FreeRTOS-Plus/Demo/FreeRTOS_Plus_UDP_and_CLI_LPC1830_GCC/ThirdParty/CMSISv2p10_LPC18xx_DriverLib/src/lpc18xx_i2s.c - nest-detect/1.0.2/freertos - Git at Google

 /**********************************************************************
 * $Id$		lpc18xx_i2s.c		2011-06-02
 *//**
 * @file		lpc18xx_i2s.c
 * @brief	Contains all functions support for I2S firmware library
 * 			on LPC18xx
 * @version	1.0
 * @date		02. June. 2011
 * @author	NXP MCU SW Application Team
 *
 * Copyright(C) 2011, NXP Semiconductor
 * All rights reserved.
 *
 ***********************************************************************
 * Software that is described herein is for illustrative purposes only
 * which provides customers with programming information regarding the
 * products. This software is supplied "AS IS" without any warranties.
 * NXP Semiconductors assumes no responsibility or liability for the
 * use of the software, conveys no license or title under any patent,
 * copyright, or mask work right to the product. NXP Semiconductors
 * reserves the right to make changes in the software without
 * notification. NXP Semiconductors also make no representation or
 * warranty that such application will be suitable for the specified
 * use without further testing or modification.
 **********************************************************************/

 /* Peripheral group ----------------------------------------------------------- */
 /** @addtogroup I2S
  * @{
  */

 /* Includes ------------------------------------------------------------------- */
 #include "lpc18xx_i2s.h"
 #include "lpc18xx_cgu.h"


 /* If this source file built with example, the LPC18xx FW library configuration
  * file in each example directory ("lpc18xx_libcfg.h") must be included,
  * otherwise the default FW library configuration file must be included instead
  */
 #ifdef __BUILD_WITH_EXAMPLE__
 #include "lpc18xx_libcfg.h"
 #else
 #include "lpc18xx_libcfg_default.h"
 #endif /* __BUILD_WITH_EXAMPLE__ */


 #ifdef _I2S

 /* Private Functions ---------------------------------------------------------- */

 static uint8_t i2s_GetWordWidth(LPC_I2Sn_Type *I2Sx, uint8_t TRMode);
 static uint8_t i2s_GetChannel(LPC_I2Sn_Type *I2Sx, uint8_t TRMode);

 /********************************************************************//**
  * @brief		Get I2S wordwidth value
  * @param[in]	I2Sx I2S peripheral selected, should be: LPC_I2S
  * @param[in]	TRMode is the I2S mode, should be:
  * 					- I2S_TX_MODE = 0	:transmit mode
  * 					- I2S_RX_MODE = 1	:receive mode
  * @return 		The wordwidth value, should be: 8,16 or 32
  *********************************************************************/
 static uint8_t i2s_GetWordWidth(LPC_I2Sn_Type *I2Sx, uint8_t TRMode) {
 	uint8_t value;

 	CHECK_PARAM(PARAM_I2Sx(I2Sx));
 	CHECK_PARAM(PARAM_I2S_TRX(TRMode));

 	if (TRMode == I2S_TX_MODE) {
 		value = (I2Sx->DAO) & 0x03; /* get wordwidth bit */
 	} else {
 		value = (I2Sx->DAI) & 0x03; /* get wordwidth bit */
 	}
 	switch (value) {
 	case I2S_WORDWIDTH_8:
 		return 8;
 	case I2S_WORDWIDTH_16:
 		return 16;
 	default:
 		return 32;
 	}
 }

 /********************************************************************//**
  * @brief		Get I2S channel value
  * @param[in]	I2Sx I2S peripheral selected, should be: LPC_I2S
  * @param[in]	TRMode is the I2S mode, should be:
  * 					- I2S_TX_MODE = 0	:transmit mode
  * 					- I2S_RX_MODE = 1	:receive mode
  * @return 		The channel value, should be: 1(mono) or 2(stereo)
  *********************************************************************/
 static uint8_t i2s_GetChannel(LPC_I2Sn_Type *I2Sx, uint8_t TRMode) {
 	uint8_t value;

 	CHECK_PARAM(PARAM_I2Sx(I2Sx));
 	CHECK_PARAM(PARAM_I2S_TRX(TRMode));

 	if (TRMode == I2S_TX_MODE) {
 		value = (I2Sx->DAO) & 0x04; /* get bit[2] */
 	} else {
 		value = (I2Sx->DAI) & 0x04; /* get bit[2] */
 	}
 	value >>= 2;
     if(value == I2S_MONO) return 1;
       return 2;
 }

 /* End of Private Functions --------------------------------------------------- */


 /* Public Functions ----------------------------------------------------------- */
 /** @addtogroup I2S_Public_Functions
  * @{
  */

 /********************************************************************//**
  * @brief		Initialize I2S
  * 					- Turn on power and clock
  * @param[in]	I2Sx I2S peripheral selected, should be: LPC_I2S
  * @return 		none
  *********************************************************************/
 void I2S_Init(LPC_I2Sn_Type *I2Sx) {
 	CHECK_PARAM(PARAM_I2Sx(I2Sx));

 	// Turn on power and clock
 	//CGU_ConfigPPWR(CGU_PCONP_PCI2S, ENABLE);
 	I2Sx->DAI = I2Sx->DAO = 0x00;
 }

 /********************************************************************//**
  * @brief		Configuration I2S, setting:
  * 					- master/slave mode
  * 					- wordwidth value
  * 					- channel mode
  * @param[in]	I2Sx I2S peripheral selected, should be: LPC_I2S
  * @param[in]	TRMode transmit/receive mode, should be:
  * 					- I2S_TX_MODE = 0	:transmit mode
  * 					- I2S_RX_MODE = 1	:receive mode
  * @param[in]	ConfigStruct pointer to I2S_CFG_Type structure
  *              which will be initialized.
  * @return 		none
  *********************************************************************/
 void I2S_Config(LPC_I2Sn_Type *I2Sx, uint8_t TRMode, I2S_CFG_Type* ConfigStruct)
 {
 	uint32_t bps, config;

 	CHECK_PARAM(PARAM_I2Sx(I2Sx));

 	CHECK_PARAM(PARAM_I2S_WORDWIDTH(ConfigStruct->wordwidth));
 	CHECK_PARAM(PARAM_I2S_CHANNEL(ConfigStruct->mono));
 	CHECK_PARAM(PARAM_I2S_STOP(ConfigStruct->stop));
 	CHECK_PARAM(PARAM_I2S_RESET(ConfigStruct->reset));
 	CHECK_PARAM(PARAM_I2S_WS_SEL(ConfigStruct->ws_sel));
 	CHECK_PARAM(PARAM_I2S_MUTE(ConfigStruct->mute));

 	/* Setup clock */
 	bps = (ConfigStruct->wordwidth +1)*8;

 	/* Calculate audio config */
 	config = (bps - 1)<<6 | (ConfigStruct->ws_sel)<<5 | (ConfigStruct->reset)<<4 |
 		(ConfigStruct->stop)<<3 | (ConfigStruct->mono)<<2 | (ConfigStruct->wordwidth);

 	if(TRMode == I2S_RX_MODE){
 		I2Sx->DAI = config;
 	}else{
 		I2Sx->DAO = config;
 	}
 }

 /********************************************************************//**
  * @brief		DeInitial both I2S transmit or receive
  * @param[in]	I2Sx I2S peripheral selected, should be: LPC_I2S
  * @return 		none
  *********************************************************************/
 void I2S_DeInit(LPC_I2Sn_Type *I2Sx) {
 	CHECK_PARAM(PARAM_I2Sx(I2Sx));

 	// Turn off power and clock
 	//CGU_ConfigPPWR(CGU_PCONP_PCI2S, DISABLE);
 }

 /********************************************************************//**
  * @brief		Get I2S Buffer Level
  * @param[in]	I2Sx I2S peripheral selected, should be: LPC_I2S
  * @param[in]	TRMode Transmit/receive mode, should be:
  * 					- I2S_TX_MODE = 0	:transmit mode
  * 					- I2S_RX_MODE = 1	:receive mode
  * @return 		current level of Transmit/Receive Buffer
  *********************************************************************/
 uint8_t I2S_GetLevel(LPC_I2Sn_Type *I2Sx, uint8_t TRMode)
 {
 	CHECK_PARAM(PARAM_I2Sx(I2Sx));
 	CHECK_PARAM(PARAM_I2S_TRX(TRMode));

 	if(TRMode == I2S_TX_MODE)
 	{
 		return ((I2Sx->STATE >> 16) & 0xFF);
 	}
 	else
 	{
 		return ((I2Sx->STATE >> 8) & 0xFF);
 	}
 }

 /********************************************************************//**
  * @brief		I2S Start: clear all STOP,RESET and MUTE bit, ready to operate
  * @param[in]	I2Sx I2S peripheral selected, should be: LPC_I2S
  * @return 		none
  *********************************************************************/
 void I2S_Start(LPC_I2Sn_Type *I2Sx)
 {
 	//Clear STOP,RESET and MUTE bit
 	I2Sx->DAO &= ~I2S_DAI_RESET;
 	I2Sx->DAI &= ~I2S_DAI_RESET;
 	I2Sx->DAO &= ~I2S_DAI_STOP;
 	I2Sx->DAI &= ~I2S_DAI_STOP;
 	I2Sx->DAO &= ~I2S_DAI_MUTE;
 }

 /********************************************************************//**
  * @brief		I2S Send data
  * @param[in]	I2Sx I2S peripheral selected, should be: LPC_I2S
  * @param[in]	BufferData pointer to uint32_t is the data will be send
  * @return 		none
  *********************************************************************/
 void I2S_Send(LPC_I2Sn_Type *I2Sx, uint32_t BufferData) {
 	CHECK_PARAM(PARAM_I2Sx(I2Sx));

 	I2Sx->TXFIFO = BufferData;
 }

 /********************************************************************//**
  * @brief		I2S Receive Data
  * @param[in]	I2Sx pointer to LPC_I2Sn_Type, should be: LPC_I2S
  * @return 		received value
  *********************************************************************/
 uint32_t I2S_Receive(LPC_I2Sn_Type* I2Sx) {
 	CHECK_PARAM(PARAM_I2Sx(I2Sx));

 	return (I2Sx->RXFIFO);

 }

 /********************************************************************//**
  * @brief		I2S Pause
  * @param[in]	I2Sx I2S peripheral selected, should be: LPC_I2S
  * @param[in]	TRMode is transmit/receive mode, should be:
  * 					- I2S_TX_MODE = 0	:transmit mode
  * 					- I2S_RX_MODE = 1	:receive mode
  * @return 		none
  *********************************************************************/
 void I2S_Pause(LPC_I2Sn_Type *I2Sx, uint8_t TRMode) {
 	CHECK_PARAM(PARAM_I2Sx(I2Sx));
 	CHECK_PARAM(PARAM_I2S_TRX(TRMode));

 	if (TRMode == I2S_TX_MODE) //Transmit mode
 	{
 		I2Sx->DAO |= I2S_DAO_STOP;
 	} else //Receive mode
 	{
 		I2Sx->DAI |= I2S_DAI_STOP;
 	}
 }

 /********************************************************************//**
  * @brief		I2S Mute
  * @param[in]	I2Sx I2S peripheral selected, should be: LPC_I2S
  * @param[in]	TRMode is transmit/receive mode, should be:
  * 					- I2S_TX_MODE = 0	:transmit mode
  * 					- I2S_RX_MODE = 1	:receive mode
  * @return 		none
  *********************************************************************/
 void I2S_Mute(LPC_I2Sn_Type *I2Sx, uint8_t TRMode) {
 	CHECK_PARAM(PARAM_I2Sx(I2Sx));
 	CHECK_PARAM(PARAM_I2S_TRX(TRMode));

 	if (TRMode == I2S_TX_MODE) //Transmit mode
 	{
 		I2Sx->DAO |= I2S_DAO_MUTE;
 	} else //Receive mode
 	{
 		I2Sx->DAI |= I2S_DAI_MUTE;
 	}
 }

 /********************************************************************//**
  * @brief		I2S Stop
  * @param[in]	I2Sx I2S peripheral selected, should be: LPC_I2S
  * @param[in]	TRMode is transmit/receive mode, should be:
  * 					- I2S_TX_MODE = 0	:transmit mode
  * 					- I2S_RX_MODE = 1	:receive mode
  * @return 		none
  *********************************************************************/
 void I2S_Stop(LPC_I2Sn_Type *I2Sx, uint8_t TRMode) {
 	CHECK_PARAM(PARAM_I2Sx(I2Sx));
 	CHECK_PARAM(PARAM_I2S_TRX(TRMode));

 	if (TRMode == I2S_TX_MODE) //Transmit mode
 	{
 		I2Sx->DAO &= ~I2S_DAO_MUTE;
 		I2Sx->DAO |= I2S_DAO_STOP;
 		I2Sx->DAO |= I2S_DAO_RESET;
 	} else //Receive mode
 	{
 		I2Sx->DAI |= I2S_DAI_STOP;
 		I2Sx->DAI |= I2S_DAI_RESET;
 	}
 }

 /********************************************************************//**
  * @brief		Set frequency for I2S
  * @param[in]	I2Sx I2S peripheral selected, should be: LPC_I2S
  * @param[in]	Freq is the frequency for I2S will be set. It can range
  * 				from 16-96 kHz(16, 22.05, 32, 44.1, 48, 96kHz)
  * @param[in]	TRMode is transmit/receive mode, should be:
  * 					- I2S_TX_MODE = 0	:transmit mode
  * 					- I2S_RX_MODE = 1	:receive mode
  * @return 		Status: ERROR or SUCCESS
  *********************************************************************/
 Status I2S_FreqConfig(LPC_I2Sn_Type *I2Sx, uint32_t Freq, uint8_t TRMode) {

 	/* Calculate bit rate
 	 * The formula is:
 	 *      bit_rate = channel*wordwidth - 1
 	 * 48kHz sample rate for 16 bit stereo date requires
 	 * a bit rate of 48000*16*2=1536MHz (MCLK)
 	 */
 	uint32_t i2sPclk;
 	uint64_t divider;
 	uint8_t bitrate, channel, wordwidth;
 	uint32_t x, y;
 	uint16_t dif;
 	uint16_t error;
 	uint16_t x_divide, y_divide;
 	uint16_t ErrorOptimal = 0xFFFF;
 	uint32_t N;

 	CHECK_PARAM(PARAM_I2Sx(I2Sx));
 	CHECK_PARAM(PRAM_I2S_FREQ(Freq));
 	CHECK_PARAM(PARAM_I2S_TRX(TRMode));

 	//LPC_CGU->BASE_VPB1_CLK = 0x08<<24 | AUTO_BLOCK;
 	CGU_EntityConnect(CGU_CLKSRC_PLL1, CGU_BASE_APB1);
 	i2sPclk = CGU_GetPCLKFrequency(CGU_PERIPHERAL_I2S);
 	if(TRMode == I2S_TX_MODE)
 	{
 		channel = i2s_GetChannel(I2Sx,I2S_TX_MODE);
 		wordwidth = i2s_GetWordWidth(I2Sx,I2S_TX_MODE);
 	}
 	else
 	{
 		channel = i2s_GetChannel(I2Sx,I2S_RX_MODE);
 		wordwidth = i2s_GetWordWidth(I2Sx,I2S_RX_MODE);
 	}
 	bitrate = 2 * wordwidth - 1;

 	/* Calculate X and Y divider
 	 * The MCLK rate for the I2S transmitter is determined by the value
 	 * in the I2STXRATE/I2SRXRATE register. The required I2STXRATE/I2SRXRATE
 	 * setting depends on the desired audio sample rate desired, the format
 	 * (stereo/mono) used, and the data size.
 	 * The formula is:
 	 * 		I2S_MCLK = PCLK * (X/Y) / 2
 	 * We have:
 	 * 		I2S_MCLK = Freq * bit_rate * I2Sx->TXBITRATE;
 	 * So: (X/Y) = (Freq * bit_rate * I2Sx->TXBITRATE)/PCLK*2
 	 * We use a loop function to chose the most suitable X,Y value
 	 */

 	/* divider is a fixed point number with 16 fractional bits */
 	divider = ((uint64_t)(Freq *( bitrate+1) * 2)<<16) / i2sPclk;

 	/* find N that make x/y <= 1 -> divider <= 2^16 */
 	for(N=64;N>=0;N--){
 		if((divider*N) < (1<<16)) break;
 	}

 	if(N == 0) return ERROR;

 	divider *= N;

 	for (y = 255; y > 0; y--) {
 		x = y * divider;
 		if(x & (0xFF000000)) continue;
 		dif = x & 0xFFFF;
 		if(dif>0x8000) error = 0x10000-dif;
 		else error = dif;
 		if (error == 0)
 		{
 			y_divide = y;
 			break;
 		}
 		else if (error < ErrorOptimal)
 		{
 			ErrorOptimal = error;
 			y_divide = y;
 		}
 	}
 	x_divide = ((uint64_t)y_divide * Freq *( bitrate+1)* N * 2)/i2sPclk;
 	if(x_divide >= 256) x_divide = 0xFF;
 	if(x_divide == 0) x_divide = 1;
 	if (TRMode == I2S_TX_MODE)// Transmitter
 	{
 		I2Sx->TXBITRATE = N;
 		I2Sx->TXRATE = y_divide | (x_divide << 8);
 	} else //Receiver
 	{
 		I2Sx->RXBITRATE = N;
 		I2Sx->RXRATE = y_divide | (x_divide << 8);
 	}
 	return SUCCESS;
 }

 /********************************************************************//**
  * @brief		I2S set bitrate
  * @param[in]	I2Sx I2S peripheral selected, should be: LPC_I2S
  * @param[in]	bitrate value will be set, it can be calculate as follows:
  * 					bitrate = channel * wordwidth - 1
  * 				bitrate value should be in range: 0 .. 63
  * @param[in]	TRMode is transmit/receive mode, should be:
  * 					- I2S_TX_MODE = 0	:transmit mode
  * 					- I2S_RX_MODE = 1	:receive mode
  * @return 		none
  *********************************************************************/
 void I2S_SetBitRate(LPC_I2Sn_Type *I2Sx, uint8_t bitrate, uint8_t TRMode)
 {
 	CHECK_PARAM(PARAM_I2Sx(I2Sx));
 	CHECK_PARAM(PARAM_I2S_BITRATE(bitrate));
 	CHECK_PARAM(PARAM_I2S_TRX(TRMode));

 	if(TRMode == I2S_TX_MODE)
 	{
 		I2Sx->TXBITRATE = bitrate;
 	}
 	else
 	{
 		I2Sx->RXBITRATE = bitrate;
 	}
 }

 /********************************************************************//**
  * @brief		Configuration operating mode for I2S
  * @param[in]	I2Sx I2S peripheral selected, should be: LPC_I2S
  * @param[in]	ModeConfig pointer to I2S_MODEConf_Type will be used to
  * 				configure
  * @param[in]	TRMode is transmit/receive mode, should be:
  * 					- I2S_TX_MODE = 0	:transmit mode
  * 					- I2S_RX_MODE = 1	:receive mode
  * @return 		none
  *********************************************************************/
 void I2S_ModeConfig(LPC_I2Sn_Type *I2Sx, I2S_MODEConf_Type* ModeConfig,
 		uint8_t TRMode)
 {
 	CHECK_PARAM(PARAM_I2Sx(I2Sx));
 	CHECK_PARAM(PARAM_I2S_CLKSEL(ModeConfig->clksel));
 	CHECK_PARAM(PARAM_I2S_4PIN(ModeConfig->fpin));
 	CHECK_PARAM(PARAM_I2S_MCLK(ModeConfig->mcena));
 	CHECK_PARAM(PARAM_I2S_TRX(TRMode));

 	if (TRMode == I2S_TX_MODE) {
 		I2Sx->TXMODE &= ~0x0F; //clear bit 3:0 in I2STXMODE register
 		if (ModeConfig->clksel == I2S_CLKSEL_MCLK) {
 			I2Sx->TXMODE |= 0x02;
 		}
 		if (ModeConfig->fpin == I2S_4PIN_ENABLE) {
 			I2Sx->TXMODE |= (1 << 2);
 		}
 		if (ModeConfig->mcena == I2S_MCLK_ENABLE) {
 			I2Sx->TXMODE |= (1 << 3);
 		}
 	} else {
 		I2Sx->RXMODE &= ~0x0F; //clear bit 3:0 in I2STXMODE register
 		if (ModeConfig->clksel == I2S_CLKSEL_MCLK) {
 			I2Sx->RXMODE |= 0x02;
 		}
 		if (ModeConfig->fpin == I2S_4PIN_ENABLE) {
 			I2Sx->RXMODE |= (1 << 2);
 		}
 		if (ModeConfig->mcena == I2S_MCLK_ENABLE) {
 			I2Sx->RXMODE |= (1 << 3);
 		}
 	}
 }

 /********************************************************************//**
  * @brief		Configure DMA operation for I2S
  * @param[in]	I2Sx I2S peripheral selected, should be: LPC_I2S
  * @param[in]	DMAConfig pointer to I2S_DMAConf_Type will be used to configure
  * @param[in]	TRMode is transmit/receive mode, should be:
  * 					- I2S_TX_MODE = 0	:transmit mode
  * 					- I2S_RX_MODE = 1	:receive mode
  * @return 		none
  *********************************************************************/
 void I2S_DMAConfig(LPC_I2Sn_Type *I2Sx, I2S_DMAConf_Type* DMAConfig,
 		uint8_t TRMode)
 {
 	CHECK_PARAM(PARAM_I2Sx(I2Sx));
 	CHECK_PARAM(PARAM_I2S_DMA(DMAConfig->DMAIndex));
 	CHECK_PARAM(PARAM_I2S_DMA_DEPTH(DMAConfig->depth));
 	CHECK_PARAM(PARAM_I2S_TRX(TRMode));

 	if (TRMode == I2S_RX_MODE) {
 		if (DMAConfig->DMAIndex == I2S_DMA_1) {
 			I2Sx->DMA1 = (DMAConfig->depth) << 8;
 		} else {
 			I2Sx->DMA2 = (DMAConfig->depth) << 8;
 		}
 	} else {
 		if (DMAConfig->DMAIndex == I2S_DMA_1) {
 			I2Sx->DMA1 = (DMAConfig->depth) << 16;
 		} else {
 			I2Sx->DMA2 = (DMAConfig->depth) << 16;
 		}
 	}
 }

 /********************************************************************//**
  * @brief		Enable/Disable DMA operation for I2S
  * @param[in]	I2Sx: I2S peripheral selected, should be: LPC_I2S
  * @param[in]	DMAIndex chose what DMA is used, should be:
  * 					- I2S_DMA_1 = 0		:DMA1
  * 					- I2S_DMA_2 = 1		:DMA2
  * @param[in]	TRMode is transmit/receive mode, should be:
  * 					- I2S_TX_MODE = 0	:transmit mode
  * 					- I2S_RX_MODE = 1	:receive mode
  * @param[in]	NewState is new state of DMA operation, should be:
  * 				- ENABLE
  * 				- DISABLE
  * @return 		none
  *********************************************************************/
 void I2S_DMACmd(LPC_I2Sn_Type *I2Sx, uint8_t DMAIndex, uint8_t TRMode,
 		FunctionalState NewState)
 {
 	CHECK_PARAM(PARAM_I2Sx(I2Sx));
 	CHECK_PARAM(PARAM_FUNCTIONALSTATE(NewState));
 	CHECK_PARAM(PARAM_I2S_DMA(DMAIndex));
 	CHECK_PARAM(PARAM_I2S_TRX(TRMode));

 	if (TRMode == I2S_RX_MODE) {
 		if (DMAIndex == I2S_DMA_1) {
 			if (NewState == ENABLE)
 				I2Sx->DMA1 |= 0x01;
 			else
 				I2Sx->DMA1 &= ~0x01;
 		} else {
 			if (NewState == ENABLE)
 				I2Sx->DMA2 |= 0x01;
 			else
 				I2Sx->DMA2 &= ~0x01;
 		}
 	} else {
 		if (DMAIndex == I2S_DMA_1) {
 			if (NewState == ENABLE)
 				I2Sx->DMA1 |= 0x02;
 			else
 				I2Sx->DMA1 &= ~0x02;
 		} else {
 			if (NewState == ENABLE)
 				I2Sx->DMA2 |= 0x02;
 			else
 				I2Sx->DMA2 &= ~0x02;
 		}
 	}
 }

 /********************************************************************//**
  * @brief		Configure IRQ for I2S
  * @param[in]	I2Sx I2S peripheral selected, should be: LPC_I2S
  * @param[in]	TRMode is transmit/receive mode, should be:
  * 					- I2S_TX_MODE = 0	:transmit mode
  * 					- I2S_RX_MODE = 1	:receive mode
  * @param[in]	level is the FIFO level that triggers IRQ request
  * @return 		none
  *********************************************************************/
 void I2S_IRQConfig(LPC_I2Sn_Type *I2Sx, uint8_t TRMode, uint8_t level) {
 	CHECK_PARAM(PARAM_I2Sx(I2Sx));
 	CHECK_PARAM(PARAM_I2S_TRX(TRMode));
 	CHECK_PARAM(PARAM_I2S_IRQ_LEVEL(level));

 	if (TRMode == I2S_RX_MODE) {
 		I2Sx->IRQ |= (level << 8);
 	} else {
 		I2Sx->IRQ |= (level << 16);
 	}
 }

 /********************************************************************//**
  * @brief		Enable/Disable IRQ for I2S
  * @param[in]	I2Sx I2S peripheral selected, should be: LPC_I2S
  * @param[in]	TRMode is transmit/receive mode, should be:
  * 					- I2S_TX_MODE = 0	:transmit mode
  * 					- I2S_RX_MODE = 1	:receive mode
  * @param[in]	NewState is new state of DMA operation, should be:
  * 					- ENABLE
  * 					- DISABLE
  * @return 		none
  *********************************************************************/
 void I2S_IRQCmd(LPC_I2Sn_Type *I2Sx, uint8_t TRMode, FunctionalState NewState) {
 	CHECK_PARAM(PARAM_I2Sx(I2Sx));
 	CHECK_PARAM(PARAM_FUNCTIONALSTATE(NewState));

 	if (TRMode == I2S_RX_MODE) {
 		if (NewState == ENABLE)
 			I2Sx->IRQ |= 0x01;
 		else
 			I2Sx->IRQ &= ~0x01;
 		//Enable DMA

 	} else {
 		if (NewState == ENABLE)
 			I2Sx->IRQ |= 0x02;
 		else
 			I2Sx->IRQ &= ~0x02;
 	}
 }

 /********************************************************************//**
  * @brief		Get I2S interrupt status
  * @param[in]	I2Sx I2S peripheral selected, should be: LPC_I2S
  * @param[in]	TRMode is transmit/receive mode, should be:
  * 					- I2S_TX_MODE = 0	:transmit mode
  * 					- I2S_RX_MODE = 1	:receive mode
  * @return 		FunctionState	should be:
  * 					- ENABLE	:interrupt is enable
  * 					- DISABLE	:interrupt is disable
  *********************************************************************/
 FunctionalState I2S_GetIRQStatus(LPC_I2Sn_Type *I2Sx,uint8_t TRMode)
 {
 	CHECK_PARAM(PARAM_I2Sx(I2Sx));
 	if(TRMode == I2S_TX_MODE)
 		return (FunctionalState)((I2Sx->IRQ >> 1)&0x01);
 	else
 		return (FunctionalState)((I2Sx->IRQ)&0x01);
 }

 /********************************************************************//**
  * @brief		Get I2S interrupt depth
  * @param[in]	I2Sx I2S peripheral selected, should be: LPC_I2S
  * @param[in]	TRMode is transmit/receive mode, should be:
  * 					- I2S_TX_MODE = 0	:transmit mode
  * 					- I2S_RX_MODE = 1	:receive mode
  * @return 		depth of FIFO level on which to create an irq request
  *********************************************************************/
 uint8_t I2S_GetIRQDepth(LPC_I2Sn_Type *I2Sx,uint8_t TRMode)
 {
 	CHECK_PARAM(PARAM_I2Sx(I2Sx));
 	if(TRMode == I2S_TX_MODE)
 		return (((I2Sx->IRQ)>>16)&0xFF);
 	else
 		return (((I2Sx->IRQ)>>8)&0xFF);
 }
 /**
  * @}
  */

 #endif /* _I2S */

 /**
  * @}
  */

 /* --------------------------------- End Of File ------------------------------ */
	/**********************************************************************
	* $Id$ lpc18xx_i2s.c 2011-06-02
	//*
	* @file lpc18xx_i2s.c
	* @brief Contains all functions support for I2S firmware library
	* on LPC18xx
	* @version 1.0
	* @date 02. June. 2011
	* @author NXP MCU SW Application Team
	*
	* Copyright(C) 2011, NXP Semiconductor
	* All rights reserved.
	*
	***********************************************************************
	* Software that is described herein is for illustrative purposes only
	* which provides customers with programming information regarding the
	* products. This software is supplied "AS IS" without any warranties.
	* NXP Semiconductors assumes no responsibility or liability for the
	* use of the software, conveys no license or title under any patent,
	* copyright, or mask work right to the product. NXP Semiconductors
	* reserves the right to make changes in the software without
	* notification. NXP Semiconductors also make no representation or
	* warranty that such application will be suitable for the specified
	* use without further testing or modification.
	**********************************************************************/

	/* Peripheral group ----------------------------------------------------------- */
	/** @addtogroup I2S
	* @{
	*/

	/* Includes ------------------------------------------------------------------- */
	#include "lpc18xx_i2s.h"
	#include "lpc18xx_cgu.h"


	/* If this source file built with example, the LPC18xx FW library configuration
	* file in each example directory ("lpc18xx_libcfg.h") must be included,
	* otherwise the default FW library configuration file must be included instead
	*/
	#ifdef __BUILD_WITH_EXAMPLE__
	#include "lpc18xx_libcfg.h"
	#else
	#include "lpc18xx_libcfg_default.h"
	#endif /* __BUILD_WITH_EXAMPLE__ */


	#ifdef _I2S

	/* Private Functions ---------------------------------------------------------- */

	static uint8_t i2s_GetWordWidth(LPC_I2Sn_Type *I2Sx, uint8_t TRMode);
	static uint8_t i2s_GetChannel(LPC_I2Sn_Type *I2Sx, uint8_t TRMode);

	/******************************************************************//
	* @brief Get I2S wordwidth value
	* @param[in] I2Sx I2S peripheral selected, should be: LPC_I2S
	* @param[in] TRMode is the I2S mode, should be:
	* - I2S_TX_MODE = 0 :transmit mode
	* - I2S_RX_MODE = 1 :receive mode
	* @return The wordwidth value, should be: 8,16 or 32
	*********************************************************************/
	static uint8_t i2s_GetWordWidth(LPC_I2Sn_Type *I2Sx, uint8_t TRMode) {
	uint8_t value;

	CHECK_PARAM(PARAM_I2Sx(I2Sx));
	CHECK_PARAM(PARAM_I2S_TRX(TRMode));

	if (TRMode == I2S_TX_MODE) {
	value = (I2Sx->DAO) & 0x03; /* get wordwidth bit */
	} else {
	value = (I2Sx->DAI) & 0x03; /* get wordwidth bit */
	}
	switch (value) {
	case I2S_WORDWIDTH_8:
	return 8;
	case I2S_WORDWIDTH_16:
	return 16;
	default:
	return 32;
	}
	}

	/******************************************************************//
	* @brief Get I2S channel value
	* @param[in] I2Sx I2S peripheral selected, should be: LPC_I2S
	* @param[in] TRMode is the I2S mode, should be:
	* - I2S_TX_MODE = 0 :transmit mode
	* - I2S_RX_MODE = 1 :receive mode
	* @return The channel value, should be: 1(mono) or 2(stereo)
	*********************************************************************/
	static uint8_t i2s_GetChannel(LPC_I2Sn_Type *I2Sx, uint8_t TRMode) {
	uint8_t value;

	CHECK_PARAM(PARAM_I2Sx(I2Sx));
	CHECK_PARAM(PARAM_I2S_TRX(TRMode));

	if (TRMode == I2S_TX_MODE) {
	value = (I2Sx->DAO) & 0x04; /* get bit[2] */
	} else {
	value = (I2Sx->DAI) & 0x04; /* get bit[2] */
	}
	value >>= 2;
	if(value == I2S_MONO) return 1;
	return 2;
	}

	/* End of Private Functions --------------------------------------------------- */


	/* Public Functions ----------------------------------------------------------- */
	/** @addtogroup I2S_Public_Functions
	* @{
	*/

	/******************************************************************//
	* @brief Initialize I2S
	* - Turn on power and clock
	* @param[in] I2Sx I2S peripheral selected, should be: LPC_I2S
	* @return none
	*********************************************************************/
	void I2S_Init(LPC_I2Sn_Type *I2Sx) {
	CHECK_PARAM(PARAM_I2Sx(I2Sx));

	// Turn on power and clock
	//CGU_ConfigPPWR(CGU_PCONP_PCI2S, ENABLE);
	I2Sx->DAI = I2Sx->DAO = 0x00;
	}

	/******************************************************************//
	* @brief Configuration I2S, setting:
	* - master/slave mode
	* - wordwidth value
	* - channel mode
	* @param[in] I2Sx I2S peripheral selected, should be: LPC_I2S
	* @param[in] TRMode transmit/receive mode, should be:
	* - I2S_TX_MODE = 0 :transmit mode
	* - I2S_RX_MODE = 1 :receive mode
	* @param[in] ConfigStruct pointer to I2S_CFG_Type structure
	* which will be initialized.
	* @return none
	*********************************************************************/
	void I2S_Config(LPC_I2Sn_Type I2Sx, uint8_t TRMode, I2S_CFG_Type ConfigStruct)
	{
	uint32_t bps, config;

	CHECK_PARAM(PARAM_I2Sx(I2Sx));

	CHECK_PARAM(PARAM_I2S_WORDWIDTH(ConfigStruct->wordwidth));
	CHECK_PARAM(PARAM_I2S_CHANNEL(ConfigStruct->mono));
	CHECK_PARAM(PARAM_I2S_STOP(ConfigStruct->stop));
	CHECK_PARAM(PARAM_I2S_RESET(ConfigStruct->reset));
	CHECK_PARAM(PARAM_I2S_WS_SEL(ConfigStruct->ws_sel));
	CHECK_PARAM(PARAM_I2S_MUTE(ConfigStruct->mute));

	/* Setup clock */
	bps = (ConfigStruct->wordwidth +1)*8;

	/* Calculate audio config */
	config = (bps - 1)<<6 \| (ConfigStruct->ws_sel)<<5 \| (ConfigStruct->reset)<<4 \|
	(ConfigStruct->stop)<<3 \| (ConfigStruct->mono)<<2 \| (ConfigStruct->wordwidth);

	if(TRMode == I2S_RX_MODE){
	I2Sx->DAI = config;
	}else{
	I2Sx->DAO = config;
	}
	}

	/******************************************************************//
	* @brief DeInitial both I2S transmit or receive
	* @param[in] I2Sx I2S peripheral selected, should be: LPC_I2S
	* @return none
	*********************************************************************/
	void I2S_DeInit(LPC_I2Sn_Type *I2Sx) {
	CHECK_PARAM(PARAM_I2Sx(I2Sx));

	// Turn off power and clock
	//CGU_ConfigPPWR(CGU_PCONP_PCI2S, DISABLE);
	}

	/******************************************************************//
	* @brief Get I2S Buffer Level
	* @param[in] I2Sx I2S peripheral selected, should be: LPC_I2S
	* @param[in] TRMode Transmit/receive mode, should be:
	* - I2S_TX_MODE = 0 :transmit mode
	* - I2S_RX_MODE = 1 :receive mode
	* @return current level of Transmit/Receive Buffer
	*********************************************************************/
	uint8_t I2S_GetLevel(LPC_I2Sn_Type *I2Sx, uint8_t TRMode)
	{
	CHECK_PARAM(PARAM_I2Sx(I2Sx));
	CHECK_PARAM(PARAM_I2S_TRX(TRMode));

	if(TRMode == I2S_TX_MODE)
	{
	return ((I2Sx->STATE >> 16) & 0xFF);
	}
	else
	{
	return ((I2Sx->STATE >> 8) & 0xFF);
	}
	}

	/******************************************************************//
	* @brief I2S Start: clear all STOP,RESET and MUTE bit, ready to operate
	* @param[in] I2Sx I2S peripheral selected, should be: LPC_I2S
	* @return none
	*********************************************************************/
	void I2S_Start(LPC_I2Sn_Type *I2Sx)
	{
	//Clear STOP,RESET and MUTE bit
	I2Sx->DAO &= ~I2S_DAI_RESET;
	I2Sx->DAI &= ~I2S_DAI_RESET;
	I2Sx->DAO &= ~I2S_DAI_STOP;
	I2Sx->DAI &= ~I2S_DAI_STOP;
	I2Sx->DAO &= ~I2S_DAI_MUTE;
	}

	/******************************************************************//
	* @brief I2S Send data
	* @param[in] I2Sx I2S peripheral selected, should be: LPC_I2S
	* @param[in] BufferData pointer to uint32_t is the data will be send
	* @return none
	*********************************************************************/
	void I2S_Send(LPC_I2Sn_Type *I2Sx, uint32_t BufferData) {
	CHECK_PARAM(PARAM_I2Sx(I2Sx));

	I2Sx->TXFIFO = BufferData;
	}

	/******************************************************************//
	* @brief I2S Receive Data
	* @param[in] I2Sx pointer to LPC_I2Sn_Type, should be: LPC_I2S
	* @return received value
	*********************************************************************/
	uint32_t I2S_Receive(LPC_I2Sn_Type* I2Sx) {
	CHECK_PARAM(PARAM_I2Sx(I2Sx));

	return (I2Sx->RXFIFO);

	}

	/******************************************************************//
	* @brief I2S Pause
	* @param[in] I2Sx I2S peripheral selected, should be: LPC_I2S
	* @param[in] TRMode is transmit/receive mode, should be:
	* - I2S_TX_MODE = 0 :transmit mode
	* - I2S_RX_MODE = 1 :receive mode
	* @return none
	*********************************************************************/
	void I2S_Pause(LPC_I2Sn_Type *I2Sx, uint8_t TRMode) {
	CHECK_PARAM(PARAM_I2Sx(I2Sx));
	CHECK_PARAM(PARAM_I2S_TRX(TRMode));

	if (TRMode == I2S_TX_MODE) //Transmit mode
	{
	I2Sx->DAO \|= I2S_DAO_STOP;
	} else //Receive mode
	{
	I2Sx->DAI \|= I2S_DAI_STOP;
	}
	}

	/******************************************************************//
	* @brief I2S Mute
	* @param[in] I2Sx I2S peripheral selected, should be: LPC_I2S
	* @param[in] TRMode is transmit/receive mode, should be:
	* - I2S_TX_MODE = 0 :transmit mode
	* - I2S_RX_MODE = 1 :receive mode
	* @return none
	*********************************************************************/
	void I2S_Mute(LPC_I2Sn_Type *I2Sx, uint8_t TRMode) {
	CHECK_PARAM(PARAM_I2Sx(I2Sx));
	CHECK_PARAM(PARAM_I2S_TRX(TRMode));

	if (TRMode == I2S_TX_MODE) //Transmit mode
	{
	I2Sx->DAO \|= I2S_DAO_MUTE;
	} else //Receive mode
	{
	I2Sx->DAI \|= I2S_DAI_MUTE;
	}
	}

	/******************************************************************//
	* @brief I2S Stop
	* @param[in] I2Sx I2S peripheral selected, should be: LPC_I2S
	* @param[in] TRMode is transmit/receive mode, should be:
	* - I2S_TX_MODE = 0 :transmit mode
	* - I2S_RX_MODE = 1 :receive mode
	* @return none
	*********************************************************************/
	void I2S_Stop(LPC_I2Sn_Type *I2Sx, uint8_t TRMode) {
	CHECK_PARAM(PARAM_I2Sx(I2Sx));
	CHECK_PARAM(PARAM_I2S_TRX(TRMode));

	if (TRMode == I2S_TX_MODE) //Transmit mode
	{
	I2Sx->DAO &= ~I2S_DAO_MUTE;
	I2Sx->DAO \|= I2S_DAO_STOP;
	I2Sx->DAO \|= I2S_DAO_RESET;
	} else //Receive mode
	{
	I2Sx->DAI \|= I2S_DAI_STOP;
	I2Sx->DAI \|= I2S_DAI_RESET;
	}
	}

	/******************************************************************//
	* @brief Set frequency for I2S
	* @param[in] I2Sx I2S peripheral selected, should be: LPC_I2S
	* @param[in] Freq is the frequency for I2S will be set. It can range
	* from 16-96 kHz(16, 22.05, 32, 44.1, 48, 96kHz)
	* @param[in] TRMode is transmit/receive mode, should be:
	* - I2S_TX_MODE = 0 :transmit mode
	* - I2S_RX_MODE = 1 :receive mode
	* @return Status: ERROR or SUCCESS
	*********************************************************************/
	Status I2S_FreqConfig(LPC_I2Sn_Type *I2Sx, uint32_t Freq, uint8_t TRMode) {

	/* Calculate bit rate
	* The formula is:
	* bit_rate = channel*wordwidth - 1
	* 48kHz sample rate for 16 bit stereo date requires
	* a bit rate of 48000162=1536MHz (MCLK)
	*/
	uint32_t i2sPclk;
	uint64_t divider;
	uint8_t bitrate, channel, wordwidth;
	uint32_t x, y;
	uint16_t dif;
	uint16_t error;
	uint16_t x_divide, y_divide;
	uint16_t ErrorOptimal = 0xFFFF;
	uint32_t N;

	CHECK_PARAM(PARAM_I2Sx(I2Sx));
	CHECK_PARAM(PRAM_I2S_FREQ(Freq));
	CHECK_PARAM(PARAM_I2S_TRX(TRMode));

	//LPC_CGU->BASE_VPB1_CLK = 0x08<<24 \| AUTO_BLOCK;
	CGU_EntityConnect(CGU_CLKSRC_PLL1, CGU_BASE_APB1);
	i2sPclk = CGU_GetPCLKFrequency(CGU_PERIPHERAL_I2S);
	if(TRMode == I2S_TX_MODE)
	{
	channel = i2s_GetChannel(I2Sx,I2S_TX_MODE);
	wordwidth = i2s_GetWordWidth(I2Sx,I2S_TX_MODE);
	}
	else
	{
	channel = i2s_GetChannel(I2Sx,I2S_RX_MODE);
	wordwidth = i2s_GetWordWidth(I2Sx,I2S_RX_MODE);
	}
	bitrate = 2 * wordwidth - 1;

	/* Calculate X and Y divider
	* The MCLK rate for the I2S transmitter is determined by the value
	* in the I2STXRATE/I2SRXRATE register. The required I2STXRATE/I2SRXRATE
	* setting depends on the desired audio sample rate desired, the format
	* (stereo/mono) used, and the data size.
	* The formula is:
	* I2S_MCLK = PCLK * (X/Y) / 2
	* We have:
	* I2S_MCLK = Freq * bit_rate * I2Sx->TXBITRATE;
	* So: (X/Y) = (Freq * bit_rate * I2Sx->TXBITRATE)/PCLK*2
	* We use a loop function to chose the most suitable X,Y value
	*/

	/* divider is a fixed point number with 16 fractional bits */
	divider = ((uint64_t)(Freq ( bitrate+1) 2)<<16) / i2sPclk;

	/* find N that make x/y <= 1 -> divider <= 2^16 */
	for(N=64;N>=0;N--){
	if((divider*N) < (1<<16)) break;
	}

	if(N == 0) return ERROR;

	divider *= N;

	for (y = 255; y > 0; y--) {
	x = y * divider;
	if(x & (0xFF000000)) continue;
	dif = x & 0xFFFF;
	if(dif>0x8000) error = 0x10000-dif;
	else error = dif;
	if (error == 0)
	{
	y_divide = y;
	break;
	}
	else if (error < ErrorOptimal)
	{
	ErrorOptimal = error;
	y_divide = y;
	}
	}
	x_divide = ((uint64_t)y_divide * Freq ( bitrate+1) N * 2)/i2sPclk;
	if(x_divide >= 256) x_divide = 0xFF;
	if(x_divide == 0) x_divide = 1;
	if (TRMode == I2S_TX_MODE)// Transmitter
	{
	I2Sx->TXBITRATE = N;
	I2Sx->TXRATE = y_divide \| (x_divide << 8);
	} else //Receiver
	{
	I2Sx->RXBITRATE = N;
	I2Sx->RXRATE = y_divide \| (x_divide << 8);
	}
	return SUCCESS;
	}

	/******************************************************************//
	* @brief I2S set bitrate
	* @param[in] I2Sx I2S peripheral selected, should be: LPC_I2S
	* @param[in] bitrate value will be set, it can be calculate as follows:
	* bitrate = channel * wordwidth - 1
	* bitrate value should be in range: 0 .. 63
	* @param[in] TRMode is transmit/receive mode, should be:
	* - I2S_TX_MODE = 0 :transmit mode
	* - I2S_RX_MODE = 1 :receive mode
	* @return none
	*********************************************************************/
	void I2S_SetBitRate(LPC_I2Sn_Type *I2Sx, uint8_t bitrate, uint8_t TRMode)
	{
	CHECK_PARAM(PARAM_I2Sx(I2Sx));
	CHECK_PARAM(PARAM_I2S_BITRATE(bitrate));
	CHECK_PARAM(PARAM_I2S_TRX(TRMode));

	if(TRMode == I2S_TX_MODE)
	{
	I2Sx->TXBITRATE = bitrate;
	}
	else
	{
	I2Sx->RXBITRATE = bitrate;
	}
	}

	/******************************************************************//
	* @brief Configuration operating mode for I2S
	* @param[in] I2Sx I2S peripheral selected, should be: LPC_I2S
	* @param[in] ModeConfig pointer to I2S_MODEConf_Type will be used to
	* configure
	* @param[in] TRMode is transmit/receive mode, should be:
	* - I2S_TX_MODE = 0 :transmit mode
	* - I2S_RX_MODE = 1 :receive mode
	* @return none
	*********************************************************************/
	void I2S_ModeConfig(LPC_I2Sn_Type I2Sx, I2S_MODEConf_Type ModeConfig,
	uint8_t TRMode)
	{
	CHECK_PARAM(PARAM_I2Sx(I2Sx));
	CHECK_PARAM(PARAM_I2S_CLKSEL(ModeConfig->clksel));
	CHECK_PARAM(PARAM_I2S_4PIN(ModeConfig->fpin));
	CHECK_PARAM(PARAM_I2S_MCLK(ModeConfig->mcena));
	CHECK_PARAM(PARAM_I2S_TRX(TRMode));

	if (TRMode == I2S_TX_MODE) {
	I2Sx->TXMODE &= ~0x0F; //clear bit 3:0 in I2STXMODE register
	if (ModeConfig->clksel == I2S_CLKSEL_MCLK) {
	I2Sx->TXMODE \|= 0x02;
	}
	if (ModeConfig->fpin == I2S_4PIN_ENABLE) {
	I2Sx->TXMODE \|= (1 << 2);
	}
	if (ModeConfig->mcena == I2S_MCLK_ENABLE) {
	I2Sx->TXMODE \|= (1 << 3);
	}
	} else {
	I2Sx->RXMODE &= ~0x0F; //clear bit 3:0 in I2STXMODE register
	if (ModeConfig->clksel == I2S_CLKSEL_MCLK) {
	I2Sx->RXMODE \|= 0x02;
	}
	if (ModeConfig->fpin == I2S_4PIN_ENABLE) {
	I2Sx->RXMODE \|= (1 << 2);
	}
	if (ModeConfig->mcena == I2S_MCLK_ENABLE) {
	I2Sx->RXMODE \|= (1 << 3);
	}
	}
	}

	/******************************************************************//
	* @brief Configure DMA operation for I2S
	* @param[in] I2Sx I2S peripheral selected, should be: LPC_I2S
	* @param[in] DMAConfig pointer to I2S_DMAConf_Type will be used to configure
	* @param[in] TRMode is transmit/receive mode, should be:
	* - I2S_TX_MODE = 0 :transmit mode
	* - I2S_RX_MODE = 1 :receive mode
	* @return none
	*********************************************************************/
	void I2S_DMAConfig(LPC_I2Sn_Type I2Sx, I2S_DMAConf_Type DMAConfig,
	uint8_t TRMode)
	{
	CHECK_PARAM(PARAM_I2Sx(I2Sx));
	CHECK_PARAM(PARAM_I2S_DMA(DMAConfig->DMAIndex));
	CHECK_PARAM(PARAM_I2S_DMA_DEPTH(DMAConfig->depth));
	CHECK_PARAM(PARAM_I2S_TRX(TRMode));

	if (TRMode == I2S_RX_MODE) {
	if (DMAConfig->DMAIndex == I2S_DMA_1) {
	I2Sx->DMA1 = (DMAConfig->depth) << 8;
	} else {
	I2Sx->DMA2 = (DMAConfig->depth) << 8;
	}
	} else {
	if (DMAConfig->DMAIndex == I2S_DMA_1) {
	I2Sx->DMA1 = (DMAConfig->depth) << 16;
	} else {
	I2Sx->DMA2 = (DMAConfig->depth) << 16;
	}
	}
	}

	/******************************************************************//
	* @brief Enable/Disable DMA operation for I2S
	* @param[in] I2Sx: I2S peripheral selected, should be: LPC_I2S
	* @param[in] DMAIndex chose what DMA is used, should be:
	* - I2S_DMA_1 = 0 :DMA1
	* - I2S_DMA_2 = 1 :DMA2
	* @param[in] TRMode is transmit/receive mode, should be:
	* - I2S_TX_MODE = 0 :transmit mode
	* - I2S_RX_MODE = 1 :receive mode
	* @param[in] NewState is new state of DMA operation, should be:
	* - ENABLE
	* - DISABLE
	* @return none
	*********************************************************************/
	void I2S_DMACmd(LPC_I2Sn_Type *I2Sx, uint8_t DMAIndex, uint8_t TRMode,
	FunctionalState NewState)
	{
	CHECK_PARAM(PARAM_I2Sx(I2Sx));
	CHECK_PARAM(PARAM_FUNCTIONALSTATE(NewState));
	CHECK_PARAM(PARAM_I2S_DMA(DMAIndex));
	CHECK_PARAM(PARAM_I2S_TRX(TRMode));

	if (TRMode == I2S_RX_MODE) {
	if (DMAIndex == I2S_DMA_1) {
	if (NewState == ENABLE)
	I2Sx->DMA1 \|= 0x01;
	else
	I2Sx->DMA1 &= ~0x01;
	} else {
	if (NewState == ENABLE)
	I2Sx->DMA2 \|= 0x01;
	else
	I2Sx->DMA2 &= ~0x01;
	}
	} else {
	if (DMAIndex == I2S_DMA_1) {
	if (NewState == ENABLE)
	I2Sx->DMA1 \|= 0x02;
	else
	I2Sx->DMA1 &= ~0x02;
	} else {
	if (NewState == ENABLE)
	I2Sx->DMA2 \|= 0x02;
	else
	I2Sx->DMA2 &= ~0x02;
	}
	}
	}

	/******************************************************************//
	* @brief Configure IRQ for I2S
	* @param[in] I2Sx I2S peripheral selected, should be: LPC_I2S
	* @param[in] TRMode is transmit/receive mode, should be:
	* - I2S_TX_MODE = 0 :transmit mode
	* - I2S_RX_MODE = 1 :receive mode
	* @param[in] level is the FIFO level that triggers IRQ request
	* @return none
	*********************************************************************/
	void I2S_IRQConfig(LPC_I2Sn_Type *I2Sx, uint8_t TRMode, uint8_t level) {
	CHECK_PARAM(PARAM_I2Sx(I2Sx));
	CHECK_PARAM(PARAM_I2S_TRX(TRMode));
	CHECK_PARAM(PARAM_I2S_IRQ_LEVEL(level));

	if (TRMode == I2S_RX_MODE) {
	I2Sx->IRQ \|= (level << 8);
	} else {
	I2Sx->IRQ \|= (level << 16);
	}
	}

	/******************************************************************//
	* @brief Enable/Disable IRQ for I2S
	* @param[in] I2Sx I2S peripheral selected, should be: LPC_I2S
	* @param[in] TRMode is transmit/receive mode, should be:
	* - I2S_TX_MODE = 0 :transmit mode
	* - I2S_RX_MODE = 1 :receive mode
	* @param[in] NewState is new state of DMA operation, should be:
	* - ENABLE
	* - DISABLE
	* @return none
	*********************************************************************/
	void I2S_IRQCmd(LPC_I2Sn_Type *I2Sx, uint8_t TRMode, FunctionalState NewState) {
	CHECK_PARAM(PARAM_I2Sx(I2Sx));
	CHECK_PARAM(PARAM_FUNCTIONALSTATE(NewState));

	if (TRMode == I2S_RX_MODE) {
	if (NewState == ENABLE)
	I2Sx->IRQ \|= 0x01;
	else
	I2Sx->IRQ &= ~0x01;
	//Enable DMA

	} else {
	if (NewState == ENABLE)
	I2Sx->IRQ \|= 0x02;
	else
	I2Sx->IRQ &= ~0x02;
	}
	}

	/******************************************************************//
	* @brief Get I2S interrupt status
	* @param[in] I2Sx I2S peripheral selected, should be: LPC_I2S
	* @param[in] TRMode is transmit/receive mode, should be:
	* - I2S_TX_MODE = 0 :transmit mode
	* - I2S_RX_MODE = 1 :receive mode
	* @return FunctionState should be:
	* - ENABLE :interrupt is enable
	* - DISABLE :interrupt is disable
	*********************************************************************/
	FunctionalState I2S_GetIRQStatus(LPC_I2Sn_Type *I2Sx,uint8_t TRMode)
	{
	CHECK_PARAM(PARAM_I2Sx(I2Sx));
	if(TRMode == I2S_TX_MODE)
	return (FunctionalState)((I2Sx->IRQ >> 1)&0x01);
	else
	return (FunctionalState)((I2Sx->IRQ)&0x01);
	}

	/******************************************************************//
	* @brief Get I2S interrupt depth
	* @param[in] I2Sx I2S peripheral selected, should be: LPC_I2S
	* @param[in] TRMode is transmit/receive mode, should be:
	* - I2S_TX_MODE = 0 :transmit mode
	* - I2S_RX_MODE = 1 :receive mode
	* @return depth of FIFO level on which to create an irq request
	*********************************************************************/
	uint8_t I2S_GetIRQDepth(LPC_I2Sn_Type *I2Sx,uint8_t TRMode)
	{
	CHECK_PARAM(PARAM_I2Sx(I2Sx));
	if(TRMode == I2S_TX_MODE)
	return (((I2Sx->IRQ)>>16)&0xFF);
	else
	return (((I2Sx->IRQ)>>8)&0xFF);
	}
	/**
	* @}
	*/

	#endif /* _I2S */

	/**
	* @}
	*/

	/* --------------------------------- End Of File ------------------------------ */