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CC1310- SDK例程的连续发送数据包程序

Other Parts Discussed in Thread: CC1310, CC1021, CC1000, CC1050, CC1020, CC1070, CC1010, CC2400, CC2420, CC1100, CC1101, CC1150, CC1100E, CC113L, CC110L, CC115L, CC1175, CC1125, CC1120, CC1121, CC1201, CC1200, CC1110-CC1111, CC1350, CC1312R, CC1352R, CC1352P, CC2500, CC2550, CC2511, CC2510, CC2431, CC2430, CC2520, CC2530, CC2531, CC2533, CC2538, CC2541, CC2540, CC2543, CC2545, CC2544, CC2650, CC2640, CC2640R2F, CC2620, CC2630, CC2652R, CC2642R, CC1190

您好,由于需要测试天线各种参数,需要编写一个持续发包的程序,我在TI例程里面打开了rfPacketTx_CC1310_LAUNCHXL_nortos_ccs这个例程,然后发现#define PACKET_INTERVAL     (uint32_t)(4000000*0.01f) /* Set packet interval to 10ms */     这个参数是修改时间的,  赋值的是  struct __RFC_STRUCT rfc_CMD_PROP_TX_s  这个结构体的 startTime 这个成员,里面的其他成员变量没看看懂,请问 如果我想连续不断发送数据包的话 ,需要怎么修改呢?  非常感谢

  • 不需要啊. 支持测硬件的话,用smartRF studio, 不用写代码,轻松控制各种发包.

    User guides (2)
    SmartRF Studio 7 Tutorial (Rev. B)

    SmartRF Studio 7 Overview (Rev. B)

    SmartRF™ Studio is a Windows application that can be used to evaluate and configure Low Power RF devices from Texas Instruments. The application helps designers of RF systems to easily evaluate the radio at an early stage in the design process. It is especially useful for generation of configuration register values and commands, and for practical testing and debugging of the RF system. SmartRF Studio can be used either as a standalone application or together with applicable evaluation boards or debug probes for the RF device.

    SmartRF™ Studio supports all the Low Power RF devices from TI. Note that you might need to use an older version of the tool to work with some of the older devices.

    SmartRF Studio 6

    CC400, CC900
    CC1000, CC1010, CC1020, CC1021, CC1050, CC1070
    CC2400, CC2420
    SmartRF Studio 7

    CC1100, CC1100E, CC1101, CC1150
    CC110L, CC113L, CC115L
    CC1120, CC1121, CC1125, CC1175
    CC1200, CC1201
    CC1310, CC1350
    CC1312R, CC1352R. CC1352P
    CC2500, CC2550
    CC2510, CC2511
    CC2430, CC2431
    CC2530, CC2531, CC2533
    CC2540, CC2541
    CC2543, CC2544, CC2545
    CC2650, CC2640, CC2640R2F, CC2630, CC2620
    CC2642R, CC2652R
    CC430 (all variants)
    Link tests. Send and Receive packets between nodes.
    Antenna and radiation tests. Set the radio in continuous wave TX and RX states.
    A set of recommended/typical register settings for all devices.
    Read and write individual RF registers.
    Execute individual commands to control the radio.
    Detailed information about the bit fields for each register or command.
    Save/Load device configuration data from file.
    Exports register settings and command arguments to a user definable format.
    Exports radio configuration code (CC13xx, CC26xx).
    Allows custom GPIO configuration (CC13xx, CC26xx).
    Communication with evaluation boards over USB via the debug probe or evaluation board.
    Up to 32 evaluation boards are supported on a single computer.

    SmartRF Studio 6 runs on Microsoft® Windows 98, Windows 2000, Windows XP (32 bit), Windows Vista (32 bit) and Windows 7 (32 bit).

    SmartRF Studio 7 runs on 32 and 64-bit versions of Microsoft® Windows 7, 8 and 10.

    Installation Recommendations:

    Download the ZIP file to your hard drive.
    Unzip the file.
    Read the readme.txt file for information about the release.
    Run the set-up file and follow the instructions.
  • SDK里面的PER就是发包测试代码,也可以参考看看.


    Packet Error Rate Example Application

    The Packet Error Rate (PER) example showcases different RF transfer modes of the CC13xx. It combines tasks, events and several peripherals to a platform- independent application and runs on all CC13xx launchpads as well as the CC1310EM/SmartRF06.

    Test cases are provided for the following RF modes:

    • Custom: Custom settings to be exported from SmartRF Studio to the smartrf_settings.c file
    • 2-GFSK: Generic frequency shift keying with binary symbols, 50 kBit/s
    • LR Mode: Legacy Long Range (625 bps)
    • OOK: On-off keying
    • HS Mode: High-speed mode with up to 4 MBit/s
    • SL LR: SimpleLink Long Rang (5 kbps)
    • BLE: Bluetooth Low Energy (CC135X only)

    Note that when running the CC1310-CC1190, CC1350 (433 MHz) or CC1352 Launchpads, HSM and OOK are not supported by the PER test. Additionally, the Legacy Long Range Mode (LRM) is not supported on CC1352.

    Peripherals Exercised

    This example uses the following CC13xx peripherals:

    • RF core for radio communication
    • 2 GPIOs for buttons
    • 3 GPIOs for controlling the CC1190 when running CC1310-CC1190 Launchpad
    • SPI to drive the LCD displays on the boards
    • UART0 (115200 Baud) as an alternative display on VT100-compatible terminal emulators
    PeripheralIdentifierCC13xxEM/SmartRF06CC13xx LaunchpadCC1310-CC1390 Launchpad
    Select button Board_PIN_BUTTON0 UP BTN-1 BTN-1
    Navigate button Board_PIN_BUTTON1 DOWN BTN-2 BTN-2
    Display LCD Dogm1286 Display Booster Pack Display Booster Pack
    CC1190 Control Board_HGM DIO28
    signals Board_LNA_EN DIO29
    Board_PA_EN DIO30

    Resources & Jumper Settings

    If you’re using an IDE (such as CCS or IAR), please refer to Board.html in your project directory for resources used and board-specific jumper settings. Otherwise, you can find Board.html in the directory <SDK_INSTALL_DIR>/source/ti/boards/<BOARD>.

    Example Usage

    This example requires two boards, each running the PER Test application. However, the packet format is identical to the default one in SmartRF Studio, so that any compatible hardware can be used as well.

    1. Connect a display to the board or alternatively, use the UART and hook it to a VT100-compatible terminal emulator at 115200 Baud. Use PuTTY or TeraTerm on Microsoft Windows. On Linux, use the terminal emulator that is shipped with your distribution. After a splash screen, you will see the main menu (the range extender option (CC1190) is only shown for CC1310 LAUNCHLX):

      Main Menu
      >Test: 2-GFSK
       Freq: 868.0
       Pkts: 10
       CC1190: Disable
       Mode: Rx
    2. Navigate through the rows with BTN-2/DOWN, modify a value or start the selected test with BTN-1/UP. Note that it is the user’s responsibility to enable CC1190 from the menu when running CC1310-CC1190 LAUNCHXL.

    3. Use a second board with the PER test application as test companion for transmissions. Once started, the current progress is shown with these menus (TX mode on the left side, RX on the right):

      Sending...      |  Receiving...
      2-GFSK  868.0   |  HS Mode 868.0
                      |  Pkts ok   : 39
      Pkts sent: 47   |  RSSI [dBm]: -74
                      |  PER  [%]  : 17.01
                      |  Push a button
                      |  to abort.

    The receiver prints the amount of successfully received packets (Pkts ok), the Signal strength of the current packet (RSSI) and the observed packet error rate (PER) in percent. Please note that the PER is n/a when sending more packets than configured in the receiver.

    1. You can always abort a running test case by pushing any button and go back to the main menu.

    Application Design Details

    The PER test application contains of one main task and an event handler to synchronize the task with buttons. After setting up all resources, the menu task is started and runs in an endless loop. It shows the menu and invokes test cases in either rx.c or tx.c.