/*! \file gd32f30x_dac.c \brief DAC driver */ /* Copyright (C) 2017 GigaDevice 2017-02-10, V1.0.0, firmware for GD32F30x */ #include "gd32f30x_dac.h" /*! \brief deinitialize DAC \param[in] none \param[out] none \retval none */ void dac_deinit(void) { rcu_periph_reset_enable(RCU_DACRST); rcu_periph_reset_disable(RCU_DACRST); } /*! \brief enable DAC \param[in] dac_periph \arg DACx(x =0,1) \param[out] none \retval none */ void dac_enable(uint32_t dac_periph) { if(DAC0 == dac_periph){ DAC_CTL |= DAC_CTL_DEN0; }else{ DAC_CTL |= DAC_CTL_DEN1; } } /*! \brief disable DAC \param[in] dac_periph \arg DACx(x =0,1) \param[out] none \retval none */ void dac_disable(uint32_t dac_periph) { if(DAC0 == dac_periph){ DAC_CTL &= ~DAC_CTL_DEN0; }else{ DAC_CTL &= ~DAC_CTL_DEN1; } } /*! \brief enable DAC DMA function \param[in] dac_periph \arg DACx(x=0,1) \param[out] none \retval none */ void dac_dma_enable(uint32_t dac_periph) { if(DAC0 == dac_periph){ DAC_CTL |= DAC_CTL_DDMAEN0; }else{ DAC_CTL |= DAC_CTL_DDMAEN1; } } /*! \brief disable DAC DMA function \param[in] dac_periph \arg DACx(x=0,1) \param[out] none \retval none */ void dac_dma_disable(uint32_t dac_periph) { if(DAC0 == dac_periph){ DAC_CTL &= ~DAC_CTL_DDMAEN0; }else{ DAC_CTL &= ~DAC_CTL_DDMAEN1; } } /*! \brief enable DAC output buffer \param[in] dac_periph \arg DACx(x =0,1) \param[out] none \retval none */ void dac_output_buffer_enable(uint32_t dac_periph) { if(DAC0 == dac_periph){ DAC_CTL &= ~DAC_CTL_DBOFF0; }else{ DAC_CTL &= ~DAC_CTL_DBOFF1; } } /*! \brief disable DAC output buffer \param[in] dac_periph \arg DACx(x =0,1) \param[out] none \retval none */ void dac_output_buffer_disable(uint32_t dac_periph) { if(DAC0 == dac_periph){ DAC_CTL |= DAC_CTL_DBOFF0; }else{ DAC_CTL |= DAC_CTL_DBOFF1; } } /*! \brief enable DAC trigger \param[in] dac_periph \arg DACx(x =0,1) \param[out] none \retval none */ void dac_trigger_enable(uint32_t dac_periph) { if(DAC0 == dac_periph){ DAC_CTL |= DAC_CTL_DTEN0; }else{ DAC_CTL |= DAC_CTL_DTEN1; } } /*! \brief disable DAC trigger \param[in] dac_periph \arg DACx(x =0,1) \param[out] none \retval none */ void dac_trigger_disable(uint32_t dac_periph) { if(DAC0 == dac_periph){ DAC_CTL &= ~DAC_CTL_DTEN0; }else{ DAC_CTL &= ~DAC_CTL_DTEN1; } } /*! \brief enable DAC software trigger \param[in] dac_periph \arg DACx(x =0,1) \retval none */ void dac_software_trigger_enable(uint32_t dac_periph) { if(DAC0 == dac_periph){ DAC_SWT |= DAC_SWT_SWTR0; }else{ DAC_SWT |= DAC_SWT_SWTR1; } } /*! \brief disable DAC software trigger \param[in] dac_periph \arg DACx(x =0,1) \param[out] none \retval none */ void dac_software_trigger_disable(uint32_t dac_periph) { if(DAC0 == dac_periph){ DAC_SWT &= ~DAC_SWT_SWTR0; }else{ DAC_SWT &= ~DAC_SWT_SWTR1; } } /*! \brief set DAC trigger source \param[in] dac_periph \arg DACx(x =0,1) \param[in] triggersource: external triggers of DAC \arg DAC_TRIGGER_T1_TRGO: TIMER1 TRGO \arg DAC_TRIGGER_T2_TRGO: TIMER2 TRGO (for GD32F30X_CL) \arg DAC_TRIGGER_T3_TRGO: TIMER3 TRGO \arg DAC_TRIGGER_T4_TRGO: TIMER4 TRGO \arg DAC_TRIGGER_T5_TRGO: TIMER5 TRGO \arg DAC_TRIGGER_T6_TRGO: TIMER6 TRGO \arg DAC_TRIGGER_T7_TRGO: TIMER7 TRGO (for GD32F30X_HD and GD32F30X_XD) \arg DAC_TRIGGER_EXTI_9: EXTI interrupt line9 event \arg DAC_TRIGGER_SOFTWARE: software trigger \param[out] none \retval none */ void dac_trigger_source_config(uint32_t dac_periph,uint32_t triggersource) { if(DAC0 == dac_periph){ DAC_CTL &= ~DAC_CTL_DTSEL0; DAC_CTL |= triggersource; }else{ DAC_CTL &= ~DAC_CTL_DTSEL1; DAC_CTL |= (triggersource << 16); } } /*! \brief configure DAC wave mode \param[in] dac_periph \arg DACx(x=0,1) \param[in] wave_mode \arg DAC_WAVE_DISABLE: wave disable \arg DAC_WAVE_MODE_LFSR: LFSR noise mode \arg DAC_WAVE_MODE_TRIANGLE: triangle noise mode \param[out] none \retval none */ void dac_wave_mode_config(uint32_t dac_periph, uint32_t wave_mode) { if(DAC0 == dac_periph){ DAC_CTL &= ~DAC_CTL_DWM0; DAC_CTL |= wave_mode; }else{ DAC_CTL &= ~DAC_CTL_DWM1; DAC_CTL |= wave_mode << 16; } } /*! \brief configure DAC wave bit width \param[in] dac_periph \arg DACx(x=0,1) \param[in] bit_width \arg DAC_WAVE_BIT_WIDTH_1: bit width of the wave signal is 1 \arg DAC_WAVE_BIT_WIDTH_2: bit width of the wave signal is 2 \arg DAC_WAVE_BIT_WIDTH_3: bit width of the wave signal is 3 \arg DAC_WAVE_BIT_WIDTH_4: bit width of the wave signal is 4 \arg DAC_WAVE_BIT_WIDTH_5: bit width of the wave signal is 5 \arg DAC_WAVE_BIT_WIDTH_6: bit width of the wave signal is 6 \arg DAC_WAVE_BIT_WIDTH_7: bit width of the wave signal is 7 \arg DAC_WAVE_BIT_WIDTH_8: bit width of the wave signal is 8 \arg DAC_WAVE_BIT_WIDTH_9: bit width of the wave signal is 9 \arg DAC_WAVE_BIT_WIDTH_10: bit width of the wave signal is 10 \arg DAC_WAVE_BIT_WIDTH_11: bit width of the wave signal is 11 \arg DAC_WAVE_BIT_WIDTH_12: bit width of the wave signal is 12 \param[out] none \retval none */ void dac_wave_bit_width_config(uint32_t dac_periph, uint32_t bit_width) { if(DAC0 == dac_periph){ DAC_CTL &= ~DAC_CTL_DWBW0; DAC_CTL |= bit_width; }else{ DAC_CTL &= ~DAC_CTL_DWBW1; DAC_CTL |= bit_width << 16; } } /*! \brief configure DAC LFSR noise mode \param[in] dac_periph \arg DACx(x=0,1) \param[in] unmask_bits \arg DAC_LFSR_BIT0: unmask the LFSR bit0 \arg DAC_LFSR_BITS1_0: unmask the LFSR bits[1:0] \arg DAC_LFSR_BITS2_0: unmask the LFSR bits[2:0] \arg DAC_LFSR_BITS3_0: unmask the LFSR bits[3:0] \arg DAC_LFSR_BITS4_0: unmask the LFSR bits[4:0] \arg DAC_LFSR_BITS5_0: unmask the LFSR bits[5:0] \arg DAC_LFSR_BITS6_0: unmask the LFSR bits[6:0] \arg DAC_LFSR_BITS7_0: unmask the LFSR bits[7:0] \arg DAC_LFSR_BITS8_0: unmask the LFSR bits[8:0] \arg DAC_LFSR_BITS9_0: unmask the LFSR bits[9:0] \arg DAC_LFSR_BITS10_0: unmask the LFSR bits[10:0] \arg DAC_LFSR_BITS11_0: unmask the LFSR bits[11:0] \param[out] none \retval none */ void dac_lfsr_noise_config(uint32_t dac_periph, uint32_t unmask_bits) { if(DAC0 == dac_periph){ DAC_CTL &= ~DAC_CTL_DWBW0; DAC_CTL |= unmask_bits; }else{ DAC_CTL &= ~DAC_CTL_DWBW1; DAC_CTL |= unmask_bits << 16; } } /*! \brief configure DAC triangle noise mode \param[in] dac_periph \arg DACx(x=0,1) \param[in] amplitude \arg DAC_TRIANGLE_AMPLITUDE_1: triangle amplitude is 1 \arg DAC_TRIANGLE_AMPLITUDE_3: triangle amplitude is 3 \arg DAC_TRIANGLE_AMPLITUDE_7: triangle amplitude is 7 \arg DAC_TRIANGLE_AMPLITUDE_15: triangle amplitude is 15 \arg DAC_TRIANGLE_AMPLITUDE_31: triangle amplitude is 31 \arg DAC_TRIANGLE_AMPLITUDE_63: triangle amplitude is 63 \arg DAC_TRIANGLE_AMPLITUDE_127: triangle amplitude is 127 \arg DAC_TRIANGLE_AMPLITUDE_255: triangle amplitude is 255 \arg DAC_TRIANGLE_AMPLITUDE_511: triangle amplitude is 511 \arg DAC_TRIANGLE_AMPLITUDE_1023: triangle amplitude is 1023 \arg DAC_TRIANGLE_AMPLITUDE_2047: triangle amplitude is 2047 \arg DAC_TRIANGLE_AMPLITUDE_4095: triangle amplitude is 4095 \param[out] none \retval none */ void dac_triangle_noise_config(uint32_t dac_periph, uint32_t amplitude) { if(DAC0 == dac_periph){ DAC_CTL &= ~DAC_CTL_DWBW0; DAC_CTL |= amplitude; }else{ DAC_CTL &= ~DAC_CTL_DWBW1; DAC_CTL |= amplitude << 16; } } /*! \brief get DAC output value \param[in] dac_periph \arg DACx(x=0,1) \param[out] none \retval DAC output data */ uint16_t dac_output_value_get(uint32_t dac_periph) { uint16_t data = 0U; if(DAC0 == dac_periph){ data = (uint16_t)DAC0_DO; }else{ data = (uint16_t)DAC1_DO; } return data; } /*! \brief enable DAC concurrent mode \param[in] none \param[out] none \retval none */ void dac_concurrent_enable(void) { uint32_t ctl = 0U; ctl = DAC_CTL_DEN0 | DAC_CTL_DEN1; DAC_CTL |= (ctl); } /*! \brief disable DAC concurrent mode \param[in] none \param[out] none \retval none */ void dac_concurrent_disable(void) { uint32_t ctl = 0U; ctl = DAC_CTL_DEN0 | DAC_CTL_DEN1; DAC_CTL &= (~ctl); } /*! \brief enable DAC concurrent software trigger function \param[in] none \param[out] none \retval none */ void dac_concurrent_software_trigger_enable(void) { uint32_t swt = 0U; swt = DAC_SWT_SWTR0 | DAC_SWT_SWTR1; DAC_SWT |= (swt); } /*! \brief disable DAC concurrent software trigger function \param[in] none \param[out] none \retval none */ void dac_concurrent_software_trigger_disable(void) { uint32_t swt = 0U; swt = DAC_SWT_SWTR0 | DAC_SWT_SWTR1; DAC_SWT &= (~swt); } /*! \brief enable DAC concurrent buffer function \param[in] none \param[out] none \retval none */ void dac_concurrent_output_buffer_enable(void) { uint32_t ctl = 0U; ctl = DAC_CTL_DBOFF0 | DAC_CTL_DBOFF1; DAC_CTL &= (~ctl); } /*! \brief disable DAC concurrent buffer function \param[in] none \param[out] none \retval none */ void dac_concurrent_output_buffer_disable(void) { uint32_t ctl = 0U; ctl = DAC_CTL_DBOFF0 | DAC_CTL_DBOFF1; DAC_CTL |= (ctl); } /*! \brief set the DAC specified data holding register value \param[in] dac_periph \arg DACx(x=0,1) \param[in] dac_align \arg DAC_ALIGN_8B_R: data right 8b alignment \arg DAC_ALIGN_12B_R: data right 12b alignment \arg DAC_ALIGN_12B_L: data left 12b alignment \param[in] data: data to be loaded \param[out] none \retval none */ void dac_data_set(uint32_t dac_periph, uint32_t dac_align, uint16_t data) { if(DAC0 == dac_periph){ switch(dac_align){ /* data right 12b alignment */ case DAC_ALIGN_12B_R: DAC0_R12DH = data; break; /* data left 12b alignment */ case DAC_ALIGN_12B_L: DAC0_L12DH = data; break; /* data right 8b alignment */ case DAC_ALIGN_8B_R: DAC0_R8DH = data; break; default: break; } }else{ switch(dac_align){ /* data right 12b alignment */ case DAC_ALIGN_12B_R: DAC1_R12DH = data; break; /* data left 12b alignment */ case DAC_ALIGN_12B_L: DAC1_L12DH = data; break; /* data right 8b alignment */ case DAC_ALIGN_8B_R: DAC1_R8DH = data; break; default: break; } } } /*! \brief set DAC concurrent mode data holding register value \param[in] dac_align \arg DAC_ALIGN_8B_R: data right 8b alignment \arg DAC_ALIGN_12B_R: data right 12b alignment \arg DAC_ALIGN_12B_L: data left 12b alignment \param[in] data0: data to be loaded \param[in] data1: data to be loaded \param[out] none \retval none */ void dac_concurrent_data_set(uint32_t dac_align, uint16_t data0, uint16_t data1) { uint32_t data = 0U; switch(dac_align){ /* data right 12b alignment */ case DAC_ALIGN_12B_R: data = ((uint32_t)data1 << 16) | data0; DACC_R12DH = data; break; /* data left 12b alignment */ case DAC_ALIGN_12B_L: data = ((uint32_t)data1 << 16) | data0; DACC_L12DH = data; break; /* data right 8b alignment */ case DAC_ALIGN_8B_R: data = ((uint32_t)data1 << 8) | data0; DACC_R8DH = data; break; default: break; } }