FreeRTOS-Plus/Demo/FreeRTOS_Plus_UDP_and_CLI_LPC1830_GCC/ThirdParty/CMSISv2p10_LPC18xx_DriverLib/inc/lpc18xx_adc.h - nest-detect/1.0.1/freertos - Git at Google

 /**********************************************************************
 * $Id$		lpc18xx_adc.h			2011-06-02
 *//**
 * @file		lpc18xx_adc.h
 * @brief	Contains all macro definitions and function prototypes
 * 			support for ADC 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 ADC ADC (Analog to Digital Converter)
  * @ingroup LPC1800CMSIS_FwLib_Drivers
  * @{
  */

 #ifndef LPC18XX_ADC_H_
 #define LPC18XX_ADC_H_

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


 #ifdef __cplusplus
 extern "C"
 {
 #endif

 /* Private macros ------------------------------------------------------------- */
 /** @defgroup ADC_Private_Macros ADC Private Macros
  * @{
  */

 /* -------------------------- BIT DEFINITIONS ----------------------------------- */
 /*********************************************************************//**
  * Macro defines for ADC  control register
  **********************************************************************/
 /**  Selects which of the AD0.0:7 pins is (are) to be sampled and converted */
 #define ADC_CR_CH_SEL(n)	((1UL << n))
 /**  The APB clock (PCLK) is divided by (this value plus one)
 * to produce the clock for the A/D */
 #define ADC_CR_CLKDIV(n)	((n<<8))
 /**  Repeated conversions A/D enable bit */
 #define ADC_CR_BURST		((1UL<<16))
 /**  number of accuracy bits */
 #define ADC_CR_BITACC(n)	(((n)<<17))
 /**  ADC convert in power down mode */
 #define ADC_CR_PDN			((1UL<<21))
 /**  Start mask bits */
 #define ADC_CR_START_MASK	((7UL<<24))
 /**  Select Start Mode */
 #define ADC_CR_START_MODE_SEL(SEL)	((SEL<<24))
 /**  Start conversion now */
 #define ADC_CR_START_NOW		((1UL<<24))
 /**  Start conversion when the edge selected by bit 27 occurs on CTOUT_15 */
 #define ADC_CR_START_CTOUT15	((2UL<<24))
 /** Start conversion when the edge selected by bit 27 occurs on CTOUT_8 */
 #define ADC_CR_START_CTOUT8		((3UL<<24))
 /**  Start conversion when the edge selected by bit 27 occurs on ADCTRIG0 */
 #define ADC_CR_START_ADCTRIG0	((4UL<<24))
 /**  Start conversion when the edge selected by bit 27 occurs on ADCTRIG1 */
 #define ADC_CR_START_ADCTRIG1	((5UL<<24))
 /**  Start conversion when the edge selected by bit 27 occurs on Motocon PWM output MCOA2 */
 #define ADC_CR_START_MCOA2		((6UL<<24))
 /**  Start conversion on a falling edge on the selected CAP/MAT signal */
 #define ADC_CR_EDGE			((1UL<<27))

 /*********************************************************************//**
  * Macro defines for ADC Global Data register
  **********************************************************************/
 /** When DONE is 1, this field contains result value of ADC conversion */
 #define ADC_GDR_RESULT(n)		(((n>>4)&0xFFF))
 /** These bits contain the channel from which the LS bits were converted */
 #define ADC_GDR_CH(n)			(((n>>24)&0x7))
 /** This bit is 1 in burst mode if the results of one or
  * more conversions was (were) lost */
 #define ADC_GDR_OVERRUN_FLAG	((1UL<<30))
 /** This bit is set to 1 when an A/D conversion completes */
 #define ADC_GDR_DONE_FLAG		((1UL<<31))

 /** This bits is used to mask for Channel */
 #define ADC_GDR_CH_MASK		((7UL<<24))
 /*********************************************************************//**
  * Macro defines for ADC Interrupt register
  **********************************************************************/
 /** These bits allow control over which A/D channels generate
  * interrupts for conversion completion */
 #define ADC_INTEN_CH(n)			((1UL<<n))
 /** When 1, enables the global DONE flag in ADDR to generate an interrupt */
 #define ADC_INTEN_GLOBAL		((1UL<<8))

 /*********************************************************************//**
  * Macro defines for ADC Data register
  **********************************************************************/
 /** When DONE is 1, this field contains result value of ADC conversion */
 #define ADC_DR_RESULT(n)		(((n>>6)&0x3FF))
 /** These bits mirror the OVERRRUN status flags that appear in the
  * result register for each A/D channel */
 #define ADC_DR_OVERRUN_FLAG		((1UL<<30))
 /** This bit is set to 1 when an A/D conversion completes. It is cleared
  * when this register is read */
 #define ADC_DR_DONE_FLAG		((1UL<<31))

 /*********************************************************************//**
  * Macro defines for ADC Status register
 **********************************************************************/
 /** These bits mirror the DONE status flags that appear in the result
  * register for each A/D channel */
 #define ADC_STAT_CH_DONE_FLAG(n)		((n&0xFF))
 /** These bits mirror the OVERRRUN status flags that appear in the
  * result register for each A/D channel */
 #define ADC_STAT_CH_OVERRUN_FLAG(n)		(((n>>8)&0xFF))
 /** This bit is the A/D interrupt flag */
 #define ADC_STAT_INT_FLAG				((1UL<<16))

 /*********************************************************************//**
  * Macro defines for ADC Trim register
 **********************************************************************/
 /** Offset trim bits for ADC operation */
 #define ADC_ADCOFFS(n)		(((n&0xF)<<4))
 /** Written to boot code*/
 #define ADC_TRIM(n)		    (((n&0xF)<<8))

 /* ------------------- CHECK PARAM DEFINITIONS ------------------------- */
 /** Check ADC parameter */
 #define PARAM_ADCx(n)    (((uint32_t *)n)==((uint32_t *)LPC_ADC0) || ((uint32_t *)n)==((uint32_t *)LPC_ADC1))

 /** Check ADC state parameter */
 #define PARAM_ADC_START_ON_EDGE_OPT(OPT)    ((OPT == ADC_START_ON_RISING)||(OPT == ADC_START_ON_FALLING))

 /** Check ADC state parameter */
 #define PARAM_ADC_DATA_STATUS(OPT)    ((OPT== ADC_DATA_BURST)||(OPT== ADC_DATA_DONE))

 /** Check ADC rate parameter */
 #define PARAM_ADC_RATE(rate)	((rate>0)&&(rate<=200000))

 /** Check ADC bits accuracy parameter */
 #define PARAM_ADC_BITSACC(x)	((x>=3)&&(x<=10))

 /** Check ADC channel selection parameter */
 #define PARAM_ADC_CHANNEL_SELECTION(SEL)	((SEL == ADC_CHANNEL_0)||(ADC_CHANNEL_1)\
 ||(SEL == ADC_CHANNEL_2)|(ADC_CHANNEL_3)\
 ||(SEL == ADC_CHANNEL_4)||(ADC_CHANNEL_5)\
 ||(SEL == ADC_CHANNEL_6)||(ADC_CHANNEL_7))

 /** Check ADC start option parameter */
 #define PARAM_ADC_START_OPT(OPT)    ((OPT == ADC_START_CONTINUOUS)||(OPT == ADC_START_NOW)\
 ||(OPT == ADC_START_ON_CTOUT15)||(OPT == ADC_START_ON_CTOUT8)\
 ||(OPT == ADC_START_ON_ADCTRIG0)||(OPT == ADC_START_ON_ADCTRIG1)\
 ||(OPT == ADC_START_ON_MCOA2))

 /** Check ADC interrupt type parameter */
 #define PARAM_ADC_TYPE_INT_OPT(OPT)    ((OPT == ADC_ADINTEN0)||(OPT == ADC_ADINTEN1)\
 ||(OPT == ADC_ADINTEN2)||(OPT == ADC_ADINTEN3)\
 ||(OPT == ADC_ADINTEN4)||(OPT == ADC_ADINTEN5)\
 ||(OPT == ADC_ADINTEN6)||(OPT == ADC_ADINTEN7)\
 ||(OPT == ADC_ADGINTEN))

 /**
  * @}
  */


 /* Public Types --------------------------------------------------------------- */
 /** @defgroup ADC_Public_Types ADC Public Types
  * @{
  */

 /*********************************************************************//**
  * @brief ADC enumeration
  **********************************************************************/
 /** @brief Channel Selection */
 typedef enum
 {
 	ADC_CHANNEL_0  = 0, /*!<  Channel 0 */
 	ADC_CHANNEL_1,		/*!<  Channel 1 */
 	ADC_CHANNEL_2,		/*!<  Channel 2 */
 	ADC_CHANNEL_3,		/*!<  Channel 3 */
 	ADC_CHANNEL_4,		/*!<  Channel 4 */
 	ADC_CHANNEL_5,		/*!<  Channel 5 */
 	ADC_CHANNEL_6,		/*!<  Channel 6 */
 	ADC_CHANNEL_7		/*!<  Channel 7 */
 }ADC_CHANNEL_SELECTION;

 /** @brief Type of start option */
 typedef enum
 {
 	ADC_START_CONTINUOUS =0,	/*!< Continuous mode */
 	ADC_START_NOW,				/*!< Start conversion now */
 	ADC_START_ON_CTOUT15,			/*!< Start conversion when the edge selected
 								 * by bit 27 occurs on CTOUT_15 */
 	ADC_START_ON_CTOUT8,			/*!< Start conversion when the edge selected
 								 * by bit 27 occurs on CTOUT_8 */
 	ADC_START_ON_ADCTRIG0,			/*!< Start conversion when the edge selected
 								 * by bit 27 occurs on ADCTRIG0 */
 	ADC_START_ON_ADCTRIG1,			/*!< Start conversion when the edge selected
 								 * by bit 27 occurs on ADCTRIG1 */
 	ADC_START_ON_MCOA2			/*!< Start conversion when the edge selected
 								  * by bit 27 occurs on Motocon PWM output MCOA2 */
 } ADC_START_OPT;


 /** @brief Type of edge when start conversion on the selected CAP/MAT signal */
 typedef enum
 {
 	ADC_START_ON_RISING = 0,	/*!< Start conversion on a rising edge
 								*on the selected CAP/MAT signal */
 	ADC_START_ON_FALLING		/*!< Start conversion on a falling edge
 								*on the selected CAP/MAT signal */
 } ADC_START_ON_EDGE_OPT;

 /** @brief* ADC type interrupt enum */
 typedef enum
 {
 	ADC_ADINTEN0 = 0,		/*!< Interrupt channel 0 */
 	ADC_ADINTEN1,			/*!< Interrupt channel 1 */
 	ADC_ADINTEN2,			/*!< Interrupt channel 2 */
 	ADC_ADINTEN3,			/*!< Interrupt channel 3 */
 	ADC_ADINTEN4,			/*!< Interrupt channel 4 */
 	ADC_ADINTEN5,			/*!< Interrupt channel 5 */
 	ADC_ADINTEN6,			/*!< Interrupt channel 6 */
 	ADC_ADINTEN7,			/*!< Interrupt channel 7 */
 	ADC_ADGINTEN			/*!< Individual channel/global flag done generate an interrupt */
 }ADC_TYPE_INT_OPT;

 /** @brief ADC Data  status */
 typedef enum
 {
 	ADC_DATA_BURST = 0,		/*Burst bit*/
 	ADC_DATA_DONE		 /*Done bit*/
 }ADC_DATA_STATUS;

 /**
  * @}
  */


 /* Public Functions ----------------------------------------------------------- */
 /** @defgroup ADC_Public_Functions ADC Public Functions
  * @{
  */
 /* Init/DeInit ADC peripheral ----------------*/
 void ADC_Init(LPC_ADCn_Type *ADCx, uint32_t rate, uint8_t bits_accuracy);
 void ADC_DeInit(LPC_ADCn_Type *ADCx);

 /* Enable/Disable ADC functions --------------*/
 void ADC_BurstCmd(LPC_ADCn_Type *ADCx, FunctionalState NewState);
 void ADC_PowerdownCmd(LPC_ADCn_Type *ADCx, FunctionalState NewState);
 void ADC_StartCmd(LPC_ADCn_Type *ADCx, uint8_t start_mode);
 void ADC_ChannelCmd (LPC_ADCn_Type *ADCx, uint8_t Channel, FunctionalState NewState);

 /* Configure ADC functions -------------------*/
 void ADC_EdgeStartConfig(LPC_ADCn_Type *ADCx, uint8_t EdgeOption);
 void ADC_IntConfig (LPC_ADCn_Type *ADCx, ADC_TYPE_INT_OPT IntType, FunctionalState NewState);

 /* Get ADC information functions -------------------*/
 uint16_t ADC_ChannelGetData(LPC_ADCn_Type *ADCx, uint8_t channel);
 FlagStatus ADC_ChannelGetStatus(LPC_ADCn_Type *ADCx, uint8_t channel, uint32_t StatusType);
 uint32_t ADC_GlobalGetData(LPC_ADCn_Type *ADCx);
 FlagStatus	ADC_GlobalGetStatus(LPC_ADCn_Type *ADCx, uint32_t StatusType);

 /**
  * @}
  */


 #ifdef __cplusplus
 }
 #endif


 #endif /* LPC18XX_ADC_H_ */

 /**
  * @}
  */

 /* --------------------------------- End Of File ------------------------------ */
	/**********************************************************************
	* $Id$ lpc18xx_adc.h 2011-06-02
	//*
	* @file lpc18xx_adc.h
	* @brief Contains all macro definitions and function prototypes
	* support for ADC 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 ADC ADC (Analog to Digital Converter)
	* @ingroup LPC1800CMSIS_FwLib_Drivers
	* @{
	*/

	#ifndef LPC18XX_ADC_H_
	#define LPC18XX_ADC_H_

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


	#ifdef __cplusplus
	extern "C"
	{
	#endif

	/* Private macros ------------------------------------------------------------- */
	/** @defgroup ADC_Private_Macros ADC Private Macros
	* @{
	*/

	/* -------------------------- BIT DEFINITIONS ----------------------------------- */
	/*******************************************************************//
	* Macro defines for ADC control register
	**********************************************************************/
	/** Selects which of the AD0.0:7 pins is (are) to be sampled and converted */
	#define ADC_CR_CH_SEL(n) ((1UL << n))
	/** The APB clock (PCLK) is divided by (this value plus one)
	* to produce the clock for the A/D */
	#define ADC_CR_CLKDIV(n) ((n<<8))
	/** Repeated conversions A/D enable bit */
	#define ADC_CR_BURST ((1UL<<16))
	/** number of accuracy bits */
	#define ADC_CR_BITACC(n) (((n)<<17))
	/** ADC convert in power down mode */
	#define ADC_CR_PDN ((1UL<<21))
	/** Start mask bits */
	#define ADC_CR_START_MASK ((7UL<<24))
	/** Select Start Mode */
	#define ADC_CR_START_MODE_SEL(SEL) ((SEL<<24))
	/** Start conversion now */
	#define ADC_CR_START_NOW ((1UL<<24))
	/** Start conversion when the edge selected by bit 27 occurs on CTOUT_15 */
	#define ADC_CR_START_CTOUT15 ((2UL<<24))
	/** Start conversion when the edge selected by bit 27 occurs on CTOUT_8 */
	#define ADC_CR_START_CTOUT8 ((3UL<<24))
	/** Start conversion when the edge selected by bit 27 occurs on ADCTRIG0 */
	#define ADC_CR_START_ADCTRIG0 ((4UL<<24))
	/** Start conversion when the edge selected by bit 27 occurs on ADCTRIG1 */
	#define ADC_CR_START_ADCTRIG1 ((5UL<<24))
	/** Start conversion when the edge selected by bit 27 occurs on Motocon PWM output MCOA2 */
	#define ADC_CR_START_MCOA2 ((6UL<<24))
	/** Start conversion on a falling edge on the selected CAP/MAT signal */
	#define ADC_CR_EDGE ((1UL<<27))

	/*******************************************************************//
	* Macro defines for ADC Global Data register
	**********************************************************************/
	/** When DONE is 1, this field contains result value of ADC conversion */
	#define ADC_GDR_RESULT(n) (((n>>4)&0xFFF))
	/** These bits contain the channel from which the LS bits were converted */
	#define ADC_GDR_CH(n) (((n>>24)&0x7))
	/** This bit is 1 in burst mode if the results of one or
	* more conversions was (were) lost */
	#define ADC_GDR_OVERRUN_FLAG ((1UL<<30))
	/** This bit is set to 1 when an A/D conversion completes */
	#define ADC_GDR_DONE_FLAG ((1UL<<31))

	/** This bits is used to mask for Channel */
	#define ADC_GDR_CH_MASK ((7UL<<24))
	/*******************************************************************//
	* Macro defines for ADC Interrupt register
	**********************************************************************/
	/** These bits allow control over which A/D channels generate
	* interrupts for conversion completion */
	#define ADC_INTEN_CH(n) ((1UL<<n))
	/** When 1, enables the global DONE flag in ADDR to generate an interrupt */
	#define ADC_INTEN_GLOBAL ((1UL<<8))

	/*******************************************************************//
	* Macro defines for ADC Data register
	**********************************************************************/
	/** When DONE is 1, this field contains result value of ADC conversion */
	#define ADC_DR_RESULT(n) (((n>>6)&0x3FF))
	/** These bits mirror the OVERRRUN status flags that appear in the
	* result register for each A/D channel */
	#define ADC_DR_OVERRUN_FLAG ((1UL<<30))
	/** This bit is set to 1 when an A/D conversion completes. It is cleared
	* when this register is read */
	#define ADC_DR_DONE_FLAG ((1UL<<31))

	/*******************************************************************//
	* Macro defines for ADC Status register
	**********************************************************************/
	/** These bits mirror the DONE status flags that appear in the result
	* register for each A/D channel */
	#define ADC_STAT_CH_DONE_FLAG(n) ((n&0xFF))
	/** These bits mirror the OVERRRUN status flags that appear in the
	* result register for each A/D channel */
	#define ADC_STAT_CH_OVERRUN_FLAG(n) (((n>>8)&0xFF))
	/** This bit is the A/D interrupt flag */
	#define ADC_STAT_INT_FLAG ((1UL<<16))

	/*******************************************************************//
	* Macro defines for ADC Trim register
	**********************************************************************/
	/** Offset trim bits for ADC operation */
	#define ADC_ADCOFFS(n) (((n&0xF)<<4))
	/** Written to boot code*/
	#define ADC_TRIM(n) (((n&0xF)<<8))

	/* ------------------- CHECK PARAM DEFINITIONS ------------------------- */
	/** Check ADC parameter */
	#define PARAM_ADCx(n) (((uint32_t )n)==((uint32_t )LPC_ADC0) \|\| ((uint32_t )n)==((uint32_t )LPC_ADC1))

	/** Check ADC state parameter */
	#define PARAM_ADC_START_ON_EDGE_OPT(OPT) ((OPT == ADC_START_ON_RISING)\|\|(OPT == ADC_START_ON_FALLING))

	/** Check ADC state parameter */
	#define PARAM_ADC_DATA_STATUS(OPT) ((OPT== ADC_DATA_BURST)\|\|(OPT== ADC_DATA_DONE))

	/** Check ADC rate parameter */
	#define PARAM_ADC_RATE(rate) ((rate>0)&&(rate<=200000))

	/** Check ADC bits accuracy parameter */
	#define PARAM_ADC_BITSACC(x) ((x>=3)&&(x<=10))

	/** Check ADC channel selection parameter */
	#define PARAM_ADC_CHANNEL_SELECTION(SEL) ((SEL == ADC_CHANNEL_0)\|\|(ADC_CHANNEL_1)\
	\|\|(SEL == ADC_CHANNEL_2)\|(ADC_CHANNEL_3)\
	\|\|(SEL == ADC_CHANNEL_4)\|\|(ADC_CHANNEL_5)\
	\|\|(SEL == ADC_CHANNEL_6)\|\|(ADC_CHANNEL_7))

	/** Check ADC start option parameter */
	#define PARAM_ADC_START_OPT(OPT) ((OPT == ADC_START_CONTINUOUS)\|\|(OPT == ADC_START_NOW)\
	\|\|(OPT == ADC_START_ON_CTOUT15)\|\|(OPT == ADC_START_ON_CTOUT8)\
	\|\|(OPT == ADC_START_ON_ADCTRIG0)\|\|(OPT == ADC_START_ON_ADCTRIG1)\
	\|\|(OPT == ADC_START_ON_MCOA2))

	/** Check ADC interrupt type parameter */
	#define PARAM_ADC_TYPE_INT_OPT(OPT) ((OPT == ADC_ADINTEN0)\|\|(OPT == ADC_ADINTEN1)\
	\|\|(OPT == ADC_ADINTEN2)\|\|(OPT == ADC_ADINTEN3)\
	\|\|(OPT == ADC_ADINTEN4)\|\|(OPT == ADC_ADINTEN5)\
	\|\|(OPT == ADC_ADINTEN6)\|\|(OPT == ADC_ADINTEN7)\
	\|\|(OPT == ADC_ADGINTEN))

	/**
	* @}
	*/


	/* Public Types --------------------------------------------------------------- */
	/** @defgroup ADC_Public_Types ADC Public Types
	* @{
	*/

	/*******************************************************************//
	* @brief ADC enumeration
	**********************************************************************/
	/** @brief Channel Selection */
	typedef enum
	{
	ADC_CHANNEL_0 = 0, /!< Channel 0 /
	ADC_CHANNEL_1, /!< Channel 1 /
	ADC_CHANNEL_2, /!< Channel 2 /
	ADC_CHANNEL_3, /!< Channel 3 /
	ADC_CHANNEL_4, /!< Channel 4 /
	ADC_CHANNEL_5, /!< Channel 5 /
	ADC_CHANNEL_6, /!< Channel 6 /
	ADC_CHANNEL_7 /!< Channel 7 /
	}ADC_CHANNEL_SELECTION;

	/** @brief Type of start option */
	typedef enum
	{
	ADC_START_CONTINUOUS =0, /!< Continuous mode /
	ADC_START_NOW, /!< Start conversion now /
	ADC_START_ON_CTOUT15, /*!< Start conversion when the edge selected
	* by bit 27 occurs on CTOUT_15 */
	ADC_START_ON_CTOUT8, /*!< Start conversion when the edge selected
	* by bit 27 occurs on CTOUT_8 */
	ADC_START_ON_ADCTRIG0, /*!< Start conversion when the edge selected
	* by bit 27 occurs on ADCTRIG0 */
	ADC_START_ON_ADCTRIG1, /*!< Start conversion when the edge selected
	* by bit 27 occurs on ADCTRIG1 */
	ADC_START_ON_MCOA2 /*!< Start conversion when the edge selected
	* by bit 27 occurs on Motocon PWM output MCOA2 */
	} ADC_START_OPT;


	/** @brief Type of edge when start conversion on the selected CAP/MAT signal */
	typedef enum
	{
	ADC_START_ON_RISING = 0, /*!< Start conversion on a rising edge
	on the selected CAP/MAT signal /
	ADC_START_ON_FALLING /*!< Start conversion on a falling edge
	on the selected CAP/MAT signal /
	} ADC_START_ON_EDGE_OPT;

	/** @brief* ADC type interrupt enum */
	typedef enum
	{
	ADC_ADINTEN0 = 0, /!< Interrupt channel 0 /
	ADC_ADINTEN1, /!< Interrupt channel 1 /
	ADC_ADINTEN2, /!< Interrupt channel 2 /
	ADC_ADINTEN3, /!< Interrupt channel 3 /
	ADC_ADINTEN4, /!< Interrupt channel 4 /
	ADC_ADINTEN5, /!< Interrupt channel 5 /
	ADC_ADINTEN6, /!< Interrupt channel 6 /
	ADC_ADINTEN7, /!< Interrupt channel 7 /
	ADC_ADGINTEN /!< Individual channel/global flag done generate an interrupt /
	}ADC_TYPE_INT_OPT;

	/** @brief ADC Data status */
	typedef enum
	{
	ADC_DATA_BURST = 0, /Burst bit/
	ADC_DATA_DONE /Done bit/
	}ADC_DATA_STATUS;

	/**
	* @}
	*/


	/* Public Functions ----------------------------------------------------------- */
	/** @defgroup ADC_Public_Functions ADC Public Functions
	* @{
	*/
	/* Init/DeInit ADC peripheral ----------------*/
	void ADC_Init(LPC_ADCn_Type *ADCx, uint32_t rate, uint8_t bits_accuracy);
	void ADC_DeInit(LPC_ADCn_Type *ADCx);

	/* Enable/Disable ADC functions --------------*/
	void ADC_BurstCmd(LPC_ADCn_Type *ADCx, FunctionalState NewState);
	void ADC_PowerdownCmd(LPC_ADCn_Type *ADCx, FunctionalState NewState);
	void ADC_StartCmd(LPC_ADCn_Type *ADCx, uint8_t start_mode);
	void ADC_ChannelCmd (LPC_ADCn_Type *ADCx, uint8_t Channel, FunctionalState NewState);

	/* Configure ADC functions -------------------*/
	void ADC_EdgeStartConfig(LPC_ADCn_Type *ADCx, uint8_t EdgeOption);
	void ADC_IntConfig (LPC_ADCn_Type *ADCx, ADC_TYPE_INT_OPT IntType, FunctionalState NewState);

	/* Get ADC information functions -------------------*/
	uint16_t ADC_ChannelGetData(LPC_ADCn_Type *ADCx, uint8_t channel);
	FlagStatus ADC_ChannelGetStatus(LPC_ADCn_Type *ADCx, uint8_t channel, uint32_t StatusType);
	uint32_t ADC_GlobalGetData(LPC_ADCn_Type *ADCx);
	FlagStatus ADC_GlobalGetStatus(LPC_ADCn_Type *ADCx, uint32_t StatusType);

	/**
	* @}
	*/


	#ifdef __cplusplus
	}
	#endif


	#endif /* LPC18XX_ADC_H_ */

	/**
	* @}
	*/

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