/** * @file TM7707_ATY.c * * @param Project DEVICE_GENERAL_ATY_LIB * * @author ATY * * @copyright * - Copyright 2017 - 2023 MZ-ATY * - This code follows: * - MZ-ATY Various Contents Joint Statement - * * https://mengze.top/MZ-ATY_VCJS * - CC 4.0 BY-NC-SA - * * https://creativecommons.org/licenses/by-nc-sa/4.0/ * - Your use will be deemed to have accepted the terms of this statement. * * @brief Familiar functions of TM7707 for all embedded device * * @version * - 1_01_220601 > ATY * -# Preliminary version, first Release * - Undone ******************************************************************************** */ #ifndef __TM7707_ATY_C #define __TM7707_ATY_C #include "TM7707_ATY.h" /******************************* For user *************************************/ void TM7707_GPIO_Init(void) { stc_gpio_config_t pstcGpioCfg; Sysctrl_SetPeripheralGate(SysctrlPeripheralGpio, TRUE); pstcGpioCfg.enDir = GpioDirOut; pstcGpioCfg.enDrv = GpioDrvH; pstcGpioCfg.enPuPd = GpioPu; pstcGpioCfg.enOD = GpioOdDisable; pstcGpioCfg.enCtrlMode = GpioAHB; Gpio_Init(TM7707_SCLK_PORT, TM7707_SCLK_PIN, &pstcGpioCfg); Gpio_Init(TM7707_CS_PORT, TM7707_CS_PIN, &pstcGpioCfg); Gpio_Init(TM7707_RESET_PORT, TM7707_RESET_PIN, &pstcGpioCfg); Gpio_Init(TM7707_DIN_PORT, TM7707_DIN_PIN, &pstcGpioCfg); Gpio_Init(TM7707_REFEN_PORT, TM7707_REFEN_PIN, &pstcGpioCfg); pstcGpioCfg.enDir = GpioDirIn; Gpio_Init(TM7707_DOUT_PORT, TM7707_DOUT_PIN, &pstcGpioCfg); Gpio_Init(TM7707_DRDY_PORT, TM7707_DRDY_PIN, &pstcGpioCfg); } void TM7707_MCLK_Init(void) { // uint32_t pclFrc = Sysctrl_GetPClkFreq(); uint16_t u16ArrValue; uint16_t u16CntValue; uint16_t u16CompareAValue; uint8_t u8ValidPeriod; stc_sysctrl_clk_config_t stcCfg; stc_gpio_config_t stcTIM0Port; stc_bt_mode23_config_t stcBtBaseCfg; stc_bt_m23_compare_config_t stcBtPortCmpCfg; DDL_ZERO_STRUCT(stcCfg); DDL_ZERO_STRUCT(stcTIM0Port); DDL_ZERO_STRUCT(stcBtBaseCfg); DDL_ZERO_STRUCT(stcBtPortCmpCfg); ///< 开启FLASH外设时钟 Sysctrl_SetPeripheralGate(SysctrlPeripheralFlash, TRUE); ///<========================== 时钟初始化配置 =================================== ///< 因要使用的时钟源HCLK小于24M：此处设置FLASH 读等待周期为0 cycle(默认值也为0 cycle) Flash_WaitCycle(FlashWaitCycle0); ///< 选择内部RCH作为HCLK时钟源; stcCfg.enClkSrc = SysctrlClkRCH; ///< HCLK SYSCLK/1 stcCfg.enHClkDiv = SysctrlHclkDiv1; ///< PCLK 为HCLK/1 stcCfg.enPClkDiv = SysctrlPclkDiv1; ///< 时钟初始化前，优先设置要使用的时钟源：此处设置RCH为4MHz Sysctrl_SetRCHTrim(SysctrlRchFreq4MHz); ///< 系统时钟初始化 Sysctrl_ClkInit(&stcCfg); Sysctrl_SetPeripheralGate(SysctrlPeripheralGpio, TRUE); //GPIO 外设时钟使能 Sysctrl_SetPeripheralGate(SysctrlPeripheralBTim, TRUE); //Base Timer外设时钟使能 stcTIM0Port.enDir = GpioDirOut; Gpio_Init(TM7707_MCLKIN_PORT, TM7707_MCLKIN_PIN, &stcTIM0Port); Gpio_SetAfMode(TM7707_MCLKIN_PORT, TM7707_MCLKIN_PIN, GpioAf4); //PA00设置为TIM0_CHA stcBtBaseCfg.enWorkMode = BtWorkMode3; //锯齿波模式 stcBtBaseCfg.enCT = BtTimer; //定时器功能，计数时钟为内部PCLK stcBtBaseCfg.enPRS = BtPCLKDiv1; //PCLK stcBtBaseCfg.enCntDir = BtCntUp; //向上计数，在三角波模式时只读 stcBtBaseCfg.enPWMTypeSel = BtIndependentPWM; //独立输出PWM stcBtBaseCfg.enPWM2sSel = BtSinglePointCmp; //单点比较功能 stcBtBaseCfg.bOneShot = FALSE; //循环计数 stcBtBaseCfg.bURSSel = FALSE; //上下溢更新 // stcBtBaseCfg.pfnTim0Cb = Tim0Int; //中断函数入口 Bt_Mode23_Init(TIM0, &stcBtBaseCfg); //TIM0 的模式2功能初始化 u16ArrValue = TIM_COUNT_WHOLE; Bt_M23_ARRSet(TIM0, u16ArrValue, TRUE); //设置重载值,并使能缓存 u16CompareAValue = TIM_COUNT_HALF; Bt_M23_CCR_Set(TIM0, BtCCR0A, u16CompareAValue); //设置比较值A stcBtPortCmpCfg.enCH0ACmpCtrl = BtCMPInverse; //OCREFA输出控制OCMA:PWM模式2 stcBtPortCmpCfg.enCH0APolarity = BtPortPositive; //正常输出 stcBtPortCmpCfg.bCh0ACmpBufEn = TRUE; //A通道缓存控制 stcBtPortCmpCfg.enCh0ACmpIntSel = BtCmpIntNone; //A通道比较控制:无 Bt_M23_PortOutput_Config(TIM0, &stcBtPortCmpCfg); //比较输出端口配置 u8ValidPeriod = 0; //事件更新周期设置，0表示锯齿波每个周期更新一次，每+1代表延迟1个周期 Bt_M23_SetValidPeriod(TIM0, u8ValidPeriod); //间隔周期设置 u16CntValue = 0; Bt_M23_Cnt16Set(TIM0, u16CntValue); //设置计数初值 // Bt_ClearAllIntFlag(TIM0); //清中断标志 // EnableNvic(TIM0_IRQn, IrqLevel0, TRUE); //TIM0中断使能 // Bt_Mode23_EnableIrq(TIM0, BtUevIrq); //使能TIM0 UEV更新中断 Bt_M23_EnPWM_Output(TIM0, TRUE, FALSE); //TIM0 端口输出使能 Bt_M23_Run(TIM0); //TIM0 运行 } /******************************************************************************/ /** * @brief Write one byte to TM7707 * @param data_t data to write */ void TM7707_WriteByte(uint8_t data_t) { // set CS low to selet chip enable TM7707_CS_SET_L; for(uint8_t i = 0; i < 8; i++) { // set SCLK low to start write TM7707_SCLK_SET_L; DelayUs(10); // write high bit first if(data_t & 0x80) TM7707_DIN_SET_H; else TM7707_DIN_SET_L; DelayUs(10); // set SCLK high, write one byte over TM7707_SCLK_SET_H; DelayUs(10); data_t <<= 1; } // set CS high after write one byte TM7707_CS_SET_H; DelayUs(10); } /** * @brief Read one byte from TM7707 * @return on byte data of read */ uint8_t TM7707_ReadByte(void) { uint8_t temp_uint8; TM7707_CS_SET_L; for(uint8_t i = 0; i < 8; i++) { TM7707_SCLK_SET_L; DelayUs(10); temp_uint8 = (temp_uint8 << 1) | TM7707_DOUT_GET_H; // | 0 = no change TM7707_SCLK_SET_H; DelayUs(10); } TM7707_CS_SET_H; DelayUs(10); return temp_uint8; } /** * @brief Read data from TM7707 Data Register once * @return 24 bit data of read */ uint32_t TM7707_ReadData(void) { uint32_t temp_uint32 = 0; // ready to read while DRDY pin cahnge to low while(TM7707_DRDY_GET_H); // set next operation is read data regsiter, selet TM7707_CH_1 TM7707_WriteByte(TM7707_REG_COMM | TM7707_READ | TM7707_REG_DATA | TM7707_CH_1); // read 8 bit every time, 24 bit total for(uint8_t i = 0; i < 3; i++) { temp_uint32 |= (TM7707_ReadByte() << ((2 - i) * 8)); } return temp_uint32; } /** * @brief Calculate voltage from 24 bit data * @param refVoltage reference voltage at TM7707 REF_IN+ pin * @param dataIn 24 bit data from: uint32_t TM7707_ReadData(void) * @return voltage data */ float TM7707_VoltageCalc(float refVoltage, uint32_t dataIn) { return refVoltage * dataIn / 16777216; } /** * @brief Init TM7707 */ void TM7707_Init(void) { TM7707_GPIO_Init(); // generate >=1MHz frequence for TM7707 main clock TM7707_MCLK_Init(); #ifdef __DEBUG_TM7707_ATY printf("\r\nTM7707 GPIO & MCLK init done!\r\n"); #endif /* __DEBUG_TM7707_ATY */ TM7707_REFEN_SET_H; TM7707_SCLK_SET_H; TM7707_CS_SET_H; TM7707_RESET_SET_L; DelayMs(10); TM7707_RESET_SET_H; DelayMs(10); // TM7707_DRDY_H; #ifdef __DEBUG_TM7707_ATY printf("\r\nTM7707 Resetting & Initializing...\r\n"); #endif /* __DEBUG_TM7707_ATY */ TM7707_DIN_SET_H; for(uint8_t i = 0; i < 40; i++) { TM7707_SCLK_SET_L; DelayUs(10); TM7707_SCLK_SET_H; DelayUs(10); } #ifdef __DEBUG_TM7707_ATY printf("\r\nTM7707 reset done!\r\n"); #endif /* __DEBUG_TM7707_ATY */ // set next operation is write filter low regsiter, selet TM7707_CH_1 TM7707_WriteByte(TM7707_REG_COMM | TM7707_WRITE | TM7707_REG_FILTER_L); TM7707_WriteByte(0x00); DelayMs(10); // set next operation is write filter high regsiter, selet TM7707_CH_1 TM7707_WriteByte(TM7707_REG_COMM | TM7707_WRITE | TM7707_REG_FILTER_H); TM7707_WriteByte(0x0C); DelayMs(10); // set next operation is write setting regsiter, selet TM7707_CH_1 TM7707_WriteByte(TM7707_REG_COMM | TM7707_WRITE | TM7707_REG_SETUP | TM7707_CH_1); // calibration self, polarity / magnification and buffer shall also be set during calibration TM7707_WriteByte(TM7707_GAIN_64 | TM7707_UNIPOLAR | TM7707_MD_CAL_SELF | TM7707_BUF_EN); while(TM7707_DRDY_GET_H); DelayMs(10); // TM7707_WriteByte(TM7707_REG_COMM | TM7707_WRITE | TM7707_REG_SETUP | TM7707_CH_2); // TM7707_WriteByte(TM7707_GAIN_1 | TM7707_UNIPOLAR | TM7707_MD_CAL_SELF | TM7707_BUF_EN); // TM7707_WriteByte(TM7707_GAIN_1 | TM7707_BIPOLAR | TM7707_MD_CAL_SELF | TM7707_BUF_NO); // while(TM7707_DRDY_GET_H); // DelayMs(10); // set next operation is write setting regsiter, selet TM7707_CH_1 TM7707_WriteByte(TM7707_REG_COMM | TM7707_WRITE | TM7707_REG_SETUP | TM7707_CH_1); // set magnification 1, unipolar input, enable input buffer // TM7707_BIPOLAR read acture voltage in AIN1+?, TM7707_UNIPOLAR read (AIN1+) - (AIN1-) TM7707_WriteByte(TM7707_GAIN_64 | TM7707_UNIPOLAR | TM7707_BUF_EN); DelayMs(10); } /** * @brief TM7707 test */ void TM7707_Test(void) { uint32_t tm7707Data24[TM7707_DATA_GROUP_SIZE]; uint32_t tm7707Data24Temp; for(uint8_t i = 0; i < TM7707_DATA_GROUP_SIZE; i++) { printf("\r\n%02d: ", i); tm7707Data24[i] = TM7707_ReadData(); printf("CH1: %06x / %u \r\n", tm7707Data24[i], tm7707Data24[i]); } ALGO_AverageInDelExtremum(uint32_t, 1, tm7707Data24, tm7707Data24Temp); printf("\r\nCH1 Averange Data: %d\r\n", tm7707Data24Temp); printf("\r\nCH1 Averange Voltage: %1.6f V\r\n", TM7707_VoltageCalc(1.2093, tm7707Data24Temp)); printf("\r\n"); } #endif /* __TM7707_ATY_C */ /******************************** End Of File *********************************/