/**************************************************************************//** * @file i2s.c * @version V1.00 * $Revision: 4 $ * $Date: 15/06/08 4:58p $ * @brief Nano100 series I2S driver header file * * @note * Copyright (C) 2014 Nuvoton Technology Corp. All rights reserved. *****************************************************************************/ #include #include "Nano100Series.h" /** @addtogroup NANO100_Device_Driver NANO100 Device Driver @{ */ /** @addtogroup NANO100_I2S_Driver I2S Driver @{ */ /** @addtogroup NANO100_I2S_EXPORTED_FUNCTIONS I2S Exported Functions @{ */ /// @cond HIDDEN_SYMBOLS /** * @brief This function is used to get I2S source clock frequency. * @param[in] i2s is the base address of I2S module. * @return I2S source clock frequency (Hz). */ static uint32_t I2S_GetSourceClockFreq(I2S_T *i2s) { uint32_t u32Freq, u32ClkSrcSel; // get I2S selection clock source u32ClkSrcSel = CLK->CLKSEL2 & CLK_CLKSEL2_I2S_S_Msk; switch (u32ClkSrcSel) { case CLK_CLKSEL2_I2S_S_HXT: u32Freq = __HXT; break; case CLK_CLKSEL2_I2S_S_PLL: u32Freq = CLK_GetPLLClockFreq(); break; case CLK_CLKSEL2_I2S_S_HIRC: u32Freq = __HIRC; break; default: u32Freq = __HIRC; break; } return u32Freq; } /// @endcond /* HIDDEN_SYMBOLS */ /** * @brief This function configures some parameters of I2S interface for general purpose use. * The sample rate may not be used from the parameter, it depends on system's clock settings, * but real sample rate used by system will be returned for reference. * @param[in] i2s is the base address of I2S module. * @param[in] u32MasterSlave I2S operation mode. Valid values are: * - \ref I2S_MODE_MASTER * - \ref I2S_MODE_SLAVE * @param[in] u32SampleRate Sample rate * @param[in] u32WordWidth Data length. Valid values are: * - \ref I2S_DATABIT_8 * - \ref I2S_DATABIT_16 * - \ref I2S_DATABIT_24 * - \ref I2S_DATABIT_32 * @param[in] u32Channels: Audio format. Valid values are: * - \ref I2S_MONO * - \ref I2S_STEREO * @param[in] u32DataFormat: Data format. Valid values are: * - \ref I2S_FORMAT_I2S * - \ref I2S_FORMAT_MSB * @param[in] u32AudioInterface: Audio interface. Valid values are: * - \ref I2S_I2S * @return Real sample rate. */ uint32_t I2S_Open(I2S_T *i2s, uint32_t u32MasterSlave, uint32_t u32SampleRate, uint32_t u32WordWidth, uint32_t u32Channels, uint32_t u32DataFormat, uint32_t u32AudioInterface) { uint8_t u8Divider; uint32_t u32BitRate, u32SrcClk; SYS->IPRST_CTL2 |= SYS_IPRST_CTL2_I2S_RST_Msk; SYS->IPRST_CTL2 &= ~SYS_IPRST_CTL2_I2S_RST_Msk; i2s->CTRL = u32MasterSlave | u32WordWidth | u32Channels | u32DataFormat | u32AudioInterface | I2S_FIFO_TX_LEVEL_WORD_4 | I2S_FIFO_RX_LEVEL_WORD_4; u32SrcClk = I2S_GetSourceClockFreq(i2s); u32BitRate = u32SampleRate * (((u32WordWidth>>4) & 0x3) + 1) * 16; u8Divider = ((u32SrcClk/u32BitRate) >> 1) - 1; i2s->CLKDIV = (i2s->CLKDIV & ~I2S_CLKDIV_BCLK_DIV_Msk) | (u8Divider << 8); //calculate real sample rate u32BitRate = u32SrcClk / (2*(u8Divider+1)); u32SampleRate = u32BitRate / ((((u32WordWidth>>4) & 0x3) + 1) * 16); i2s->CTRL |= I2S_CTRL_I2SEN_Msk; return u32SampleRate; } /** * @brief Disable I2S function and I2S clock. * @param[in] i2s is the base address of I2S module. * @return none */ void I2S_Close(I2S_T *i2s) { i2s->CTRL &= ~I2S_CTRL_I2SEN_Msk; } /** * @brief This function enables the interrupt according to the mask parameter. * @param[in] i2s is the base address of I2S module. * @param[in] u32Mask is the combination of all related interrupt enable bits. * Each bit corresponds to a interrupt bit. * @return none */ void I2S_EnableInt(I2S_T *i2s, uint32_t u32Mask) { i2s->INTEN |= u32Mask; } /** * @brief This function disables the interrupt according to the mask parameter. * @param[in] i2s is the base address of I2S module. * @param[in] u32Mask is the combination of all related interrupt enable bits. * Each bit corresponds to a interrupt bit. * @return none */ void I2S_DisableInt(I2S_T *i2s, uint32_t u32Mask) { i2s->INTEN &= ~u32Mask; } /** * @brief Enable MCLK . * @param[in] i2s is the base address of I2S module. * @param[in] u32BusClock is the target MCLK clock * @return Actual MCLK clock */ uint32_t I2S_EnableMCLK(I2S_T *i2s, uint32_t u32BusClock) { uint8_t u8Divider; uint32_t u32SrcClk, u32Reg; u32SrcClk = I2S_GetSourceClockFreq(i2s); if (u32BusClock == u32SrcClk) u8Divider = 0; else u8Divider = (u32SrcClk/u32BusClock) >> 1; i2s->CLKDIV = (i2s->CLKDIV & ~I2S_CLKDIV_MCLK_DIV_Msk) | u8Divider; i2s->CTRL |= I2S_CTRL_MCLKEN_Msk; u32Reg = i2s->CLKDIV & I2S_CLKDIV_MCLK_DIV_Msk; if (u32Reg == 0) return u32SrcClk; else return ((u32SrcClk >> 1) / u32Reg); } /** * @brief Disable MCLK . * @param[in] i2s is the base address of I2S module. * @return none */ void I2S_DisableMCLK(I2S_T *i2s) { i2s->CTRL &= ~I2S_CTRL_MCLKEN_Msk; } /** * @brief Configure FIFO threshold setting. * @param[in] i2s The pointer of the specified I2S module. * @param[in] u32TxThreshold Decides the TX FIFO threshold. It could be 0 ~ 7. * @param[in] u32RxThreshold Decides the RX FIFO threshold. It could be 0 ~ 7. * @return None * @details Set TX FIFO threshold and RX FIFO threshold configurations. */ void I2S_SetFIFO(I2S_T *i2s, uint32_t u32TxThreshold, uint32_t u32RxThreshold) { i2s->CTRL = (i2s->CTRL & ~(I2S_CTRL_TXTH_Msk | I2S_CTRL_RXTH_Msk) | (u32TxThreshold << I2S_CTRL_TXTH_Pos) | (u32RxThreshold << I2S_CTRL_RXTH_Pos)); } /*@}*/ /* end of group NANO100_I2S_EXPORTED_FUNCTIONS */ /*@}*/ /* end of group NANO100_I2S_Driver */ /*@}*/ /* end of group NANO100_Device_Driver */ /*** (C) COPYRIGHT 2014 Nuvoton Technology Corp. ***/