FreeRTOS-Plus/Demo/FreeRTOS_Plus_UDP_and_CLI_LPC1830_GCC/ThirdParty/CMSISv2p10_LPC18xx_DriverLib/inc/lpc18xx_ssp.h - nest-detect/1.0.2/freertos - Git at Google

 /**********************************************************************
 * $Id$		lpc18xx_ssp.h		2011-06-02
 *//**
 * @file		lpc18xx_ssp.h
 * @brief	Contains all macro definitions and function prototypes
 * 			support for SSP 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 ----------------------------------------------------------- */
 /** @defgroup SSP SSP (Synchronous Serial Port)
  * @ingroup LPC1800CMSIS_FwLib_Drivers
  * @{
  */

 #ifndef LPC18XX_SSP_H_
 #define LPC18XX_SSP_H_

 /* Includes ------------------------------------------------------------------- */
 #include "LPC18xx.h"
 #include "lpc_types.h"


 #ifdef __cplusplus
 extern "C"
 {
 #endif

 /* Public Macros -------------------------------------------------------------- */
 /** @defgroup SSP_Private_Macros SSP Private Macros
  * @{
  */

 /*********************************************************************//**
  * SSP configuration parameter defines
  **********************************************************************/
 /** Clock phase control bit */
 #define SSP_CPHA_FIRST			((uint32_t)(0))
 #define SSP_CPHA_SECOND			SSP_CR0_CPHA_SECOND


 /** Clock polarity control bit */
 /* There's no bug here!!!
  * - If bit[6] in SSPnCR0 is 0: SSP controller maintains the bus clock low between frames.
  * That means the active clock is in HI state.
  * - If bit[6] in SSPnCR0 is 1 (SSP_CR0_CPOL_HI): SSP controller maintains the bus clock
  * high between frames. That means the active clock is in LO state.
  */
 #define SSP_CPOL_HI				((uint32_t)(0))
 #define SSP_CPOL_LO				SSP_CR0_CPOL_HI

 /** SSP master mode enable */
 #define SSP_SLAVE_MODE			SSP_CR1_SLAVE_EN
 #define SSP_MASTER_MODE			((uint32_t)(0))

 /** SSP data bit number defines */
 #define SSP_DATABIT_4		SSP_CR0_DSS(4) 			/*!< Databit number = 4 */
 #define SSP_DATABIT_5		SSP_CR0_DSS(5) 			/*!< Databit number = 5 */
 #define SSP_DATABIT_6		SSP_CR0_DSS(6) 			/*!< Databit number = 6 */
 #define SSP_DATABIT_7		SSP_CR0_DSS(7) 			/*!< Databit number = 7 */
 #define SSP_DATABIT_8		SSP_CR0_DSS(8) 			/*!< Databit number = 8 */
 #define SSP_DATABIT_9		SSP_CR0_DSS(9) 			/*!< Databit number = 9 */
 #define SSP_DATABIT_10		SSP_CR0_DSS(10) 		/*!< Databit number = 10 */
 #define SSP_DATABIT_11		SSP_CR0_DSS(11) 		/*!< Databit number = 11 */
 #define SSP_DATABIT_12		SSP_CR0_DSS(12) 		/*!< Databit number = 12 */
 #define SSP_DATABIT_13		SSP_CR0_DSS(13) 		/*!< Databit number = 13 */
 #define SSP_DATABIT_14		SSP_CR0_DSS(14) 		/*!< Databit number = 14 */
 #define SSP_DATABIT_15		SSP_CR0_DSS(15) 		/*!< Databit number = 15 */
 #define SSP_DATABIT_16		SSP_CR0_DSS(16) 		/*!< Databit number = 16 */

 /** SSP Frame Format definition */
 /** Motorola SPI mode */
 #define SSP_FRAME_SPI		SSP_CR0_FRF_SPI
 /** TI synchronous serial mode */
 #define SSP_FRAME_TI		SSP_CR0_FRF_TI
 /** National Micro-wire mode */
 #define SSP_FRAME_MICROWIRE	SSP_CR0_FRF_MICROWIRE

 /*********************************************************************//**
  * SSP Status defines
  **********************************************************************/
 /** SSP status TX FIFO Empty bit */
 #define SSP_STAT_TXFIFO_EMPTY		SSP_SR_TFE
 /** SSP status TX FIFO not full bit */
 #define SSP_STAT_TXFIFO_NOTFULL		SSP_SR_TNF
 /** SSP status RX FIFO not empty bit */
 #define SSP_STAT_RXFIFO_NOTEMPTY	SSP_SR_RNE
 /** SSP status RX FIFO full bit */
 #define SSP_STAT_RXFIFO_FULL		SSP_SR_RFF
 /** SSP status SSP Busy bit */
 #define SSP_STAT_BUSY				SSP_SR_BSY

 /*********************************************************************//**
  * SSP Interrupt Configuration defines
  **********************************************************************/
 /** Receive Overrun */
 #define SSP_INTCFG_ROR		SSP_IMSC_ROR
 /** Receive TimeOut */
 #define SSP_INTCFG_RT		SSP_IMSC_RT
 /** Rx FIFO is at least half full */
 #define SSP_INTCFG_RX		SSP_IMSC_RX
 /** Tx FIFO is at least half empty */
 #define SSP_INTCFG_TX		SSP_IMSC_TX

 /*********************************************************************//**
  * SSP Configured Interrupt Status defines
  **********************************************************************/
 /** Receive Overrun */
 #define SSP_INTSTAT_ROR		SSP_MIS_ROR
 /** Receive TimeOut */
 #define SSP_INTSTAT_RT		SSP_MIS_RT
 /** Rx FIFO is at least half full */
 #define SSP_INTSTAT_RX		SSP_MIS_RX
 /** Tx FIFO is at least half empty */
 #define SSP_INTSTAT_TX		SSP_MIS_TX

 /*********************************************************************//**
  * SSP Raw Interrupt Status defines
  **********************************************************************/
 /** Receive Overrun */
 #define SSP_INTSTAT_RAW_ROR		SSP_RIS_ROR
 /** Receive TimeOut */
 #define SSP_INTSTAT_RAW_RT		SSP_RIS_RT
 /** Rx FIFO is at least half full */
 #define SSP_INTSTAT_RAW_RX		SSP_RIS_RX
 /** Tx FIFO is at least half empty */
 #define SSP_INTSTAT_RAW_TX		SSP_RIS_TX

 /*********************************************************************//**
  * SSP Interrupt Clear defines
  **********************************************************************/
 /** Writing a 1 to this bit clears the "frame was received when
  * RxFIFO was full" interrupt */
 #define SSP_INTCLR_ROR		SSP_ICR_ROR
 /** Writing a 1 to this bit clears the "Rx FIFO was not empty and
  * has not been read for a timeout period" interrupt */
 #define SSP_INTCLR_RT		SSP_ICR_RT

 /*********************************************************************//**
  * SSP DMA defines
  **********************************************************************/
 /** SSP bit for enabling RX DMA */
 #define SSP_DMA_TX		SSP_DMA_RXDMA_EN
 /** SSP bit for enabling TX DMA */
 #define SSP_DMA_RX		SSP_DMA_TXDMA_EN

 /* SSP Status Implementation definitions */
 #define SSP_STAT_DONE		(1UL<<8)		/**< Done */
 #define SSP_STAT_ERROR		(1UL<<9)		/**< Error */


 /* --------------------- BIT DEFINITIONS -------------------------------------- */
 /*********************************************************************//**
  * Macro defines for CR0 register
  **********************************************************************/
 /** SSP data size select, must be 4 bits to 16 bits */
 #define SSP_CR0_DSS(n)   		((uint32_t)((n-1)&0xF))
 /** SSP control 0 Motorola SPI mode */
 #define SSP_CR0_FRF_SPI  		((uint32_t)(0<<4))
 /** SSP control 0 TI synchronous serial mode */
 #define SSP_CR0_FRF_TI   		((uint32_t)(1<<4))
 /** SSP control 0 National Micro-wire mode */
 #define SSP_CR0_FRF_MICROWIRE  	((uint32_t)(2<<4))
 /** SPI clock polarity bit (used in SPI mode only), (1) = maintains the
    bus clock high between frames, (0) = low */
 #define SSP_CR0_CPOL_HI		((uint32_t)(1<<6))
 /** SPI clock out phase bit (used in SPI mode only), (1) = captures data
    on the second clock transition of the frame, (0) = first */
 #define SSP_CR0_CPHA_SECOND	((uint32_t)(1<<7))
 /** SSP serial clock rate value load macro, divider rate is
    PERIPH_CLK / (cpsr * (SCR + 1)) */
 #define SSP_CR0_SCR(n)   	((uint32_t)((n&0xFF)<<8))
 /** SSP CR0 bit mask */
 #define SSP_CR0_BITMASK		((uint32_t)(0xFFFF))

 /*********************************************************************//**
  * Macro defines for CR1 register
  **********************************************************************/
 /** SSP control 1 loopback mode enable bit */
 #define SSP_CR1_LBM_EN		((uint32_t)(1<<0))
 /** SSP control 1 enable bit */
 #define SSP_CR1_SSP_EN		((uint32_t)(1<<1))
 /** SSP control 1 slave enable */
 #define SSP_CR1_SLAVE_EN	((uint32_t)(1<<2))
 /** SSP control 1 slave out disable bit, disables transmit line in slave
    mode */
 #define SSP_CR1_SO_DISABLE	((uint32_t)(1<<3))
 /** SSP CR1 bit mask */
 #define SSP_CR1_BITMASK		((uint32_t)(0x0F))

 /*********************************************************************//**
  * Macro defines for DR register
  **********************************************************************/
 /** SSP data bit mask */
 #define SSP_DR_BITMASK(n)   ((n)&0xFFFF)

 /*********************************************************************//**
  * Macro defines for SR register
  **********************************************************************/
 /** SSP status TX FIFO Empty bit */
 #define SSP_SR_TFE      ((uint32_t)(1<<0))
 /** SSP status TX FIFO not full bit */
 #define SSP_SR_TNF      ((uint32_t)(1<<1))
 /** SSP status RX FIFO not empty bit */
 #define SSP_SR_RNE      ((uint32_t)(1<<2))
 /** SSP status RX FIFO full bit */
 #define SSP_SR_RFF      ((uint32_t)(1<<3))
 /** SSP status SSP Busy bit */
 #define SSP_SR_BSY      ((uint32_t)(1<<4))
 /** SSP SR bit mask */
 #define SSP_SR_BITMASK	((uint32_t)(0x1F))

 /*********************************************************************//**
  * Macro defines for CPSR register
  **********************************************************************/
 /** SSP clock prescaler */
 #define SSP_CPSR_CPDVSR(n) 	((uint32_t)(n&0xFF))
 /** SSP CPSR bit mask */
 #define SSP_CPSR_BITMASK	((uint32_t)(0xFF))

 /*********************************************************************//**
  * Macro define for (IMSC) Interrupt Mask Set/Clear registers
  **********************************************************************/
 /** Receive Overrun */
 #define SSP_IMSC_ROR	((uint32_t)(1<<0))
 /** Receive TimeOut */
 #define SSP_IMSC_RT		((uint32_t)(1<<1))
 /** Rx FIFO is at least half full */
 #define SSP_IMSC_RX		((uint32_t)(1<<2))
 /** Tx FIFO is at least half empty */
 #define SSP_IMSC_TX		((uint32_t)(1<<3))
 /** IMSC bit mask */
 #define SSP_IMSC_BITMASK	((uint32_t)(0x0F))

 /*********************************************************************//**
  * Macro define for (RIS) Raw Interrupt Status registers
  **********************************************************************/
 /** Receive Overrun */
 #define SSP_RIS_ROR		((uint32_t)(1<<0))
 /** Receive TimeOut */
 #define SSP_RIS_RT		((uint32_t)(1<<1))
 /** Rx FIFO is at least half full */
 #define SSP_RIS_RX		((uint32_t)(1<<2))
 /** Tx FIFO is at least half empty */
 #define SSP_RIS_TX		((uint32_t)(1<<3))
 /** RIS bit mask */
 #define SSP_RIS_BITMASK	((uint32_t)(0x0F))

 /*********************************************************************//**
  * Macro define for (MIS) Masked Interrupt Status registers
  **********************************************************************/
 /** Receive Overrun */
 #define SSP_MIS_ROR		((uint32_t)(1<<0))
 /** Receive TimeOut */
 #define SSP_MIS_RT		((uint32_t)(1<<1))
 /** Rx FIFO is at least half full */
 #define SSP_MIS_RX		((uint32_t)(1<<2))
 /** Tx FIFO is at least half empty */
 #define SSP_MIS_TX		((uint32_t)(1<<3))
 /** MIS bit mask */
 #define SSP_MIS_BITMASK	((uint32_t)(0x0F))

 /*********************************************************************//**
  * Macro define for (ICR) Interrupt Clear registers
  **********************************************************************/
 /** Writing a 1 to this bit clears the "frame was received when
  * RxFIFO was full" interrupt */
 #define SSP_ICR_ROR		((uint32_t)(1<<0))
 /** Writing a 1 to this bit clears the "Rx FIFO was not empty and
  * has not been read for a timeout period" interrupt */
 #define SSP_ICR_RT		((uint32_t)(1<<1))
 /** ICR bit mask */
 #define SSP_ICR_BITMASK	((uint32_t)(0x03))

 /*********************************************************************//**
  * Macro defines for DMACR register
  **********************************************************************/
 /** SSP bit for enabling RX DMA */
 #define SSP_DMA_RXDMA_EN  	((uint32_t)(1<<0))
 /** SSP bit for enabling TX DMA */
 #define SSP_DMA_TXDMA_EN  	((uint32_t)(1<<1))
 /** DMACR	bit mask */
 #define SSP_DMA_BITMASK		((uint32_t)(0x03))


 /* ---------------- CHECK PARAMETER DEFINITIONS ---------------------------- */
 /** Macro to determine if it is valid SSP port number */
 #define PARAM_SSPx(n)	((((uint32_t *)n)==((uint32_t *)LPC_SSP0)) \
 || (((uint32_t *)n)==((uint32_t *)LPC_SSP1)))

 /** Macro check clock phase control mode */
 #define PARAM_SSP_CPHA(n) 		((n==SSP_CPHA_FIRST) || (n==SSP_CPHA_SECOND))

 /** Macro check clock polarity mode */
 #define PARAM_SSP_CPOL(n)		((n==SSP_CPOL_HI) || (n==SSP_CPOL_LO))

 /* Macro check master/slave mode */
 #define PARAM_SSP_MODE(n)		((n==SSP_SLAVE_MODE) || (n==SSP_MASTER_MODE))

 /* Macro check databit value */
 #define PARAM_SSP_DATABIT(n) 	((n==SSP_DATABIT_4) || (n==SSP_DATABIT_5) \
 || (n==SSP_DATABIT_6) || (n==SSP_DATABIT_16) \
 || (n==SSP_DATABIT_7) || (n==SSP_DATABIT_8) \
 || (n==SSP_DATABIT_9) || (n==SSP_DATABIT_10) \
 || (n==SSP_DATABIT_11) || (n==SSP_DATABIT_12) \
 || (n==SSP_DATABIT_13) || (n==SSP_DATABIT_14) \
 || (n==SSP_DATABIT_15))

 /* Macro check frame type */
 #define PARAM_SSP_FRAME(n) ((n==SSP_FRAME_SPI) || (n==SSP_FRAME_TI)\
 || (n==SSP_FRAME_MICROWIRE))

 /* Macro check SSP status */
 #define PARAM_SSP_STAT(n) ((n==SSP_STAT_TXFIFO_EMPTY) || (n==SSP_STAT_TXFIFO_NOTFULL) \
 || (n==SSP_STAT_RXFIFO_NOTEMPTY) || (n==SSP_STAT_RXFIFO_FULL) \
 || (n==SSP_STAT_BUSY))

 /* Macro check interrupt configuration */
 #define PARAM_SSP_INTCFG(n)	((n==SSP_INTCFG_ROR) || (n==SSP_INTCFG_RT) \
 || (n==SSP_INTCFG_RX) || (n==SSP_INTCFG_TX))

 /* Macro check interrupt status value */
 #define PARAM_SSP_INTSTAT(n) ((n==SSP_INTSTAT_ROR) || (n==SSP_INTSTAT_RT) \
 || (n==SSP_INTSTAT_RX) || (n==SSP_INTSTAT_TX))

 /* Macro check interrupt status raw value */
 #define PARAM_SSP_INTSTAT_RAW(n)	((n==SSP_INTSTAT_RAW_ROR) || (n==SSP_INTSTAT_RAW_RT) \
 || (n==SSP_INTSTAT_RAW_RX) || (n==SSP_INTSTAT_RAW_TX))

 /* Macro check interrupt clear mode */
 #define PARAM_SSP_INTCLR(n)	((n==SSP_INTCLR_ROR) || (n==SSP_INTCLR_RT))

 /* Macro check DMA mode */
 #define PARAM_SSP_DMA(n)	((n==SSP_DMA_TX) || (n==SSP_DMA_RX))
 /**
  * @}
  */


 /* Public Types --------------------------------------------------------------- */
 /** @defgroup SSP_Public_Types SSP Public Types
  * @{
  */

 /** @brief SSP configuration structure */
 typedef struct {
 	uint32_t Databit; 		/** Databit number, should be SSP_DATABIT_x,
 							where x is in range from 4 - 16 */
 	uint32_t CPHA;			/** Clock phase, should be:
 								- SSP_CPHA_FIRST: first clock edge
 								- SSP_CPHA_SECOND: second clock edge */
 	uint32_t CPOL;			/** Clock polarity, should be:
 								- SSP_CPOL_HI: high level
 								- SSP_CPOL_LO: low level */
 	uint32_t Mode;			/** SSP mode, should be:
 								- SSP_MASTER_MODE: Master mode
 								- SSP_SLAVE_MODE: Slave mode */
 	uint32_t FrameFormat;	/** Frame Format:
 								- SSP_FRAME_SPI: Motorola SPI frame format
 								- SSP_FRAME_TI: TI frame format
 								- SSP_FRAME_MICROWIRE: National Microwire frame format */
 	uint32_t ClockRate;		/** Clock rate,in Hz */
 } SSP_CFG_Type;

 /**
  * @brief SSP Transfer Type definitions
  */
 typedef enum {
 	SSP_TRANSFER_POLLING = 0,	/**< Polling transfer */
 	SSP_TRANSFER_INTERRUPT		/**< Interrupt transfer */
 } SSP_TRANSFER_Type;

 /**
  * @brief SPI Data configuration structure definitions
  */
 typedef struct {
 	void *tx_data;				/**< Pointer to transmit data */
 	uint32_t tx_cnt;			/**< Transmit counter */
 	void *rx_data;				/**< Pointer to transmit data */
 	uint32_t rx_cnt;			/**< Receive counter */
 	uint32_t length;			/**< Length of transfer data */
 	uint32_t status;			/**< Current status of SSP activity */
 } SSP_DATA_SETUP_Type;


 /**
  * @}
  */


 /* Public Functions ----------------------------------------------------------- */
 /** @defgroup SSP_Public_Functions SSP Public Functions
  * @{
  */

 void SSP_Init(LPC_SSPn_Type *SSPx, SSP_CFG_Type *SSP_ConfigStruct);
 void SSP_DeInit(LPC_SSPn_Type* SSPx);

 void SSP_ConfigStructInit(SSP_CFG_Type *SSP_InitStruct);
 void SSP_Cmd(LPC_SSPn_Type* SSPx, FunctionalState NewState);
 void SSP_LoopBackCmd(LPC_SSPn_Type* SSPx, FunctionalState NewState);
 void SSP_SlaveOutputCmd(LPC_SSPn_Type* SSPx, FunctionalState NewState);
 void SSP_SendData(LPC_SSPn_Type* SSPx, uint16_t Data);
 uint16_t SSP_ReceiveData(LPC_SSPn_Type* SSPx);
 int32_t SSP_ReadWrite (LPC_SSPn_Type *SSPx, SSP_DATA_SETUP_Type *dataCfg, \
 						SSP_TRANSFER_Type xfType);
 FlagStatus SSP_GetStatus(LPC_SSPn_Type* SSPx, uint32_t FlagType);
 uint8_t SSP_GetDataSize(LPC_SSPn_Type* SSPx);
 void SSP_IntConfig(LPC_SSPn_Type *SSPx, uint32_t IntType, FunctionalState NewState);
 IntStatus SSP_GetRawIntStatus(LPC_SSPn_Type *SSPx, uint32_t RawIntType);
 IntStatus SSP_GetIntStatus (LPC_SSPn_Type *SSPx, uint32_t IntType);
 void SSP_ClearIntPending(LPC_SSPn_Type *SSPx, uint32_t IntType);
 void SSP_DMACmd(LPC_SSPn_Type *SSPx, uint32_t DMAMode, FunctionalState NewState);

 /**
  * @}
  */

 #ifdef __cplusplus
 }
 #endif

 #endif /* LPC18XX_SSP_H_ */

 /**
  * @}
  */

 /* --------------------------------- End Of File ------------------------------ */
	/**********************************************************************
	* $Id$ lpc18xx_ssp.h 2011-06-02
	//*
	* @file lpc18xx_ssp.h
	* @brief Contains all macro definitions and function prototypes
	* support for SSP 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 ----------------------------------------------------------- */
	/** @defgroup SSP SSP (Synchronous Serial Port)
	* @ingroup LPC1800CMSIS_FwLib_Drivers
	* @{
	*/

	#ifndef LPC18XX_SSP_H_
	#define LPC18XX_SSP_H_

	/* Includes ------------------------------------------------------------------- */
	#include "LPC18xx.h"
	#include "lpc_types.h"


	#ifdef __cplusplus
	extern "C"
	{
	#endif

	/* Public Macros -------------------------------------------------------------- */
	/** @defgroup SSP_Private_Macros SSP Private Macros
	* @{
	*/

	/*******************************************************************//
	* SSP configuration parameter defines
	**********************************************************************/
	/** Clock phase control bit */
	#define SSP_CPHA_FIRST ((uint32_t)(0))
	#define SSP_CPHA_SECOND SSP_CR0_CPHA_SECOND


	/** Clock polarity control bit */
	/* There's no bug here!!!
	* - If bit[6] in SSPnCR0 is 0: SSP controller maintains the bus clock low between frames.
	* That means the active clock is in HI state.
	* - If bit[6] in SSPnCR0 is 1 (SSP_CR0_CPOL_HI): SSP controller maintains the bus clock
	* high between frames. That means the active clock is in LO state.
	*/
	#define SSP_CPOL_HI ((uint32_t)(0))
	#define SSP_CPOL_LO SSP_CR0_CPOL_HI

	/** SSP master mode enable */
	#define SSP_SLAVE_MODE SSP_CR1_SLAVE_EN
	#define SSP_MASTER_MODE ((uint32_t)(0))

	/** SSP data bit number defines */
	#define SSP_DATABIT_4 SSP_CR0_DSS(4) /!< Databit number = 4 /
	#define SSP_DATABIT_5 SSP_CR0_DSS(5) /!< Databit number = 5 /
	#define SSP_DATABIT_6 SSP_CR0_DSS(6) /!< Databit number = 6 /
	#define SSP_DATABIT_7 SSP_CR0_DSS(7) /!< Databit number = 7 /
	#define SSP_DATABIT_8 SSP_CR0_DSS(8) /!< Databit number = 8 /
	#define SSP_DATABIT_9 SSP_CR0_DSS(9) /!< Databit number = 9 /
	#define SSP_DATABIT_10 SSP_CR0_DSS(10) /!< Databit number = 10 /
	#define SSP_DATABIT_11 SSP_CR0_DSS(11) /!< Databit number = 11 /
	#define SSP_DATABIT_12 SSP_CR0_DSS(12) /!< Databit number = 12 /
	#define SSP_DATABIT_13 SSP_CR0_DSS(13) /!< Databit number = 13 /
	#define SSP_DATABIT_14 SSP_CR0_DSS(14) /!< Databit number = 14 /
	#define SSP_DATABIT_15 SSP_CR0_DSS(15) /!< Databit number = 15 /
	#define SSP_DATABIT_16 SSP_CR0_DSS(16) /!< Databit number = 16 /

	/** SSP Frame Format definition */
	/** Motorola SPI mode */
	#define SSP_FRAME_SPI SSP_CR0_FRF_SPI
	/** TI synchronous serial mode */
	#define SSP_FRAME_TI SSP_CR0_FRF_TI
	/** National Micro-wire mode */
	#define SSP_FRAME_MICROWIRE SSP_CR0_FRF_MICROWIRE

	/*******************************************************************//
	* SSP Status defines
	**********************************************************************/
	/** SSP status TX FIFO Empty bit */
	#define SSP_STAT_TXFIFO_EMPTY SSP_SR_TFE
	/** SSP status TX FIFO not full bit */
	#define SSP_STAT_TXFIFO_NOTFULL SSP_SR_TNF
	/** SSP status RX FIFO not empty bit */
	#define SSP_STAT_RXFIFO_NOTEMPTY SSP_SR_RNE
	/** SSP status RX FIFO full bit */
	#define SSP_STAT_RXFIFO_FULL SSP_SR_RFF
	/** SSP status SSP Busy bit */
	#define SSP_STAT_BUSY SSP_SR_BSY

	/*******************************************************************//
	* SSP Interrupt Configuration defines
	**********************************************************************/
	/** Receive Overrun */
	#define SSP_INTCFG_ROR SSP_IMSC_ROR
	/** Receive TimeOut */
	#define SSP_INTCFG_RT SSP_IMSC_RT
	/** Rx FIFO is at least half full */
	#define SSP_INTCFG_RX SSP_IMSC_RX
	/** Tx FIFO is at least half empty */
	#define SSP_INTCFG_TX SSP_IMSC_TX

	/*******************************************************************//
	* SSP Configured Interrupt Status defines
	**********************************************************************/
	/** Receive Overrun */
	#define SSP_INTSTAT_ROR SSP_MIS_ROR
	/** Receive TimeOut */
	#define SSP_INTSTAT_RT SSP_MIS_RT
	/** Rx FIFO is at least half full */
	#define SSP_INTSTAT_RX SSP_MIS_RX
	/** Tx FIFO is at least half empty */
	#define SSP_INTSTAT_TX SSP_MIS_TX

	/*******************************************************************//
	* SSP Raw Interrupt Status defines
	**********************************************************************/
	/** Receive Overrun */
	#define SSP_INTSTAT_RAW_ROR SSP_RIS_ROR
	/** Receive TimeOut */
	#define SSP_INTSTAT_RAW_RT SSP_RIS_RT
	/** Rx FIFO is at least half full */
	#define SSP_INTSTAT_RAW_RX SSP_RIS_RX
	/** Tx FIFO is at least half empty */
	#define SSP_INTSTAT_RAW_TX SSP_RIS_TX

	/*******************************************************************//
	* SSP Interrupt Clear defines
	**********************************************************************/
	/** Writing a 1 to this bit clears the "frame was received when
	* RxFIFO was full" interrupt */
	#define SSP_INTCLR_ROR SSP_ICR_ROR
	/** Writing a 1 to this bit clears the "Rx FIFO was not empty and
	* has not been read for a timeout period" interrupt */
	#define SSP_INTCLR_RT SSP_ICR_RT

	/*******************************************************************//
	* SSP DMA defines
	**********************************************************************/
	/** SSP bit for enabling RX DMA */
	#define SSP_DMA_TX SSP_DMA_RXDMA_EN
	/** SSP bit for enabling TX DMA */
	#define SSP_DMA_RX SSP_DMA_TXDMA_EN

	/* SSP Status Implementation definitions */
	#define SSP_STAT_DONE (1UL<<8) /*< Done /
	#define SSP_STAT_ERROR (1UL<<9) /*< Error /


	/* --------------------- BIT DEFINITIONS -------------------------------------- */
	/*******************************************************************//
	* Macro defines for CR0 register
	**********************************************************************/
	/** SSP data size select, must be 4 bits to 16 bits */
	#define SSP_CR0_DSS(n) ((uint32_t)((n-1)&0xF))
	/** SSP control 0 Motorola SPI mode */
	#define SSP_CR0_FRF_SPI ((uint32_t)(0<<4))
	/** SSP control 0 TI synchronous serial mode */
	#define SSP_CR0_FRF_TI ((uint32_t)(1<<4))
	/** SSP control 0 National Micro-wire mode */
	#define SSP_CR0_FRF_MICROWIRE ((uint32_t)(2<<4))
	/** SPI clock polarity bit (used in SPI mode only), (1) = maintains the
	bus clock high between frames, (0) = low */
	#define SSP_CR0_CPOL_HI ((uint32_t)(1<<6))
	/** SPI clock out phase bit (used in SPI mode only), (1) = captures data
	on the second clock transition of the frame, (0) = first */
	#define SSP_CR0_CPHA_SECOND ((uint32_t)(1<<7))
	/** SSP serial clock rate value load macro, divider rate is
	PERIPH_CLK / (cpsr * (SCR + 1)) */
	#define SSP_CR0_SCR(n) ((uint32_t)((n&0xFF)<<8))
	/** SSP CR0 bit mask */
	#define SSP_CR0_BITMASK ((uint32_t)(0xFFFF))

	/*******************************************************************//
	* Macro defines for CR1 register
	**********************************************************************/
	/** SSP control 1 loopback mode enable bit */
	#define SSP_CR1_LBM_EN ((uint32_t)(1<<0))
	/** SSP control 1 enable bit */
	#define SSP_CR1_SSP_EN ((uint32_t)(1<<1))
	/** SSP control 1 slave enable */
	#define SSP_CR1_SLAVE_EN ((uint32_t)(1<<2))
	/** SSP control 1 slave out disable bit, disables transmit line in slave
	mode */
	#define SSP_CR1_SO_DISABLE ((uint32_t)(1<<3))
	/** SSP CR1 bit mask */
	#define SSP_CR1_BITMASK ((uint32_t)(0x0F))

	/*******************************************************************//
	* Macro defines for DR register
	**********************************************************************/
	/** SSP data bit mask */
	#define SSP_DR_BITMASK(n) ((n)&0xFFFF)

	/*******************************************************************//
	* Macro defines for SR register
	**********************************************************************/
	/** SSP status TX FIFO Empty bit */
	#define SSP_SR_TFE ((uint32_t)(1<<0))
	/** SSP status TX FIFO not full bit */
	#define SSP_SR_TNF ((uint32_t)(1<<1))
	/** SSP status RX FIFO not empty bit */
	#define SSP_SR_RNE ((uint32_t)(1<<2))
	/** SSP status RX FIFO full bit */
	#define SSP_SR_RFF ((uint32_t)(1<<3))
	/** SSP status SSP Busy bit */
	#define SSP_SR_BSY ((uint32_t)(1<<4))
	/** SSP SR bit mask */
	#define SSP_SR_BITMASK ((uint32_t)(0x1F))

	/*******************************************************************//
	* Macro defines for CPSR register
	**********************************************************************/
	/** SSP clock prescaler */
	#define SSP_CPSR_CPDVSR(n) ((uint32_t)(n&0xFF))
	/** SSP CPSR bit mask */
	#define SSP_CPSR_BITMASK ((uint32_t)(0xFF))

	/*******************************************************************//
	* Macro define for (IMSC) Interrupt Mask Set/Clear registers
	**********************************************************************/
	/** Receive Overrun */
	#define SSP_IMSC_ROR ((uint32_t)(1<<0))
	/** Receive TimeOut */
	#define SSP_IMSC_RT ((uint32_t)(1<<1))
	/** Rx FIFO is at least half full */
	#define SSP_IMSC_RX ((uint32_t)(1<<2))
	/** Tx FIFO is at least half empty */
	#define SSP_IMSC_TX ((uint32_t)(1<<3))
	/** IMSC bit mask */
	#define SSP_IMSC_BITMASK ((uint32_t)(0x0F))

	/*******************************************************************//
	* Macro define for (RIS) Raw Interrupt Status registers
	**********************************************************************/
	/** Receive Overrun */
	#define SSP_RIS_ROR ((uint32_t)(1<<0))
	/** Receive TimeOut */
	#define SSP_RIS_RT ((uint32_t)(1<<1))
	/** Rx FIFO is at least half full */
	#define SSP_RIS_RX ((uint32_t)(1<<2))
	/** Tx FIFO is at least half empty */
	#define SSP_RIS_TX ((uint32_t)(1<<3))
	/** RIS bit mask */
	#define SSP_RIS_BITMASK ((uint32_t)(0x0F))

	/*******************************************************************//
	* Macro define for (MIS) Masked Interrupt Status registers
	**********************************************************************/
	/** Receive Overrun */
	#define SSP_MIS_ROR ((uint32_t)(1<<0))
	/** Receive TimeOut */
	#define SSP_MIS_RT ((uint32_t)(1<<1))
	/** Rx FIFO is at least half full */
	#define SSP_MIS_RX ((uint32_t)(1<<2))
	/** Tx FIFO is at least half empty */
	#define SSP_MIS_TX ((uint32_t)(1<<3))
	/** MIS bit mask */
	#define SSP_MIS_BITMASK ((uint32_t)(0x0F))

	/*******************************************************************//
	* Macro define for (ICR) Interrupt Clear registers
	**********************************************************************/
	/** Writing a 1 to this bit clears the "frame was received when
	* RxFIFO was full" interrupt */
	#define SSP_ICR_ROR ((uint32_t)(1<<0))
	/** Writing a 1 to this bit clears the "Rx FIFO was not empty and
	* has not been read for a timeout period" interrupt */
	#define SSP_ICR_RT ((uint32_t)(1<<1))
	/** ICR bit mask */
	#define SSP_ICR_BITMASK ((uint32_t)(0x03))

	/*******************************************************************//
	* Macro defines for DMACR register
	**********************************************************************/
	/** SSP bit for enabling RX DMA */
	#define SSP_DMA_RXDMA_EN ((uint32_t)(1<<0))
	/** SSP bit for enabling TX DMA */
	#define SSP_DMA_TXDMA_EN ((uint32_t)(1<<1))
	/** DMACR bit mask */
	#define SSP_DMA_BITMASK ((uint32_t)(0x03))


	/* ---------------- CHECK PARAMETER DEFINITIONS ---------------------------- */
	/** Macro to determine if it is valid SSP port number */
	#define PARAM_SSPx(n) ((((uint32_t )n)==((uint32_t )LPC_SSP0)) \
	\|\| (((uint32_t )n)==((uint32_t )LPC_SSP1)))

	/** Macro check clock phase control mode */
	#define PARAM_SSP_CPHA(n) ((n==SSP_CPHA_FIRST) \|\| (n==SSP_CPHA_SECOND))

	/** Macro check clock polarity mode */
	#define PARAM_SSP_CPOL(n) ((n==SSP_CPOL_HI) \|\| (n==SSP_CPOL_LO))

	/* Macro check master/slave mode */
	#define PARAM_SSP_MODE(n) ((n==SSP_SLAVE_MODE) \|\| (n==SSP_MASTER_MODE))

	/* Macro check databit value */
	#define PARAM_SSP_DATABIT(n) ((n==SSP_DATABIT_4) \|\| (n==SSP_DATABIT_5) \
	\|\| (n==SSP_DATABIT_6) \|\| (n==SSP_DATABIT_16) \
	\|\| (n==SSP_DATABIT_7) \|\| (n==SSP_DATABIT_8) \
	\|\| (n==SSP_DATABIT_9) \|\| (n==SSP_DATABIT_10) \
	\|\| (n==SSP_DATABIT_11) \|\| (n==SSP_DATABIT_12) \
	\|\| (n==SSP_DATABIT_13) \|\| (n==SSP_DATABIT_14) \
	\|\| (n==SSP_DATABIT_15))

	/* Macro check frame type */
	#define PARAM_SSP_FRAME(n) ((n==SSP_FRAME_SPI) \|\| (n==SSP_FRAME_TI)\
	\|\| (n==SSP_FRAME_MICROWIRE))

	/* Macro check SSP status */
	#define PARAM_SSP_STAT(n) ((n==SSP_STAT_TXFIFO_EMPTY) \|\| (n==SSP_STAT_TXFIFO_NOTFULL) \
	\|\| (n==SSP_STAT_RXFIFO_NOTEMPTY) \|\| (n==SSP_STAT_RXFIFO_FULL) \
	\|\| (n==SSP_STAT_BUSY))

	/* Macro check interrupt configuration */
	#define PARAM_SSP_INTCFG(n) ((n==SSP_INTCFG_ROR) \|\| (n==SSP_INTCFG_RT) \
	\|\| (n==SSP_INTCFG_RX) \|\| (n==SSP_INTCFG_TX))

	/* Macro check interrupt status value */
	#define PARAM_SSP_INTSTAT(n) ((n==SSP_INTSTAT_ROR) \|\| (n==SSP_INTSTAT_RT) \
	\|\| (n==SSP_INTSTAT_RX) \|\| (n==SSP_INTSTAT_TX))

	/* Macro check interrupt status raw value */
	#define PARAM_SSP_INTSTAT_RAW(n) ((n==SSP_INTSTAT_RAW_ROR) \|\| (n==SSP_INTSTAT_RAW_RT) \
	\|\| (n==SSP_INTSTAT_RAW_RX) \|\| (n==SSP_INTSTAT_RAW_TX))

	/* Macro check interrupt clear mode */
	#define PARAM_SSP_INTCLR(n) ((n==SSP_INTCLR_ROR) \|\| (n==SSP_INTCLR_RT))

	/* Macro check DMA mode */
	#define PARAM_SSP_DMA(n) ((n==SSP_DMA_TX) \|\| (n==SSP_DMA_RX))
	/**
	* @}
	*/


	/* Public Types --------------------------------------------------------------- */
	/** @defgroup SSP_Public_Types SSP Public Types
	* @{
	*/

	/** @brief SSP configuration structure */
	typedef struct {
	uint32_t Databit; /** Databit number, should be SSP_DATABIT_x,
	where x is in range from 4 - 16 */
	uint32_t CPHA; /** Clock phase, should be:
	- SSP_CPHA_FIRST: first clock edge
	- SSP_CPHA_SECOND: second clock edge */
	uint32_t CPOL; /** Clock polarity, should be:
	- SSP_CPOL_HI: high level
	- SSP_CPOL_LO: low level */
	uint32_t Mode; /** SSP mode, should be:
	- SSP_MASTER_MODE: Master mode
	- SSP_SLAVE_MODE: Slave mode */
	uint32_t FrameFormat; /** Frame Format:
	- SSP_FRAME_SPI: Motorola SPI frame format
	- SSP_FRAME_TI: TI frame format
	- SSP_FRAME_MICROWIRE: National Microwire frame format */
	uint32_t ClockRate; /** Clock rate,in Hz */
	} SSP_CFG_Type;

	/**
	* @brief SSP Transfer Type definitions
	*/
	typedef enum {
	SSP_TRANSFER_POLLING = 0, /*< Polling transfer /
	SSP_TRANSFER_INTERRUPT /*< Interrupt transfer /
	} SSP_TRANSFER_Type;

	/**
	* @brief SPI Data configuration structure definitions
	*/
	typedef struct {
	void tx_data; /< Pointer to transmit data /
	uint32_t tx_cnt; /*< Transmit counter /
	void rx_data; /< Pointer to transmit data /
	uint32_t rx_cnt; /*< Receive counter /
	uint32_t length; /*< Length of transfer data /
	uint32_t status; /*< Current status of SSP activity /
	} SSP_DATA_SETUP_Type;


	/**
	* @}
	*/


	/* Public Functions ----------------------------------------------------------- */
	/** @defgroup SSP_Public_Functions SSP Public Functions
	* @{
	*/

	void SSP_Init(LPC_SSPn_Type SSPx, SSP_CFG_Type SSP_ConfigStruct);
	void SSP_DeInit(LPC_SSPn_Type* SSPx);

	void SSP_ConfigStructInit(SSP_CFG_Type *SSP_InitStruct);
	void SSP_Cmd(LPC_SSPn_Type* SSPx, FunctionalState NewState);
	void SSP_LoopBackCmd(LPC_SSPn_Type* SSPx, FunctionalState NewState);
	void SSP_SlaveOutputCmd(LPC_SSPn_Type* SSPx, FunctionalState NewState);
	void SSP_SendData(LPC_SSPn_Type* SSPx, uint16_t Data);
	uint16_t SSP_ReceiveData(LPC_SSPn_Type* SSPx);
	int32_t SSP_ReadWrite (LPC_SSPn_Type SSPx, SSP_DATA_SETUP_Type dataCfg, \
	SSP_TRANSFER_Type xfType);
	FlagStatus SSP_GetStatus(LPC_SSPn_Type* SSPx, uint32_t FlagType);
	uint8_t SSP_GetDataSize(LPC_SSPn_Type* SSPx);
	void SSP_IntConfig(LPC_SSPn_Type *SSPx, uint32_t IntType, FunctionalState NewState);
	IntStatus SSP_GetRawIntStatus(LPC_SSPn_Type *SSPx, uint32_t RawIntType);
	IntStatus SSP_GetIntStatus (LPC_SSPn_Type *SSPx, uint32_t IntType);
	void SSP_ClearIntPending(LPC_SSPn_Type *SSPx, uint32_t IntType);
	void SSP_DMACmd(LPC_SSPn_Type *SSPx, uint32_t DMAMode, FunctionalState NewState);

	/**
	* @}
	*/

	#ifdef __cplusplus
	}
	#endif

	#endif /* LPC18XX_SSP_H_ */

	/**
	* @}
	*/

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