//***************************************************************************** // // am_hal_pdm.h //! @file //! //! @brief Functions for accessing and configuring the PDM module //! //! @addtogroup pdm2 Pulse Density Modulation (PDM) Input Module. //! @ingroup apollo2hal //! @{ //***************************************************************************** //***************************************************************************** // // Copyright (c) 2020, Ambiq Micro // All rights reserved. // // Redistribution and use in source and binary forms, with or without // modification, are permitted provided that the following conditions are met: // // 1. Redistributions of source code must retain the above copyright notice, // this list of conditions and the following disclaimer. // // 2. 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. // // 3. Neither the name of the copyright holder nor the names of its // contributors may be used to endorse or promote products derived from this // software without specific prior written permission. // // Third party software included in this distribution is subject to the // additional license terms as defined in the /docs/licenses directory. // // 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 HOLDER 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. // // This is part of revision 2.4.2 of the AmbiqSuite Development Package. // //***************************************************************************** #ifndef AM_HAL_PDM_H #define AM_HAL_PDM_H #ifdef __cplusplus extern "C" { #endif //***************************************************************************** // // Macro definitions // //***************************************************************************** //***************************************************************************** // //! @name PDM Left Right Swap Control //! @brief Macro definitions for the PDM LRSWAP bit field //! //! These macros may be used with the am_hal_pdm_config_t structure to set the //! left right swap bit. //! //! @{ // //***************************************************************************** #define AM_HAL_PDM_PCFG_LRSWAP_ENABLE \ AM_REG_PDM_PCFG_LRSWAP_EN #define AM_HAL_PDM_PCFG_LRSWAP_DISABLE \ AM_REG_PDM_PCFG_LRSWAP_NOSWAP //! @} //***************************************************************************** // //! @name PDM Right Gain Setting //! @brief Macro definitions for the PDM Right Gain Setting. //! //! These macros may be used with the am_hal_pdm_config_t structure to set the //! right gain value. //! //! @{ // //***************************************************************************** #define AM_HAL_PDM_PCFG_RIGHT_PGA_M15DB AM_REG_PDM_PCFG_PGARIGHT_M15DB #define AM_HAL_PDM_PCFG_RIGHT_PGA_M300DB AM_REG_PDM_PCFG_PGARIGHT_M300DB #define AM_HAL_PDM_PCFG_RIGHT_PGA_M45DB AM_REG_PDM_PCFG_PGARIGHT_M45DB #define AM_HAL_PDM_PCFG_RIGHT_PGA_M60DB AM_REG_PDM_PCFG_PGARIGHT_M60DB #define AM_HAL_PDM_PCFG_RIGHT_PGA_M75DB AM_REG_PDM_PCFG_PGARIGHT_M75DB #define AM_HAL_PDM_PCFG_RIGHT_PGA_M90DB AM_REG_PDM_PCFG_PGARIGHT_M90DB #define AM_HAL_PDM_PCFG_RIGHT_PGA_M105DB AM_REG_PDM_PCFG_PGARIGHT_M105DB #define AM_HAL_PDM_PCFG_RIGHT_PGA_M120DB AM_REG_PDM_PCFG_PGARIGHT_M120DB #define AM_HAL_PDM_PCFG_RIGHT_PGA_P105DB AM_REG_PDM_PCFG_PGARIGHT_P105DB #define AM_HAL_PDM_PCFG_RIGHT_PGA_P90DB AM_REG_PDM_PCFG_PGARIGHT_P90DB #define AM_HAL_PDM_PCFG_RIGHT_PGA_P75DB AM_REG_PDM_PCFG_PGARIGHT_P75DB #define AM_HAL_PDM_PCFG_RIGHT_PGA_P60DB AM_REG_PDM_PCFG_PGARIGHT_P60DB #define AM_HAL_PDM_PCFG_RIGHT_PGA_P45DB AM_REG_PDM_PCFG_PGARIGHT_P45DB #define AM_HAL_PDM_PCFG_RIGHT_PGA_P300DB AM_REG_PDM_PCFG_PGARIGHT_P300DB #define AM_HAL_PDM_PCFG_RIGHT_PGA_P15DB AM_REG_PDM_PCFG_PGARIGHT_P15DB #define AM_HAL_PDM_PCFG_RIGHT_PGA_0DB AM_REG_PDM_PCFG_PGARIGHT_0DB //! @} //***************************************************************************** // //! @name PDM Left Gain Setting //! @brief Macro definitions for the PDM Left Gain Setting. //! //! These macros may be used with the am_hal_pdm_config_t structure to set the //! left gain value. //! //! @{ // //***************************************************************************** #define AM_HAL_PDM_PCFG_LEFT_PGA_M15DB AM_REG_PDM_PCFG_PGALEFT_M15DB #define AM_HAL_PDM_PCFG_LEFT_PGA_M300DB AM_REG_PDM_PCFG_PGALEFT_M300DB #define AM_HAL_PDM_PCFG_LEFT_PGA_M45DB AM_REG_PDM_PCFG_PGALEFT_M45DB #define AM_HAL_PDM_PCFG_LEFT_PGA_M60DB AM_REG_PDM_PCFG_PGALEFT_M60DB #define AM_HAL_PDM_PCFG_LEFT_PGA_M75DB AM_REG_PDM_PCFG_PGALEFT_M75DB #define AM_HAL_PDM_PCFG_LEFT_PGA_M90DB AM_REG_PDM_PCFG_PGALEFT_M90DB #define AM_HAL_PDM_PCFG_LEFT_PGA_M105DB AM_REG_PDM_PCFG_PGALEFT_M105DB #define AM_HAL_PDM_PCFG_LEFT_PGA_M120DB AM_REG_PDM_PCFG_PGALEFT_M120DB #define AM_HAL_PDM_PCFG_LEFT_PGA_P105DB AM_REG_PDM_PCFG_PGALEFT_P105DB #define AM_HAL_PDM_PCFG_LEFT_PGA_P90DB AM_REG_PDM_PCFG_PGALEFT_P90DB #define AM_HAL_PDM_PCFG_LEFT_PGA_P75DB AM_REG_PDM_PCFG_PGALEFT_P75DB #define AM_HAL_PDM_PCFG_LEFT_PGA_P60DB AM_REG_PDM_PCFG_PGALEFT_P60DB #define AM_HAL_PDM_PCFG_LEFT_PGA_P45DB AM_REG_PDM_PCFG_PGALEFT_P45DB #define AM_HAL_PDM_PCFG_LEFT_PGA_P300DB AM_REG_PDM_PCFG_PGALEFT_P300DB #define AM_HAL_PDM_PCFG_LEFT_PGA_P15DB AM_REG_PDM_PCFG_PGALEFT_P15DB #define AM_HAL_PDM_PCFG_LEFT_PGA_0DB AM_REG_PDM_PCFG_PGALEFT_0DB //! @} //***************************************************************************** // //! @name PDM Configuration MCLK Divider //! @brief Macro definitions for the PDM MCLK Divider //! //! These macros may be used with the am_hal_pdm_config_t structure to set the //! sinc decimation rate relative to the PDM sample clock (OSR). //! //! @{ // //***************************************************************************** #define AM_HAL_PDM_PCFG_MCLKDIV_DIV1 AM_REG_PDM_PCFG_MCLKDIV_MCKDIV1 #define AM_HAL_PDM_PCFG_MCLKDIV_DIV2 AM_REG_PDM_PCFG_MCLKDIV_MCKDIV2 #define AM_HAL_PDM_PCFG_MCLKDIV_DIV3 AM_REG_PDM_PCFG_MCLKDIV_MCKDIV3 #define AM_HAL_PDM_PCFG_MCLKDIV_DIV4 AM_REG_PDM_PCFG_MCLKDIV_MCKDIV4 #define AM_HAL_PDM_PCFG_MCLKDIV(DIV) AM_REG_PDM_PCFG_MCLKDIV(DIV) //! @} //***************************************************************************** // //! @name PDM Configuration SINC Decimation Rate //! @brief Macro definitions for the PDM SINC decimation rate //! //! These macros may be used with the am_hal_pdm_config_t structure to set the //! sinc decimation rate relative to the PDM sample clock (OSR). //! //! @{ // //***************************************************************************** #define AM_HAL_PDM_PCFG_SINC_RATE(OSR) \ AM_REG_PDM_PCFG_SINCRATE(OSR) //! @} //***************************************************************************** // //! @name PDM Configuration High Pass Filter Enable //! @brief Macro definitions for the PDM ADCHPD //! //! These macros may be used with the am_hal_pdm_config_t structure to enable //! the high pass filter. //! //! @{ // //***************************************************************************** #define AM_HAL_PDM_PCFG_ADCHPD_ENABLE AM_REG_PDM_PCFG_ADCHPD_EN #define AM_HAL_PDM_PCFG_ADCHPD_DISABLE AM_REG_PDM_PCFG_ADCHPD_DIS //! @} //***************************************************************************** // //! @name PDM Configuration HPCUTOFF //! @brief Macro definitions for the PDM High Pass Filter Cutoff Selector. //! //! These macros may be used with the am_hal_pdm_config_t structure to set the //! high pass filter cutoff frequency. Valid range is 0 to 7. //! //! @{ // //***************************************************************************** #define AM_HAL_PDM_PCFG_HPCUTOFF(HPSEL) \ AM_REG_PDM_PCFG_HPCUTOFF(HPSEL) //! @} //***************************************************************************** // //! @name PDM Configuration Gain Set Change Clock Delay //! @brief Macro definitions for the PDM clock delay for gain set changes. //! //! These macros may be used with the am_hal_pdm_config_t structure to set the //! number of clocks for spreading gain setting changes. Valid range is 0 to 7. //! //! @{ // //***************************************************************************** #define AM_HAL_PDM_PCFG_CYCLES(CLOCKS) \ AM_REG_PDM_PCFG_CYCLES(CLOCKS) //! @} //***************************************************************************** // //! @name PDM Configuration SOFTMUTE enable/disable. //! @brief Macro definitions for the PDM PCFG register mute controls. //! //! These macros may be used with the am_hal_pdm_config_t structure to enable //! or disable the SOFTMUTE option. //! //! @{ // //***************************************************************************** #define AM_HAL_PDM_PCFG_SOFTMUTE_ENABLE AM_REG_PDM_PCFG_SOFTMUTE_EN #define AM_HAL_PDM_PCFG_SOFTMUTE_DISABLE AM_REG_PDM_PCFG_SOFTMUTE_DIS //! @} //***************************************************************************** // //! @name PDM Configuration PDM Core enable/disable. //! @brief Macro definitions for the PDM PCFG register filter engine enable. //! //! These macros may be used with the am_hal_pdm_config_t structure to enable //! or disable the PDM filter engine core. //! //! @{ // //***************************************************************************** #define AM_HAL_PDM_PCFG_PDMCORE_ENABLE AM_REG_PDM_PCFG_PDMCORE_EN #define AM_HAL_PDM_PCFG_PDMCORE_DISABLE AM_REG_PDM_PCFG_PDMCORE_DIS //! @} //***************************************************************************** // //! @name PDM Clock Frequencies //! @brief Macro definitions for the PDM clock (from clkgen) frequencies. //! //! These macros may be used with the am_hal_pdm_config_t structure to set the //! source clock frequency of the PDM interface. //! //! @{ // //***************************************************************************** #define AM_HAL_PDM_IOCLK_12MHZ \ (AM_REG_PDM_VCFG_PDMCLKSEL_12MHz | AM_REG_PDM_VCFG_IOCLKEN_EN) #define AM_HAL_PDM_IOCLK_6MHZ \ (AM_REG_PDM_VCFG_PDMCLKSEL_6MHz | AM_REG_PDM_VCFG_IOCLKEN_EN) #define AM_HAL_PDM_IOCLK_3MHZ \ (AM_REG_PDM_VCFG_PDMCLKSEL_3MHz | AM_REG_PDM_VCFG_IOCLKEN_EN) #define AM_HAL_PDM_IOCLK_1_5MHZ \ (AM_REG_PDM_VCFG_PDMCLKSEL_1_5MHz | AM_REG_PDM_VCFG_IOCLKEN_EN) #define AM_HAL_PDM_IOCLK_750KHZ \ (AM_REG_PDM_VCFG_PDMCLKSEL_750KHz | AM_REG_PDM_VCFG_IOCLKEN_EN) #define AM_HAL_PDM_IOCLK_375KHZ \ (AM_REG_PDM_VCFG_PDMCLKSEL_375KHz | AM_REG_PDM_VCFG_IOCLKEN_EN) #define AM_HAL_PDM_IOCLK_187KHZ \ (AM_REG_PDM_VCFG_PDMCLKSEL_187KHz | AM_REG_PDM_VCFG_IOCLKEN_EN) //! @} //***************************************************************************** // //! @name PDM Voice Configuration RSTB //! @brief Reset the IP core. //! //! @{ // //***************************************************************************** #define AM_HAL_PDM_VCFG_RSTB_RESET AM_REG_PDM_VCFG_RSTB_RESET #define AM_HAL_PDM_VCFG_RSTB_NORMAL AM_REG_PDM_VCFG_RSTB_NORM //! @} //***************************************************************************** // //! @name PDM Voice Configuration PDM Clock Enable/Disable //! @brief Macro definitions for the PDM VCFG register PDMCLKEN. //! //! These macros may be used with the am_hal_pdm_config_t structure to enable //! or disable the PDM clock output to the pad mux and from there to the world. //! //! @{ // //***************************************************************************** #define AM_HAL_PDM_VCFG_PDMCLK_ENABLE AM_REG_PDM_VCFG_PDMCLK_EN #define AM_HAL_PDM_VCFG_PDMCLK_DISABLE AM_REG_PDM_VCFG_PDMCLK_DIS //! @} //***************************************************************************** // //! @name PDM Voice Configuration I2S Mode Enable/Disable //! @brief Macro definitions for the PDM VCFG register I2SMODE. //! //! These macros may be used with the am_hal_pdm_config_t structure to enable //! or disable the PDM clock output to the pad mux and from there to the world. //! //! @{ // //***************************************************************************** #define AM_HAL_PDM_VCFG_I2SMODE_ENABLE AM_REG_PDM_VCFG_I2SMODE_EN #define AM_HAL_PDM_VCFG_I2SMODE_DISABLE AM_REG_PDM_VCFG_I2SMODE_DIS //! @} //***************************************************************************** // //! @name PDM Voice Configuration BCLK Inversion Enable/Disable //! @brief Macro definitions for the PDM VCFG register BCLKINV. //! //! These macros may be used with the am_hal_pdm_config_t structure to enable //! or disable the PDM clock output to the pad mux and from there to the world. //! //! @{ // //***************************************************************************** #define AM_HAL_PDM_VCFG_BCLKINV_ENABLE AM_REG_PDM_VCFG_BCLKINV_INV #define AM_HAL_PDM_VCFG_BCLKINV_DISABLE AM_REG_PDM_VCFG_BCLKINV_NORM //! @} //***************************************************************************** // //! @name PDM Voice Configuration DMICDEL Enable/Disable //! @brief Macro definitions for the PDM VCFG register Digital Mic Delay. //! //! These macros may be used with the am_hal_pdm_config_t structure to enable //! or disable the PDM digital microphone clock delay. //! //! @{ // //***************************************************************************** #define AM_HAL_PDM_VCFG_DMICDEL_1CYC AM_REG_PDM_VCFG_DMICKDEL_1CYC #define AM_HAL_PDM_VCFG_DMICDEL_0CYC AM_REG_PDM_VCFG_DMICKDEL_0CYC #define AM_HAL_PDM_VCFG_DMICDEL_ENABLE AM_REG_PDM_VCFG_DMICKDEL_1CYC #define AM_HAL_PDM_VCFG_DMICDEL_DISABLE AM_REG_PDM_VCFG_DMICKDEL_0CYC //! @} //***************************************************************************** // //! @name PDM Voice Configuration Select Apps Processor (AP) versus Internal //! @brief Macro definitions for the PDM VCFG register Digital Mic Delay. //! //! These macros may be used with the am_hal_pdm_config_t structure to select //! the Application Processor (I2S slave) mode or the Internal FIFO interface //! to the Apollo Cortex M4. //! //! @{ // //***************************************************************************** #define AM_HAL_PDM_VCFG_SELAP_I2S AM_REG_PDM_VCFG_SELAP_I2S #define AM_HAL_PDM_VCFG_SELAP_INTERNAL AM_REG_PDM_VCFG_SELAP_INTERNAL #define AM_HAL_PDM_VCFG_SELAP_AP_I2S AM_REG_PDM_VCFG_SELAP_I2S #define AM_HAL_PDM_VCFG_SELAP_CM4_FIFO AM_REG_PDM_VCFG_SELAP_INTERNAL //! @} //***************************************************************************** // //! @name PDM Voice Configuration PACK Enable/Disable //! @brief Macro definitions for the PDM VCFG register sample packing mode. //! //! These macros may be used with the am_hal_pdm_config_t structure to enable //! or disable the PDM sample packing mode. This mode puts two 16-bit samples //! per 32-bit FIFO word. The following packed modes are available: //! //! mono left: LEFT_NEW, LEFT_OLD //! mono right: RIGHT_NEW,RIGHT_OLD //! stereo right: LEFT, RIGHT //! stereo right(LRSWAP): RIGHT, LEFT //! //! //! //! @{ // //***************************************************************************** #define AM_HAL_PDM_VCFG_PACK_ENABLE AM_REG_PDM_VCFG_PCMPACK_EN #define AM_HAL_PDM_VCFG_PACK_DISABLE AM_REG_PDM_VCFG_PCMPACK_DIS //! @} //***************************************************************************** // //! @name PDM Channel Selects //! @brief Macro definitions for the PDM Channel Selection. //! //! These macros may be used with the am_hal_pdm_config_t structure to set the //! channel selection for the PDM interface. //! //! @{ // //***************************************************************************** #define AM_HAL_PDM_VCFG_CHANNEL_LEFT AM_REG_PDM_VCFG_CHSET_LEFT #define AM_HAL_PDM_VCFG_CHANNEL_RIGHT AM_REG_PDM_VCFG_CHSET_RIGHT #define AM_HAL_PDM_VCFG_CHANNEL_STEREO AM_REG_PDM_VCFG_CHSET_STEREO //! @} //***************************************************************************** // //! @name PDM Interrupts //! @brief Macro definitions for the PDM interrupt status bits. //! //! These macros correspond to the bits in the PDM interrupt status register. //! They may be used for any of the am_hal_pdm_int_x() functions. //! //! @{ // //***************************************************************************** #define AM_HAL_PDM_INT_UNDFL AM_REG_PDM_INTEN_UNDFL_M #define AM_HAL_PDM_INT_OVF AM_REG_PDM_INTEN_OVF_M #define AM_HAL_PDM_INT_FIFO AM_REG_PDM_INTEN_THR_M //! @} //***************************************************************************** // //! @brief Configuration structure for the PDM module. // //***************************************************************************** typedef struct { // //! @brief Set the PDM configuration reg with the values in this member. //! Choose from AM_HAL_PDM_PCFG macros. //! AM_HAL_PDM_PCFG_LRSWAP_xxx //! AM_HAL_PDM_PCFG_RIGHT_PGA_xxx //! AM_HAL_PDM_PCFG_LEFT_PGA_xxx //! AM_HAL_PDM_PCFG_MCLKDIV_xxx //! AM_HAL_PDM_PCFG_SINC_RATE() //! AM_HAL_PDM_PCFG_ADCHPD_xxx //! AM_HAL_PDM_PCFG_HPCUTOFF() //! AM_HAL_PDM_PCFG_CYCLES() //! AM_HAL_PDM_PCFG_SOFTMUTE_xxx //! * AM_HAL_PDM_PCFG_PDMCORE_EN //! AM_HAL_PDM_PCFG_PDMCORE_DISABLE // uint32_t ui32PDMConfigReg; // //! @brief Set the Voice Configuration reg with the values in this member. //! Choose from AM_HAL_PDM_VCFG macros. //! AM_HAL_PDM_IOCLK_xxx (also sets AM_REG_PDM_VCFG_IOCLKEN_EN) //! * AM_REG_PDM_VCFG_IOCLKEN_EN //! * AM_HAL_PDM_VCFG_RSTB_RESET //! AM_HAL_PDM_VCFG_RSTB_NORMAL //! * AM_HAL_PDM_VCFG_PDMCLK_EN //! AM_HAL_PDM_VCFG_PDMCLK_DIS //! AM_HAL_PDM_VCFG_I2SMODE_xxx //! AM_HAL_PDM_VCFG_BCLKINV_xxx //! AM_HAL_PDM_VCFG_DMICDEL_xxx //! AM_HAL_PDM_VCFG_SELAP_xxx //! AM_HAL_PDM_VCFG_PACK_xxx //! AM_HAL_PDM_VCFG_CHANNEL_xxx //! //! * = These bits are set or cleared by the HAL PDM functions //! am_hal_pdm_enable() or am_hal_pdm_disable(). // uint32_t ui32VoiceConfigReg; // //! @brief Select the FIFO PCM sample threshold. //! //! The PDM controller will generate a processor interrupt when the number //! of entries in the FIFO goes *above* this number. // uint32_t ui32FIFOThreshold; } am_hal_pdm_config_t; //***************************************************************************** // // Define function-like macros. // //***************************************************************************** //***************************************************************************** // //! @brief Read the FIFO depth information as an in-line macro // //***************************************************************************** #define am_hal_pdm_fifo_depth_read() (AM_REG(PDM, FR)) //***************************************************************************** // //! @brief Read the FIFO READ DATA as an in-line macro // //***************************************************************************** #define am_hal_pdm_fifo_data_read() (AM_REG(PDM, FRD)) //***************************************************************************** // //! @brief Flush the FIFO as an in-line macro // //***************************************************************************** #define am_hal_pdm_fifo_flush() (AM_REG(PDM, FLUSH) = 0) //***************************************************************************** // //! @brief Set the PDM Configuration (PCFG) Register //! //! This function sets the PDM configuration register // //***************************************************************************** #define am_hal_pdm_pcfg_set(Value) (AM_REG(PDM, PCFG) = Value) //***************************************************************************** // //! @brief Get the PCFG register value from PDM module. // //***************************************************************************** #define am_hal_pdm_pcfg_get() (AM_REG(PDM, PCFG)) //***************************************************************************** // //! @brief Set the Voice Configuration (VCFG) Register // //***************************************************************************** #define am_hal_pdm_vcfg_set(Value) (AM_REG(PDM, VCFG) = Value) //***************************************************************************** // //! @brief Get the VCFG register value from PDM module. // //***************************************************************************** #define am_hal_pdm_vcfg_get() (AM_REG(PDM, VCFG)) //***************************************************************************** // //! @brief Set the FIFO Threshold // //***************************************************************************** #define am_hal_pdm_thresh_set(thresh) (AM_REG(PDM, FTHR) = thresh) //***************************************************************************** // //! @brief Get the FIFO Threshold register value from PDM module. // //***************************************************************************** #define am_hal_pdm_thresh_get() (AM_REG(PDM, FTHR)) //***************************************************************************** // //! @brief Set the left microphone PGA gain. //! //***************************************************************************** #define am_hal_pdm_left_gain_set(gain) (AM_BFW(PDM, PCFG, PGALEFT, gain)) //***************************************************************************** // //! @brief Set the right microphone PGA gain. // //***************************************************************************** #define am_hal_pdm_right_gain_set(gain) (AM_BFW(PDM, PCFG, PGARIGHT, gain)) //***************************************************************************** // //! @brief Get the left microphone PGA gain value. // //***************************************************************************** #define am_hal_pdm_left_gain_get() (AM_BFR(PDM, PCFG, PGALEFT)) //***************************************************************************** // //! @brief Get the right microphone PGA gain value. // //***************************************************************************** #define am_hal_pdm_right_gain_get() (AM_BFR(PDM, PCFG, PGARIGHT)) //***************************************************************************** // //! @brief Enable the Soft Mute functionality. // //***************************************************************************** #define am_hal_pdm_soft_mute_enable() (AM_BFWe(PDM, PCFG, SOFTMUTE, EN)) //***************************************************************************** // //! @brief Disable the Soft Mute functionality. // //***************************************************************************** #define am_hal_pdm_soft_mute_disable() (AM_BFWe(PDM, PCFG, SOFTMUTE, DIS)) //***************************************************************************** // //! @brief Enable selected PDM Interrupts. //! //! @param ui32Interrupt - Use the macro bit fields provided in am_hal_pdm.h\n //! AM_HAL_PDM_INT_UNDFL\n //! AM_HAL_PDM_INT_OVF\n //! AM_HAL_PDM_INT_FIFO\n // //***************************************************************************** #define am_hal_pdm_int_enable(intrpt) (AM_REG(PDM, INTEN) |= intrpt) //***************************************************************************** // //! @brief Return the enabled PDM Interrupts. //! //! Use this function to return all enabled PDM interrupts. //! //! @return all enabled PDM interrupts as a mask.\n //! AM_HAL_PDM_INT_UNDFL\n //! AM_HAL_PDM_INT_OVF\n //! AM_HAL_PDM_INT_FIFO\n // //***************************************************************************** #define am_hal_pdm_int_enable_get() (AM_REG(PDM, INTEN)) //***************************************************************************** // //! @brief Disable selected PDM Interrupts. //! //! @param ui32Interrupt - Use the macro bit fields provided in am_hal_pdm.h\n //! AM_HAL_PDM_INT_UNDFL\n //! AM_HAL_PDM_INT_OVF\n //! AM_HAL_PDM_INT_FIFO\n // //***************************************************************************** #define am_hal_pdm_int_disable(intrpt) (AM_REG(PDM, INTEN) &= ~intrpt) //***************************************************************************** // //! @brief Clear selected PDM Interrupts. //! //! @param ui32Interrupt - Use the macro bit fields provided in am_hal_pdm.h\n //! AM_HAL_PDM_INT_UNDFL\n //! AM_HAL_PDM_INT_OVF\n //! AM_HAL_PDM_INT_FIFO\n // //***************************************************************************** #define am_hal_pdm_int_clear(intrpt) (AM_REG(PDM, INTCLR) = intrpt) //***************************************************************************** // //! @brief Set selected PDM Interrupts. //! //! Use this function to set the PDM interrupts. //! //! @param ui32Interrupt - Use the macro bit fields provided in am_hal_pdm.h\n //! AM_HAL_PDM_INT_UNDFL\n //! AM_HAL_PDM_INT_OVF\n //! AM_HAL_PDM_INT_FIFO\n // //***************************************************************************** #define am_hal_pdm_int_set(intrpt) (AM_REG(PDM, INTSET) = intrpt) //***************************************************************************** // // External function definitions // //***************************************************************************** extern void am_hal_pdm_config(am_hal_pdm_config_t * cfg); extern void am_hal_pdm_enable(void); extern void am_hal_pdm_disable(void); extern uint32_t am_hal_pdm_int_status_get(bool bEnabledOnly); #ifdef __cplusplus } #endif #endif // AM_HAL_PDM_H //***************************************************************************** // // End Doxygen group. //! @} // //*****************************************************************************