void main(void) { // Insert your main routine code here. unsigned char c = 0; M8C_EnableGInt; UART_EnableInt(); UART_Start(UART_PARITY_NONE); PGA_1_Start(PGA_1_HIGHPOWER); ADCINC_Start(ADCINC_HIGHPOWER); // Apply power to the SC Block ADCINC_GetSamples(0); DAC6_Start(DAC6_HIGHPOWER); PWM8_DisableInt(); PWM8_Start(); for(;;) { PWM8_WritePulseWidth(m_to_s_mem[0]); DAC6_WriteBlind(m_to_s_mem[1]); //if ( DELSIG8_bfStatus ) { // DELSIG8_bfStatus = 0; // s_to_m_mem[0] = DELSIG8_cResult; //} //ADCINC_GetSamples(1); //while(ADCINC_fIsDataAvailable() == 0); //s_to_m_mem[0] = ADCINC_bClearFlagGetData(); } //mainloop: // UART_SendData(temp++); //while( ++temp2 ); //goto mainloop; }
void main(void){ M8C_EnableGInt; M8C_EnableIntMask(INT_MSK0, INT_MSK0_GPIO); I2CHW_Start(); I2CHW_EnableSlave(); I2CHW_EnableInt(); AMUX4_Start(); PGA_1_Start(PGA_1_HIGHPOWER); ADCINC_Start(ADCINC_HIGHPOWER); TX8_Start(TX8_PARITY_NONE); LED_DBG_ON(); TX8_CPutString("I2C slave addr:0x"); TX8_PutSHexByte(I2CHW_SLAVE_ADDR); TX8_PutCRLF(); LED_DBG_OFF(); for(;;){ // I2C i2c_status = I2CHW_bReadI2CStatus(); if(i2c_status & I2CHW_WR_COMPLETE){ // master->slave I2CHW_ClrWrStatus(); I2CHW_InitWrite(buf_rx, BUF_SIZE); } if(i2c_status & I2CHW_RD_COMPLETE){ // slave->master I2CHW_ClrRdStatus(); I2CHW_InitRamRead(buf_tx, BUF_SIZE); } // ADC for(ad_pin = 0; ad_pin < 4; ad_pin++){ ad = get_adc(ad_pin); weights[ad_pin] = ad; TX8_PutChar(ad_pin+'0'); TX8_CPutString(":"); TX8_PutString(intToStr(ad,buf)); TX8_PutCRLF(); } buf_tx[0] = 'a'; buf_tx[1] = 'b'; buf_tx[2] = 'c'; buf_tx[3] = 'd'; } }