#ifndef __MY_RADIO_H #define __MY_RADIO_H /* Includes ------------------------------------------------------------------*/ #include #include #include #include #define MAX_RF_PACKET_LEN 128 /*! * Select mode of operation for the Ping Ping application */ #ifndef MODE_BLE || MODE_LORA || MODE_GFSK || MODE_FLRC //#define MODE_BLE // #define MODE_LORA // #define MODE_GFSK #define MODE_FLRC #endif typedef enum { RF_BAUDRATE_GF_0_125M, RF_BAUDRATE_GF_0_250M, RF_BAUDRATE_GF_0_250M_, RF_BAUDRATE_GF_0_400M, RF_BAUDRATE_GF_0_400M_, RF_BAUDRATE_GF_0_500M, RF_BAUDRATE_GF_0_500M_, RF_BAUDRATE_GF_0_800M, RF_BAUDRATE_GF_0_800M_, RF_BAUDRATE_GF_1_000M, RF_BAUDRATE_GF_1_000M_, RF_BAUDRATE_GF_1_600M, RF_BAUDRATE_GF_2_000M, MAX_RF_BAUDRATE_GF_COUNT, // }rfBaudrate_gf_te; typedef enum { RF_BAUDRATE_LR_216B, RF_BAUDRATE_LR_001K, RF_BAUDRATE_LR_005K, RF_BAUDRATE_LR_010K, RF_BAUDRATE_LR_020K, RF_BAUDRATE_LR_061K, RF_BAUDRATE_LR_127K, RF_BAUDRATE_LR_203K, MAX_RF_BAUDRATE_LR_COUNT, // }rfBaudrate_lora_te; typedef enum { RF_BAUDRATE_FLR_0_13M, RF_BAUDRATE_FLR_0_26M, RF_BAUDRATE_FLR_0_52M, RF_BAUDRATE_FLR_1_04M, MAX_RF_BAUDRATE_FLR_COUNT, // }rfBaudrate_fastLora_te; typedef enum { RF_TX_PWR_N_18, RF_TX_PWR_N_17, RF_TX_PWR_N_16, RF_TX_PWR_N_15, RF_TX_PWR_N_14, RF_TX_PWR_N_13, RF_TX_PWR_N_12, RF_TX_PWR_N_11, RF_TX_PWR_N_10, RF_TX_PWR_N_9, RF_TX_PWR_N_8, RF_TX_PWR_N_7, RF_TX_PWR_N_6, RF_TX_PWR_N_5, RF_TX_PWR_N_4, RF_TX_PWR_N_3, RF_TX_PWR_N_2, RF_TX_PWR_N_1, RF_TX_PWR_N_0, RF_TX_PWR_P_1, RF_TX_PWR_P_2, RF_TX_PWR_P_3, RF_TX_PWR_P_4, RF_TX_PWR_P_5, RF_TX_PWR_P_6, RF_TX_PWR_P_7, RF_TX_PWR_P_8, RF_TX_PWR_P_9, RF_TX_PWR_P_10, RF_TX_PWR_P_11, RF_TX_PWR_P_12, RF_TX_PWR_P_13, RF_TX_PWR_MAX_COUNT, }rf_txPwr_te; typedef enum { DVTP_VG2391S240N0M1, DVTP_VG2392S240N0M1, DVTP_VG2392S240X0M1, DVTP_VG2392S240X0M2, #ifdef MODULE_IS_1W DVTP_VG2392S240X0M3, #endif DVTP_MAX_COUNT, }deviceType_te; typedef enum { FREQ_BAND_315, FREQ_BAND_433, FREQ_BAND_490, FREQ_BAND_868, FREQ_BAND_915, MAX_FREQ_BAND_COUNT, }freqBand_te; typedef enum { RF_MM_MODE_BLE, RF_MM_MODE_LORA, RF_MM_MODE_GFSK, RF_MM_MODE_FLRC, MAX_RF_MM_MODE_COUNT, }rfModuleMode_te; //! \brief Structure for the TX Packet typedef struct { uint8_t rmvAddr[8]; // uint32_t absTime; // uint8_t len; // uint8_t payload[MAX_RF_PACKET_LEN]; // } rfTxPacket_ts; typedef struct { uint8_t rmvAddr[8]; // int16_t rssi; // uint32_t absTime; // uint32_t rxTimeout; // uint8_t len; // uint8_t payload[MAX_RF_PACKET_LEN]; } rfRxPacket_ts; typedef struct { uint8_t SignalBw; // LORA_BW_0200, LORA_BW_0400, LORA_BW_0800, LORA_BW_1600, uint8_t SpreadingFactor; // LORA_SF5~LORA_SF12 uint8_t ErrorCoding; // 1-LORA_CR_4_5, 2-LORA_CR_4_6, 3-LORA_CR_4_7 , 4-LORA_CR_4_8 , 5-LORA_CR_LI_4_5, 6-LORA_CR_LI_4_6, 7-LORA_CR_LI_4_7, }loraBaudrateFrame_ts; typedef struct { uint8_t BitrateBandwidth; //@RadioFlrcBitrates_t !< FLRC 调制的带宽和比特率值 uint8_t CodingRate; //@RadioFlrcCodingRates_t !< FLRC调制的编码速率 uint8_t ModulationShaping; //@RadioModShapings_t !< FLRC调制的调制整形 }fastloraBaudrateFrame_ts; typedef enum { RADIO_EXT_CONTROL_TX_UNMODULATED, //单载波功率测试 RADIO_EXT_CONTROL_RX_SENSITIVITY, //接收灵敏度测试 RADIO_EXT_CONTROL_TX_MODULATED, //连续调制测试 }controlMode_te; typedef enum { RX_STA_SECCESS, RX_STA_TIMEOUT, RX_STA_PAYLOAD_ERROR, TX_STA_SECCESS, TX_STA_ERROR, }rxStatus_te; typedef void (*rfRxCallBack)(uint8_t status, rfRxPacket_ts packet); void myRadio_setRfModuleMode(uint8_t mode); void myRadio_init(int agr0, void *agr1_ptr); void myRadio_abort(void); uint32_t myRadio_getFrequency(void); void myRadio_setFrequency(uint32_t freq); int8_t myRadio_getTxPower(void); void myRadio_setTxPower(int8_t power); uint32_t myRadio_getBaudrate(void); void myRadio_setBaudrate(uint32_t br); void myRadio_setChipType(uint8_t type); uint8_t myRadio_getChipType(void); int16_t myRadio_getRssi(void); void myRadio_transmit(rfTxPacket_ts *packet); void myRadio_receiver(void); void myRadio_setCtrl(controlMode_te mode, uint32_t value); #endif