5f)
#define USER_MOTOR1_FLUX_EXC_FREQ_Hz (40.0f)
#define USER_MOTOR1_NUM_ENC_SLOTS (2000)
#define USER_MOTOR1_INERTIA_Kgm2 (4.80185e-06)
// Ls compensation coefficient
#define USER_MOTOR1_Ls_d_COMP_COEF (0.15f) // 0.0f~0.5f
#define USER_MOTOR1_Ls_q_COMP_COEF (0.35f) // 0.0f~0.5f
#define USER_MOTOR1_Ls_MIN_NUM_COEF (0.55f) // 0.5f~1.0f
#define USER_MOTOR1_FREQ_NEARZEROLIMIT_Hz (5.0f) // Hz
#define USER_MOTOR1_RATED_VOLTAGE_V (24.0f)
#define USER_MOTOR1_FREQ_MIN_Hz (9.0f) // Hz
#define USER_MOTOR1_FREQ_MAX_Hz (600.0f) // Hz
#define USER_MOTOR1_FREQ_NEARZEROLIMIT_Hz (5.0f) // Hz
#define USER_MOTOR1_FREQ_LOW_Hz (5.0f) // Hz
#define USER_MOTOR1_FREQ_HIGH_Hz (400.0f) // Hz
#define USER_MOTOR1_VOLT_MIN_V (2.0f) // Volt
#define USER_MOTOR1_VOLT_MAX_V (24.0f) // Volt
#define USER_MOTOR1_FORCE_DELTA_A (0.05f) // A
#define USER_MOTOR1_ALIGN_DELTA_A (0.01f) // A
#define USER_MOTOR1_FLUX_CURRENT_A (0.5f) // A
#define USER_MOTOR1_ALIGN_CURRENT_A (3.5f) // A
#define USER_MOTOR1_STARTUP_CURRENT_A (5.5f) // A
#define USER_MOTOR1_TORQUE_CURRENT_A (4.0f) // A
#define USER_MOTOR1_OVER_CURRENT_A (9.5f) // A
#define USER_MOTOR1_SPEED_START_Hz (20.0f)
#define USER_MOTOR1_SPEED_FORCE_Hz (15.0f)
#define USER_MOTOR1_ACCEL_START_Hzps (10.0f)
#define USER_MOTOR1_ACCEL_MAX_Hzps (20.0f)
#define USER_MOTOR1_SPEED_FS_Hz (3.0f)
#define USER_MOTOR1_ENC_POS_MAX (USER_MOTOR1_NUM_ENC_SLOTS * 4 - 1)
#define USER_MOTOR1_ENC_POS_OFFSET (668)
// Only for eSMO
#define USER_MOTOR1_KSLIDE_MAX (0.55f)
#define USER_MOTOR1_KSLIDE_MIN (0.10f)
#define USER_MOTOR1_PLL_KP_MAX (7.25f)
#define USER_MOTOR1_PLL_KP_MIN (1.75f)
#define USER_MOTOR1_PLL_KP_SF (20.0f)
#define USER_MOTOR1_PLL_KI (2.8125E-06f) // Not used, reserve
#define USER_MOTOR1_BEMF_THRESHOLD (0.5f)
#define USER_MOTOR1_BEMF_KSLF_FC_Hz (1.0f)
#define USER_MOTOR1_THETA_OFFSET_SF (1.0f)
#define USER_MOTOR1_SPEED_LPF_FC_Hz (200.0f)
// for IS-BLDC
#define USER_MOTOR1_RAMP_START_Hz (3.0f)
#define USER_MOTOR1_RAMP_END_Hz (30.0f)
#define USER_MOTOR1_RAMP_DELAY (5)
#define USER_MOTOR1_ISBLDC_INT_MAX (0.015f)
#define USER_MOTOR1_ISBLDC_INT_MIN (0.010f)
// for Rs online calibration with FAST
#define USER_MOTOR1_RSONLINE_WAIT_TIME (60000U) // 5min/300s at 5ms base
#define USER_MOTOR1_RSONLINE_WORK_TIME (24000U) //2min/120s at 5ms base
// Current and Speed PI Regulators Tuning Coefficient
#define USER_MOTOR1_GAIN_SPEED_LOW_Hz (60.0f)
#define USER_MOTOR1_GAIN_SPEED_HIGH_Hz (150.0f)
#define USER_MOTOR1_KP_SPD_START_SF (1.5f) // 0.1~100.0
#define USER_MOTOR1_KI_SPD_START_SF (1.5f) // 0.1~10.0
#define USER_MOTOR1_KP_SPD_LOW_SF (2.0f) // 0.1~100.0
#define USER_MOTOR1_KI_SPD_LOW_SF (2.0f) // 0.1~10.0
#define USER_MOTOR1_KP_SPD_HIGH_SF (1.0f) // 0.1~100.0
#define USER_MOTOR1_KI_SPD_HIGH_SF (1.0f) // 0.1~10.0
#define USER_MOTOR1_GAIN_IQ_LOW_A (2.0f)
#define USER_MOTOR1_GAIN_IQ_HIGH_A (6.0f)
#define USER_MOTOR1_KP_IQ_START_SF (1.5f) // 0.1~10.0
#define USER_MOTOR1_KI_IQ_START_SF (1.5f) // 0.1~10.0
#define USER_MOTOR1_KP_IQ_LOW_SF (2.0f) // 0.1~10.0
#define USER_MOTOR1_KI_IQ_LOW_SF (2.0f) // 0.1~10.0
#define USER_MOTOR1_KP_IQ_HIGH_SF (1.0f) // 0.1~10.0
#define USER_MOTOR1_KI_IQ_HIGH_SF (1.0f) // 0.1~10.0
#define USER_MOTOR1_KP_ID_SF (1.0f) // 0.1~10.0
#define USER_MOTOR1_KI_ID_SF (1.0f) // 0.1~10.0
#elif (USER_MOTOR1 == Baldor_BSM90N175)
// Refer to the description of the following parameters for Teknic_M2310PLN04K
#define USER_MOTOR1_TYPE MOTOR_TYPE_PM
#define USER_MOTOR1_NUM_POLE_PAIRS (4)
#define USER_MOTOR1_Rr_Ohm (0.0)
#define USER_MOTOR1_Rs_Ohm (0.636681914f)
#define USER_MOTOR1_Ls_d_H (0.00240929401f)
#define USER_MOTOR1_Ls_q_H (0.00240929401f)
#define USER_MOTOR1_RATED_FLUX_VpHz (0.635046303f)
#define USER_MOTOR1_MAGNETIZING_CURRENT_A (NULL)
#define USER_MOTOR1_RES_EST_CURRENT_A (1.5f) // A - 10~30% of rated current of the motor
#define USER_MOTOR1_IND_EST_CURRENT_A (-1.5f) // A - 10~30% of rated current of the motor, just enough to enable rotation
#define USER_MOTOR1_MAX_CURRENT_A (9.5f) // A - 30~150% of rated current of the motor
#define USER_MOTOR1_FLUX_EXC_FREQ_Hz (40.0f) // Hz - 10~30% of rated frequency of the motor
#define USER_MOTOR1_NUM_ENC_SLOTS (2500.0)
#define USER_MOTOR1_INERTIA_Kgm2 (6.327e-4)
#define USER_MOTOR1_FREQ_NEARZEROLIMIT_Hz (5.0f) // Hz
#define USER_MOTOR1_RATED_VOLTAGE_V (200.0f)
#define USER_MOTOR1_FREQ_MIN_Hz (5.0f) // Hz
#define USER_MOTOR1_FREQ_MAX_Hz (400.0f) // Hz
#define USER_MOTOR1_FREQ_LOW_Hz (10.0f) // Hz
#define USER_MOTOR1_FREQ_HIGH_Hz (200.0f) // Hz
#define USER_MOTOR1_VOLT_MIN_V (10.0f) // Volt
#define USER_MOTOR1_VOLT_MAX_V (200.0f) // Volt
#define USER_MOTOR1_FORCE_DELTA_A (0.05f) // A
#define USER_MOTOR1_ALIGN_DELTA_A (0.01f) // A
#define USER_MOTOR1_FLUX_CURRENT_A (0.5f) // A
#define USER_MOTOR1_ALIGN_CURRENT_A (3.0f) //
#define USER_MOTOR1_STARTUP_CURRENT_A (5.0f) //
#define USER_MOTOR1_TORQUE_CURRENT_A (1.0f) // A
#define USER_MOTOR1_OVER_CURRENT_A (9.5f) //
#define USER_MOTOR1_SPEED_START_Hz (10.0f) //
#define USER_MOTOR1_SPEED_FORCE_Hz (20.0f) //
#define USER_MOTOR1_ACCEL_START_Hzps (5.0f) //
#define USER_MOTOR1_ACCEL_MAX_Hzps (10.0f) //
#define USER_MOTOR1_SPEED_FS_Hz (3.0f)
// Only for eSMO
#define USER_MOTOR1_KSLIDE_MAX (1.50f) // 2.0f
#define USER_MOTOR1_KSLIDE_MIN (0.75f)
#define USER_MOTOR1_PLL_KP_MAX (10.0f)
#define USER_MOTOR1_PLL_KP_MIN (2.0f)
#define USER_MOTOR1_PLL_KP_SF (5.0f)
#define USER_MOTOR1_PLL_KI (2.8125E-06f) // Not used, reserve
#define USER_MOTOR1_BEMF_THRESHOLD (0.5f)
#define USER_MOTOR1_BEMF_KSLF_FC_Hz (2.0f) // 1.0f
#define USER_MOTOR1_THETA_OFFSET_SF (1.0f) // 2.5f
#define USER_MOTOR1_SPEED_LPF_FC_Hz (200.0f) // 100.0f
// for Rs online calibration
#define USER_MOTOR1_RSONLINE_WAIT_TIME (60000U) // 5min/300s at 5ms base
#define USER_MOTOR1_RSONLINE_WORK_TIME (24000U) //2min/120s at 5ms base
// Current and Speed PI Regulators Tuning Coefficient
#define USER_MOTOR1_GAIN_SPEED_LOW_Hz (60.0f)
#define USER_MOTOR1_GAIN_SPEED_HIGH_Hz (150.0f)
#define USER_MOTOR1_KP_SPD_START_SF (1.5f) // 0.1~100.0
#define USER_MOTOR1_KI_SPD_START_SF (1.5f) // 0.1~10.0
#define USER_MOTOR1_KP_SPD_LOW_SF (2.0f) // 0.1~100.0
#define USER_MOTOR1_KI_SPD_LOW_SF (2.0f) // 0.1~10.0
#define USER_MOTOR1_KP_SPD_HIGH_SF (1.0f) // 0.1~100.0
#define USER_MOTOR1_KI_SPD_HIGH_SF (1.0f) // 0.1~10.0
#define USER_MOTOR1_GAIN_IQ_LOW_A (2.0f)
#define USER_MOTOR1_GAIN_IQ_HIGH_A (6.0f)
#define USER_MOTOR1_KP_IQ_START_SF (1.5f) // 0.1~10.0
#define USER_MOTOR1_KI_IQ_START_SF (1.5f) // 0.1~10.0
#define USER_MOTOR1_KP_IQ_LOW_SF (2.0f) // 0.1~10.0
#define USER_MOTOR1_KI_IQ_LOW_SF (2.0f) // 0.1~10.0
#define USER_MOTOR1_KP_IQ_HIGH_SF (1.0f) // 0.1~10.0
#define USER_MOTOR1_KI_IQ_HIGH_SF (1.0f) // 0.1~10.0
#define USER_MOTOR1_KP_ID_SF (1.0f) // 0.1~10.0
#define USER_MOTOR1_KI_ID_SF (1.0f) // 0.1~10.0
#elif (USER_MOTOR1 == QXA_A091ZE190A)
// Refer to the description of the following parameters for Teknic_M2310PLN04K
#define USER_MOTOR1_TYPE MOTOR_TYPE_PM
#define USER_MOTOR1_NUM_POLE_PAIRS (3)
#define USER_MOTOR1_Rr_Ohm (0.0)
#define USER_MOTOR1_Rs_Ohm (0.771440625f)
#define USER_MOTOR1_Ls_d_H (0.0132690407f)
#define USER_MOTOR1_Ls_q_H (0.0132690407f)
#define USER_MOTOR1_RATED_FLUX_VpHz (0.50693661f)
#define USER_MOTOR1_MAGNETIZING_CURRENT_A (NULL)
#define USER_MOTOR1_RES_EST_CURRENT_A (2.5f)
#define USER_MOTOR1_IND_EST_CURRENT_A (-2.0f)
#define USER_MOTOR1_MAX_CURRENT_A (8.0f)
#define USER_MOTOR1_FLUX_EXC_FREQ_Hz (20.0f)
#define USER_MOTOR1_NUM_ENC_SLOTS (2500.0f)
#define USER_MOTOR1_INERTIA_Kgm2 (3.100017e-5)
#define USER_MOTOR1_FREQ_NEARZEROLIMIT_Hz (5.0f) // Hz
#define USER_MOTOR1_RATED_VOLTAGE_V (200.0f)
#define USER_MOTOR1_FREQ_MIN_Hz (5.0f) // Hz
#define USER_MOTOR1_FREQ_MAX_Hz (400.0f) // Hz
#define USER_MOTOR1_FREQ_LOW_Hz (10.0f) // Hz
#define USER_MOTOR1_FREQ_HIGH_Hz (200.0f) // Hz
#define USER_MOTOR1_VOLT_MIN_V (10.0f) // Volt
#define USER_MOTOR1_VOLT_MAX_V (200.0f) // Volt
#define USER_MOTOR1_FORCE_DELTA_A (0.05f) // A
#define USER_MOTOR1_ALIGN_DELTA_A (0.01f) // A
#define USER_MOTOR1_FLUX_CURRENT_A (0.5f) // A
#define USER_MOTOR1_ALIGN_CURRENT_A (3.0f) //
#define USER_MOTOR1_STARTUP_CURRENT_A (5.0f) //
#define USER_MOTOR1_TORQUE_CURRENT_A (1.0f) // A
#define USER_MOTOR1_OVER_CURRENT_A (9.5f) //
#define USER_MOTOR1_SPEED_START_Hz (10.0f) //
#define USER_MOTOR1_SPEED_FORCE_Hz (20.0f) //
#define USER_MOTOR1_ACCEL_START_Hzps (5.0f) //
#define USER_MOTOR1_ACCEL_MAX_Hzps (10.0f) //
#define USER_MOTOR1_SPEED_FS_Hz (3.0f)
// Only for eSMO
#define USER_MOTOR1_KSLIDE_MAX (1.50f) // 2.0f
#define USER_MOTOR1_KSLIDE_MIN (0.75f)
#define USER_MOTOR1_PLL_KP_MAX (10.0f)
#define USER_MOTOR1_PLL_KP_MIN (2.0f)
#define USER_MOTOR1_PLL_KP_SF (5.0f)
#define USER_MOTOR1_PLL_KI (2.8125E-06f) // Not used, reserve
#define USER_MOTOR1_BEMF_THRESHOLD (0.5f)
#define USER_MOTOR1_BEMF_KSLF_FC_Hz (2.0f) // 1.0f
#define USER_MOTOR1_THETA_OFFSET_SF (1.0f) // 2.5f
#define USER_MOTOR1_SPEED_LPF_FC_Hz (200.0f) // 100.0f
// for Rs online calibration
#define USER_MOTOR1_RSONLINE_WAIT_TIME (60000U) // 5min/300s at 5ms base
#define USER_MOTOR1_RSONLINE_WORK_TIME (24000U) //2min/120s at 5ms base
// Current and Speed PI Regulators Tuning Coefficient
#define USER_MOTOR1_GAIN_SPEED_LOW_Hz (60.0f)
#define USER_MOTOR1_GAIN_SPEED_HIGH_Hz (150.0f)
#define USER_MOTOR1_KP_SPD_START_SF (1.5f) // 0.1~100.0
#define USER_MOTOR1_KI_SPD_START_SF (1.5f) // 0.1~10.0
#define USER_MOTOR1_KP_SPD_LOW_SF (2.0f) // 0.1~100.0
#define USER_MOTOR1_KI_SPD_LOW_SF (2.0f) // 0.1~10.0
#define USER_MOTOR1_KP_SPD_HIGH_SF (1.0f) // 0.1~100.0
#define USER_MOTOR1_KI_SPD_HIGH_SF (1.0f) // 0.1~10.0
#define USER_MOTOR1_GAIN_IQ_LOW_A (2.0f)
#define USER_MOTOR1_GAIN_IQ_HIGH_A (6.0f)
#define USER_MOTOR1_KP_IQ_START_SF (1.5f) // 0.1~10.0
#define USER_MOTOR1_KI_IQ_START_SF (1.5f) // 0.1~10.0
#define USER_MOTOR1_KP_IQ_LOW_SF (2.0f) // 0.1~10.0
#define USER_MOTOR1_KI_IQ_LOW_SF (2.0f) // 0.1~10.0
#define USER_MOTOR1_KP_IQ_HIGH_SF (1.0f) // 0.1~10.0
#define USER_MOTOR1_KI_IQ_HIGH_SF (1.0f) // 0.1~10.0
#define USER_MOTOR1_KP_ID_SF (1.0f) // 0.1~10.0
#define USER_MOTOR1_KI_ID_SF (1.0f) // 0.1~10.0
#elif (USER_MOTOR1 == GMCC_KSK89D53U)
// Refer to the description of the following parameters for Teknic_M2310PLN04K
#define USER_MOTOR1_TYPE MOTOR_TYPE_PM
#define USER_MOTOR1_NUM_POLE_PAIRS (3)
#define USER_MOTOR1_Rr_Ohm (0.0)
#define USER_MOTOR1_Rs_Ohm (1.175)
#define USER_MOTOR1_Ls_d_H (0.0076)
#define USER_MOTOR1_Ls_q_H (0.0109)
#define USER_MOTOR1_RATED_FLUX_VpHz (0.5415546)
#define USER_MOTOR1_MAGNETIZING_CURRENT_A (NULL)
#define USER_MOTOR1_RES_EST_CURRENT_A (3.5)
#define USER_MOTOR1_IND_EST_CURRENT_A (-3.0)
#define USER_MOTOR1_MAX_CURRENT_A (8.0)
#define USER_MOTOR1_FLUX_EXC_FREQ_Hz (20.0)
#define USER_MOTOR1_NUM_ENC_SLOTS (2500.0)
#define USER_MOTOR1_INERTIA_Kgm2 (0.00018)
#define USER_MOTOR1_FREQ_NEARZEROLIMIT_Hz (5.0f) // Hz
#define USER_MOTOR1_RATED_VOLTAGE_V (200.0f)
#define USER_MOTOR1_FREQ_MIN_Hz (5.0f) // Hz
#define USER_MOTOR1_FREQ_MAX_Hz (400.0f) // Hz
#define USER_MOTOR1_FREQ_LOW_Hz (10.0f) // Hz
#define USER_MOTOR1_FREQ_HIGH_Hz (200.0f) // Hz
#define USER_MOTOR1_VOLT_MIN_V (10.0f) // Volt
#define USER_MOTOR1_VOLT_MAX_V (200.0f) // Volt
#define USER_MOTOR1_FORCE_DELTA_A (0.05f) // A
#define USER_MOTOR1_ALIGN_DELTA_A (0.01f) // A
#define USER_MOTOR1_FLUX_CURRENT_A (0.5f) // A
#define USER_MOTOR1_ALIGN_CURRENT_A (3.0f) //
#define USER_MOTOR1_STARTUP_CURRENT_A (5.0f) //
#define USER_MOTOR1_TORQUE_CURRENT_A (1.0f) // A
#define USER_MOTOR1_OVER_CURRENT_A (9.5f) //
#define USER_MOTOR1_SPEED_START_Hz (10.0f) //
#define USER_MOTOR1_SPEED_FORCE_Hz (20.0f) //
#define USER_MOTOR1_ACCEL_START_Hzps (5.0f) //
#define USER_MOTOR1_ACCEL_MAX_Hzps (10.0f) //
#define USER_MOTOR1_SPEED_FS_Hz (3.0f)
// Only for eSMO
#define USER_MOTOR1_KSLIDE_MAX (1.50f) // 2.0f
#define USER_MOTOR1_KSLIDE_MIN (0.75f)
#define USER_MOTOR1_PLL_KP_MAX (10.0f)
#define USER_MOTOR1_PLL_KP_MIN (2.0f)
#define USER_MOTOR1_PLL_KP_SF (5.0f)
#define USER_MOTOR1_PLL_KI (2.8125E-06f) // Not used, reserve
#define USER_MOTOR1_BEMF_THRESHOLD (0.5f)
#define USER_MOTOR1_BEMF_KSLF_FC_Hz (2.0f) // 1.0f
#define USER_MOTOR1_THETA_OFFSET_SF (1.0f) // 2.5f
#define USER_MOTOR1_SPEED_LPF_FC_Hz (200.0f) // 100.0f
// for Rs online calibration
#define USER_MOTOR1_RSONLINE_WAIT_TIME (60000U) // 5min/300s at 5ms base
#define USER_MOTOR1_RSONLINE_WORK_TIME (24000U) //2min/120s at 5ms base
// Current and Speed PI Regulators Tuning Coefficient
#define USER_MOTOR1_GAIN_SPEED_LOW_Hz (60.0f)
#define USER_MOTOR1_GAIN_SPEED_HIGH_Hz (150.0f)
#define USER_MOTOR1_KP_SPD_START_SF (1.5f) // 0.1~100.0
#define USER_MOTOR1_KI_SPD_START_SF (1.5f) // 0.1~10.0
#define USER_MOTOR1_KP_SPD_LOW_SF (2.0f) // 0.1~100.0
#define USER_MOTOR1_KI_SPD_LOW_SF (2.0f) // 0.1~10.0
#define USER_MOTOR1_KP_SPD_HIGH_SF (1.0f) // 0.1~100.0
#define USER_MOTOR1_KI_SPD_HIGH_SF (1.0f) // 0.1~10.0
#define USER_MOTOR1_GAIN_IQ_LOW_A (2.0f)
#define USER_MOTOR1_GAIN_IQ_HIGH_A (6.0f)
#define USER_MOTOR1_KP_IQ_START_SF (1.5f) // 0.1~10.0
#define USER_MOTOR1_KI_IQ_START_SF (1.5f) // 0.1~10.0
#define USER_MOTOR1_KP_IQ_LOW_SF (2.0f) // 0.1~10.0
#define USER_MOTOR1_KI_IQ_LOW_SF (2.0f) // 0.1~10.0
#define USER_MOTOR1_KP_IQ_HIGH_SF (1.0f) // 0.1~10.0
#define USER_MOTOR1_KI_IQ_HIGH_SF (1.0f) // 0.1~10.0
#define USER_MOTOR1_KP_ID_SF (1.0f) // 0.1~10.0
#define USER_MOTOR1_KI_ID_SF (1.0f) // 0.1~10.0
//------------------------------------------------------------------------------
#elif (USER_MOTOR1 == Drone_BLK2BLADE)
// Refer to the description of the following parameters for Teknic_M2310PLN04K
#define USER_MOTOR1_TYPE MOTOR_TYPE_PM
#define USER_MOTOR1_NUM_POLE_PAIRS (6)
#define USER_MOTOR1_Rr_Ohm (NULL)
#define USER_MOTOR1_Rs_Ohm (0.0614009798f)
#define USER_MOTOR1_Ls_d_H (1.29998243e-05f)
#define USER_MOTOR1_Ls_q_H (1.29998243e-05f)
#define USER_MOTOR1_RATED_FLUX_VpHz (0.00359785813f)
#define USER_MOTOR1_MAGNETIZING_CURRENT_A (NULL)
#define USER_MOTOR1_RES_EST_CURRENT_A (4.5)
#define USER_MOTOR1_IND_EST_CURRENT_A (-3.0)
//! \brief Defines the maximum current at the AD converter
// Gain = 12, Rin=2.49k, Rdac=27.4k
#define USER_MOTOR1_MAX_CURRENT_A (20.0)
#define USER_MOTOR1_FLUX_EXC_FREQ_Hz (120.0)
#define USER_MOTOR1_NUM_ENC_SLOTS (1000)
#define USER_MOTOR1_INERTIA_Kgm2 (3.06154e-04)
#define USER_MOTOR1_FREQ_NEARZEROLIMIT_Hz (5.0f) // Hz
#define USER_MOTOR1_RATED_VOLTAGE_V (24.0)
#define USER_MOTOR1_FREQ_MIN_Hz (5.0) // Hz
#define USER_MOTOR1_FREQ_MAX_Hz (2000.0) // Hz
#define USER_MOTOR1_FREQ_LOW_Hz (10.0) // Hz
#define USER_MOTOR1_FREQ_HIGH_Hz (400.0) // Hz
#define USER_MOTOR1_VOLT_MIN_V (2.0) // Volt
#define USER_MOTOR1_VOLT_MAX_V (24.0) // Volt
#define USER_MOTOR1_FORCE_DELTA_A (0.05) // A
#define USER_MOTOR1_ALIGN_DELTA_A (0.01) // A
#define USER_MOTOR1_FLUX_CURRENT_A (0.5) // A
#define USER_MOTOR1_ALIGN_CURRENT_A (2.0) // A
#define USER_MOTOR1_STARTUP_CURRENT_A (3.0) //
#define USER_MOTOR1_TORQUE_CURRENT_A (2.0) // A
//! \brief Defines the maximum current at the AD converter
// Gain = 12, Rin=2.49k, Rdac=27.4k
#define USER_MOTOR1_OVER_CURRENT_A (22.25) //
#define USER_MOTOR1_SPEED_START_Hz (20.0f)
#define USER_MOTOR1_SPEED_FORCE_Hz (20.0f)
#define USER_MOTOR1_ACCEL_START_Hzps (10.0f)
#define USER_MOTOR1_ACCEL_MAX_Hzps (20.0f)
#define USER_MOTOR1_SPEED_FS_Hz (3.0f)
// only for encoder
#define USER_MOTOR1_ENC_POS_MAX (USER_MOTOR1_NUM_ENC_SLOTS * 4 - 1)
#define USER_MOTOR1_ENC_POS_OFFSET (668)
// Only for eSMO
#define USER_MOTOR1_KSLIDE_MAX (0.55f)
#define USER_MOTOR1_KSLIDE_MIN (0.10f)
#define USER_MOTOR1_PLL_KP_MAX (7.25f)
#define USER_MOTOR1_PLL_KP_MIN (1.75f)
#define USER_MOTOR1_PLL_KP_SF (20.0f)
#define USER_MOTOR1_PLL_KI (2.8125E-06f) // Not used, reserve
#define USER_MOTOR1_BEMF_THRESHOLD (0.5f)
#define USER_MOTOR1_BEMF_KSLF_FC_Hz (1.0f)
#define USER_MOTOR1_THETA_OFFSET_SF (1.0f)
#define USER_MOTOR1_SPEED_LPF_FC_Hz (200.0f)
// for IS-BLDC
#define USER_MOTOR1_RAMP_START_Hz (5.0f)
#define USER_MOTOR1_RAMP_END_Hz (30.0f)
#define USER_MOTOR1_RAMP_DELAY (1)
#define USER_MOTOR1_ISBLDC_INT_MAX (0.015f)
#define USER_MOTOR1_ISBLDC_INT_MIN (0.010f)
// for Rs online calibration
#define USER_MOTOR1_RSONLINE_WAIT_TIME (60000U) // 5min/300s at 5ms base
#define USER_MOTOR1_RSONLINE_WORK_TIME (24000U) //2min/120s at 5ms base
// Current and Speed PI Regulators Tuning Coefficient
#define USER_MOTOR1_GAIN_SPEED_LOW_Hz (60.0f)
#define USER_MOTOR1_GAIN_SPEED_HIGH_Hz (150.0f)
#define USER_MOTOR1_KP_SPD_START_SF (1.5f) // 0.1~100.0
#define USER_MOTOR1_KI_SPD_START_SF (1.5f) // 0.1~10.0
#define USER_MOTOR1_KP_SPD_LOW_SF (2.0f) // 0.1~100.0
#define USER_MOTOR1_KI_SPD_LOW_SF (2.0f) // 0.1~10.0
#define USER_MOTOR1_KP_SPD_HIGH_SF (1.0f) // 0.1~100.0
#define USER_MOTOR1_KI_SPD_HIGH_SF (1.0f) // 0.1~10.0
#define USER_MOTOR1_GAIN_IQ_LOW_A (2.0f)
#define USER_MOTOR1_GAIN_IQ_HIGH_A (6.0f)
#define USER_MOTOR1_KP_IQ_START_SF (1.5f) // 0.1~10.0
#define USER_MOTOR1_KI_IQ_START_SF (1.5f) // 0.1~10.0
#define USER_MOTOR1_KP_IQ_LOW_SF (2.0f) // 0.1~10.0
#define USER_MOTOR1_KI_IQ_LOW_SF (2.0f) // 0.1~10.0
#define USER_MOTOR1_KP_IQ_HIGH_SF (1.0f) // 0.1~10.0
#define USER_MOTOR1_KI_IQ_HIGH_SF (1.0f) // 0.1~10.0
#define USER_MOTOR1_KP_ID_SF (1.0f) // 0.1~10.0
#define USER_MOTOR1_KI_ID_SF (1.0f) // 0.1~10.0
#elif (USER_MOTOR1 == Drone_DJI920KV)
// Refer to the description of the following parameters for Teknic_M2310PLN04K
#define USER_MOTOR1_TYPE MOTOR_TYPE_PM
#define USER_MOTOR1_NUM_POLE_PAIRS (7)
#define USER_MOTOR1_Rr_Ohm (NULL)
#define USER_MOTOR1_Rs_Ohm (0.115332372f)
#define USER_MOTOR1_Ls_d_H (1.76480826e-05f)
#define USER_MOTOR1_Ls_q_H (1.76480826e-05f)
#define USER_MOTOR1_RATED_FLUX_VpHz (0.00605002558f)
#define USER_MOTOR1_MAGNETIZING_CURRENT_A (NULL)
#define USER_MOTOR1_RES_EST_CURRENT_A (3.0)
#define USER_MOTOR1_IND_EST_CURRENT_A (-2.5)
#define USER_MOTOR1_MAX_CURRENT_A (20.0)
#define USER_MOTOR1_FLUX_EXC_FREQ_Hz (120.0)
#define USER_MOTOR1_NUM_ENC_SLOTS (1000) // N/A
#define USER_MOTOR1_INERTIA_Kgm2 (5.06154e-06)
#define USER_MOTOR1_FREQ_NEARZEROLIMIT_Hz (5.0f) // Hz
#define USER_MOTOR1_RATED_VOLTAGE_V (12.0)
#define USER_MOTOR1_FREQ_MIN_Hz (10.0) // Hz
#define USER_MOTOR1_FREQ_MAX_Hz (2000.0) // Hz
#define USER_MOTOR1_FREQ_LOW_Hz (10.0) // Hz
#define USER_MOTOR1_FREQ_HIGH_Hz (1200.0) // Hz
#define USER_MOTOR1_VOLT_MIN_V (3.0) // Volt
#define USER_MOTOR1_VOLT_MAX_V (12.0) // Volt
#define USER_MOTOR1_FORCE_DELTA_A (0.05) // A
#define USER_MOTOR1_ALIGN_DELTA_A (0.01) // A
#define USER_MOTOR1_FLUX_CURRENT_A (0.5) // A
#define USER_MOTOR1_ALIGN_CURRENT_A (1.0) // A
#define USER_MOTOR1_STARTUP_CURRENT_A (3.0) //
#define USER_MOTOR1_TORQUE_CURRENT_A (2.0) // A
#define USER_MOTOR1_OVER_CURRENT_A (16.5) //
#define USER_MOTOR1_SPEED_START_Hz (20.0f)
#define USER_MOTOR1_SPEED_FORCE_Hz (20.0)
#define USER_MOTOR1_ACCEL_START_Hzps (10.0f)
#define USER_MOTOR1_ACCEL_MAX_Hzps (100.0f)
#define USER_MOTOR1_SPEED_FS_Hz (3.0f)
// only for encoder, no available on this motor
#define USER_MOTOR1_ENC_POS_MAX (USER_MOTOR1_NUM_ENC_SLOTS * 4 - 1)
#define USER_MOTOR1_ENC_POS_OFFSET (668)
// Only for eSMO
#define USER_MOTOR1_KSLIDE_MAX (0.55f)
#define USER_MOTOR1_KSLIDE_MIN (0.10f)
#define USER_MOTOR1_PLL_KP_MAX (7.25f)
#define USER_MOTOR1_PLL_KP_MIN (1.75f)
#define USER_MOTOR1_PLL_KP_SF (20.0f)
#define USER_MOTOR1_PLL_KI (2.8125E-06f) // Not used, reserve
#define USER_MOTOR1_BEMF_THRESHOLD (0.5f)
#define USER_MOTOR1_BEMF_KSLF_FC_Hz (1.0f)
#define USER_MOTOR1_THETA_OFFSET_SF (1.0f)
#define USER_MOTOR1_SPEED_LPF_FC_Hz (200.0f)
// for IS-BLDC
#define USER_MOTOR1_RAMP_START_Hz (5.0f)
#define USER_MOTOR1_RAMP_END_Hz (30.0f)
#define USER_MOTOR1_RAMP_DELAY (1)
#define USER_MOTOR1_ISBLDC_INT_MAX (0.015f)
#define USER_MOTOR1_ISBLDC_INT_MIN (0.010f)
// for Rs online calibration
#define USER_MOTOR1_RSONLINE_WAIT_TIME (60000U) // 5min/300s at 5ms base
#define USER_MOTOR1_RSONLINE_WORK_TIME (24000U) //2min/120s at 5ms base
// Current and Speed PI Regulators Tuning Coefficient
#define USER_MOTOR1_GAIN_SPEED_LOW_Hz (60.0f)
#define USER_MOTOR1_GAIN_SPEED_HIGH_Hz (150.0f)
#define USER_MOTOR1_KP_SPD_START_SF (1.5f) // 0.1~100.0
#define USER_MOTOR1_KI_SPD_START_SF (1.5f) // 0.1~10.0
#define USER_MOTOR1_KP_SPD_LOW_SF (2.0f) // 0.1~100.0
#define USER_MOTOR1_KI_SPD_LOW_SF (2.0f) // 0.1~10.0
#define USER_MOTOR1_KP_SPD_HIGH_SF (1.0f) // 0.1~100.0
#define USER_MOTOR1_KI_SPD_HIGH_SF (1.0f) // 0.1~10.0
#define USER_MOTOR1_GAIN_IQ_LOW_A (2.0f)
#define USER_MOTOR1_GAIN_IQ_HIGH_A (6.0f)
#define USER_MOTOR1_KP_IQ_START_SF (1.5f) // 0.1~10.0
#define USER_MOTOR1_KI_IQ_START_SF (1.5f) // 0.1~10.0
#define USER_MOTOR1_KP_IQ_LOW_SF (2.0f) // 0.1~10.0
#define USER_MOTOR1_KI_IQ_LOW_SF (2.0f) // 0.1~10.0
#define USER_MOTOR1_KP_IQ_HIGH_SF (1.0f) // 0.1~10.0
#define USER_MOTOR1_KI_IQ_HIGH_SF (1.0f) // 0.1~10.0
#define USER_MOTOR1_KP_ID_SF (1.0f) // 0.1~10.0
#define USER_MOTOR1_KI_ID_SF (1.0f) // 0.1~10.0
#elif (USER_MOTOR1 == Drone_SF_Black)
// Refer to the description of the following parameters for Teknic_M2310PLN04K
#define USER_MOTOR1_TYPE MOTOR_TYPE_PM
#define USER_MOTOR1_NUM_POLE_PAIRS (7)
#define USER_MOTOR1_Rr_Ohm (NULL)
#define USER_MOTOR1_Rs_Ohm (0.0276225284)
#define USER_MOTOR1_Ls_d_H (1.25800107e-05)
#define USER_MOTOR1_Ls_q_H (1.25800107e-05)
#define USER_MOTOR1_RATED_FLUX_VpHz (0.02469966)
#define USER_MOTOR1_MAGNETIZING_CURRENT_A (NULL)
#define USER_MOTOR1_RES_EST_CURRENT_A (6.0)
#define USER_MOTOR1_IND_EST_CURRENT_A (-3.0)
#define USER_MOTOR1_MAX_CURRENT_A (25.0)
#define USER_MOTOR1_FLUX_EXC_FREQ_Hz (80.0)
#define USER_MOTOR1_NUM_ENC_SLOTS (1000)
#define USER_MOTOR1_INERTIA_Kgm2 (7.06154e-05)
#define USER_MOTOR1_RATED_VOLTAGE_V (24.0)
#define USER_MOTOR1_FREQ_MIN_Hz (5.0) // Hz
#define USER_MOTOR1_FREQ_MAX_Hz (2000.0) // Hz
#define USER_MOTOR1_FREQ_LOW_Hz (10.0) // Hz
#define USER_MOTOR1_FREQ_HIGH_Hz (400.0) // Hz
#define USER_MOTOR1_VOLT_MIN_V (2.0) // Volt
#define USER_MOTOR1_VOLT_MAX_V (24.0) // Volt
#define USER_MOTOR1_STARTUP_CURRENT_A (3.0) //
#define USER_MOTOR1_TORQUE_CURRENT_A (2.0) // A
#define USER_MOTOR1_OVER_CURRENT_A (25.0) //
#define USER_MOTOR1_SPEED_START_Hz (20.0f)
#define USER_MOTOR1_SPEED_FORCE_Hz (20.0)
#define USER_MOTOR1_ACCEL_START_Hzps (10.0f)
#define USER_MOTOR1_ACCEL_MAX_Hzps (100.0f)
#define USER_MOTOR1_SPEED_FS_Hz (3.0f)
// Current and Speed PI Regulators Tuning Coefficient
#define USER_MOTOR1_GAIN_SPEED_LOW_Hz (60.0f)
#define USER_MOTOR1_GAIN_SPEED_HIGH_Hz (150.0f)
#define USER_MOTOR1_KP_SPD_START_SF (1.5f) // 0.1~100.0
#define USER_MOTOR1_KI_SPD_START_SF (1.5f) // 0.1~10.0
#define USER_MOTOR1_KP_SPD_LOW_SF (2.0f) // 0.1~100.0
#define USER_MOTOR1_KI_SPD_LOW_SF (2.0f) // 0.1~10.0
#define USER_MOTOR1_KP_SPD_HIGH_SF (1.0f) // 0.1~100.0
#define USER_MOTOR1_KI_SPD_HIGH_SF (1.0f) // 0.1~10.0
#define USER_MOTOR1_GAIN_IQ_LOW_A (2.0f)
#define USER_MOTOR1_GAIN_IQ_HIGH_A (6.0f)
#define USER_MOTOR1_KP_IQ_START_SF (1.5f) // 0.1~10.0
#define USER_MOTOR1_KI_IQ_START_SF (1.5f) // 0.1~10.0
#define USER_MOTOR1_KP_IQ_LOW_SF (2.0f) // 0.1~10.0
#define USER_MOTOR1_KI_IQ_LOW_SF (2.0f) // 0.1~10.0
#define USER_MOTOR1_KP_IQ_HIGH_SF (1.0f) // 0.1~10.0
#define USER_MOTOR1_KI_IQ_HIGH_SF (1.0f) // 0.1~10.0
#define USER_MOTOR1_KP_ID_SF (1.0f) // 0.1~10.0
#define USER_MOTOR1_KI_ID_SF (1.0f) // 0.1~10.0
#elif (USER_MOTOR1 == AirFan_MFA0500_24V)
// Refer to the description of the following parameters for Teknic_M2310PLN04K
#define USER_MOTOR1_TYPE MOTOR_TYPE_PM
#define USER_MOTOR1_NUM_POLE_PAIRS (2)
#define USER_MOTOR1_Rr_Ohm (NULL)
#define USER_MOTOR1_Rs_Ohm (0.150690928)
#define USER_MOTOR1_Ls_d_H (2.34591134e-05)
#define USER_MOTOR1_Ls_q_H (2.34591134e-05)
#define USER_MOTOR1_RATED_FLUX_VpHz (0.00798716862f)
#define USER_MOTOR1_MAGNETIZING_CURRENT_A (NULL)
#define USER_MOTOR1_RES_EST_CURRENT_A (4.5)
#define USER_MOTOR1_IND_EST_CURRENT_A (-3.0)
#define USER_MOTOR1_MAX_CURRENT_A (16.5)
#define USER_MOTOR1_FLUX_EXC_FREQ_Hz (200.0)
#define USER_MOTOR1_NUM_ENC_SLOTS (1000)
#define USER_MOTOR1_INERTIA_Kgm2 (7.06154e-05)
// Ls compensation coefficient
#define USER_MOTOR1_Ls_d_COMP_COEF (0.15f) // 0.0f~0.5f
#define USER_MOTOR1_Ls_q_COMP_COEF (0.35f) // 0.0f~0.5f
#define USER_MOTOR1_Ls_MIN_NUM_COEF (0.55f) // 0.5f~1.0f
#define USER_MOTOR1_FREQ_NEARZEROLIMIT_Hz (5.0f) // Hz
#define USER_MOTOR1_RATED_VOLTAGE_V (24.0)
#define USER_MOTOR1_FREQ_MIN_Hz (9.0) // Hz
#define USER_MOTOR1_FREQ_MAX_Hz (1500.0) // Hz
#define USER_MOTOR1_FREQ_LOW_Hz (10.0) // Hz
#define USER_MOTOR1_FREQ_HIGH_Hz (1000.0) // Hz
#define USER_MOTOR1_VOLT_MIN_V (2.0) // Volt
#define USER_MOTOR1_VOLT_MAX_V (14.0) // Volt
#define USER_MOTOR1_FORCE_DELTA_A (0.05) // A
#define USER_MOTOR1_ALIGN_DELTA_A (0.01) // A
#define USER_MOTOR1_FLUX_CURRENT_A (0.5) // A
#define USER_MOTOR1_ALIGN_CURRENT_A (2.5) // A
#define USER_MOTOR1_STARTUP_CURRENT_A (4.5) // A
#define USER_MOTOR1_TORQUE_CURRENT_A (2.0) // A
#define USER_MOTOR1_OVER_CURRENT_A (16.5) // A
#define USER_MOTOR1_SPEED_START_Hz (120.0)
#define USER_MOTOR1_SPEED_FORCE_Hz (100.0)
#define USER_MOTOR1_ACCEL_START_Hzps (10.0)
#define USER_MOTOR1_ACCEL_MAX_Hzps (20.0)
#define USER_MOTOR1_SPEED_FS_Hz (3.0)
// only for encoder, N/A
#define USER_MOTOR1_ENC_POS_MAX (USER_MOTOR1_NUM_ENC_SLOTS * 4 - 1)
#define USER_MOTOR1_ENC_POS_OFFSET (668)
// Only for eSMO
#define USER_MOTOR1_KSLIDE_MAX (0.25f)
#define USER_MOTOR1_KSLIDE_MIN (0.10f)
#define USER_MOTOR1_PLL_KP_MAX (7.25f)
#define USER_MOTOR1_PLL_KP_MIN (1.75f)
#define USER_MOTOR1_PLL_KP_SF (5.00f)
#define USER_MOTOR1_PLL_KI (2.8125E-06f) // Not used, reserve
#define USER_MOTOR1_BEMF_THRESHOLD (0.25f)
#define USER_MOTOR1_BEMF_KSLF_FC_Hz (1.0f)
#define USER_MOTOR1_THETA_OFFSET_SF (1.0f)
#define USER_MOTOR1_SPEED_LPF_FC_Hz (200.0f)
// for IS-NBLDC
#define USER_MOTOR1_RAMP_START_Hz (5.0)
#define USER_MOTOR1_RAMP_END_Hz (30.0)
#define USER_MOTOR1_RAMP_DELAY (1)
// for Rs online calibration
#define USER_MOTOR1_RSONLINE_WAIT_TIME (60000U) // 5min/300s at 5ms base
#define USER_MOTOR1_RSONLINE_WORK_TIME (24000U) //2min/120s at 5ms base
// Current and Speed PI Regulators Tuning Coefficient
#define USER_MOTOR1_GAIN_SPEED_LOW_Hz (60.0f)
#define USER_MOTOR1_GAIN_SPEED_HIGH_Hz (150.0f)
#define USER_MOTOR1_KP_SPD_START_SF (1.5f) // 0.1~100.0
#define USER_MOTOR1_KI_SPD_START_SF (1.5f) // 0.1~10.0
#define USER_MOTOR1_KP_SPD_LOW_SF (2.0f) // 0.1~100.0
#define USER_MOTOR1_KI_SPD_LOW_SF (2.0f) // 0.1~10.0
#define USER_MOTOR1_KP_SPD_HIGH_SF (1.0f) // 0.1~100.0
#define USER_MOTOR1_KI_SPD_HIGH_SF (1.0f) // 0.1~10.0
#define USER_MOTOR1_GAIN_IQ_LOW_A (2.0f)
#define USER_MOTOR1_GAIN_IQ_HIGH_A (6.0f)
#define USER_MOTOR1_KP_IQ_START_SF (1.5f) // 0.1~10.0
#define USER_MOTOR1_KI_IQ_START_SF (1.5f) // 0.1~10.0
#define USER_MOTOR1_KP_IQ_LOW_SF (2.0f) // 0.1~10.0
#define USER_MOTOR1_KI_IQ_LOW_SF (2.0f) // 0.1~10.0
#define USER_MOTOR1_KP_IQ_HIGH_SF (1.0f) // 0.1~10.0
#define USER_MOTOR1_KI_IQ_HIGH_SF (1.0f) // 0.1~10.0
#define USER_MOTOR1_KP_ID_SF (1.0f) // 0.1~10.0
#define USER_MOTOR1_KI_ID_SF (1.0f) // 0.1~10.0
#elif (USER_MOTOR1 == Nedic_EPSMS037_D12V)
#define USER_MOTOR1_TYPE MOTOR_TYPE_PM
#define USER_MOTOR1_NUM_POLE_PAIRS (4)
#define USER_MOTOR1_Rr_Ohm (0.0)
#define USER_MOTOR1_Rs_Ohm (0.0412785485)
#define USER_MOTOR1_Ls_d_H (0.000121561985)
#define USER_MOTOR1_Ls_q_H (0.000121561985)
#define USER_MOTOR1_RATED_FLUX_VpHz (0.0572981499)
#define USER_MOTOR1_MAGNETIZING_CURRENT_A (NULL)
#define USER_MOTOR1_RES_EST_CURRENT_A (5.0)
#define USER_MOTOR1_IND_EST_CURRENT_A (-4.0)
#define USER_MOTOR1_MAX_CURRENT_A (12.5)
#define USER_MOTOR1_FLUX_EXC_FREQ_Hz (40.0)
#define USER_MOTOR1_NUM_ENC_SLOTS (1000.0)
#define USER_MOTOR1_INERTIA_Kgm2 (0.015)
#define USER_MOTOR1_RATED_VOLTAGE_V (12.0)
#define USER_MOTOR1_FREQ_MIN_Hz (5.0) // Hz
#define USER_MOTOR1_FREQ_MAX_Hz (1500.0) // Hz
#define USER_MOTOR1_FREQ_LOW_Hz (10.0) // Hz
#define USER_MOTOR1_FREQ_HIGH_Hz (1000.0) // Hz
#define USER_MOTOR1_VOLT_MIN_V (2.0) // Volt
#define USER_MOTOR1_VOLT_MAX_V (12.0) // Volt
#define USER_MOTOR1_STARTUP_CURRENT_A (2.0) //
#define USER_MOTOR1_TORQUE_CURRENT_A (1.5) // A
#define USER_MOTOR1_OVER_CURRENT_A (12.5) //
#define USER_MOTOR1_SPEED_START_Hz (10.0) //
#define USER_MOTOR1_SPEED_FORCE_Hz (20.0)
#define USER_MOTOR1_ACCEL_START_Hzps (10.0) //
#define USER_MOTOR1_ACCEL_MAX_Hzps (100.0) //
#define USER_MOTOR1_SPEED_FS_Hz (3.0f)
// Current and Speed PI Regulators Tuning Coefficient
#define USER_MOTOR1_GAIN_SPEED_LOW_Hz (60.0f)
#define USER_MOTOR1_GAIN_SPEED_HIGH_Hz (150.0f)
#define USER_MOTOR1_KP_SPD_START_SF (1.5f) // 0.1~100.0
#define USER_MOTOR1_KI_SPD_START_SF (1.5f) // 0.1~10.0
#define USER_MOTOR1_KP_SPD_LOW_SF (2.0f) // 0.1~100.0
#define USER_MOTOR1_KI_SPD_LOW_SF (2.0f) // 0.1~10.0
#define USER_MOTOR1_KP_SPD_HIGH_SF (1.0f) // 0.1~100.0
#define USER_MOTOR1_KI_SPD_HIGH_SF (1.0f) // 0.1~10.0
#define USER_MOTOR1_GAIN_IQ_LOW_A (2.0f)
#define USER_MOTOR1_GAIN_IQ_HIGH_A (6.0f)
#define USER_MOTOR1_KP_IQ_START_SF (1.5f) // 0.1~10.0
#define USER_MOTOR1_KI_IQ_START_SF (1.5f) // 0.1~10.0
#define USER_MOTOR1_KP_IQ_LOW_SF (2.0f) // 0.1~10.0
#define USER_MOTOR1_KI_IQ_LOW_SF (2.0f) // 0.1~10.0
#define USER_MOTOR1_KP_IQ_HIGH_SF (1.0f) // 0.1~10.0
#define USER_MOTOR1_KI_IQ_HIGH_SF (1.0f) // 0.1~10.0
#define USER_MOTOR1_KP_ID_SF (1.0f) // 0.1~10.0
#define USER_MOTOR1_KI_ID_SF (1.0f) // 0.1~10.0
#elif (USER_MOTOR1 == ziehlab_Fan160hv)
// Refer to the description of the following parameters for Teknic_M2310PLN04K
#define USER_MOTOR1_TYPE MOTOR_TYPE_PM
#define USER_MOTOR1_NUM_POLE_PAIRS (4)
#define USER_MOTOR1_Rr_Ohm (0.0)
#define USER_MOTOR1_Rs_Ohm (24.0002041)
#define USER_MOTOR1_Ls_d_H (0.125637174)
#define USER_MOTOR1_Ls_q_H (0.125637174)
#define USER_MOTOR1_RATED_FLUX_VpHz (1.42636561)
#define USER_MOTOR1_MAGNETIZING_CURRENT_A (NULL)
#define USER_MOTOR1_RES_EST_CURRENT_A (1.25)
#define USER_MOTOR1_IND_EST_CURRENT_A (-0.5)
#define USER_MOTOR1_MAX_CURRENT_A (3.75)
#define USER_MOTOR1_FLUX_EXC_FREQ_Hz (15.0)
#define USER_MOTOR1_NUM_ENC_SLOTS (2500.0)
#define USER_MOTOR1_INERTIA_Kgm2 (27.5e-5)
#define USER_MOTOR1_FREQ_NEARZEROLIMIT_Hz (5.0f) // Hz
#define USER_MOTOR1_RATED_VOLTAGE_V (200.0)
#define USER_MOTOR1_FREQ_MIN_Hz (5.0) // Hz
#define USER_MOTOR1_FREQ_MAX_Hz (400.0) // Hz
#define USER_MOTOR1_FREQ_LOW_Hz (10.0) // Hz
#define USER_MOTOR1_FREQ_HIGH_Hz (200.0) // Hz
#define USER_MOTOR1_VOLT_MIN_V (20.0) // Volt
#define USER_MOTOR1_VOLT_MAX_V (200.0) // Volt
#define USER_MOTOR1_FORCE_DELTA_A (0.05) // A
#define USER_MOTOR1_ALIGN_DELTA_A (0.01) // A
#define USER_MOTOR1_FLUX_CURRENT_A (0.0) // A
#define USER_MOTOR1_ALIGN_CURRENT_A (0.0) // A
#define USER_MOTOR1_STARTUP_CURRENT_A (2.0) // A
#define USER_MOTOR1_TORQUE_CURRENT_A (1.5) // A
#define USER_MOTOR1_OVER_CURRENT_A (3.0) // A
#define USER_MOTOR1_SPEED_START_Hz (20.0) //
#define USER_MOTOR1_SPEED_FORCE_Hz (30.0) //
#define USER_MOTOR1_ACCEL_START_Hzps (10.0) //
#define USER_MOTOR1_ACCEL_MAX_Hzps (10.0) //
#define USER_MOTOR1_SPEED_FS_Hz (3.0f)
// only for encoder
#define USER_MOTOR1_ENC_POS_MAX (USER_MOTOR1_NUM_ENC_SLOTS * 4 - 1)
#define USER_MOTOR1_ENC_POS_OFFSET (668)
// Only for eSMO
#define USER_MOTOR1_KSLIDE_MAX (0.55f)
#define USER_MOTOR1_KSLIDE_MIN (0.10f)
#define USER_MOTOR1_PLL_KP_MAX (7.25f)
#define USER_MOTOR1_PLL_KP_MIN (1.75f)
#define USER_MOTOR1_PLL_KP_SF (20.0f)
#define USER_MOTOR1_PLL_KI (2.8125E-06f) // Not used, reserve
#define USER_MOTOR1_BEMF_THRESHOLD (0.5f)
#define USER_MOTOR1_BEMF_KSLF_FC_Hz (1.0f)
#define USER_MOTOR1_THETA_OFFSET_SF (1.0f)
#define USER_MOTOR1_SPEED_LPF_FC_Hz (200.0f)
// for IS-BLDC
#define USER_MOTOR1_RAMP_START_Hz (5.0f)
#define USER_MOTOR1_RAMP_END_Hz (30.0f)
#define USER_MOTOR1_RAMP_DELAY (1)
#define USER_MOTOR1_ISBLDC_INT_MAX (0.015f)
#define USER_MOTOR1_ISBLDC_INT_MIN (0.010f)
// for Rs online calibration
#define USER_MOTOR1_RSONLINE_WAIT_TIME (60000U) // 5min/300s at 5ms base
#define USER_MOTOR1_RSONLINE_WORK_TIME (24000U) //2min/120s at 5ms base
// Current and Speed PI Regulators Tuning Coefficient
#define USER_MOTOR1_GAIN_SPEED_LOW_Hz (60.0f)
#define USER_MOTOR1_GAIN_SPEED_HIGH_Hz (150.0f)
#define USER_MOTOR1_KP_SPD_START_SF (1.5f) // 0.1~100.0
#define USER_MOTOR1_KI_SPD_START_SF (1.5f) // 0.1~10.0
#define USER_MOTOR1_KP_SPD_LOW_SF (2.0f) // 0.1~100.0
#define USER_MOTOR1_KI_SPD_LOW_SF (2.0f) // 0.1~10.0
#define USER_MOTOR1_KP_SPD_HIGH_SF (1.0f) // 0.1~100.0
#define USER_MOTOR1_KI_SPD_HIGH_SF (1.0f) // 0.1~10.0
#define USER_MOTOR1_GAIN_IQ_LOW_A (2.0f)
#define USER_MOTOR1_GAIN_IQ_HIGH_A (6.0f)
#define USER_MOTOR1_KP_IQ_START_SF (1.5f) // 0.1~10.0
#define USER_MOTOR1_KI_IQ_START_SF (1.5f) // 0.1~10.0
#define USER_MOTOR1_KP_IQ_LOW_SF (2.0f) // 0.1~10.0
#define USER_MOTOR1_KI_IQ_LOW_SF (2.0f) // 0.1~10.0
#define USER_MOTOR1_KP_IQ_HIGH_SF (1.0f) // 0.1~10.0
#define USER_MOTOR1_KI_IQ_HIGH_SF (1.0f) // 0.1~10.0
#define USER_MOTOR1_KP_ID_SF (1.0f) // 0.1~10.0
#define USER_MOTOR1_KI_ID_SF (1.0f) // 0.1~10.0
#elif (USER_MOTOR1 == embpast_Fan160hv)
// Refer to the description of the following parameters for Teknic_M2310PLN04K
#define USER_MOTOR1_TYPE MOTOR_TYPE_PM
#define USER_MOTOR1_NUM_POLE_PAIRS (4)
#define USER_MOTOR1_Rr_Ohm (0.0)
#define USER_MOTOR1_Rs_Ohm (8.76899433)
#define USER_MOTOR1_Ls_d_H (0.0284830406)
#define USER_MOTOR1_Ls_q_H (0.0284830406)
#define USER_MOTOR1_RATED_FLUX_VpHz (0.280854076)
#define USER_MOTOR1_MAGNETIZING_CURRENT_A (NULL)
#define USER_MOTOR1_RES_EST_CURRENT_A (1.25)
#define USER_MOTOR1_IND_EST_CURRENT_A (-0.30)
#define USER_MOTOR1_MAX_CURRENT_A (3.5)
#define USER_MOTOR1_FLUX_EXC_FREQ_Hz (20.0)
#define USER_MOTOR1_NUM_ENC_SLOTS (2500.0)
#define USER_MOTOR1_INERTIA_Kgm2 (27.5e-5)
#define USER_MOTOR1_FREQ_NEARZEROLIMIT_Hz (5.0f) // Hz
#define USER_MOTOR1_RATED_VOLTAGE_V (200.0)
#define USER_MOTOR1_FREQ_MIN_Hz (5.0) // Hz
#define USER_MOTOR1_FREQ_MAX_Hz (400.0) // Hz
#define USER_MOTOR1_FREQ_LOW_Hz (10.0) // Hz
#define USER_MOTOR1_FREQ_HIGH_Hz (200.0) // Hz
#define USER_MOTOR1_VOLT_MIN_V (20.0) // Volt
#define USER_MOTOR1_VOLT_MAX_V (200.0) // Volt
#define USER_MOTOR1_FORCE_DELTA_A (0.05) // A
#define USER_MOTOR1_ALIGN_DELTA_A (0.01) // A
#define USER_MOTOR1_FLUX_CURRENT_A (0.0) // A
#define USER_MOTOR1_ALIGN_CURRENT_A (0.0) // A
#define USER_MOTOR1_STARTUP_CURRENT_A (2.0) // A
#define USER_MOTOR1_TORQUE_CURRENT_A (1.0) // A
#define USER_MOTOR1_OVER_CURRENT_A (6.25) // A
#define USER_MOTOR1_SPEED_START_Hz (20.0) //
#define USER_MOTOR1_SPEED_FORCE_Hz (30.0) //
#define USER_MOTOR1_ACCEL_START_Hzps (10.0) //
#define USER_MOTOR1_ACCEL_MAX_Hzps (20.0) //
#define USER_MOTOR1_SPEED_FS_Hz (3.0f)
// only for encoder
#define USER_MOTOR1_ENC_POS_MAX (USER_MOTOR1_NUM_ENC_SLOTS * 4 - 1)
#define USER_MOTOR1_ENC_POS_OFFSET (668)
// Only for eSMO
#define USER_MOTOR1_KSLIDE_MAX (0.55f)
#define USER_MOTOR1_KSLIDE_MIN (0.10f)
#define USER_MOTOR1_PLL_KP_MAX (7.25f)
#define USER_MOTOR1_PLL_KP_MIN (1.75f)
#define USER_MOTOR1_PLL_KP_SF (20.0f)
#define USER_MOTOR1_PLL_KI (2.8125E-06f) // Not used, reserve
#define USER_MOTOR1_BEMF_THRESHOLD (0.5f)
#define USER_MOTOR1_BEMF_KSLF_FC_Hz (1.0f)
#define USER_MOTOR1_THETA_OFFSET_SF (1.0f)
#define USER_MOTOR1_SPEED_LPF_FC_Hz (200.0f)
// for IS-BLDC
#define USER_MOTOR1_RAMP_START_Hz (5.0f)
#define USER_MOTOR1_RAMP_END_Hz (30.0f)
#define USER_MOTOR1_RAMP_DELAY (1)
#define USER_MOTOR1_ISBLDC_INT_MAX (0.015f)
#define USER_MOTOR1_ISBLDC_INT_MIN (0.010f)
// for Rs online calibration
#define USER_MOTOR1_RSONLINE_WAIT_TIME (60000U) // 5min/300s at 5ms base
#define USER_MOTOR1_RSONLINE_WORK_TIME (24000U) //2min/120s at 5ms base
// Current and Speed PI Regulators Tuning Coefficient
#define USER_MOTOR1_GAIN_SPEED_LOW_Hz (60.0f)
#define USER_MOTOR1_GAIN_SPEED_HIGH_Hz (150.0f)
#define USER_MOTOR1_KP_SPD_START_SF (1.5f) // 0.1~100.0
#define USER_MOTOR1_KI_SPD_START_SF (1.5f) // 0.1~10.0
#define USER_MOTOR1_KP_SPD_LOW_SF (2.0f) // 0.1~100.0
#define USER_MOTOR1_KI_SPD_LOW_SF (2.0f) // 0.1~10.0
#define USER_MOTOR1_KP_SPD_HIGH_SF (1.0f) // 0.1~100.0
#define USER_MOTOR1_KI_SPD_HIGH_SF (1.0f) // 0.1~10.0
#define USER_MOTOR1_GAIN_IQ_LOW_A (2.0f)
#define USER_MOTOR1_GAIN_IQ_HIGH_A (6.0f)
#define USER_MOTOR1_KP_IQ_START_SF (1.5f) // 0.1~10.0
#define USER_MOTOR1_KI_IQ_START_SF (1.5f) // 0.1~10.0
#define USER_MOTOR1_KP_IQ_LOW_SF (2.0f) // 0.1~10.0
#define USER_MOTOR1_KI_IQ_LOW_SF (2.0f) // 0.1~10.0
#define USER_MOTOR1_KP_IQ_HIGH_SF (1.0f) // 0.1~10.0
#define USER_MOTOR1_KI_IQ_HIGH_SF (1.0f) // 0.1~10.0
#define USER_MOTOR1_KP_ID_SF (1.0f) // 0.1~10.0
#define USER_MOTOR1_KI_ID_SF (1.0f) // 0.1~10.0
#elif (USER_MOTOR1 == Anaheim_BLWS235D)
// Refer to the description of the following parameters for Teknic_M2310PLN04K
#define USER_MOTOR1_TYPE MOTOR_TYPE_PM
#define USER_MOTOR1_NUM_POLE_PAIRS (2)
#define USER_MOTOR1_Rr_Ohm (NULL)
#define USER_MOTOR1_Rs_Ohm (5.44400978)
#define USER_MOTOR1_Ls_d_H (0.0224932302)
#define USER_MOTOR1_Ls_q_H (0.0224932302)
#define USER_MOTOR1_RATED_FLUX_VpHz (0.560590863)
#define USER_MOTOR1_MAGNETIZING_CURRENT_A (NULL)
#define USER_MOTOR1_RES_EST_CURRENT_A (1.0)
#define USER_MOTOR1_IND_EST_CURRENT_A (-1.0)
#define USER_MOTOR1_MAX_CURRENT_A (2.5)
#define USER_MOTOR1_FLUX_EXC_FREQ_Hz (40.0)
#define USER_MOTOR1_INERTIA_Kgm2 (0.0000230206204) // 0.003261 oz-in-sec2
#define USER_MOTOR1_RATED_VOLTAGE_V (160.0)
#define USER_MOTOR1_FREQ_MIN_Hz (5.0) // Hz
#define USER_MOTOR1_FREQ_MAX_Hz (200.0) // Hz
#define USER_MOTOR1_FREQ_LOW_Hz (10.0) // Hz
#define USER_MOTOR1_FREQ_HIGH_Hz (200.0) // Hz
#define USER_MOTOR1_VOLT_MIN_V (20.0) // Volt
#define USER_MOTOR1_VOLT_MAX_V (160.0) // Volt
#define USER_MOTOR1_FORCE_DELTA_A (0.05) // A
#define USER_MOTOR1_ALIGN_DELTA_A (0.01) // A
#define USER_MOTOR1_FLUX_CURRENT_A (0.5) // A
#define USER_MOTOR1_ALIGN_CURRENT_A (1.0) // A
#define USER_MOTOR1_STARTUP_CURRENT_A (1.5) //
#define USER_MOTOR1_TORQUE_CURRENT_A (1.0) // A
#define USER_MOTOR1_OVER_CURRENT_A (2.0) //
#define USER_MOTOR1_SPEED_START_Hz (30.0)
#define USER_MOTOR1_SPEED_FORCE_Hz (20.0)
#define USER_MOTOR1_ACCEL_START_Hzps (10.0) //
#define USER_MOTOR1_ACCEL_MAX_Hzps (100.0) //
#define USER_MOTOR1_SPEED_FS_Hz (3.0f)
#if defined(MOTOR1_FAST)
// Only for FAST
#define USER_MOTOR1_Ls_d_COMP_COEF (0.15f) // 0.0f~0.5f
#define USER_MOTOR1_Ls_q_COMP_COEF (0.35f) // 0.0f~0.5f
#define USER_MOTOR1_Ls_MIN_NUM_COEF (0.55f) // 0.5f~1.0f
#define USER_MOTOR1_FREQ_NEARZEROLIMIT_Hz (5.0f) // Hz
// for Rs online calibration
#define USER_MOTOR1_RSONLINE_WAIT_TIME (60000U) // 5min/300s at 5ms base
#define USER_MOTOR1_RSONLINE_WORK_TIME (24000U) //2min/120s at 5ms base
#endif // MOTOR1_FAST
#if defined(MOTOR1_ESMO)
// Only for eSMO
#define USER_MOTOR1_KSLIDE_MAX (1.50f) // 2.0f
#define USER_MOTOR1_KSLIDE_MIN (0.75f)
#define USER_MOTOR1_PLL_KP_MAX (10.0f)
#define USER_MOTOR1_PLL_KP_MIN (2.0f)
#define USER_MOTOR1_PLL_KP_SF (5.0f)
#define USER_MOTOR1_PLL_KI (2.8125E-06f) // Not used, reserve
#define USER_MOTOR1_BEMF_THRESHOLD (0.5f)
#define USER_MOTOR1_BEMF_KSLF_FC_Hz (2.0f) // 1.0f
#define USER_MOTOR1_THETA_OFFSET_SF (1.0f) // 2.5f
#define USER_MOTOR1_SPEED_LPF_FC_Hz (200.0f) // 100.0f
#endif // MOTOR1_ESMO
#if defined(MOTOR1_ENC)
// Only for encoder
#define USER_MOTOR1_NUM_ENC_SLOTS (NULL)
#define USER_MOTOR1_ENC_POS_MAX (USER_MOTOR1_NUM_ENC_SLOTS * 4 - 1)
#define USER_MOTOR1_ENC_POS_OFFSET (668) // lines
#endif // MOTOR1_ENC
#if defined(MOTOR1_HALL)
// Only for hall sensor
#define USER_MOTOR1_HALL_DELTA_rad (MATH_TWO_PI / 36.0f) // rad
#endif // MOTOR1_HALL
#if defined(MOTOR1_ISBLDC)
// for IS-BLDC
#define USER_MOTOR1_RAMP_START_Hz (5.0f)
#define USER_MOTOR1_RAMP_END_Hz (30.0f)
#define USER_MOTOR1_RAMP_DELAY (1)
#define USER_MOTOR1_ISBLDC_INT_MAX (0.015f)
#define USER_MOTOR1_ISBLDC_INT_MIN (0.010f)
#endif // MOTOR1_ISBLDC
// Current and Speed PI Regulators Tuning Coefficient
#define USER_MOTOR1_GAIN_SPEED_LOW_Hz (60.0f)
#define USER_MOTOR1_GAIN_SPEED_HIGH_Hz (150.0f)
#define USER_MOTOR1_KP_SPD_START_SF (1.5f) // 0.1~100.0
#define USER_MOTOR1_KI_SPD_START_SF (1.5f) // 0.1~10.0
#define USER_MOTOR1_KP_SPD_LOW_SF (2.0f) // 0.1~100.0
#define USER_MOTOR1_KI_SPD_LOW_SF (2.0f) // 0.1~10.0
#define USER_MOTOR1_KP_SPD_HIGH_SF (1.0f) // 0.1~100.0
#define USER_MOTOR1_KI_SPD_HIGH_SF (1.0f) // 0.1~10.0
#define USER_MOTOR1_GAIN_IQ_LOW_A (2.0f)
#define USER_MOTOR1_GAIN_IQ_HIGH_A (6.0f)
#define USER_MOTOR1_KP_IQ_START_SF (1.5f) // 0.1~10.0
#define USER_MOTOR1_KI_IQ_START_SF (1.5f) // 0.1~10.0
#define USER_MOTOR1_KP_IQ_LOW_SF (2.0f) // 0.1~10.0
#define USER_MOTOR1_KI_IQ_LOW_SF (2.0f) // 0.1~10.0
#define USER_MOTOR1_KP_IQ_HIGH_SF (1.0f) // 0.1~10.0
#define USER_MOTOR1_KI_IQ_HIGH_SF (1.0f) // 0.1~10.0
#define USER_MOTOR1_KP_ID_SF (1.0f) // 0.1~10.0
#define USER_MOTOR1_KI_ID_SF (1.0f) // 0.1~10.0
#elif (USER_MOTOR1 == Anaheim_BLZ362S)
// Refer to the description of the following parameters for Teknic_M2310PLN04K
#define USER_MOTOR1_TYPE MOTOR_TYPE_PM
#define USER_MOTOR1_NUM_POLE_PAIRS (4)
#define USER_MOTOR1_Rr_Ohm (NULL)
#define USER_MOTOR1_Rs_Ohm (0.562865257f)
#define USER_MOTOR1_Ls_d_H (0.00117779721f)
#define USER_MOTOR1_Ls_q_H (0.00117779721f)
#define USER_MOTOR1_RATED_FLUX_VpHz (0.276417136f)
#define USER_MOTOR1_MAGNETIZING_CURRENT_A (NULL)
#define USER_MOTOR1_RES_EST_CURRENT_A (2.5)
#define USER_MOTOR1_IND_EST_CURRENT_A (-1.5)
#define USER_MOTOR1_MAX_CURRENT_A (7.5)
#define USER_MOTOR1_FLUX_EXC_FREQ_Hz (40.0)
#define USER_MOTOR1_NUM_ENC_SLOTS (NULL)
#define USER_MOTOR1_INERTIA_Kgm2 (0.0000230206204) // 0.003261 oz-in-sec2
#define USER_MOTOR1_FREQ_NEARZEROLIMIT_Hz (5.0f) // Hz
#define USER_MOTOR1_RATED_VOLTAGE_V (160.0)
#define USER_MOTOR1_FREQ_MIN_Hz (5.0) // Hz
#define USER_MOTOR1_FREQ_MAX_Hz (200.0) // Hz
#define USER_MOTOR1_FREQ_LOW_Hz (10.0) // Hz
#define USER_MOTOR1_FREQ_HIGH_Hz (200.0) // Hz
#define USER_MOTOR1_VOLT_MIN_V (20.0) // Volt
#define USER_MOTOR1_VOLT_MAX_V (160.0) // Volt
#define USER_MOTOR1_FORCE_DELTA_A (0.05) // A
#define USER_MOTOR1_ALIGN_DELTA_A (0.01) // A
#define USER_MOTOR1_FLUX_CURRENT_A (0.5) // A
#define USER_MOTOR1_ALIGN_CURRENT_A (2.0) // A
#define USER_MOTOR1_STARTUP_CURRENT_A (4.5) //
#define USER_MOTOR1_TORQUE_CURRENT_A (0.5) // A
#define USER_MOTOR1_OVER_CURRENT_A (6.5) //
#define USER_MOTOR1_SPEED_START_Hz (30.0)
#define USER_MOTOR1_SPEED_FORCE_Hz (20.0)
#define USER_MOTOR1_ACCEL_START_Hzps (10.0) //
#define USER_MOTOR1_ACCEL_MAX_Hzps (100.0) //
#define USER_MOTOR1_SPEED_FS_Hz (3.0f)
// only for encoder
#define USER_MOTOR1_ENC_POS_MAX (USER_MOTOR1_NUM_ENC_SLOTS * 4 - 1)
#define USER_MOTOR1_ENC_POS_OFFSET (668)
// Only for eSMO
#define USER_MOTOR1_KSLIDE_MAX (1.50f) // 2.0f
#define USER_MOTOR1_KSLIDE_MIN (0.75f)
#define USER_MOTOR1_PLL_KP_MAX (10.0f)
#define USER_MOTOR1_PLL_KP_MIN (2.0f)
#define USER_MOTOR1_PLL_KP_SF (5.0f)
#define USER_MOTOR1_PLL_KI (2.8125E-06f) // Not used, reserve
#define USER_MOTOR1_BEMF_THRESHOLD (0.5f)
#define USER_MOTOR1_BEMF_KSLF_FC_Hz (2.0f) // 1.0f
#define USER_MOTOR1_THETA_OFFSET_SF (1.0f) // 2.5f
#define USER_MOTOR1_SPEED_LPF_FC_Hz (200.0f) // 100.0f
// for IS-BLDC
#define USER_MOTOR1_RAMP_START_Hz (5.0f)
#define USER_MOTOR1_RAMP_END_Hz (30.0f)
#define USER_MOTOR1_RAMP_DELAY (1)
#define USER_MOTOR1_ISBLDC_INT_MAX (0.015f)
#define USER_MOTOR1_ISBLDC_INT_MIN (0.010f)
// for Rs online calibration
#define USER_MOTOR1_RSONLINE_WAIT_TIME (60000U) // 5min/300s at 5ms base
#define USER_MOTOR1_RSONLINE_WORK_TIME (24000U) //2min/120s at 5ms base
// Current and Speed PI Regulators Tuning Coefficient
#define USER_MOTOR1_GAIN_SPEED_LOW_Hz (60.0f)
#define USER_MOTOR1_GAIN_SPEED_HIGH_Hz (150.0f)
#define USER_MOTOR1_KP_SPD_START_SF (1.5f) // 0.1~100.0
#define USER_MOTOR1_KI_SPD_START_SF (1.5f) // 0.1~10.0
#define USER_MOTOR1_KP_SPD_LOW_SF (2.0f) // 0.1~100.0
#define USER_MOTOR1_KI_SPD_LOW_SF (2.0f) // 0.1~10.0
#define USER_MOTOR1_KP_SPD_HIGH_SF (1.0f) // 0.1~100.0
#define USER_MOTOR1_KI_SPD_HIGH_SF (1.0f) // 0.1~10.0
#define USER_MOTOR1_GAIN_IQ_LOW_A (2.0f)
#define USER_MOTOR1_GAIN_IQ_HIGH_A (6.0f)
#define USER_MOTOR1_KP_IQ_START_SF (1.5f) // 0.1~10.0
#define USER_MOTOR1_KI_IQ_START_SF (1.5f) // 0.1~10.0
#define USER_MOTOR1_KP_IQ_LOW_SF (2.0f) // 0.1~10.0
#define USER_MOTOR1_KI_IQ_LOW_SF (2.0f) // 0.1~10.0
#define USER_MOTOR1_KP_IQ_HIGH_SF (1.0f) // 0.1~10.0
#define USER_MOTOR1_KI_IQ_HIGH_SF (1.0f) // 0.1~10.0
#define USER_MOTOR1_KP_ID_SF (1.0f) // 0.1~10.0
#define USER_MOTOR1_KI_ID_SF (1.0f) // 0.1~10.0
#elif (USER_MOTOR1 == Regal_Beloit_5SME39DL0756)
// Refer to the description of the following parameters for Teknic_M2310PLN04K
#define USER_MOTOR1_TYPE MOTOR_TYPE_PM
#define USER_MOTOR1_NUM_POLE_PAIRS (3)
#define USER_MOTOR1_Rr_Ohm (0.0)
#define USER_MOTOR1_Rs_Ohm (4.581007)
#define USER_MOTOR1_Ls_d_H (0.03727356)
#define USER_MOTOR1_Ls_q_H (0.03727356)
#define USER_MOTOR1_RATED_FLUX_VpHz (0.6589699)
#define USER_MOTOR1_MAGNETIZING_CURRENT_A (NULL)
#define USER_MOTOR1_RES_EST_CURRENT_A (1.0)
#define USER_MOTOR1_IND_EST_CURRENT_A (-1.0)
#define USER_MOTOR1_MAX_CURRENT_A (2.6)
#define USER_MOTOR1_FLUX_EXC_FREQ_Hz (20.0)
#define USER_MOTOR1_NUM_ENC_SLOTS (NULL)
// Current and Speed PI Regulators Tuning Coefficient
#define USER_MOTOR1_GAIN_SPEED_LOW_Hz (60.0f)
#define USER_MOTOR1_GAIN_SPEED_HIGH_Hz (150.0f)
#define USER_MOTOR1_KP_SPD_START_SF (1.5f) // 0.1~100.0
#define USER_MOTOR1_KI_SPD_START_SF (1.5f) // 0.1~10.0
#define USER_MOTOR1_KP_SPD_LOW_SF (2.0f) // 0.1~100.0
#define USER_MOTOR1_KI_SPD_LOW_SF (2.0f) // 0.1~10.0
#define USER_MOTOR1_KP_SPD_HIGH_SF (1.0f) // 0.1~100.0
#define USER_MOTOR1_KI_SPD_HIGH_SF (1.0f) // 0.1~10.0
#define USER_MOTOR1_GAIN_IQ_LOW_A (2.0f)
#define USER_MOTOR1_GAIN_IQ_HIGH_A (6.0f)
#define USER_MOTOR1_KP_IQ_START_SF (1.5f) // 0.1~10.0
#define USER_MOTOR1_KI_IQ_START_SF (1.5f) // 0.1~10.0
#define USER_MOTOR1_KP_IQ_LOW_SF (2.0f) // 0.1~10.0
#define USER_MOTOR1_KI_IQ_LOW_SF (2.0f) // 0.1~10.0
#define USER_MOTOR1_KP_IQ_HIGH_SF (1.0f) // 0.1~10.0
#define USER_MOTOR1_KI_IQ_HIGH_SF (1.0f) // 0.1~10.0
#define USER_MOTOR1_KP_ID_SF (1.0f) // 0.1~10.0
#define USER_MOTOR1_KI_ID_SF (1.0f) // 0.1~10.0
#elif (USER_MOTOR1 == Drone9616_110KV_48V)
// Refer to the description of the following parameters for Teknic_M2310PLN04K
#define USER_MOTOR1_TYPE MOTOR_TYPE_PM
#define USER_MOTOR1_NUM_POLE_PAIRS (7)
#define USER_MOTOR1_Rr_Ohm (NULL)
#define USER_MOTOR1_Rs_Ohm (0.0282184016)
#define USER_MOTOR1_Ls_d_H (1.39398744e-05)
#define USER_MOTOR1_Ls_q_H (1.39398744e-05)
#define USER_MOTOR1_RATED_FLUX_VpHz (0.0159354247)
#define USER_MOTOR1_MAGNETIZING_CURRENT_A (NULL)
#define USER_MOTOR1_RES_EST_CURRENT_A (3.5)
#define USER_MOTOR1_IND_EST_CURRENT_A (-3.0)
#define USER_MOTOR1_MAX_CURRENT_A (50.0)
#define USER_MOTOR1_FLUX_EXC_FREQ_Hz (60.0)
#define USER_MOTOR1_NUM_ENC_SLOTS (NULL)
#define USER_MOTOR1_INERTIA_Kgm2 (4.80185e-06)
// Ls compensation coefficient
#define USER_MOTOR1_Ls_d_COMP_COEF (0.15f) // 0.0f~0.5f
#define USER_MOTOR1_Ls_q_COMP_COEF (0.35f) // 0.0f~0.5f
#define USER_MOTOR1_Ls_MIN_NUM_COEF (0.55f) // 0.5f~1.0f
#define USER_MOTOR1_FREQ_NEARZEROLIMIT_Hz (5.0f) // Hz
#define USER_MOTOR1_RATED_VOLTAGE_V (48.0)
#define USER_MOTOR1_FREQ_MIN_Hz (10.0) // Hz
#define USER_MOTOR1_FREQ_MAX_Hz (1200.0) // Hz
#define USER_MOTOR1_FREQ_LOW_Hz (10.0) // Hz
#define USER_MOTOR1_FREQ_HIGH_Hz (400.0) // Hz
#define USER_MOTOR1_VOLT_MIN_V (2.0) // Volt
#define USER_MOTOR1_VOLT_MAX_V (48.0) // Volt
#define USER_MOTOR1_FORCE_DELTA_A (0.05) // A
#define USER_MOTOR1_ALIGN_DELTA_A (0.01) // A
#define USER_MOTOR1_FLUX_CURRENT_A (0.5) // A
#define USER_MOTOR1_ALIGN_CURRENT_A (1.5) //
#define USER_MOTOR1_STARTUP_CURRENT_A (5.0) //
#define USER_MOTOR1_TORQUE_CURRENT_A (2.0) // A
#define USER_MOTOR1_OVER_CURRENT_A (75.0) //
#define USER_MOTOR1_SPEED_START_Hz (75.0)
#define USER_MOTOR1_SPEED_FORCE_Hz (60.0)
#define USER_MOTOR1_ACCEL_START_Hzps (10.0)
#define USER_MOTOR1_ACCEL_MAX_Hzps (50.0)
#define USER_MOTOR1_SPEED_FS_Hz (3.0)
// only for encoder
#define USER_MOTOR1_ENC_POS_MAX (USER_MOTOR1_NUM_ENC_SLOTS * 4 - 1)
#define USER_MOTOR1_ENC_POS_OFFSET (668)
// Only for eSMO
#define USER_MOTOR1_KSLIDE_MAX (1.00f) // 2.0f
#define USER_MOTOR1_KSLIDE_MIN (0.05f)
#define USER_MOTOR1_PLL_KP_MAX (15.0f)
#define USER_MOTOR1_PLL_KP_MIN (2.0f)
#define USER_MOTOR1_PLL_KP_SF (20.0f)
#define USER_MOTOR1_PLL_KI (2.8125E-06f) // Not used, reserve
#define USER_MOTOR1_BEMF_THRESHOLD (0.05f)
#define USER_MOTOR1_BEMF_KSLF_FC_Hz (2.0f) // 1.0f
#define USER_MOTOR1_THETA_OFFSET_SF (1.0f) // 2.5f
#define USER_MOTOR1_SPEED_LPF_FC_Hz (200.0f) // 100.0f
// for IS-BLDC
#define USER_MOTOR1_RAMP_START_Hz (5.0f)
#define USER_MOTOR1_RAMP_END_Hz (30.0f)
#define USER_MOTOR1_RAMP_DELAY (1)
#define USER_MOTOR1_ISBLDC_INT_MAX (0.015f)
#define USER_MOTOR1_ISBLDC_INT_MIN (0.010f)
// for Rs online calibration
#define USER_MOTOR1_RSONLINE_WAIT_TIME (60000U) // 5min/300s at 5ms base
#define USER_MOTOR1_RSONLINE_WORK_TIME (24000U) //2min/120s at 5ms base
// Current and Speed PI Regulators Tuning Coefficient
#define USER_MOTOR1_GAIN_SPEED_LOW_Hz (60.0f)
#define USER_MOTOR1_GAIN_SPEED_HIGH_Hz (150.0f)
#define USER_MOTOR1_KP_SPD_START_SF (1.5f) // 0.1~100.0
#define USER_MOTOR1_KI_SPD_START_SF (1.5f) // 0.1~10.0
#define USER_MOTOR1_KP_SPD_LOW_SF (2.0f) // 0.1~100.0
#define USER_MOTOR1_KI_SPD_LOW_SF (2.0f) // 0.1~10.0
#define USER_MOTOR1_KP_SPD_HIGH_SF (1.0f) // 0.1~100.0
#define USER_MOTOR1_KI_SPD_HIGH_SF (1.0f) // 0.1~10.0
#define USER_MOTOR1_GAIN_IQ_LOW_A (2.0f)
#define USER_MOTOR1_GAIN_IQ_HIGH_A (6.0f)
#define USER_MOTOR1_KP_IQ_START_SF (1.5f) // 0.1~10.0
#define USER_MOTOR1_KI_IQ_START_SF (1.5f) // 0.1~10.0
#define USER_MOTOR1_KP_IQ_LOW_SF (2.0f) // 0.1~10.0
#define USER_MOTOR1_KI_IQ_LOW_SF (2.0f) // 0.1~10.0
#define USER_MOTOR1_KP_IQ_HIGH_SF (1.0f) // 0.1~10.0
#define USER_MOTOR1_KI_IQ_HIGH_SF (1.0f) // 0.1~10.0
#define USER_MOTOR1_KP_ID_SF (1.0f) // 0.1~10.0
#define USER_MOTOR1_KI_ID_SF (1.0f) // 0.1~10.0
#elif (USER_MOTOR1 == Anaheim_BLY341S_48V)
// Refer to the description of the following parameters for Teknic_M2310PLN04K
#define USER_MOTOR1_TYPE MOTOR_TYPE_PM
#define USER_MOTOR1_NUM_POLE_PAIRS (4)
#define USER_MOTOR1_Rr_Ohm (NULL)
#define USER_MOTOR1_Rs_Ohm (0.463800967)
#define USER_MOTOR1_Ls_d_H (0.00114538975)
#define USER_MOTOR1_Ls_q_H (0.00114538975)
#define USER_MOTOR1_RATED_FLUX_VpHz (0.0978558362)
#define USER_MOTOR1_MAGNETIZING_CURRENT_A (NULL)
#define USER_MOTOR1_RES_EST_CURRENT_A (2.5)
#define USER_MOTOR1_IND_EST_CURRENT_A (-2.0)
#define USER_MOTOR1_MAX_CURRENT_A (20.0)
#define USER_MOTOR1_FLUX_EXC_FREQ_Hz (20.0)
#define USER_MOTOR1_NUM_ENC_SLOTS (NULL)
#define USER_MOTOR1_FREQ_MIN_Hz (5.0) // Hz
#define USER_MOTOR1_FREQ_MAX_Hz (300.0) // Hz
#define USER_MOTOR1_FREQ_LOW_Hz (10.0) // Hz
#define USER_MOTOR1_FREQ_HIGH_Hz (200.0) // Hz
#define USER_MOTOR1_VOLT_MIN_V (4.0) // Volt
#define USER_MOTOR1_VOLT_MAX_V (24.0) // Volt
#elif (USER_MOTOR1 == Anaheim_BLY341S_Y24V)
#define USER_MOTOR1_TYPE MOTOR_TYPE_PM
#define USER_MOTOR1_NUM_POLE_PAIRS (4)
#define USER_MOTOR1_Rr_Ohm (NULL)
#define USER_MOTOR1_Rs_Ohm (0.133211181)
#define USER_MOTOR1_Ls_d_H (0.000275031634)
#define USER_MOTOR1_Ls_q_H (0.000275031634)
#define USER_MOTOR1_RATED_FLUX_VpHz (0.0514687076)
#define USER_MOTOR1_MAGNETIZING_CURRENT_A (NULL)
#define USER_MOTOR1_RES_EST_CURRENT_A (4.5)
#define USER_MOTOR1_IND_EST_CURRENT_A (-4.0)
#define USER_MOTOR1_MAX_CURRENT_A (12.0)
#define USER_MOTOR1_FLUX_EXC_FREQ_Hz (20.0)
#define USER_MOTOR1_NUM_ENC_SLOTS (NULL)
#define USER_MOTOR1_INERTIA_Kgm2 (3.99683e-05) // 0.00566 oz-in-sec2
#define USER_MOTOR1_RATED_VOLTAGE_V (24.0)
#define USER_MOTOR1_FREQ_MIN_Hz (5.0) // Hz
#define USER_MOTOR1_FREQ_MAX_Hz (300.0) // Hz
#define USER_MOTOR1_FREQ_LOW_Hz (10.0) // Hz
#define USER_MOTOR1_FREQ_HIGH_Hz (200.0) // Hz
#define USER_MOTOR1_VOLT_MIN_V (4.0) // Volt
#define USER_MOTOR1_VOLT_MAX_V (24.0) // Volt
#define USER_MOTOR1_STARTUP_CURRENT_A (3.0) //
#define USER_MOTOR1_TORQUE_CURRENT_A (1.5) // A
#define USER_MOTOR1_OVER_CURRENT_A (6.0) //
#define USER_MOTOR1_SPEED_START_Hz (10.0)
#define USER_MOTOR1_ACCEL_START_Hzps (10.0)
#define USER_MOTOR1_ACCEL_MAX_Hzps (20.0)
// Current and Speed PI Regulators Tuning Coefficient
#define USER_MOTOR1_GAIN_SPEED_LOW_Hz (60.0f)
#define USER_MOTOR1_GAIN_SPEED_HIGH_Hz (150.0f)
#define USER_MOTOR1_KP_SPD_START_SF (1.5f) // 0.1~100.0
#define USER_MOTOR1_KI_SPD_START_SF (1.5f) // 0.1~10.0
#define USER_MOTOR1_KP_SPD_LOW_SF (2.0f) // 0.1~100.0
#define USER_MOTOR1_KI_SPD_LOW_SF (2.0f) // 0.1~10.0
#define USER_MOTOR1_KP_SPD_HIGH_SF (1.0f) // 0.1~100.0
#define USER_MOTOR1_KI_SPD_HIGH_SF (1.0f) // 0.1~10.0
#define USER_MOTOR1_GAIN_IQ_LOW_A (2.0f)
#define USER_MOTOR1_GAIN_IQ_HIGH_A (6.0f)
#define USER_MOTOR1_KP_IQ_START_SF (1.5f) // 0.1~10.0
#define USER_MOTOR1_KI_IQ_START_SF (1.5f) // 0.1~10.0
#define USER_MOTOR1_KP_IQ_LOW_SF (2.0f) // 0.1~10.0
#define USER_MOTOR1_KI_IQ_LOW_SF (2.0f) // 0.1~10.0
#define USER_MOTOR1_KP_IQ_HIGH_SF (1.0f) // 0.1~10.0
#define USER_MOTOR1_KI_IQ_HIGH_SF (1.0f) // 0.1~10.0
#define USER_MOTOR1_KP_ID_SF (1.0f) // 0.1~10.0
#define USER_MOTOR1_KI_ID_SF (1.0f) // 0.1~10.0
#elif (USER_MOTOR1 == Anaheim_BLY341S_D24V)
// Refer to the description of the following parameters for Teknic_M2310PLN04K
#define USER_MOTOR1_TYPE MOTOR_TYPE_PM
#define USER_MOTOR1_NUM_POLE_PAIRS (4)
#define USER_MOTOR1_Rr_Ohm (NULL)
#define USER_MOTOR1_Rs_Ohm (0.0544644073)
#define USER_MOTOR1_Ls_d_H (9.58044038e-05)
#define USER_MOTOR1_Ls_q_H (9.58044038e-05)
#define USER_MOTOR1_RATED_FLUX_VpHz (0.0544644073)
#define USER_MOTOR1_MAGNETIZING_CURRENT_A (NULL)
#define USER_MOTOR1_RES_EST_CURRENT_A (4.0)
#define USER_MOTOR1_IND_EST_CURRENT_A (-3.5)
#define USER_MOTOR1_MAX_CURRENT_A (8.0)
#define USER_MOTOR1_FLUX_EXC_FREQ_Hz (40.0)
#define USER_MOTOR1_NUM_ENC_SLOTS (NULL)
#define USER_MOTOR1_INERTIA_Kgm2 (3.99683e-05) // 0.00566 oz-in-sec2
#define USER_MOTOR1_RATED_VOLTAGE_V (24.0)
#define USER_MOTOR1_FREQ_MIN_Hz (5.0) // Hz
#define USER_MOTOR1_FREQ_MAX_Hz (300.0) // Hz
#define USER_MOTOR1_FREQ_LOW_Hz (10.0) // Hz
#define USER_MOTOR1_FREQ_HIGH_Hz (200.0) // Hz
#define USER_MOTOR1_VOLT_MIN_V (4.0) // Volt
#define USER_MOTOR1_VOLT_MAX_V (24.0) // Volt
#define USER_MOTOR1_STARTUP_CURRENT_A (3.0) //
#define USER_MOTOR1_TORQUE_CURRENT_A (1.5) // A
#define USER_MOTOR1_OVER_CURRENT_A (8.5) //
#define USER_MOTOR1_SPEED_START_Hz (10.0)
#define USER_MOTOR1_ACCEL_START_Hzps (10.0)
#define USER_MOTOR1_ACCEL_MAX_Hzps (20.0)
// Current and Speed PI Regulators Tuning Coefficient
#define USER_MOTOR1_GAIN_SPEED_LOW_Hz (60.0f)
#define USER_MOTOR1_GAIN_SPEED_HIGH_Hz (150.0f)
#define USER_MOTOR1_KP_SPD_START_SF (1.5f) // 0.1~100.0
#define USER_MOTOR1_KI_SPD_START_SF (1.5f) // 0.1~10.0
#define USER_MOTOR1_KP_SPD_LOW_SF (2.0f) // 0.1~100.0
#define USER_MOTOR1_KI_SPD_LOW_SF (2.0f) // 0.1~10.0
#define USER_MOTOR1_KP_SPD_HIGH_SF (1.0f) // 0.1~100.0
#define USER_MOTOR1_KI_SPD_HIGH_SF (1.0f) // 0.1~10.0
#define USER_MOTOR1_GAIN_IQ_LOW_A (2.0f)
#define USER_MOTOR1_GAIN_IQ_HIGH_A (6.0f)
#define USER_MOTOR1_KP_IQ_START_SF (1.5f) // 0.1~10.0
#define USER_MOTOR1_KI_IQ_START_SF (1.5f) // 0.1~10.0
#define USER_MOTOR1_KP_IQ_LOW_SF (2.0f) // 0.1~10.0
#define USER_MOTOR1_KI_IQ_LOW_SF (2.0f) // 0.1~10.0
#define USER_MOTOR1_KP_IQ_HIGH_SF (1.0f) // 0.1~10.0
#define USER_MOTOR1_KI_IQ_HIGH_SF (1.0f) // 0.1~10.0
#define USER_MOTOR1_KP_ID_SF (1.0f) // 0.1~10.0
#define USER_MOTOR1_KI_ID_SF (1.0f) // 0.1~10.0
#elif (USER_MOTOR1 == EMSYNERGY_LVACI)
// Refer to the description of the following parameters for Teknic_M2310PLN04K
#define USER_MOTOR1_TYPE MOTOR_TYPE_INDUCTION
#define USER_MOTOR1_NUM_POLE_PAIRS (2)
#define USER_MOTOR1_Rr_Ohm (1.05)
#define USER_MOTOR1_Rs_Ohm (1.79)
#define USER_MOTOR1_Ls_d_H (0.00681)
#define USER_MOTOR1_Ls_q_H (0.00681)
#define USER_MOTOR1_RATED_FLUX_VpHz (0.8165f*14.7f*1.4142f/50.0f)
#define USER_MOTOR1_MAGNETIZING_CURRENT_A (0.91f*1.4142f)
#define USER_MOTOR1_RES_EST_CURRENT_A (0.5f)
#define USER_MOTOR1_IND_EST_CURRENT_A (NULL)
#define USER_MOTOR1_MAX_CURRENT_A (2.50)
#define USER_MOTOR1_FLUX_EXC_FREQ_Hz (10.0)
#define USER_MOTOR1_NUM_ENC_SLOTS (NULL)
#define USER_MOTOR1_INERTIA_Kgm2 (7.06154e-06)
#define USER_MOTOR1_FREQ_NEARZEROLIMIT_Hz (5.0f) // Hz
#define USER_MOTOR1_RATED_VOLTAGE_V (24.0)
#define USER_MOTOR1_FREQ_MIN_Hz (5.0) // Hz
#define USER_MOTOR1_FREQ_MAX_Hz (400.0) // Hz
#define USER_MOTOR1_FREQ_LOW_Hz (10.0) // Hz
#define USER_MOTOR1_FREQ_HIGH_Hz (200.0) // Hz
#define USER_MOTOR1_VOLT_MIN_V (20.0) // Volt
#define USER_MOTOR1_VOLT_MAX_V (200.0) // Volt
#define USER_MOTOR1_FORCE_DELTA_A (0.05f) // A
#define USER_MOTOR1_ALIGN_DELTA_A (0.01f) // A
#define USER_MOTOR1_FLUX_CURRENT_A (0.5f) // A
#define USER_MOTOR1_ALIGN_CURRENT_A (1.5f) // A
#define USER_MOTOR1_STARTUP_CURRENT_A (1.5f) // A
#define USER_MOTOR1_TORQUE_CURRENT_A (1.0f) // A
#define USER_MOTOR1_OVER_CURRENT_A (5.0) // A
#define USER_MOTOR1_SPEED_START_Hz (30.0)
#define USER_MOTOR1_SPEED_FORCE_Hz (25.0)
#define USER_MOTOR1_ACCEL_START_Hzps (10.0)
#define USER_MOTOR1_ACCEL_MAX_Hzps (20.0)
#define USER_MOTOR1_SPEED_FS_Hz (3.0)
// only for encoder, N/A
#define USER_MOTOR1_ENC_POS_MAX (USER_MOTOR1_NUM_ENC_SLOTS * 4 - 1)
#define USER_MOTOR1_ENC_POS_OFFSET (668)
// Only for eSMO, N/A
#define USER_MOTOR1_KSLIDE_MAX (1.50f)
#define USER_MOTOR1_KSLIDE_MIN (0.15f)
#define USER_MOTOR1_PLL_KP_MAX (7.25f)
#define USER_MOTOR1_PLL_KP_MIN (1.25f)
#define USER_MOTOR1_PLL_KP_SF (5.0f)
#define USER_MOTOR1_PLL_KI (2.8125E-06f) // Not used, reserve
#define USER_MOTOR1_BEMF_THRESHOLD (0.5f)
#define USER_MOTOR1_BEMF_KSLF_FC_Hz (2.0f)
#define USER_MOTOR1_THETA_OFFSET_SF (1.0f)
#define USER_MOTOR1_SPEED_LPF_FC_Hz (200.0f)
// for IS-BLDC, N/A
#define USER_MOTOR1_RAMP_START_Hz (5.0f)
#define USER_MOTOR1_RAMP_END_Hz (30.0f)
#define USER_MOTOR1_RAMP_DELAY (1)
#define USER_MOTOR1_ISBLDC_INT_MAX (0.015f)
#define USER_MOTOR1_ISBLDC_INT_MIN (0.010f)
// for Rs online calibration
#define USER_MOTOR1_RSONLINE_WAIT_TIME (60000U) // 5min/300s at 5ms base
#define USER_MOTOR1_RSONLINE_WORK_TIME (24000U) //2min/120s at 5ms base
#elif (USER_MOTOR1 == Marathon_5K33GN2A)
// Refer to the description of the following parameters for Teknic_M2310PLN04K
#define USER_MOTOR1_TYPE MOTOR_TYPE_INDUCTION
#define USER_MOTOR1_NUM_POLE_PAIRS (2)
#define USER_MOTOR1_Rr_Ohm (5.508003)
#define USER_MOTOR1_Rs_Ohm (10.71121)
#define USER_MOTOR1_Ls_d_H (0.05296588)
#define USER_MOTOR1_Ls_q_H (0.05296588)
#define USER_MOTOR1_RATED_FLUX_VpHz (0.8165*220.0/60.0)
#define USER_MOTOR1_MAGNETIZING_CURRENT_A (1.378)
#define USER_MOTOR1_RES_EST_CURRENT_A (1.0)
#define USER_MOTOR1_IND_EST_CURRENT_A (NULL)
#define USER_MOTOR1_MAX_CURRENT_A (3.0)
#define USER_MOTOR1_FLUX_EXC_FREQ_Hz (5.0)
#define USER_MOTOR1_NUM_ENC_SLOTS (NULL)
#define USER_MOTOR1_FREQ_MIN_Hz (5.0) // Hz
#define USER_MOTOR1_FREQ_MAX_Hz (400.0) // Hz
#define USER_MOTOR1_FREQ_LOW_Hz (10.0) // Hz
#define USER_MOTOR1_FREQ_HIGH_Hz (200.0) // Hz
#define USER_MOTOR1_VOLT_MIN_V (20.0) // Volt
#define USER_MOTOR1_VOLT_MAX_V (200.0) // Volt
#elif (USER_MOTOR1 == Marathon_56H17T2011A)
// Refer to the description of the following parameters for Teknic_M2310PLN04K
#define USER_MOTOR1_TYPE MOTOR_TYPE_INDUCTION
#define USER_MOTOR1_NUM_POLE_PAIRS (2)
#define USER_MOTOR1_Rr_Ohm (5.159403)
#define USER_MOTOR1_Rs_Ohm (7.924815)
#define USER_MOTOR1_Ls_d_H (0.03904648)
#define USER_MOTOR1_Ls_q_H (0.03904648)
#define USER_MOTOR1_RATED_FLUX_VpHz (0.8*0.8165*230.0/60.0)
#define USER_MOTOR1_MAGNETIZING_CURRENT_A (0.9941965)
#define USER_MOTOR1_RES_EST_CURRENT_A (0.5)
#define USER_MOTOR1_IND_EST_CURRENT_A (NULL)
#define USER_MOTOR1_MAX_CURRENT_A (2.0)
#define USER_MOTOR1_FLUX_EXC_FREQ_Hz (5.0)
#define USER_MOTOR1_NUM_ENC_SLOTS (NULL)
#define USER_MOTOR1_INERTIA_Kgm2 (6.300017e-5)
#define USER_MOTOR1_FREQ_NEARZEROLIMIT_Hz (5.0f) // Hz
#define USER_MOTOR1_RATED_VOLTAGE_V (200.0f)
#define USER_MOTOR1_FREQ_MIN_Hz (5.0f) // Hz
#define USER_MOTOR1_FREQ_MAX_Hz (400.0f) // Hz
#define USER_MOTOR1_FREQ_MIN_Hz (5.0) // Hz
#define USER_MOTOR1_FREQ_MAX_Hz (400.0) // Hz
#define USER_MOTOR1_FREQ_LOW_Hz (10.0) // Hz
#define USER_MOTOR1_FREQ_HIGH_Hz (200.0) // Hz
#define USER_MOTOR1_VOLT_MIN_V (20.0) // Volt
#define USER_MOTOR1_VOLT_MAX_V (200.0) // Volt
#define USER_MOTOR1_FORCE_DELTA_A (0.05f) // A
#define USER_MOTOR1_ALIGN_DELTA_A (0.01f) // A
#define USER_MOTOR1_FLUX_CURRENT_A (0.5f) // A
#define USER_MOTOR1_ALIGN_CURRENT_A (1.0f) // A
#define USER_MOTOR1_STARTUP_CURRENT_A (2.5f) // A
#define USER_MOTOR1_TORQUE_CURRENT_A (1.0f) // A
#define USER_MOTOR1_OVER_CURRENT_A (4.5f) // A
#define USER_MOTOR1_SPEED_START_Hz (30.0f)
#define USER_MOTOR1_SPEED_FORCE_Hz (20.0f)
#define USER_MOTOR1_ACCEL_START_Hzps (10.0f) // Hz/s
#define USER_MOTOR1_ACCEL_MAX_Hzps (20.0f) // Hz/s
#define USER_MOTOR1_SPEED_FS_Hz (3.0f)
// only for encoder
#define USER_MOTOR1_ENC_POS_MAX (USER_MOTOR1_NUM_ENC_SLOTS * 4 - 1)
#define USER_MOTOR1_ENC_POS_OFFSET (668)
#elif (USER_MOTOR1 == Dayton_3N352C)
// Refer to the description of the following parameters for Teknic_M2310PLN04K
#define USER_MOTOR1_TYPE MOTOR_TYPE_INDUCTION
#define USER_MOTOR1_NUM_POLE_PAIRS (2)
#define USER_MOTOR1_Rr_Ohm (2.428799)
#define USER_MOTOR1_Rs_Ohm (2.863202)
#define USER_MOTOR1_Ls_d_H (0.02391323)
#define USER_MOTOR1_Ls_q_H (0.02391323)
#define USER_MOTOR1_RATED_FLUX_VpHz (0.8165*230.0/60.0)
#define USER_MOTOR1_MAGNETIZING_CURRENT_A (NULL)
#define USER_MOTOR1_RES_EST_CURRENT_A (1.0)
#define USER_MOTOR1_IND_EST_CURRENT_A (NULL)
#define USER_MOTOR1_MAX_CURRENT_A (3.0)
#define USER_MOTOR1_FLUX_EXC_FREQ_Hz (5.0)
#define USER_MOTOR1_NUM_ENC_SLOTS (NULL)
//------------------------------------------------------------------
#elif (USER_MOTOR1 == my_pm_motor_1)
// Refer to the description of the following parameters for Teknic_M2310PLN04K
#define USER_MOTOR1_TYPE MOTOR_TYPE_PM
#define USER_MOTOR1_NUM_POLE_PAIRS (3)
#define USER_MOTOR1_Rr_Ohm (NULL)
#define USER_MOTOR1_Rs_Ohm (0.007)
#define USER_MOTOR1_Ls_d_H (0.000021)
#define USER_MOTOR1_Ls_q_H (0.000021)
#define USER_MOTOR1_RATED_FLUX_VpHz (0.027)
#define USER_MOTOR1_MAGNETIZING_CURRENT_A (NULL)
#define USER_MOTOR1_RES_EST_CURRENT_A (10.0f)
#define USER_MOTOR1_IND_EST_CURRENT_A (-10.0f)
#define USER_MOTOR1_MAX_CURRENT_A (70.0f)
#define USER_MOTOR1_FLUX_EXC_FREQ_Hz (40.0f)
// Number of lines on the motor's quadrature encoder
#define USER_MOTOR1_NUM_ENC_SLOTS (1000)
#define USER_MOTOR1_INERTIA_Kgm2 (0.0014)
// Ls compensation coefficient
#define USER_MOTOR1_Ls_d_COMP_COEF (0.15f) // 0.0f~0.5f
#define USER_MOTOR1_Ls_q_COMP_COEF (0.35f) // 0.0f~0.5f
#define USER_MOTOR1_Ls_MIN_NUM_COEF (0.55f) // 0.5f~1.0f
#define USER_MOTOR1_FREQ_NEARZEROLIMIT_Hz (5.0f) // Hz
#define USER_MOTOR1_RATED_VOLTAGE_V (12.0f)
#define USER_MOTOR1_FREQ_MIN_Hz (9.0f) // Hz
#define USER_MOTOR1_FREQ_MAX_Hz (500.0f) // Hz
#define USER_MOTOR1_FREQ_LOW_Hz (5.0f) // Hz
#define USER_MOTOR1_FREQ_HIGH_Hz (120.0f) // Hz
#define USER_MOTOR1_VOLT_MIN_V (1.0f) // Volt
#define USER_MOTOR1_VOLT_MAX_V (6.0f) // Volt
#define USER_MOTOR1_FORCE_DELTA_A (0.05f) // A
#define USER_MOTOR1_ALIGN_DELTA_A (0.01f) // A
#define USER_MOTOR1_FLUX_CURRENT_A (0.5f) // A
#define USER_MOTOR1_ALIGN_CURRENT_A (1.5f) // A
#define USER_MOTOR1_STARTUP_CURRENT_A (10.0f) // A
#define USER_MOTOR1_TORQUE_CURRENT_A (2.0f) // A
#define USER_MOTOR1_OVER_CURRENT_A (85.0f) // A
#define USER_MOTOR1_BRAKE_CURRENT_A (1.0f) // A
#define USER_MOTOR1_BRAKE_TIME_DELAY (12000U) // 60s/5ms
#define USER_MOTOR1_SPEED_START_Hz (30.0f)
#define USER_MOTOR1_SPEED_FORCE_Hz (25.0f)
#define USER_MOTOR1_ACCEL_START_Hzps (10.0f)
#define USER_MOTOR1_ACCEL_MAX_Hzps (20.0f)
#define USER_MOTOR1_SPEED_FS_Hz (3.0f)
// only for encoder
#define USER_MOTOR1_ENC_POS_MAX (USER_MOTOR1_NUM_ENC_SLOTS * 4 - 1)
#define USER_MOTOR1_ENC_POS_OFFSET (668)
// Only for eSMO
#define USER_MOTOR1_KSLIDE_MAX (0.75f) //
#define USER_MOTOR1_KSLIDE_MIN (0.15f)
#define USER_MOTOR1_PLL_KP_MAX (6.75f) //
#define USER_MOTOR1_PLL_KP_MIN (0.75f)
#define USER_MOTOR1_PLL_KP_SF (5.0f)
#define USER_MOTOR1_PLL_KI (2.8125E-06f) // Not used, reserve
#define USER_MOTOR1_BEMF_THRESHOLD (0.5f)
#define USER_MOTOR1_BEMF_KSLF_FC_Hz (1.0f)
#define USER_MOTOR1_THETA_OFFSET_SF (1.0f)
#define USER_MOTOR1_SPEED_LPF_FC_Hz (200.0f)
// for IS-BLDC
#define USER_MOTOR1_RAMP_START_Hz (3.0f)
#define USER_MOTOR1_RAMP_END_Hz (30.0f)
#define USER_MOTOR1_RAMP_DELAY (5)
#define USER_MOTOR1_ISBLDC_INT_MAX (0.015f)
#define USER_MOTOR1_ISBLDC_INT_MIN (0.010f)
// for Rs online calibration
#define USER_MOTOR1_RSONLINE_WAIT_TIME (60000U) // 5min/300s at 5ms base
#define USER_MOTOR1_RSONLINE_WORK_TIME (24000U) //2min/120s at 5ms base
// Current and Speed PI Regulators Tuning Coefficient
#define USER_MOTOR1_GAIN_SPEED_LOW_Hz (60.0f)
#define USER_MOTOR1_GAIN_SPEED_HIGH_Hz (150.0f)
#define USER_MOTOR1_KP_SPD_START_SF (1.5f) // 0.1~100.0
#define USER_MOTOR1_KI_SPD_START_SF (1.5f) // 0.1~10.0
#define USER_MOTOR1_KP_SPD_LOW_SF (2.0f) // 0.1~100.0
#define USER_MOTOR1_KI_SPD_LOW_SF (2.0f) // 0.1~10.0
#define USER_MOTOR1_KP_SPD_HIGH_SF (1.0f) // 0.1~100.0
#define USER_MOTOR1_KI_SPD_HIGH_SF (1.0f) // 0.1~10.0
#define USER_MOTOR1_GAIN_IQ_LOW_A (2.0f)
#define USER_MOTOR1_GAIN_IQ_HIGH_A (6.0f)
#define USER_MOTOR1_KP_IQ_START_SF (1.5f) // 0.1~10.0
#define USER_MOTOR1_KI_IQ_START_SF (1.5f) // 0.1~10.0
#define USER_MOTOR1_KP_IQ_LOW_SF (2.0f) // 0.1~10.0
#define USER_MOTOR1_KI_IQ_LOW_SF (2.0f) // 0.1~10.0
#define USER_MOTOR1_KP_IQ_HIGH_SF (1.0f) // 0.1~10.0
#define USER_MOTOR1_KI_IQ_HIGH_SF (1.0f) // 0.1~10.0
#define USER_MOTOR1_KP_ID_SF (1.0f) // 0.1~10.0
#define USER_MOTOR1_KI_ID_SF (1.0f) // 0.1~10.0
#elif (USER_MOTOR1 == my_aci_motor_2)
// Refer to the description of the following parameters for Teknic_M2310PLN04K
#define USER_MOTOR1_TYPE MOTOR_TYPE_INDUCTION
#define USER_MOTOR1_NUM_POLE_PAIRS (2)
#define USER_MOTOR1_Rr_Ohm (NULL)
#define USER_MOTOR1_Rs_Ohm (NULL)
#define USER_MOTOR1_Ls_d_H (NULL)
#define USER_MOTOR1_Ls_q_H (NULL)
#define USER_MOTOR1_RATED_FLUX_VpHz (0.8165f * 230.0f / 60.0f)
#define USER_MOTOR1_MAGNETIZING_CURRENT_A (NULL)
#define USER_MOTOR1_RES_EST_CURRENT_A (0.5f)
#define USER_MOTOR1_IND_EST_CURRENT_A (NULL)
#define USER_MOTOR1_MAX_CURRENT_A (5.0f)
#define USER_MOTOR1_FLUX_EXC_FREQ_Hz (5.0f)
// Number of lines on the motor's quadrature encoder
#define USER_MOTOR1_NUM_ENC_SLOTS (1000)
#define USER_MOTOR1_FREQ_MIN_Hz (5.0f) // Hz
#define USER_MOTOR1_FREQ_MAX_Hz (300.0f) // Hz
#define USER_MOTOR1_FREQ_LOW_Hz (10.0f) // Hz
#define USER_MOTOR1_FREQ_HIGH_Hz (400.0f) // Hz
#define USER_MOTOR1_VOLT_MIN_V (4.0f) // Volt
#define USER_MOTOR1_VOLT_MAX_V (24.0f) // Volt
// Current and Speed PI Regulators Tuning Coefficient
#define USER_MOTOR1_GAIN_SPEED_LOW_Hz (60.0f)
#define USER_MOTOR1_GAIN_SPEED_HIGH_Hz (150.0f)
#define USER_MOTOR1_KP_SPD_START_SF (1.5f) // 0.1~100.0
#define USER_MOTOR1_KI_SPD_START_SF (1.5f) // 0.1~10.0
#define USER_MOTOR1_KP_SPD_LOW_SF (2.0f) // 0.1~100.0
#define USER_MOTOR1_KI_SPD_LOW_SF (2.0f) // 0.1~10.0
#define USER_MOTOR1_KP_SPD_HIGH_SF (1.0f) // 0.1~100.0
#define USER_MOTOR1_KI_SPD_HIGH_SF (1.0f) // 0.1~10.0
#define USER_MOTOR1_GAIN_IQ_LOW_A (2.0f)
#define USER_MOTOR1_GAIN_IQ_HIGH_A (6.0f)
#define USER_MOTOR1_KP_IQ_START_SF (1.5f) // 0.1~10.0
#define USER_MOTOR1_KI_IQ_START_SF (1.5f) // 0.1~10.0
#define USER_MOTOR1_KP_IQ_LOW_SF (2.0f) // 0.1~10.0
#define USER_MOTOR1_KI_IQ_LOW_SF (2.0f) // 0.1~10.0
#define USER_MOTOR1_KP_IQ_HIGH_SF (1.0f) // 0.1~10.0
#define USER_MOTOR1_KI_IQ_HIGH_SF (1.0f) // 0.1~10.0
#define USER_MOTOR1_KP_ID_SF (1.0f) // 0.1~10.0
#define USER_MOTOR1_KI_ID_SF (1.0f) // 0.1~10.0
#else
#error No motor type specified
#endif
//! \brief Defines the maximum current slope for Id trajectory
//!
#define USER_M1_MAX_CURRENT_DELTA_A (USER_MOTOR1_RES_EST_CURRENT_A / USER_M1_ISR_FREQ_Hz)
//! \brief Defines the maximum current slope for Id trajectory during power warp mode
//!
#define USER_M1_MAX_CURRENT_DELTA_PW_A (0.3 * USER_MOTOR1_RES_EST_CURRENT_A / USER_M1_ISR_FREQ_Hz)
#ifndef USER_MOTOR1
#error Motor type is not defined in user_mtr1.h
#endif
#ifndef USER_MOTOR1_TYPE
#error The motor type is not defined in user_mtr1.h
#endif
#ifndef USER_MOTOR1_NUM_POLE_PAIRS
#error Number of motor pole pairs is not defined in user_mtr1.h
#endif
#ifndef USER_MOTOR1_Rr_Ohm
#error The rotor resistance is not defined in user_mtr1.h
#endif
#ifndef USER_MOTOR1_Rs_Ohm
#error The stator resistance is not defined in user_mtr1.h
#endif
#ifndef USER_MOTOR1_Ls_d_H
#error The direct stator inductance is not defined in user_mtr1.h
#endif
#ifndef USER_MOTOR1_Ls_q_H
#error The quadrature stator inductance is not defined in user_mtr1.h
#endif
#ifndef USER_MOTOR1_RATED_FLUX_VpHz
#error The rated flux of motor is not defined in user_mtr1.h
#endif
#ifndef USER_MOTOR1_MAGNETIZING_CURRENT_A
#error The magnetizing current is not defined in user_mtr1.h
#endif
#ifndef USER_MOTOR1_RES_EST_CURRENT_A
#error The resistance estimation current is not defined in user_mtr1.h
#endif
#ifndef USER_MOTOR1_IND_EST_CURRENT_A
#error The inductance estimation current is not defined in user_mtr1.h
#endif
#ifndef USER_MOTOR1_MAX_CURRENT_A
#error The maximum current is not defined in user_mtr1.h
#endif
#ifndef USER_MOTOR1_FLUX_EXC_FREQ_Hz
#error The flux excitation frequency is not defined in user_mtr1.h
#endif
#if ((USER_M1_NUM_CURRENT_SENSORS < 2) || (USER_M1_NUM_CURRENT_SENSORS > 3))
#error The number of current sensors must be 2 or 3
#endif
#if (USER_M1_NUM_VOLTAGE_SENSORS != 3)
#error The number of voltage sensors must be 3
#endif
// **************************************************************************
// the Defines
//! \brief Defines the minimum ADC value for pot
#define USER_M1_POT_ADC_MIN (200U) // 0 < the value < 4096
//! \brief Defines the maximum ADC value for pot
#define USER_M1_POT_ADC_MAX (4096U - 200U) // 0 < the value < 4096
//! \brief Defines the speed conversion coefficient for pot
#define USER_M1_POT_SPEED_SF USER_MOTOR1_FREQ_MAX_Hz / ((float32_t)(USER_M1_POT_ADC_MAX - USER_M1_POT_ADC_MIN))
//! \brief Defines the minimum frequency for pot
#define USER_M1_POT_SPEED_MIN_Hz (USER_MOTOR1_FREQ_MAX_Hz * 0.1f)
//! \brief Defines the maximum frequency for pot
#define USER_M1_POT_SPEED_MAX_Hz (USER_MOTOR1_FREQ_MAX_Hz * 0.5f)
//! \brief Defines the pot signal wait delay time
#define USER_M1_WAIT_TIME_SET (500U) // 0.5s/1ms
//! \brief Defines the minimum frequency for pulse input
#define USER_M1_SPEED_CAP_MIN_Hz (15.0f)
//! \brief Defines the maximum frequency for pulse input
#define USER_M1_SPEED_CAP_MAX_Hz (600.0f)
//! \brief Defines the pulse capture wait delay time
#define USER_M1_CAP_WAIT_TIME_SET (200U) // 0.2s/1ms
//! \brief Defines the switch signal wait delay time
#define USER_M1_SWITCH_WAIT_TIME_SET (50U) // 0.05s/1ms
// **************************************************************************
// the typedefs
// **************************************************************************
// the globals
extern USER_Params userParams_M1;
#if defined(BSXL8323RS_REVA) || defined(BSXL8353RS_REVA) || \
defined(BSXL8316RT_REVA)
// Watch window interface to the drv8323/drv8353/DRV8316 SPI
extern DRVIC_VARS_t drvicVars_M1;
#endif // BSXL8323RS_REVA | BSXL8353RS_REVA | BSXL8316RT_REVA
// **************************************************************************
// the functions
//! \param[in] pUserParams The pointer to the user param structure
extern void USER_setMotor1Params(userParams_Handle handle);
//*****************************************************************************
//
// Close the Doxygen group.
//! @}
//
//*****************************************************************************
//*****************************************************************************
//
// Mark the end of the C bindings section for C++ compilers.
//
//*****************************************************************************
#ifdef __cplusplus
}
#endif
#endif // end of USER_MTR1_H definition
問題:
將BOOSTXL-DRV8323RS中的R6、R8、R10更換為2mΩ後出現相電流無法達到設定值的問題,想詢問是什麼原因造成,該如何解決,謝謝