//***************************************************************************** // // Copyright (C) 2014 Texas Instruments Incorporated - http://www.ti.com/ // // // Redistribution and use in source and binary forms, with or without // modification, are permitted provided that the following conditions // are met: // // Redistributions of source code must retain the above copyright // notice, this list of conditions and the following disclaimer. // // Redistributions in binary form must reproduce the above copyright // notice, this list of conditions and the following disclaimer in the // documentation and/or other materials provided with the // distribution. // // Neither the name of Texas Instruments Incorporated nor the names of // its contributors may be used to endorse or promote products derived // from this software without specific prior written permission. // // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS // "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT // LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR // A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT // OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT // LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, // DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY // THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT // (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. // //***************************************************************************** #ifndef __HW_ADC_H__ #define __HW_ADC_H__ //***************************************************************************** // // The following are defines for the ADC register offsets. // //***************************************************************************** #define ADC_O_ADC_CTRL 0x00000000 // ADC control register. #define ADC_O_adc_ch0_gain 0x00000004 // Channel 0 gain setting #define ADC_O_adc_ch1_gain 0x00000008 // Channel 1 gain setting #define ADC_O_adc_ch2_gain 0x0000000C // Channel 2 gain setting #define ADC_O_adc_ch3_gain 0x00000010 // Channel 3 gain setting #define ADC_O_adc_ch4_gain 0x00000014 // Channel 4 gain setting #define ADC_O_adc_ch5_gain 0x00000018 // Channel 5 gain setting #define ADC_O_adc_ch6_gain 0x0000001C // Channel 6 gain setting #define ADC_O_adc_ch7_gain 0x00000020 // Channel 7 gain setting #define ADC_O_adc_ch0_irq_en 0x00000024 // Channel 0 interrupt enable // register #define ADC_O_adc_ch1_irq_en 0x00000028 // Channel 1 interrupt enable // register #define ADC_O_adc_ch2_irq_en 0x0000002C // Channel 2 interrupt enable // register #define ADC_O_adc_ch3_irq_en 0x00000030 // Channel 3 interrupt enable // register #define ADC_O_adc_ch4_irq_en 0x00000034 // Channel 4 interrupt enable // register #define ADC_O_adc_ch5_irq_en 0x00000038 // Channel 5 interrupt enable // register #define ADC_O_adc_ch6_irq_en 0x0000003C // Channel 6 interrupt enable // register #define ADC_O_adc_ch7_irq_en 0x00000040 // Channel 7 interrupt enable // register #define ADC_O_adc_ch0_irq_status \ 0x00000044 // Channel 0 interrupt status // register #define ADC_O_adc_ch1_irq_status \ 0x00000048 // Channel 1 interrupt status // register #define ADC_O_adc_ch2_irq_status \ 0x0000004C #define ADC_O_adc_ch3_irq_status \ 0x00000050 // Channel 3 interrupt status // register #define ADC_O_adc_ch4_irq_status \ 0x00000054 // Channel 4 interrupt status // register #define ADC_O_adc_ch5_irq_status \ 0x00000058 #define ADC_O_adc_ch6_irq_status \ 0x0000005C // Channel 6 interrupt status // register #define ADC_O_adc_ch7_irq_status \ 0x00000060 // Channel 7 interrupt status // register #define ADC_O_adc_dma_mode_en 0x00000064 // DMA mode enable register #define ADC_O_adc_timer_configuration \ 0x00000068 // ADC timer configuration register #define ADC_O_adc_timer_current_count \ 0x00000070 // ADC timer current count register #define ADC_O_channel0FIFODATA 0x00000074 // CH0 FIFO DATA register #define ADC_O_channel1FIFODATA 0x00000078 // CH1 FIFO DATA register #define ADC_O_channel2FIFODATA 0x0000007C // CH2 FIFO DATA register #define ADC_O_channel3FIFODATA 0x00000080 // CH3 FIFO DATA register #define ADC_O_channel4FIFODATA 0x00000084 // CH4 FIFO DATA register #define ADC_O_channel5FIFODATA 0x00000088 // CH5 FIFO DATA register #define ADC_O_channel6FIFODATA 0x0000008C // CH6 FIFO DATA register #define ADC_O_channel7FIFODATA 0x00000090 // CH7 FIFO DATA register #define ADC_O_adc_ch0_fifo_lvl 0x00000094 // channel 0 FIFO Level register #define ADC_O_adc_ch1_fifo_lvl 0x00000098 // Channel 1 interrupt status // register #define ADC_O_adc_ch2_fifo_lvl 0x0000009C #define ADC_O_adc_ch3_fifo_lvl 0x000000A0 // Channel 3 interrupt status // register #define ADC_O_adc_ch4_fifo_lvl 0x000000A4 // Channel 4 interrupt status // register #define ADC_O_adc_ch5_fifo_lvl 0x000000A8 #define ADC_O_adc_ch6_fifo_lvl 0x000000AC // Channel 6 interrupt status // register #define ADC_O_adc_ch7_fifo_lvl 0x000000B0 // Channel 7 interrupt status // register #define ADC_O_ADC_CH_ENABLE 0x000000B8 //****************************************************************************** // // The following are defines for the bit fields in the ADC_O_ADC_CTRL register. // //****************************************************************************** #define ADC_ADC_CTRL_adc_cap_scale \ 0x00000020 // ADC CAP SCALE. #define ADC_ADC_CTRL_adc_buf_bypass \ 0x00000010 // ADC ANA CIO buffer bypass. // Signal is modelled in ANA TOP. // When '1': ADC buffer is bypassed. #define ADC_ADC_CTRL_adc_buf_en 0x00000008 // ADC ANA buffer enable. When 1: // ADC buffer is enabled. #define ADC_ADC_CTRL_adc_core_en \ 0x00000004 // ANA ADC core en. This signal act // as glbal enable to ADC CIO. When // 1: ADC core is enabled. #define ADC_ADC_CTRL_adc_soft_reset \ 0x00000002 // ADC soft reset. When '1' : reset // ADC internal logic. #define ADC_ADC_CTRL_adc_en 0x00000001 // ADC global enable. When set ADC // module is enabled //****************************************************************************** // // The following are defines for the bit fields in the // ADC_O_adc_ch0_gain register. // //****************************************************************************** #define ADC_adc_ch0_gain_adc_channel0_gain_M \ 0x00000003 // gain setting for ADC channel 0. // when "00": 1x when "01: 2x when // "10":3x when "11" 4x #define ADC_adc_ch0_gain_adc_channel0_gain_S 0 //****************************************************************************** // // The following are defines for the bit fields in the // ADC_O_adc_ch1_gain register. // //****************************************************************************** #define ADC_adc_ch1_gain_adc_channel1_gain_M \ 0x00000003 // gain setting for ADC channel 1. // when "00": 1x when "01: 2x when // "10":3x when "11" 4x #define ADC_adc_ch1_gain_adc_channel1_gain_S 0 //****************************************************************************** // // The following are defines for the bit fields in the // ADC_O_adc_ch2_gain register. // //****************************************************************************** #define ADC_adc_ch2_gain_adc_channel2_gain_M \ 0x00000003 // gain setting for ADC channel 2. // when "00": 1x when "01: 2x when // "10":3x when "11" 4x #define ADC_adc_ch2_gain_adc_channel2_gain_S 0 //****************************************************************************** // // The following are defines for the bit fields in the // ADC_O_adc_ch3_gain register. // //****************************************************************************** #define ADC_adc_ch3_gain_adc_channel3_gain_M \ 0x00000003 // gain setting for ADC channel 3. // when "00": 1x when "01: 2x when // "10":3x when "11" 4x #define ADC_adc_ch3_gain_adc_channel3_gain_S 0 //****************************************************************************** // // The following are defines for the bit fields in the // ADC_O_adc_ch4_gain register. // //****************************************************************************** #define ADC_adc_ch4_gain_adc_channel4_gain_M \ 0x00000003 // gain setting for ADC channel 4 // when "00": 1x when "01: 2x when // "10":3x when "11" 4x #define ADC_adc_ch4_gain_adc_channel4_gain_S 0 //****************************************************************************** // // The following are defines for the bit fields in the // ADC_O_adc_ch5_gain register. // //****************************************************************************** #define ADC_adc_ch5_gain_adc_channel5_gain_M \ 0x00000003 // gain setting for ADC channel 5. // when "00": 1x when "01: 2x when // "10":3x when "11" 4x #define ADC_adc_ch5_gain_adc_channel5_gain_S 0 //****************************************************************************** // // The following are defines for the bit fields in the // ADC_O_adc_ch6_gain register. // //****************************************************************************** #define ADC_adc_ch6_gain_adc_channel6_gain_M \ 0x00000003 // gain setting for ADC channel 6 // when "00": 1x when "01: 2x when // "10":3x when "11" 4x #define ADC_adc_ch6_gain_adc_channel6_gain_S 0 //****************************************************************************** // // The following are defines for the bit fields in the // ADC_O_adc_ch7_gain register. // //****************************************************************************** #define ADC_adc_ch7_gain_adc_channel7_gain_M \ 0x00000003 // gain setting for ADC channel 7. // when "00": 1x when "01: 2x when // "10":3x when "11" 4x #define ADC_adc_ch7_gain_adc_channel7_gain_S 0 //****************************************************************************** // // The following are defines for the bit fields in the // ADC_O_adc_ch0_irq_en register. // //****************************************************************************** #define ADC_adc_ch0_irq_en_adc_channel0_irq_en_M \ 0x0000000F // interrupt enable register for // per ADC channel bit 3: when '1' // -> enable FIFO overflow interrupt // bit 2: when '1' -> enable FIFO // underflow interrupt bit 1: when // "1' -> enable FIFO empty // interrupt bit 0: when "1" -> // enable FIFO full interrupt #define ADC_adc_ch0_irq_en_adc_channel0_irq_en_S 0 //****************************************************************************** // // The following are defines for the bit fields in the // ADC_O_adc_ch1_irq_en register. // //****************************************************************************** #define ADC_adc_ch1_irq_en_adc_channel1_irq_en_M \ 0x0000000F // interrupt enable register for // per ADC channel bit 3: when '1' // -> enable FIFO overflow interrupt // bit 2: when '1' -> enable FIFO // underflow interrupt bit 1: when // "1' -> enable FIFO empty // interrupt bit 0: when "1" -> // enable FIFO full interrupt #define ADC_adc_ch1_irq_en_adc_channel1_irq_en_S 0 //****************************************************************************** // // The following are defines for the bit fields in the // ADC_O_adc_ch2_irq_en register. // //****************************************************************************** #define ADC_adc_ch2_irq_en_adc_channel2_irq_en_M \ 0x0000000F // interrupt enable register for // per ADC channel bit 3: when '1' // -> enable FIFO overflow interrupt // bit 2: when '1' -> enable FIFO // underflow interrupt bit 1: when // "1' -> enable FIFO empty // interrupt bit 0: when "1" -> // enable FIFO full interrupt #define ADC_adc_ch2_irq_en_adc_channel2_irq_en_S 0 //****************************************************************************** // // The following are defines for the bit fields in the // ADC_O_adc_ch3_irq_en register. // //****************************************************************************** #define ADC_adc_ch3_irq_en_adc_channel3_irq_en_M \ 0x0000000F // interrupt enable register for // per ADC channel bit 3: when '1' // -> enable FIFO overflow interrupt // bit 2: when '1' -> enable FIFO // underflow interrupt bit 1: when // "1' -> enable FIFO empty // interrupt bit 0: when "1" -> // enable FIFO full interrupt #define ADC_adc_ch3_irq_en_adc_channel3_irq_en_S 0 //****************************************************************************** // // The following are defines for the bit fields in the // ADC_O_adc_ch4_irq_en register. // //****************************************************************************** #define ADC_adc_ch4_irq_en_adc_channel4_irq_en_M \ 0x0000000F // interrupt enable register for // per ADC channel bit 3: when '1' // -> enable FIFO overflow interrupt // bit 2: when '1' -> enable FIFO // underflow interrupt bit 1: when // "1' -> enable FIFO empty // interrupt bit 0: when "1" -> // enable FIFO full interrupt #define ADC_adc_ch4_irq_en_adc_channel4_irq_en_S 0 //****************************************************************************** // // The following are defines for the bit fields in the // ADC_O_adc_ch5_irq_en register. // //****************************************************************************** #define ADC_adc_ch5_irq_en_adc_channel5_irq_en_M \ 0x0000000F // interrupt enable register for // per ADC channel bit 3: when '1' // -> enable FIFO overflow interrupt // bit 2: when '1' -> enable FIFO // underflow interrupt bit 1: when // "1' -> enable FIFO empty // interrupt bit 0: when "1" -> // enable FIFO full interrupt #define ADC_adc_ch5_irq_en_adc_channel5_irq_en_S 0 //****************************************************************************** // // The following are defines for the bit fields in the // ADC_O_adc_ch6_irq_en register. // //****************************************************************************** #define ADC_adc_ch6_irq_en_adc_channel6_irq_en_M \ 0x0000000F // interrupt enable register for // per ADC channel bit 3: when '1' // -> enable FIFO overflow interrupt // bit 2: when '1' -> enable FIFO // underflow interrupt bit 1: when // "1' -> enable FIFO empty // interrupt bit 0: when "1" -> // enable FIFO full interrupt #define ADC_adc_ch6_irq_en_adc_channel6_irq_en_S 0 //****************************************************************************** // // The following are defines for the bit fields in the // ADC_O_adc_ch7_irq_en register. // //****************************************************************************** #define ADC_adc_ch7_irq_en_adc_channel7_irq_en_M \ 0x0000000F // interrupt enable register for // per ADC channel bit 3: when '1' // -> enable FIFO overflow interrupt // bit 2: when '1' -> enable FIFO // underflow interrupt bit 1: when // "1' -> enable FIFO empty // interrupt bit 0: when "1" -> // enable FIFO full interrupt #define ADC_adc_ch7_irq_en_adc_channel7_irq_en_S 0 //****************************************************************************** // // The following are defines for the bit fields in the // ADC_O_adc_ch0_irq_status register. // //****************************************************************************** #define ADC_adc_ch0_irq_status_adc_channel0_irq_status_M \ 0x0000000F // interrupt status register for // per ADC channel. Interrupt status // can be cleared on write. bit 3: // when value '1' is written -> // would clear FIFO overflow // interrupt status in the next // cycle. if same interrupt is set // in the same cycle then interurpt // would be set and clear command // will be ignored. bit 2: when // value '1' is written -> would // clear FIFO underflow interrupt // status in the next cycle. bit 1: // when value '1' is written -> // would clear FIFO empty interrupt // status in the next cycle. bit 0: // when value '1' is written -> // would clear FIFO full interrupt // status in the next cycle. #define ADC_adc_ch0_irq_status_adc_channel0_irq_status_S 0 //****************************************************************************** // // The following are defines for the bit fields in the // ADC_O_adc_ch1_irq_status register. // //****************************************************************************** #define ADC_adc_ch1_irq_status_adc_channel1_irq_status_M \ 0x0000000F // interrupt status register for // per ADC channel. Interrupt status // can be cleared on write. bit 3: // when value '1' is written -> // would clear FIFO overflow // interrupt status in the next // cycle. if same interrupt is set // in the same cycle then interurpt // would be set and clear command // will be ignored. bit 2: when // value '1' is written -> would // clear FIFO underflow interrupt // status in the next cycle. bit 1: // when value '1' is written -> // would clear FIFO empty interrupt // status in the next cycle. bit 0: // when value '1' is written -> // would clear FIFO full interrupt // status in the next cycle. #define ADC_adc_ch1_irq_status_adc_channel1_irq_status_S 0 //****************************************************************************** // // The following are defines for the bit fields in the // ADC_O_adc_ch2_irq_status register. // //****************************************************************************** #define ADC_adc_ch2_irq_status_adc_channel2_irq_status_M \ 0x0000000F // interrupt status register for // per ADC channel. Interrupt status // can be cleared on write. bit 3: // when value '1' is written -> // would clear FIFO overflow // interrupt status in the next // cycle. if same interrupt is set // in the same cycle then interurpt // would be set and clear command // will be ignored. bit 2: when // value '1' is written -> would // clear FIFO underflow interrupt // status in the next cycle. bit 1: // when value '1' is written -> // would clear FIFO empty interrupt // status in the next cycle. bit 0: // when value '1' is written -> // would clear FIFO full interrupt // status in the next cycle. #define ADC_adc_ch2_irq_status_adc_channel2_irq_status_S 0 //****************************************************************************** // // The following are defines for the bit fields in the // ADC_O_adc_ch3_irq_status register. // //****************************************************************************** #define ADC_adc_ch3_irq_status_adc_channel3_irq_status_M \ 0x0000000F // interrupt status register for // per ADC channel. Interrupt status // can be cleared on write. bit 3: // when value '1' is written -> // would clear FIFO overflow // interrupt status in the next // cycle. if same interrupt is set // in the same cycle then interurpt // would be set and clear command // will be ignored. bit 2: when // value '1' is written -> would // clear FIFO underflow interrupt // status in the next cycle. bit 1: // when value '1' is written -> // would clear FIFO empty interrupt // status in the next cycle. bit 0: // when value '1' is written -> // would clear FIFO full interrupt // status in the next cycle. #define ADC_adc_ch3_irq_status_adc_channel3_irq_status_S 0 //****************************************************************************** // // The following are defines for the bit fields in the // ADC_O_adc_ch4_irq_status register. // //****************************************************************************** #define ADC_adc_ch4_irq_status_adc_channel4_irq_status_M \ 0x0000000F // interrupt status register for // per ADC channel. Interrupt status // can be cleared on write. bit 3: // when value '1' is written -> // would clear FIFO overflow // interrupt status in the next // cycle. if same interrupt is set // in the same cycle then interurpt // would be set and clear command // will be ignored. bit 2: when // value '1' is written -> would // clear FIFO underflow interrupt // status in the next cycle. bit 1: // when value '1' is written -> // would clear FIFO empty interrupt // status in the next cycle. bit 0: // when value '1' is written -> // would clear FIFO full interrupt // status in the next cycle. #define ADC_adc_ch4_irq_status_adc_channel4_irq_status_S 0 //****************************************************************************** // // The following are defines for the bit fields in the // ADC_O_adc_ch5_irq_status register. // //****************************************************************************** #define ADC_adc_ch5_irq_status_adc_channel5_irq_status_M \ 0x0000000F // interrupt status register for // per ADC channel. Interrupt status // can be cleared on write. bit 3: // when value '1' is written -> // would clear FIFO overflow // interrupt status in the next // cycle. if same interrupt is set // in the same cycle then interurpt // would be set and clear command // will be ignored. bit 2: when // value '1' is written -> would // clear FIFO underflow interrupt // status in the next cycle. bit 1: // when value '1' is written -> // would clear FIFO empty interrupt // status in the next cycle. bit 0: // when value '1' is written -> // would clear FIFO full interrupt // status in the next cycle. #define ADC_adc_ch5_irq_status_adc_channel5_irq_status_S 0 //****************************************************************************** // // The following are defines for the bit fields in the // ADC_O_adc_ch6_irq_status register. // //****************************************************************************** #define ADC_adc_ch6_irq_status_adc_channel6_irq_status_M \ 0x0000000F // interrupt status register for // per ADC channel. Interrupt status // can be cleared on write. bit 3: // when value '1' is written -> // would clear FIFO overflow // interrupt status in the next // cycle. if same interrupt is set // in the same cycle then interurpt // would be set and clear command // will be ignored. bit 2: when // value '1' is written -> would // clear FIFO underflow interrupt // status in the next cycle. bit 1: // when value '1' is written -> // would clear FIFO empty interrupt // status in the next cycle. bit 0: // when value '1' is written -> // would clear FIFO full interrupt // status in the next cycle. #define ADC_adc_ch6_irq_status_adc_channel6_irq_status_S 0 //****************************************************************************** // // The following are defines for the bit fields in the // ADC_O_adc_ch7_irq_status register. // //****************************************************************************** #define ADC_adc_ch7_irq_status_adc_channel7_irq_status_M \ 0x0000000F // interrupt status register for // per ADC channel. Interrupt status // can be cleared on write. bit 3: // when value '1' is written -> // would clear FIFO overflow // interrupt status in the next // cycle. if same interrupt is set // in the same cycle then interurpt // would be set and clear command // will be ignored. bit 2: when // value '1' is written -> would // clear FIFO underflow interrupt // status in the next cycle. bit 1: // when value '1' is written -> // would clear FIFO empty interrupt // status in the next cycle. bit 0: // when value '1' is written -> // would clear FIFO full interrupt // status in the next cycle. #define ADC_adc_ch7_irq_status_adc_channel7_irq_status_S 0 //****************************************************************************** // // The following are defines for the bit fields in the // ADC_O_adc_dma_mode_en register. // //****************************************************************************** #define ADC_adc_dma_mode_en_DMA_MODEenable_M \ 0x000000FF // this register enable DMA mode. // when '1' respective ADC channel // is enabled for DMA. When '0' only // interrupt mode is enabled. Bit 0: // channel 0 DMA mode enable. Bit 1: // channel 1 DMA mode enable. Bit 2: // channel 2 DMA mode enable. Bit 3: // channel 3 DMA mode enable. bit 4: // channel 4 DMA mode enable. bit 5: // channel 5 DMA mode enable. bit 6: // channel 6 DMA mode enable. bit 7: // channel 7 DMA mode enable. #define ADC_adc_dma_mode_en_DMA_MODEenable_S 0 //****************************************************************************** // // The following are defines for the bit fields in the // ADC_O_adc_timer_configuration register. // //****************************************************************************** #define ADC_adc_timer_configuration_timeren \ 0x02000000 // when '1' timer is enabled. #define ADC_adc_timer_configuration_timerreset \ 0x01000000 // when '1' reset timer. #define ADC_adc_timer_configuration_timercount_M \ 0x00FFFFFF // Timer count configuration. 17 // bit counter is supported. Other // MSB's are redundent. #define ADC_adc_timer_configuration_timercount_S 0 //****************************************************************************** // // The following are defines for the bit fields in the // ADC_O_adc_timer_current_count register. // //****************************************************************************** #define ADC_adc_timer_current_count_timercurrentcount_M \ 0x0001FFFF // Timer count configuration #define ADC_adc_timer_current_count_timercurrentcount_S 0 //****************************************************************************** // // The following are defines for the bit fields in the // ADC_O_channel0FIFODATA register. // //****************************************************************************** #define ADC_channel0FIFODATA_FIFO_RD_DATA_M \ 0xFFFFFFFF // read to this register would // return ADC data along with time // stamp information in following // format: bits [13:0] : ADC sample // bits [31:14]: : time stamp per // ADC sample #define ADC_channel0FIFODATA_FIFO_RD_DATA_S 0 //****************************************************************************** // // The following are defines for the bit fields in the // ADC_O_channel1FIFODATA register. // //****************************************************************************** #define ADC_channel1FIFODATA_FIFO_RD_DATA_M \ 0xFFFFFFFF // read to this register would // return ADC data along with time // stamp information in following // format: bits [13:0] : ADC sample // bits [31:14]: : time stamp per // ADC sample #define ADC_channel1FIFODATA_FIFO_RD_DATA_S 0 //****************************************************************************** // // The following are defines for the bit fields in the // ADC_O_channel2FIFODATA register. // //****************************************************************************** #define ADC_channel2FIFODATA_FIFO_RD_DATA_M \ 0xFFFFFFFF // read to this register would // return ADC data along with time // stamp information in following // format: bits [13:0] : ADC sample // bits [31:14]: : time stamp per // ADC sample #define ADC_channel2FIFODATA_FIFO_RD_DATA_S 0 //****************************************************************************** // // The following are defines for the bit fields in the // ADC_O_channel3FIFODATA register. // //****************************************************************************** #define ADC_channel3FIFODATA_FIFO_RD_DATA_M \ 0xFFFFFFFF // read to this register would // return ADC data along with time // stamp information in following // format: bits [13:0] : ADC sample // bits [31:14]: : time stamp per // ADC sample #define ADC_channel3FIFODATA_FIFO_RD_DATA_S 0 //****************************************************************************** // // The following are defines for the bit fields in the // ADC_O_channel4FIFODATA register. // //****************************************************************************** #define ADC_channel4FIFODATA_FIFO_RD_DATA_M \ 0xFFFFFFFF // read to this register would // return ADC data along with time // stamp information in following // format: bits [13:0] : ADC sample // bits [31:14]: : time stamp per // ADC sample #define ADC_channel4FIFODATA_FIFO_RD_DATA_S 0 //****************************************************************************** // // The following are defines for the bit fields in the // ADC_O_channel5FIFODATA register. // //****************************************************************************** #define ADC_channel5FIFODATA_FIFO_RD_DATA_M \ 0xFFFFFFFF // read to this register would // return ADC data along with time // stamp information in following // format: bits [13:0] : ADC sample // bits [31:14]: : time stamp per // ADC sample #define ADC_channel5FIFODATA_FIFO_RD_DATA_S 0 //****************************************************************************** // // The following are defines for the bit fields in the // ADC_O_channel6FIFODATA register. // //****************************************************************************** #define ADC_channel6FIFODATA_FIFO_RD_DATA_M \ 0xFFFFFFFF // read to this register would // return ADC data along with time // stamp information in following // format: bits [13:0] : ADC sample // bits [31:14]: : time stamp per // ADC sample #define ADC_channel6FIFODATA_FIFO_RD_DATA_S 0 //****************************************************************************** // // The following are defines for the bit fields in the // ADC_O_channel7FIFODATA register. // //****************************************************************************** #define ADC_channel7FIFODATA_FIFO_RD_DATA_M \ 0xFFFFFFFF // read to this register would // return ADC data along with time // stamp information in following // format: bits [13:0] : ADC sample // bits [31:14]: : time stamp per // ADC sample #define ADC_channel7FIFODATA_FIFO_RD_DATA_S 0 //****************************************************************************** // // The following are defines for the bit fields in the // ADC_O_adc_ch0_fifo_lvl register. // //****************************************************************************** #define ADC_adc_ch0_fifo_lvl_adc_channel0_fifo_lvl_M \ 0x00000007 // This register shows current FIFO // level. FIFO is 4 word wide. // Possible supported levels are : // 0x0 to 0x3 #define ADC_adc_ch0_fifo_lvl_adc_channel0_fifo_lvl_S 0 //****************************************************************************** // // The following are defines for the bit fields in the // ADC_O_adc_ch1_fifo_lvl register. // //****************************************************************************** #define ADC_adc_ch1_fifo_lvl_adc_channel1_fifo_lvl_M \ 0x00000007 // This register shows current FIFO // level. FIFO is 4 word wide. // Possible supported levels are : // 0x0 to 0x3 #define ADC_adc_ch1_fifo_lvl_adc_channel1_fifo_lvl_S 0 //****************************************************************************** // // The following are defines for the bit fields in the // ADC_O_adc_ch2_fifo_lvl register. // //****************************************************************************** #define ADC_adc_ch2_fifo_lvl_adc_channel2_fifo_lvl_M \ 0x00000007 // This register shows current FIFO // level. FIFO is 4 word wide. // Possible supported levels are : // 0x0 to 0x3 #define ADC_adc_ch2_fifo_lvl_adc_channel2_fifo_lvl_S 0 //****************************************************************************** // // The following are defines for the bit fields in the // ADC_O_adc_ch3_fifo_lvl register. // //****************************************************************************** #define ADC_adc_ch3_fifo_lvl_adc_channel3_fifo_lvl_M \ 0x00000007 // This register shows current FIFO // level. FIFO is 4 word wide. // Possible supported levels are : // 0x0 to 0x3 #define ADC_adc_ch3_fifo_lvl_adc_channel3_fifo_lvl_S 0 //****************************************************************************** // // The following are defines for the bit fields in the // ADC_O_adc_ch4_fifo_lvl register. // //****************************************************************************** #define ADC_adc_ch4_fifo_lvl_adc_channel4_fifo_lvl_M \ 0x00000007 // This register shows current FIFO // level. FIFO is 4 word wide. // Possible supported levels are : // 0x0 to 0x3 #define ADC_adc_ch4_fifo_lvl_adc_channel4_fifo_lvl_S 0 //****************************************************************************** // // The following are defines for the bit fields in the // ADC_O_adc_ch5_fifo_lvl register. // //****************************************************************************** #define ADC_adc_ch5_fifo_lvl_adc_channel5_fifo_lvl_M \ 0x00000007 // This register shows current FIFO // level. FIFO is 4 word wide. // Possible supported levels are : // 0x0 to 0x3 #define ADC_adc_ch5_fifo_lvl_adc_channel5_fifo_lvl_S 0 //****************************************************************************** // // The following are defines for the bit fields in the // ADC_O_adc_ch6_fifo_lvl register. // //****************************************************************************** #define ADC_adc_ch6_fifo_lvl_adc_channel6_fifo_lvl_M \ 0x00000007 // This register shows current FIFO // level. FIFO is 4 word wide. // Possible supported levels are : // 0x0 to 0x3 #define ADC_adc_ch6_fifo_lvl_adc_channel6_fifo_lvl_S 0 //****************************************************************************** // // The following are defines for the bit fields in the // ADC_O_adc_ch7_fifo_lvl register. // //****************************************************************************** #define ADC_adc_ch7_fifo_lvl_adc_channel7_fifo_lvl_M \ 0x00000007 // This register shows current FIFO // level. FIFO is 4 word wide. // Possible supported levels are : // 0x0 to 0x3 #define ADC_adc_ch7_fifo_lvl_adc_channel7_fifo_lvl_S 0 #endif // __HW_ADC_H__