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从SmartRF studio导出来的文件433M下不好使?请问办,Readme文件看过了好像也没什么帮助。。。。。
//********************************************************************************* // Generated by SmartRF Studio version 2.6.0 (build #81) // Tested for SimpleLink SDK version: CC13x0 SDK 1.0.xx // Device: CC1310 Rev. 2.1 // //********************************************************************************* //********************************************************************************* // Parameter summary // Address: off // Address0: 0xAA // Address1: 0xBB // Frequency: 433.00000 MHz // Data Format: Serial mode disable // Deviation: 25.000 kHz // Packet Length Config: Variable // Max Packet Length: 128 // Packet Length: 20 // RX Filter BW: 98 kHz // Symbol Rate: 50.00000 kBaud // Sync Word Length: 32 Bits // TX Power: 14 dBm (requires define CCFG_FORCE_VDDR_HH = 1 in ccfg.c, see CC13xx/CC26xx Technical Reference Manual) // Whitening: No whitening #include <ti/devices/DeviceFamily.h> #include DeviceFamily_constructPath(driverlib/rf_mailbox.h) #include DeviceFamily_constructPath(driverlib/rf_common_cmd.h) #include DeviceFamily_constructPath(driverlib/rf_prop_cmd.h) #include <ti/drivers/rf/RF.h> #include DeviceFamily_constructPath(rf_patches/rf_patch_cpe_genfsk.h) #include DeviceFamily_constructPath(rf_patches/rf_patch_rfe_genfsk.h) #include "smartrf_settings.h" // TI-RTOS RF Mode Object RF_Mode RF_prop = { .rfMode = RF_MODE_PROPRIETARY_SUB_1, .cpePatchFxn = &rf_patch_cpe_genfsk, .mcePatchFxn = 0, .rfePatchFxn = &rf_patch_rfe_genfsk, }; // Overrides for CMD_PROP_RADIO_DIV_SETUP static uint32_t pOverrides[] = { // override_use_patch_prop_genfsk.xml // PHY: Use MCE ROM bank 4, RFE RAM patch MCE_RFE_OVERRIDE(0,4,0,1,0,0), // override_synth_prop_863_930_div5.xml // Synth: Set recommended RTRIM to 7 HW_REG_OVERRIDE(0x4038,0x0037), // Synth: Set Fref to 4 MHz (uint32_t)0x000684A3, // Synth: Configure fine calibration setting HW_REG_OVERRIDE(0x4020,0x7F00), // Synth: Configure fine calibration setting HW_REG_OVERRIDE(0x4064,0x0040), // Synth: Configure fine calibration setting (uint32_t)0xB1070503, // Synth: Configure fine calibration setting (uint32_t)0x05330523, // Synth: Set loop bandwidth after lock to 20 kHz (uint32_t)0x0A480583, // Synth: Set loop bandwidth after lock to 20 kHz (uint32_t)0x7AB80603, // Synth: Configure VCO LDO (in ADI1, set VCOLDOCFG=0x9F to use voltage input reference) ADI_REG_OVERRIDE(1,4,0x9F), // Synth: Configure synth LDO (in ADI1, set SLDOCTL0.COMP_CAP=1) ADI_HALFREG_OVERRIDE(1,7,0x4,0x4), // Synth: Use 24 MHz XOSC as synth clock, enable extra PLL filtering (uint32_t)0x02010403, // Synth: Configure extra PLL filtering (uint32_t)0x00108463, // Synth: Increase synth programming timeout (0x04B0 RAT ticks = 300 us) (uint32_t)0x04B00243, // override_phy_rx_aaf_bw_0xd.xml // Rx: Set anti-aliasing filter bandwidth to 0xD (in ADI0, set IFAMPCTL3[7:4]=0xD) ADI_HALFREG_OVERRIDE(0,61,0xF,0xD), // override_phy_gfsk_rx.xml // Rx: Set LNA bias current trim offset to 3 (uint32_t)0x00038883, // Rx: Freeze RSSI on sync found event HW_REG_OVERRIDE(0x6084,0x35F1), // override_phy_gfsk_pa_ramp_agc_reflevel_0x1a.xml // Tx: Configure PA ramping setting (0x41). Rx: Set AGC reference level to 0x1A. HW_REG_OVERRIDE(0x6088,0x411A), // Tx: Configure PA ramping setting HW_REG_OVERRIDE(0x608C,0x8213), // override_phy_rx_rssi_offset_5db.xml // Rx: Set RSSI offset to adjust reported RSSI by +5 dB (uint32_t)0x00FB88A3, #if (CCFG_FORCE_VDDR_HH) // TX power override // Tx: Set PA trim to max (in ADI0, set PACTL0=0xF8) ADI_REG_OVERRIDE(0,12,0xF8), #endif (uint32_t)0xFFFFFFFF, }; // CMD_PROP_RADIO_DIV_SETUP rfc_CMD_PROP_RADIO_DIV_SETUP_t RF_cmdPropRadioDivSetup = { .commandNo = 0x3807, .status = 0x0000, .pNextOp = 0, // INSERT APPLICABLE POINTER: (uint8_t*)&xxx .startTime = 0x00000000, .startTrigger.triggerType = 0x0, .startTrigger.bEnaCmd = 0x0, .startTrigger.triggerNo = 0x0, .startTrigger.pastTrig = 0x0, .condition.rule = 0x1, .condition.nSkip = 0x0, .modulation.modType = 0x1, .modulation.deviation = 0x64, .symbolRate.preScale = 0xF, .symbolRate.rateWord = 0x8000, .rxBw = 0x24, .preamConf.nPreamBytes = 0x4, .preamConf.preamMode = 0x0, .formatConf.nSwBits = 0x20, .formatConf.bBitReversal = 0x0, .formatConf.bMsbFirst = 0x1, .formatConf.fecMode = 0x0, .formatConf.whitenMode = 0x0, .config.frontEndMode = 0x0, .config.biasMode = 0x1, .config.analogCfgMode = 0x0, .config.bNoFsPowerUp = 0x0, .txPower = 0xA73F, .pRegOverride = pOverrides, .centerFreq = 0x01B1, .intFreq = 0x8000, .loDivider = 0x0A, }; // CMD_FS rfc_CMD_FS_t RF_cmdFs = { .commandNo = 0x0803, .status = 0x0000, .pNextOp = 0, // INSERT APPLICABLE POINTER: (uint8_t*)&xxx .startTime = 0x00000000, .startTrigger.triggerType = 0x0, .startTrigger.bEnaCmd = 0x0, .startTrigger.triggerNo = 0x0, .startTrigger.pastTrig = 0x0, .condition.rule = 0x1, .condition.nSkip = 0x0, .frequency = 0x01B1, .fractFreq = 0x0000, .synthConf.bTxMode = 0x0, .synthConf.refFreq = 0x0, .__dummy0 = 0x00, .__dummy1 = 0x00, .__dummy2 = 0x00, .__dummy3 = 0x0000, }; // CMD_PROP_TX rfc_CMD_PROP_TX_t RF_cmdPropTx = { .commandNo = 0x3801, .status = 0x0000, .pNextOp = 0, // INSERT APPLICABLE POINTER: (uint8_t*)&xxx .startTime = 0x00000000, .startTrigger.triggerType = 0x0, .startTrigger.bEnaCmd = 0x0, .startTrigger.triggerNo = 0x0, .startTrigger.pastTrig = 0x0, .condition.rule = 0x1, .condition.nSkip = 0x0, .pktConf.bFsOff = 0x0, .pktConf.bUseCrc = 0x1, .pktConf.bVarLen = 0x1, .pktLen = 0x14, // SET APPLICATION PAYLOAD LENGTH .syncWord = 0x930B51DE, .pPkt = 0, // INSERT APPLICABLE POINTER: (uint8_t*)&xxx }; // CMD_PROP_RX rfc_CMD_PROP_RX_t RF_cmdPropRx = { .commandNo = 0x3802, .status = 0x0000, .pNextOp = 0, // INSERT APPLICABLE POINTER: (uint8_t*)&xxx .startTime = 0x00000000, .startTrigger.triggerType = 0x0, .startTrigger.bEnaCmd = 0x0, .startTrigger.triggerNo = 0x0, .startTrigger.pastTrig = 0x0, .condition.rule = 0x1, .condition.nSkip = 0x0, .pktConf.bFsOff = 0x0, .pktConf.bRepeatOk = 0x0, .pktConf.bRepeatNok = 0x0, .pktConf.bUseCrc = 0x1, .pktConf.bVarLen = 0x1, .pktConf.bChkAddress = 0x0, .pktConf.endType = 0x0, .pktConf.filterOp = 0x0, .rxConf.bAutoFlushIgnored = 0x0, .rxConf.bAutoFlushCrcErr = 0x0, .rxConf.bIncludeHdr = 0x1, .rxConf.bIncludeCrc = 0x0, .rxConf.bAppendRssi = 0x0, .rxConf.bAppendTimestamp = 0x0, .rxConf.bAppendStatus = 0x1, .syncWord = 0x930B51DE, .maxPktLen = 0x80, // MAKE SURE DATA ENTRY IS LARGE ENOUGH .address0 = 0xAA, .address1 = 0xBB, .endTrigger.triggerType = 0x1, .endTrigger.bEnaCmd = 0x0, .endTrigger.triggerNo = 0x0, .endTrigger.pastTrig = 0x0, .endTime = 0x00000000, .pQueue = 0, // INSERT APPLICABLE POINTER: (dataQueue_t*)&xxx .pOutput = 0, // INSERT APPLICABLE POINTER: (uint8_t*)&xxx }; // CMD_TX_TEST rfc_CMD_TX_TEST_t RF_cmdTxTest = { .commandNo = 0x0808, .status = 0x0000, .pNextOp = 0, // INSERT APPLICABLE POINTER: (uint8_t*)&xxx .startTime = 0x00000000, .startTrigger.triggerType = 0x0, .startTrigger.bEnaCmd = 0x0, .startTrigger.triggerNo = 0x0, .startTrigger.pastTrig = 0x0, .condition.rule = 0x1, .condition.nSkip = 0x0, .config.bUseCw = 0x0, .config.bFsOff = 0x1, .config.whitenMode = 0x2, .__dummy0 = 0x00, .txWord = 0xABCD, .__dummy1 = 0x00, .endTrigger.triggerType = 0x1, .endTrigger.bEnaCmd = 0x0, .endTrigger.triggerNo = 0x0, .endTrigger.pastTrig = 0x0, .syncWord = 0x930B51DE, .endTime = 0x00000000, };这是我刚调出来试过了可以用,你可以直接拿过去用。
