FreeRTOS/Demo/CORTEX_AT91SAM3U256_IAR/AT91Lib/peripherals/twi/twi.c - nest-detect/1.2/freertos - Git at Google

 /* ----------------------------------------------------------------------------
  *         ATMEL Microcontroller Software Support
  * ----------------------------------------------------------------------------
  * Copyright (c) 2008, Atmel Corporation
  *
  * All rights reserved.
  *
  * 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 disclaimer below.
  *
  * Atmel's name may not be used to endorse or promote products derived from
  * this software without specific prior written permission.
  *
  * DISCLAIMER: THIS SOFTWARE IS PROVIDED BY ATMEL "AS IS" AND ANY EXPRESS OR
  * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
  * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT ARE
  * DISCLAIMED. IN NO EVENT SHALL ATMEL 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.
  * ----------------------------------------------------------------------------
  */

 //------------------------------------------------------------------------------
 /// \unit
 ///
 /// !Purpose
 ///
 /// Interface for configuration the Two Wire Interface (TWI) peripheral.
 ///
 /// !Usage
 ///
 /// -# Configures a TWI peripheral to operate in master mode, at the given
 /// frequency (in Hz) using TWI_Configure().
 /// -# Sends a STOP condition on the TWI using TWI_Stop().
 /// -# Starts a read operation on the TWI bus with the specified slave using
 /// TWI_StartRead(). Data must then be read using TWI_ReadByte() whenever
 /// a byte is available (poll using TWI_ByteReceived()).
 /// -# Starts a write operation on the TWI to access the selected slave using
 /// TWI_StartWrite(). A byte of data must be provided to start the write;
 /// other bytes are written next.
 /// -# Sends a byte of data to one of the TWI slaves on the bus using TWI_WriteByte().
 /// This function must be called once before TWI_StartWrite() with the first byte of data
 /// to send, then it shall be called repeatedly after that to send the remaining bytes.
 /// -# Check if a byte has been received and can be read on the given TWI
 /// peripheral using TWI_ByteReceived().
 /// Check if a byte has been sent using TWI_ByteSent().
 /// -# Check if the current transmission is complete (the STOP has been sent)
 /// using TWI_TransferComplete().
 /// -# Enables & disable the selected interrupts sources on a TWI peripheral
 /// using TWI_EnableIt() and TWI_DisableIt().
 /// -# Get current status register of the given TWI peripheral using
 /// TWI_GetStatus(). Get current status register of the given TWI peripheral, but
 /// masking interrupt sources which are not currently enabled using
 /// TWI_GetMaskedStatus().
 //------------------------------------------------------------------------------


 //------------------------------------------------------------------------------
 //         Headers
 //------------------------------------------------------------------------------

 #include "twi.h"
 #include <utility/math.h>
 #include <utility/assert.h>
 #include <utility/trace.h>

 //------------------------------------------------------------------------------
 //         Global functions
 //------------------------------------------------------------------------------

 //------------------------------------------------------------------------------
 /// Configures a TWI peripheral to operate in master mode, at the given
 /// frequency (in Hz). The duty cycle of the TWI clock is set to 50%.
 /// \param pTwi  Pointer to an AT91S_TWI instance.
 /// \param twck  Desired TWI clock frequency.
 /// \param mck  Master clock frequency.
 //------------------------------------------------------------------------------
 void TWI_ConfigureMaster(AT91S_TWI *pTwi, unsigned int twck, unsigned int mck)
 {
     unsigned int ckdiv = 0;
     unsigned int cldiv;
     unsigned char ok = 0;

     TRACE_DEBUG("TWI_ConfigureMaster()\n\r");
     SANITY_CHECK(pTwi);

 #ifdef AT91C_TWI_SVEN  // TWI slave
     // SVEN: TWI Slave Mode Enabled
     pTwi->TWI_CR = AT91C_TWI_SVEN;
 #endif
     // Reset the TWI
     pTwi->TWI_CR = AT91C_TWI_SWRST;
     pTwi->TWI_RHR;

     // TWI Slave Mode Disabled, TWI Master Mode Disabled
 #ifdef AT91C_TWI_SVEN  // TWI slave
     pTwi->TWI_CR = AT91C_TWI_SVDIS;
 #endif
     pTwi->TWI_CR = AT91C_TWI_MSDIS;

     // Set master mode
     pTwi->TWI_CR = AT91C_TWI_MSEN;

     // Configure clock
     while (!ok) {
         cldiv = ((mck / (2 * twck)) - 3) / power(2, ckdiv);
         if (cldiv <= 255) {

             ok = 1;
         }
         else {

             ckdiv++;
         }
     }

     ASSERT(ckdiv < 8, "-F- Cannot find valid TWI clock parameters\n\r");
     TRACE_DEBUG("Using CKDIV = %u and CLDIV/CHDIV = %u\n\r", ckdiv, cldiv);
     pTwi->TWI_CWGR = 0;
     pTwi->TWI_CWGR = (ckdiv << 16) | (cldiv << 8) | cldiv;
 }


 #ifdef AT91C_TWI_SVEN  // TWI slave
 //------------------------------------------------------------------------------
 /// Configures a TWI peripheral to operate in slave mode
 /// \param pTwi  Pointer to an AT91S_TWI instance.
 //------------------------------------------------------------------------------
 void TWI_ConfigureSlave(AT91S_TWI *pTwi, unsigned char slaveAddress)
 {
     unsigned int i;

     // TWI software reset
     pTwi->TWI_CR = AT91C_TWI_SWRST;
     pTwi->TWI_RHR;

     // Wait at least 10 ms
     for (i=0; i < 1000000; i++);

     // TWI Slave Mode Disabled, TWI Master Mode Disabled
     pTwi->TWI_CR = AT91C_TWI_SVDIS | AT91C_TWI_MSDIS;

     // Slave Address
     pTwi->TWI_SMR = 0;
     pTwi->TWI_SMR = (slaveAddress << 16) & AT91C_TWI_SADR;

     // SVEN: TWI Slave Mode Enabled
     pTwi->TWI_CR = AT91C_TWI_SVEN;

     // Wait at least 10 ms
     for (i=0; i < 1000000; i++);
     ASSERT( (pTwi->TWI_CR & AT91C_TWI_SVDIS)!=AT91C_TWI_SVDIS, "Problem slave mode");
 }
 #endif

 //------------------------------------------------------------------------------
 /// Sends a STOP condition on the TWI.
 /// \param pTwi  Pointer to an AT91S_TWI instance.
 //------------------------------------------------------------------------------
 void TWI_Stop(AT91S_TWI *pTwi)
 {
     SANITY_CHECK(pTwi);

     pTwi->TWI_CR = AT91C_TWI_STOP;
 }

 //------------------------------------------------------------------------------
 /// Starts a read operation on the TWI bus with the specified slave, and returns
 /// immediately. Data must then be read using TWI_ReadByte() whenever a byte is
 /// available (poll using TWI_ByteReceived()).
 /// \param pTwi  Pointer to an AT91S_TWI instance.
 /// \param address  Slave address on the bus.
 /// \param iaddress  Optional internal address bytes.
 /// \param isize  Number of internal address bytes.
 //-----------------------------------------------------------------------------
 void TWI_StartRead(
     AT91S_TWI *pTwi,
     unsigned char address,
     unsigned int iaddress,
     unsigned char isize)
 {
     //TRACE_DEBUG("TWI_StartRead()\n\r");
     SANITY_CHECK(pTwi);
     SANITY_CHECK((address & 0x80) == 0);
     SANITY_CHECK((iaddress & 0xFF000000) == 0);
     SANITY_CHECK(isize < 4);

     // Set slave address and number of internal address bytes
     pTwi->TWI_MMR = 0;
     pTwi->TWI_MMR = (isize << 8) | AT91C_TWI_MREAD | (address << 16);

     // Set internal address bytes
     pTwi->TWI_IADR = 0;
     pTwi->TWI_IADR = iaddress;

     // Send START condition
     pTwi->TWI_CR = AT91C_TWI_START;
 }

 //-----------------------------------------------------------------------------
 /// Reads a byte from the TWI bus. The read operation must have been started
 /// using TWI_StartRead() and a byte must be available (check with
 /// TWI_ByteReceived()).
 /// Returns the byte read.
 /// \param pTwi  Pointer to an AT91S_TWI instance.
 //-----------------------------------------------------------------------------
 unsigned char TWI_ReadByte(AT91S_TWI *pTwi)
 {
     SANITY_CHECK(pTwi);

     return pTwi->TWI_RHR;
 }

 //-----------------------------------------------------------------------------
 /// Sends a byte of data to one of the TWI slaves on the bus. This function
 /// must be called once before TWI_StartWrite() with the first byte of data
 /// to send, then it shall be called repeatedly after that to send the
 /// remaining bytes.
 /// \param pTwi  Pointer to an AT91S_TWI instance.
 /// \param byte  Byte to send.
 //-----------------------------------------------------------------------------
 void TWI_WriteByte(AT91S_TWI *pTwi, unsigned char byte)
 {
     SANITY_CHECK(pTwi);

     pTwi->TWI_THR = byte;
 }

 //-----------------------------------------------------------------------------
 /// Starts a write operation on the TWI to access the selected slave, then
 /// returns immediately. A byte of data must be provided to start the write;
 /// other bytes are written next.
 /// \param pTwi  Pointer to an AT91S_TWI instance.
 /// \param address  Address of slave to acccess on the bus.
 /// \param iaddress  Optional slave internal address.
 /// \param isize  Number of internal address bytes.
 /// \param byte  First byte to send.
 //-----------------------------------------------------------------------------
 void TWI_StartWrite(
     AT91S_TWI *pTwi,
     unsigned char address,
     unsigned int iaddress,
     unsigned char isize,
     unsigned char byte)
 {
     //TRACE_DEBUG("TWI_StartWrite()\n\r");
     SANITY_CHECK(pTwi);
     SANITY_CHECK((address & 0x80) == 0);
     SANITY_CHECK((iaddress & 0xFF000000) == 0);
     SANITY_CHECK(isize < 4);

     // Set slave address and number of internal address bytes
     pTwi->TWI_MMR = 0;
     pTwi->TWI_MMR = (isize << 8) | (address << 16);

     // Set internal address bytes
     pTwi->TWI_IADR = 0;
     pTwi->TWI_IADR = iaddress;

     // Write first byte to send
     TWI_WriteByte(pTwi, byte);
 }

 //-----------------------------------------------------------------------------
 /// Returns 1 if a byte has been received and can be read on the given TWI
 /// peripheral; otherwise, returns 0. This function resets the status register
 /// of the TWI.
 /// \param pTwi  Pointer to an AT91S_TWI instance.
 //-----------------------------------------------------------------------------
 unsigned char TWI_ByteReceived(AT91S_TWI *pTwi)
 {
     return ((pTwi->TWI_SR & AT91C_TWI_RXRDY) == AT91C_TWI_RXRDY);
 }

 //-----------------------------------------------------------------------------
 /// Returns 1 if a byte has been sent, so another one can be stored for
 /// transmission; otherwise returns 0. This function clears the status register
 /// of the TWI.
 /// \param pTwi  Pointer to an AT91S_TWI instance.
 //-----------------------------------------------------------------------------
 unsigned char TWI_ByteSent(AT91S_TWI *pTwi)
 {
     return ((pTwi->TWI_SR & AT91C_TWI_TXRDY) == AT91C_TWI_TXRDY);
 }

 //-----------------------------------------------------------------------------
 /// Returns 1 if the current transmission is complete (the STOP has been sent);
 /// otherwise returns 0.
 /// \param pTwi  Pointer to an AT91S_TWI instance.
 //-----------------------------------------------------------------------------
 unsigned char TWI_TransferComplete(AT91S_TWI *pTwi)
 {
     return ((pTwi->TWI_SR & AT91C_TWI_TXCOMP) == AT91C_TWI_TXCOMP);
 }

 //-----------------------------------------------------------------------------
 /// Enables the selected interrupts sources on a TWI peripheral.
 /// \param pTwi  Pointer to an AT91S_TWI instance.
 /// \param sources  Bitwise OR of selected interrupt sources.
 //-----------------------------------------------------------------------------
 void TWI_EnableIt(AT91S_TWI *pTwi, unsigned int sources)
 {
     SANITY_CHECK(pTwi);
     SANITY_CHECK((sources & 0xFFFFF088) == 0);

     pTwi->TWI_IER = sources;
 }

 //-----------------------------------------------------------------------------
 /// Disables the selected interrupts sources on a TWI peripheral.
 /// \param pTwi  Pointer to an AT91S_TWI instance.
 /// \param sources  Bitwise OR of selected interrupt sources.
 //-----------------------------------------------------------------------------
 void TWI_DisableIt(AT91S_TWI *pTwi, unsigned int sources)
 {
     SANITY_CHECK(pTwi);
     SANITY_CHECK((sources & 0xFFFFF088) == 0);

     pTwi->TWI_IDR = sources;
 }

 //-----------------------------------------------------------------------------
 /// Returns the current status register of the given TWI peripheral. This
 /// resets the internal value of the status register, so further read may yield
 /// different values.
 /// \param pTwi  Pointer to an AT91S_TWI instance.
 //-----------------------------------------------------------------------------
 unsigned int TWI_GetStatus(AT91S_TWI *pTwi)
 {
     SANITY_CHECK(pTwi);

     return pTwi->TWI_SR;
 }

 //-----------------------------------------------------------------------------
 /// Returns the current status register of the given TWI peripheral, but
 /// masking interrupt sources which are not currently enabled.
 /// This resets the internal value of the status register, so further read may
 /// yield different values.
 /// \param pTwi  Pointer to an AT91S_TWI instance.
 //-----------------------------------------------------------------------------
 unsigned int TWI_GetMaskedStatus(AT91S_TWI *pTwi)
 {
     unsigned int status;

     SANITY_CHECK(pTwi);

     status = pTwi->TWI_SR;
     status &= pTwi->TWI_IMR;

     return status;
 }
 //-----------------------------------------------------------------------------
 /// Sends a STOP condition. STOP Condition is sent just after completing
 /// the current byte transmission in master read mode.
 /// \param pTwi  Pointer to an AT91S_TWI instance.
 //-----------------------------------------------------------------------------
 void TWI_SendSTOPCondition(AT91S_TWI *pTwi)
 {
     SANITY_CHECK(pTwi);

     pTwi->TWI_CR |= AT91C_TWI_STOP;
 }
	/* ----------------------------------------------------------------------------
	* ATMEL Microcontroller Software Support
	* ----------------------------------------------------------------------------
	* Copyright (c) 2008, Atmel Corporation
	*
	* All rights reserved.
	*
	* 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 disclaimer below.
	*
	* Atmel's name may not be used to endorse or promote products derived from
	* this software without specific prior written permission.
	*
	* DISCLAIMER: THIS SOFTWARE IS PROVIDED BY ATMEL "AS IS" AND ANY EXPRESS OR
	* IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
	* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT ARE
	* DISCLAIMED. IN NO EVENT SHALL ATMEL 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.
	* ----------------------------------------------------------------------------
	*/

	//------------------------------------------------------------------------------
	/// \unit
	///
	/// !Purpose
	///
	/// Interface for configuration the Two Wire Interface (TWI) peripheral.
	///
	/// !Usage
	///
	/// -# Configures a TWI peripheral to operate in master mode, at the given
	/// frequency (in Hz) using TWI_Configure().
	/// -# Sends a STOP condition on the TWI using TWI_Stop().
	/// -# Starts a read operation on the TWI bus with the specified slave using
	/// TWI_StartRead(). Data must then be read using TWI_ReadByte() whenever
	/// a byte is available (poll using TWI_ByteReceived()).
	/// -# Starts a write operation on the TWI to access the selected slave using
	/// TWI_StartWrite(). A byte of data must be provided to start the write;
	/// other bytes are written next.
	/// -# Sends a byte of data to one of the TWI slaves on the bus using TWI_WriteByte().
	/// This function must be called once before TWI_StartWrite() with the first byte of data
	/// to send, then it shall be called repeatedly after that to send the remaining bytes.
	/// -# Check if a byte has been received and can be read on the given TWI
	/// peripheral using TWI_ByteReceived().
	/// Check if a byte has been sent using TWI_ByteSent().
	/// -# Check if the current transmission is complete (the STOP has been sent)
	/// using TWI_TransferComplete().
	/// -# Enables & disable the selected interrupts sources on a TWI peripheral
	/// using TWI_EnableIt() and TWI_DisableIt().
	/// -# Get current status register of the given TWI peripheral using
	/// TWI_GetStatus(). Get current status register of the given TWI peripheral, but
	/// masking interrupt sources which are not currently enabled using
	/// TWI_GetMaskedStatus().
	//------------------------------------------------------------------------------


	//------------------------------------------------------------------------------
	// Headers
	//------------------------------------------------------------------------------

	#include "twi.h"
	#include <utility/math.h>
	#include <utility/assert.h>
	#include <utility/trace.h>

	//------------------------------------------------------------------------------
	// Global functions
	//------------------------------------------------------------------------------

	//------------------------------------------------------------------------------
	/// Configures a TWI peripheral to operate in master mode, at the given
	/// frequency (in Hz). The duty cycle of the TWI clock is set to 50%.
	/// \param pTwi Pointer to an AT91S_TWI instance.
	/// \param twck Desired TWI clock frequency.
	/// \param mck Master clock frequency.
	//------------------------------------------------------------------------------
	void TWI_ConfigureMaster(AT91S_TWI *pTwi, unsigned int twck, unsigned int mck)
	{
	unsigned int ckdiv = 0;
	unsigned int cldiv;
	unsigned char ok = 0;

	TRACE_DEBUG("TWI_ConfigureMaster()\n\r");
	SANITY_CHECK(pTwi);

	#ifdef AT91C_TWI_SVEN // TWI slave
	// SVEN: TWI Slave Mode Enabled
	pTwi->TWI_CR = AT91C_TWI_SVEN;
	#endif
	// Reset the TWI
	pTwi->TWI_CR = AT91C_TWI_SWRST;
	pTwi->TWI_RHR;

	// TWI Slave Mode Disabled, TWI Master Mode Disabled
	#ifdef AT91C_TWI_SVEN // TWI slave
	pTwi->TWI_CR = AT91C_TWI_SVDIS;
	#endif
	pTwi->TWI_CR = AT91C_TWI_MSDIS;

	// Set master mode
	pTwi->TWI_CR = AT91C_TWI_MSEN;

	// Configure clock
	while (!ok) {
	cldiv = ((mck / (2 * twck)) - 3) / power(2, ckdiv);
	if (cldiv <= 255) {

	ok = 1;
	}
	else {

	ckdiv++;
	}
	}

	ASSERT(ckdiv < 8, "-F- Cannot find valid TWI clock parameters\n\r");
	TRACE_DEBUG("Using CKDIV = %u and CLDIV/CHDIV = %u\n\r", ckdiv, cldiv);
	pTwi->TWI_CWGR = 0;
	pTwi->TWI_CWGR = (ckdiv << 16) \| (cldiv << 8) \| cldiv;
	}



	#ifdef AT91C_TWI_SVEN // TWI slave
	//------------------------------------------------------------------------------
	/// Configures a TWI peripheral to operate in slave mode
	/// \param pTwi Pointer to an AT91S_TWI instance.
	//------------------------------------------------------------------------------
	void TWI_ConfigureSlave(AT91S_TWI *pTwi, unsigned char slaveAddress)
	{
	unsigned int i;

	// TWI software reset
	pTwi->TWI_CR = AT91C_TWI_SWRST;
	pTwi->TWI_RHR;

	// Wait at least 10 ms
	for (i=0; i < 1000000; i++);

	// TWI Slave Mode Disabled, TWI Master Mode Disabled
	pTwi->TWI_CR = AT91C_TWI_SVDIS \| AT91C_TWI_MSDIS;

	// Slave Address
	pTwi->TWI_SMR = 0;
	pTwi->TWI_SMR = (slaveAddress << 16) & AT91C_TWI_SADR;

	// SVEN: TWI Slave Mode Enabled
	pTwi->TWI_CR = AT91C_TWI_SVEN;

	// Wait at least 10 ms
	for (i=0; i < 1000000; i++);
	ASSERT( (pTwi->TWI_CR & AT91C_TWI_SVDIS)!=AT91C_TWI_SVDIS, "Problem slave mode");
	}
	#endif

	//------------------------------------------------------------------------------
	/// Sends a STOP condition on the TWI.
	/// \param pTwi Pointer to an AT91S_TWI instance.
	//------------------------------------------------------------------------------
	void TWI_Stop(AT91S_TWI *pTwi)
	{
	SANITY_CHECK(pTwi);

	pTwi->TWI_CR = AT91C_TWI_STOP;
	}

	//------------------------------------------------------------------------------
	/// Starts a read operation on the TWI bus with the specified slave, and returns
	/// immediately. Data must then be read using TWI_ReadByte() whenever a byte is
	/// available (poll using TWI_ByteReceived()).
	/// \param pTwi Pointer to an AT91S_TWI instance.
	/// \param address Slave address on the bus.
	/// \param iaddress Optional internal address bytes.
	/// \param isize Number of internal address bytes.
	//-----------------------------------------------------------------------------
	void TWI_StartRead(
	AT91S_TWI *pTwi,
	unsigned char address,
	unsigned int iaddress,
	unsigned char isize)
	{
	//TRACE_DEBUG("TWI_StartRead()\n\r");
	SANITY_CHECK(pTwi);
	SANITY_CHECK((address & 0x80) == 0);
	SANITY_CHECK((iaddress & 0xFF000000) == 0);
	SANITY_CHECK(isize < 4);

	// Set slave address and number of internal address bytes
	pTwi->TWI_MMR = 0;
	pTwi->TWI_MMR = (isize << 8) \| AT91C_TWI_MREAD \| (address << 16);

	// Set internal address bytes
	pTwi->TWI_IADR = 0;
	pTwi->TWI_IADR = iaddress;

	// Send START condition
	pTwi->TWI_CR = AT91C_TWI_START;
	}

	//-----------------------------------------------------------------------------
	/// Reads a byte from the TWI bus. The read operation must have been started
	/// using TWI_StartRead() and a byte must be available (check with
	/// TWI_ByteReceived()).
	/// Returns the byte read.
	/// \param pTwi Pointer to an AT91S_TWI instance.
	//-----------------------------------------------------------------------------
	unsigned char TWI_ReadByte(AT91S_TWI *pTwi)
	{
	SANITY_CHECK(pTwi);

	return pTwi->TWI_RHR;
	}

	//-----------------------------------------------------------------------------
	/// Sends a byte of data to one of the TWI slaves on the bus. This function
	/// must be called once before TWI_StartWrite() with the first byte of data
	/// to send, then it shall be called repeatedly after that to send the
	/// remaining bytes.
	/// \param pTwi Pointer to an AT91S_TWI instance.
	/// \param byte Byte to send.
	//-----------------------------------------------------------------------------
	void TWI_WriteByte(AT91S_TWI *pTwi, unsigned char byte)
	{
	SANITY_CHECK(pTwi);

	pTwi->TWI_THR = byte;
	}

	//-----------------------------------------------------------------------------
	/// Starts a write operation on the TWI to access the selected slave, then
	/// returns immediately. A byte of data must be provided to start the write;
	/// other bytes are written next.
	/// \param pTwi Pointer to an AT91S_TWI instance.
	/// \param address Address of slave to acccess on the bus.
	/// \param iaddress Optional slave internal address.
	/// \param isize Number of internal address bytes.
	/// \param byte First byte to send.
	//-----------------------------------------------------------------------------
	void TWI_StartWrite(
	AT91S_TWI *pTwi,
	unsigned char address,
	unsigned int iaddress,
	unsigned char isize,
	unsigned char byte)
	{
	//TRACE_DEBUG("TWI_StartWrite()\n\r");
	SANITY_CHECK(pTwi);
	SANITY_CHECK((address & 0x80) == 0);
	SANITY_CHECK((iaddress & 0xFF000000) == 0);
	SANITY_CHECK(isize < 4);

	// Set slave address and number of internal address bytes
	pTwi->TWI_MMR = 0;
	pTwi->TWI_MMR = (isize << 8) \| (address << 16);

	// Set internal address bytes
	pTwi->TWI_IADR = 0;
	pTwi->TWI_IADR = iaddress;

	// Write first byte to send
	TWI_WriteByte(pTwi, byte);
	}

	//-----------------------------------------------------------------------------
	/// Returns 1 if a byte has been received and can be read on the given TWI
	/// peripheral; otherwise, returns 0. This function resets the status register
	/// of the TWI.
	/// \param pTwi Pointer to an AT91S_TWI instance.
	//-----------------------------------------------------------------------------
	unsigned char TWI_ByteReceived(AT91S_TWI *pTwi)
	{
	return ((pTwi->TWI_SR & AT91C_TWI_RXRDY) == AT91C_TWI_RXRDY);
	}

	//-----------------------------------------------------------------------------
	/// Returns 1 if a byte has been sent, so another one can be stored for
	/// transmission; otherwise returns 0. This function clears the status register
	/// of the TWI.
	/// \param pTwi Pointer to an AT91S_TWI instance.
	//-----------------------------------------------------------------------------
	unsigned char TWI_ByteSent(AT91S_TWI *pTwi)
	{
	return ((pTwi->TWI_SR & AT91C_TWI_TXRDY) == AT91C_TWI_TXRDY);
	}

	//-----------------------------------------------------------------------------
	/// Returns 1 if the current transmission is complete (the STOP has been sent);
	/// otherwise returns 0.
	/// \param pTwi Pointer to an AT91S_TWI instance.
	//-----------------------------------------------------------------------------
	unsigned char TWI_TransferComplete(AT91S_TWI *pTwi)
	{
	return ((pTwi->TWI_SR & AT91C_TWI_TXCOMP) == AT91C_TWI_TXCOMP);
	}

	//-----------------------------------------------------------------------------
	/// Enables the selected interrupts sources on a TWI peripheral.
	/// \param pTwi Pointer to an AT91S_TWI instance.
	/// \param sources Bitwise OR of selected interrupt sources.
	//-----------------------------------------------------------------------------
	void TWI_EnableIt(AT91S_TWI *pTwi, unsigned int sources)
	{
	SANITY_CHECK(pTwi);
	SANITY_CHECK((sources & 0xFFFFF088) == 0);

	pTwi->TWI_IER = sources;
	}

	//-----------------------------------------------------------------------------
	/// Disables the selected interrupts sources on a TWI peripheral.
	/// \param pTwi Pointer to an AT91S_TWI instance.
	/// \param sources Bitwise OR of selected interrupt sources.
	//-----------------------------------------------------------------------------
	void TWI_DisableIt(AT91S_TWI *pTwi, unsigned int sources)
	{
	SANITY_CHECK(pTwi);
	SANITY_CHECK((sources & 0xFFFFF088) == 0);

	pTwi->TWI_IDR = sources;
	}

	//-----------------------------------------------------------------------------
	/// Returns the current status register of the given TWI peripheral. This
	/// resets the internal value of the status register, so further read may yield
	/// different values.
	/// \param pTwi Pointer to an AT91S_TWI instance.
	//-----------------------------------------------------------------------------
	unsigned int TWI_GetStatus(AT91S_TWI *pTwi)
	{
	SANITY_CHECK(pTwi);

	return pTwi->TWI_SR;
	}

	//-----------------------------------------------------------------------------
	/// Returns the current status register of the given TWI peripheral, but
	/// masking interrupt sources which are not currently enabled.
	/// This resets the internal value of the status register, so further read may
	/// yield different values.
	/// \param pTwi Pointer to an AT91S_TWI instance.
	//-----------------------------------------------------------------------------
	unsigned int TWI_GetMaskedStatus(AT91S_TWI *pTwi)
	{
	unsigned int status;

	SANITY_CHECK(pTwi);

	status = pTwi->TWI_SR;
	status &= pTwi->TWI_IMR;

	return status;
	}
	//-----------------------------------------------------------------------------
	/// Sends a STOP condition. STOP Condition is sent just after completing
	/// the current byte transmission in master read mode.
	/// \param pTwi Pointer to an AT91S_TWI instance.
	//-----------------------------------------------------------------------------
	void TWI_SendSTOPCondition(AT91S_TWI *pTwi)
	{
	SANITY_CHECK(pTwi);

	pTwi->TWI_CR \|= AT91C_TWI_STOP;
	}