/* * @brief I2S Registers and control functions * * @note * Copyright(C) NXP Semiconductors, 2012 * All rights reserved. * * @par * Software that is described herein is for illustrative purposes only * which provides customers with programming information regarding the * LPC products. This software is supplied "AS IS" without any warranties of * any kind, and NXP Semiconductors and its licensor disclaim any and * all warranties, express or implied, including all implied warranties of * merchantability, fitness for a particular purpose and non-infringement of * intellectual property rights. NXP Semiconductors assumes no responsibility * or liability for the use of the software, conveys no license or rights under any * patent, copyright, mask work right, or any other intellectual property rights in * or to any products. NXP Semiconductors reserves the right to make changes * in the software without notification. NXP Semiconductors also makes no * representation or warranty that such application will be suitable for the * specified use without further testing or modification. * * @par * Permission to use, copy, modify, and distribute this software and its * documentation is hereby granted, under NXP Semiconductors' and its * licensor's relevant copyrights in the software, without fee, provided that it * is used in conjunction with NXP Semiconductors microcontrollers. This * copyright, permission, and disclaimer notice must appear in all copies of * this code. */ #include "i2s_001.h" /***************************************************************************** * Private types/enumerations/variables ****************************************************************************/ /***************************************************************************** * Public types/enumerations/variables ****************************************************************************/ /***************************************************************************** * Private functions ****************************************************************************/ /***************************************************************************** * Public functions ****************************************************************************/ /* Initialize for I2S */ void IP_I2S_Init(IP_I2S_001_Type *pI2S) {} /* Shutdown I2S */ void IP_I2S_DeInit(IP_I2S_001_Type *pI2S) { pI2S->DAI = 0x07E1; pI2S->DAO = 0x87E1; pI2S->IRQ = 0; pI2S->TXMODE = 0; pI2S->RXMODE = 0; pI2S->DMA1 = 0; pI2S->DMA2 = 0; } /* I2S configuration functions --------*/ /* Selects the number of bytes in data */ void IP_I2S_SetWordWidth(IP_I2S_001_Type *pI2S, uint8_t TRMode, uint32_t wordwidth) { if (TRMode == I2S_TX_MODE) { pI2S->DAO &= ~I2S_DAO_WORDWIDTH_MASK; pI2S->DAO |= wordwidth; } else { pI2S->DAI &= ~I2S_DAI_WORDWIDTH_MASK; pI2S->DAI |= wordwidth; } } /* Set I2S data format is monaural or stereo */ void IP_I2S_SetMono(IP_I2S_001_Type *pI2S, uint8_t TRMode, uint32_t mono) { if (TRMode == I2S_TX_MODE) { pI2S->DAO &= ~I2S_DAO_MONO; pI2S->DAO |= mono; } else { pI2S->DAI &= ~I2S_DAI_MONO; pI2S->DAI |= mono; } } /* Set I2S interface in master/slave mode */ void IP_I2S_SetMasterSlaveMode(IP_I2S_001_Type *pI2S, uint8_t TRMode, uint32_t mode) { if (TRMode == I2S_TX_MODE) { pI2S->DAO &= ~I2S_DAO_SLAVE; pI2S->DAO |= mode; } else { pI2S->DAI &= ~I2S_DAI_SLAVE; pI2S->DAI |= mode; } } /* Set the clock frequency for I2S interface */ void IP_I2S_SetBitRate(IP_I2S_001_Type *pI2S, uint8_t TRMode, uint32_t mclk_divider) { if (TRMode == I2S_TX_MODE) { pI2S->TXBITRATE = mclk_divider; } else { pI2S->RXBITRATE = mclk_divider; } } /* Set the MCLK rate by using a fractional rate generator, dividing down the frequency of PCLK */ void IP_I2S_SetXYDivider(IP_I2S_001_Type *pI2S, uint8_t TRMode, uint8_t x_divider, uint8_t y_divider) { if (TRMode == I2S_TX_MODE) { pI2S->TXRATE = y_divider | (x_divider << 8); } else { pI2S->RXRATE = y_divider | (x_divider << 8); } } /* Set word select (WS) half period */ void IP_I2S_SetWS_Halfperiod(IP_I2S_001_Type *pI2S, uint8_t TRMode, uint32_t ws_halfperiod) { if (TRMode == I2S_TX_MODE) { pI2S->DAO &= ~I2S_DAO_WS_HALFPERIOD_MASK; pI2S->DAO |= I2S_DAO_WS_HALFPERIOD(ws_halfperiod); } else { pI2S->DAI &= ~I2S_DAI_WS_HALFPERIOD_MASK; pI2S->DAI |= I2S_DAI_WS_HALFPERIOD(ws_halfperiod); } } /* Set the I2S operating modes */ void IP_I2S_ModeConfig(IP_I2S_001_Type *pI2S, uint8_t TRMode, uint32_t clksel, uint32_t fpin, uint32_t mcena) { if (TRMode == I2S_TX_MODE) { pI2S->TXMODE = clksel | fpin | mcena; } else { pI2S->RXMODE = clksel | fpin | mcena; } } /* Get the current level of the Transmit/Receive FIFO */ uint8_t IP_I2S_GetLevel(IP_I2S_001_Type *pI2S, uint8_t TRMode) { if (TRMode == I2S_TX_MODE) { return (pI2S->STATE >> 16) & 0xF; } else { return (pI2S->STATE >> 8) & 0xF; } } /* I2S operate functions -------------*/ /* Send a 32-bit data to TXFIFO for transmition */ void IP_I2S_Send(IP_I2S_001_Type *pI2S, uint32_t data) { pI2S->TXFIFO = data; } /* Get received data from RXFIFO */ uint32_t IP_I2S_Receive(IP_I2S_001_Type *pI2S) { return pI2S->RXFIFO; } /* Start the I2S */ void IP_I2S_Start(IP_I2S_001_Type *pI2S, uint8_t TRMode) { if (TRMode == I2S_TX_MODE) { pI2S->DAO &= ~(I2S_DAO_RESET | I2S_DAO_STOP | I2S_DAO_MUTE); } else { pI2S->DAI &= ~(I2S_DAI_RESET | I2S_DAI_STOP); } } /* Disables accesses on FIFOs, places the transmit channel in mute mode */ void IP_I2S_Pause(IP_I2S_001_Type *pI2S, uint8_t TRMode) { if (TRMode == I2S_TX_MODE) { pI2S->DAO |= I2S_DAO_STOP; } else { pI2S->DAI |= I2S_DAI_STOP; } } /* Transmit channel sends only zeroes */ void IP_I2S_Mute(IP_I2S_001_Type *pI2S, FunctionalState NewState) { if (NewState == ENABLE) { pI2S->DAO |= I2S_DAO_MUTE; } else { pI2S->DAO &= ~I2S_DAO_MUTE; } } /* Pause, resets the transmit channel and FIFO asynchronously */ void IP_I2S_Stop(IP_I2S_001_Type *pI2S, uint8_t TRMode) { if (TRMode == I2S_TX_MODE) { pI2S->DAO &= ~I2S_DAO_MUTE; pI2S->DAO |= I2S_DAO_STOP | I2S_DAO_RESET; } else { pI2S->DAI |= I2S_DAI_STOP | I2S_DAI_RESET; } } /* I2S DMA functions ----------------*/ /* Set the FIFO level on which to create an DMA request */ void IP_I2S_DMACmd(IP_I2S_001_Type *pI2S, IP_I2S_DMARequestNumber_Type DMANum, uint8_t TRMode, FunctionalState NewState) { if (TRMode == I2S_RX_MODE) { if (DMANum == IP_I2S_DMA_REQUEST_NUMBER_1) { if (NewState == ENABLE) { pI2S->DMA1 |= 0x01; } else { pI2S->DMA1 &= ~0x01; } } else { if (NewState == ENABLE) { pI2S->DMA2 |= 0x01; } else { pI2S->DMA2 &= ~0x01; } } } else { if (DMANum == IP_I2S_DMA_REQUEST_NUMBER_1) { if (NewState == ENABLE) { pI2S->DMA1 |= 0x02; } else { pI2S->DMA1 &= ~0x02; } } else { if (NewState == ENABLE) { pI2S->DMA2 |= 0x02; } else { pI2S->DMA2 &= ~0x02; } } } } /* Enable/Disable DMA for the I2S */ void IP_I2S_SetFIFODepthDMA(IP_I2S_001_Type *pI2S, uint8_t TRMode, IP_I2S_DMARequestNumber_Type DMANum, uint32_t depth) { if (TRMode == I2S_RX_MODE) { if (DMANum == IP_I2S_DMA_REQUEST_NUMBER_1) { pI2S->DMA1 &= ~(0x0F << 8); pI2S->DMA1 |= depth << 8; } else { pI2S->DMA2 &= ~(0x0F << 8); pI2S->DMA2 |= depth << 8; } } else { if (DMANum == IP_I2S_DMA_REQUEST_NUMBER_1) { pI2S->DMA1 &= ~(0x0F << 16); pI2S->DMA1 |= depth << 16; } else { pI2S->DMA2 &= ~(0x0F << 16); pI2S->DMA2 |= depth << 16; } } } /* I2S IRQ functions ----------------*/ /* Enable/Disable interrupt for the I2S */ void IP_I2S_InterruptCmd(IP_I2S_001_Type *pI2S, uint8_t TRMode, FunctionalState NewState) { if (NewState == ENABLE) { pI2S->IRQ |= (TRMode == I2S_RX_MODE) ? 0x01 : 0x02; } else { pI2S->IRQ &= (TRMode == I2S_RX_MODE) ? (~0x01) : (~0x02); } } /* Set the FIFO level on which to create an irq request */ void IP_I2S_SetFIFODepthIRQ(IP_I2S_001_Type *pI2S, uint8_t TRMode, uint32_t depth) { depth &= 0x0F; if (TRMode == I2S_RX_MODE) { pI2S->IRQ &= ~I2S_IRQ_RX_DEPTH_MASK; pI2S->IRQ |= I2S_IRQ_RX_DEPTH(depth); } else { pI2S->IRQ &= ~I2S_IRQ_TX_DEPTH_MASK; pI2S->IRQ |= I2S_IRQ_TX_DEPTH(depth); } } /* Get the status of I2S interrupt */ Status IP_I2S_GetIntStatus(IP_I2S_001_Type *pI2S, uint8_t TRMode) { if (TRMode == I2S_TX_MODE) { return (Status) (((pI2S->IRQ >> 1) & 0x01) & ((pI2S->STATE) & 0x01)); } else { return (Status) (((pI2S->IRQ) & 0x01) & ((pI2S->STATE) & 0x01)); } }