Arduino/build/shared/lib/avrlib/a2d.h

/*! \file a2d.h \brief Analog-to-Digital converter function library. */
//*****************************************************************************
//
// File Name	: 'a2d.h'
// Title		: Analog-to-digital converter functions
// Author		: Pascal Stang - Copyright (C) 2002
// Created		: 4/08/2002
// Revised		: 4/30/2002
// Version		: 1.1
// Target MCU	: Atmel AVR series
// Editor Tabs	: 4
//
// This code is distributed under the GNU Public License
//		which can be found at http://www.gnu.org/licenses/gpl.txt
//
//*****************************************************************************

#ifndef A2D_H
#define A2D_H

// defines

// A2D clock prescaler select
//		*selects how much the CPU clock frequency is divided
//		to create the A2D clock frequency
//		*lower division ratios make conversion go faster
//		*higher division ratios make conversions more accurate
#define ADC_PRESCALE_DIV2		0x00	///< 0x01,0x00 -> CPU clk/2
#define ADC_PRESCALE_DIV4		0x02	///< 0x02 -> CPU clk/4
#define ADC_PRESCALE_DIV8		0x03	///< 0x03 -> CPU clk/8
#define ADC_PRESCALE_DIV16		0x04	///< 0x04 -> CPU clk/16
#define ADC_PRESCALE_DIV32		0x05	///< 0x05 -> CPU clk/32
#define ADC_PRESCALE_DIV64		0x06	///< 0x06 -> CPU clk/64
#define ADC_PRESCALE_DIV128		0x07	///< 0x07 -> CPU clk/128
// default value
#define ADC_PRESCALE			ADC_PRESCALE_DIV64
// do not change the mask value
#define ADC_PRESCALE_MASK		0x07

// A2D voltage reference select
//		*this determines what is used as the
//		full-scale voltage point for A2D conversions
#define ADC_REFERENCE_AREF		0x00	///< 0x00 -> AREF pin, internal VREF turned off
#define ADC_REFERENCE_AVCC		0x01	///< 0x01 -> AVCC pin, internal VREF turned off
#define ADC_REFERENCE_RSVD		0x02	///< 0x02 -> Reserved
#define ADC_REFERENCE_256V		0x03	///< 0x03 -> Internal 2.56V VREF
// default value
#define ADC_REFERENCE			ADC_REFERENCE_AVCC
// do not change the mask value
#define ADC_REFERENCE_MASK		0xC0

// bit mask for A2D channel multiplexer
#define ADC_MUX_MASK			0x1F

// channel defines (for reference and use in code)
// these channels supported by all AVRs with A2D
#define ADC_CH_ADC0				0x00
#define ADC_CH_ADC1				0x01
#define ADC_CH_ADC2				0x02
#define ADC_CH_ADC3				0x03
#define ADC_CH_ADC4				0x04
#define ADC_CH_ADC5				0x05
#define ADC_CH_ADC6				0x06
#define ADC_CH_ADC7				0x07
#define ADC_CH_122V				0x1E	///< 1.22V voltage reference
#define ADC_CH_AGND				0x1F	///< AGND
// these channels supported only in ATmega128
// differential with gain
#define ADC_CH_0_0_DIFF10X		0x08
#define ADC_CH_1_0_DIFF10X		0x09
#define ADC_CH_0_0_DIFF200X		0x0A
#define ADC_CH_1_0_DIFF200X		0x0B
#define ADC_CH_2_2_DIFF10X		0x0C
#define ADC_CH_3_2_DIFF10X		0x0D
#define ADC_CH_2_2_DIFF200X		0x0E
#define ADC_CH_3_2_DIFF200X		0x0F
// differential
#define ADC_CH_0_1_DIFF1X		0x10
#define ADC_CH_1_1_DIFF1X		0x11
#define ADC_CH_2_1_DIFF1X		0x12
#define ADC_CH_3_1_DIFF1X		0x13
#define ADC_CH_4_1_DIFF1X		0x14
#define ADC_CH_5_1_DIFF1X		0x15
#define ADC_CH_6_1_DIFF1X		0x16
#define ADC_CH_7_1_DIFF1X		0x17

#define ADC_CH_0_2_DIFF1X		0x18
#define ADC_CH_1_2_DIFF1X		0x19
#define ADC_CH_2_2_DIFF1X		0x1A
#define ADC_CH_3_2_DIFF1X		0x1B
#define ADC_CH_4_2_DIFF1X		0x1C
#define ADC_CH_5_2_DIFF1X		0x1D

// compatibility for new Mega processors
// ADCSR hack apparently no longer necessary in new AVR-GCC
#ifdef ADCSRA
#ifndef ADCSR
	#define ADCSR	ADCSRA
#endif
#endif
#ifdef ADATE
	#define ADFR	ADATE
#endif

// function prototypes

//! Initializes the A/D converter
// (turns ADC on and prepares it for use)
void a2dInit(void);

//! Turn off A/D converter
void a2dOff(void);

//! sets the division ratio of the A/D converter clock
// this function is automatically called from a2dInit()
// with a default value
void a2dSetPrescaler(unsigned char prescale);

//! configures which voltage reference the A/D converter uses
// this function is automatically called from a2dInit()
// with a default value
void a2dSetReference(unsigned char ref);

//! sets the a2d input channel
void a2dSetChannel(unsigned char ch);

//! start a conversion on the current a2d input channel
void a2dStartConvert(void);

//! return TRUE if conversion is complete
u08 a2dIsComplete(void);

//! starts a conversion on A/D channel# ch,
// returns the 10-bit value of the conversion when it is finished
unsigned short a2dConvert10bit(unsigned char ch);

//! starts a conversion on A/D channel# ch,
// returns the 8-bit value of the conversion when it is finished
unsigned char a2dConvert8bit(unsigned char ch);

#endif
Initial Arduino IDE based on Processing. 2005-08-25 23:06:28 +02:00			`/! \file a2d.h \brief Analog-to-Digital converter function library. /`
			`//*****************************************************************************`
			`//`
			`// File Name : 'a2d.h'`
			`// Title : Analog-to-digital converter functions`
			`// Author : Pascal Stang - Copyright (C) 2002`
			`// Created : 4/08/2002`
			`// Revised : 4/30/2002`
			`// Version : 1.1`
			`// Target MCU : Atmel AVR series`
			`// Editor Tabs : 4`
			`//`
			`// This code is distributed under the GNU Public License`
			`// which can be found at http://www.gnu.org/licenses/gpl.txt`
			`//`
			`//*****************************************************************************`

			`#ifndef A2D_H`
			`#define A2D_H`

			`// defines`

			`// A2D clock prescaler select`
			`// *selects how much the CPU clock frequency is divided`
			`// to create the A2D clock frequency`
			`// *lower division ratios make conversion go faster`
			`// *higher division ratios make conversions more accurate`
			`#define ADC_PRESCALE_DIV2 0x00 ///< 0x01,0x00 -> CPU clk/2`
			`#define ADC_PRESCALE_DIV4 0x02 ///< 0x02 -> CPU clk/4`
			`#define ADC_PRESCALE_DIV8 0x03 ///< 0x03 -> CPU clk/8`
			`#define ADC_PRESCALE_DIV16 0x04 ///< 0x04 -> CPU clk/16`
			`#define ADC_PRESCALE_DIV32 0x05 ///< 0x05 -> CPU clk/32`
			`#define ADC_PRESCALE_DIV64 0x06 ///< 0x06 -> CPU clk/64`
			`#define ADC_PRESCALE_DIV128 0x07 ///< 0x07 -> CPU clk/128`
			`// default value`
			`#define ADC_PRESCALE ADC_PRESCALE_DIV64`
			`// do not change the mask value`
			`#define ADC_PRESCALE_MASK 0x07`

			`// A2D voltage reference select`
			`// *this determines what is used as the`
			`// full-scale voltage point for A2D conversions`
			`#define ADC_REFERENCE_AREF 0x00 ///< 0x00 -> AREF pin, internal VREF turned off`
			`#define ADC_REFERENCE_AVCC 0x01 ///< 0x01 -> AVCC pin, internal VREF turned off`
			`#define ADC_REFERENCE_RSVD 0x02 ///< 0x02 -> Reserved`
			`#define ADC_REFERENCE_256V 0x03 ///< 0x03 -> Internal 2.56V VREF`
			`// default value`
			`#define ADC_REFERENCE ADC_REFERENCE_AVCC`
			`// do not change the mask value`
			`#define ADC_REFERENCE_MASK 0xC0`

			`// bit mask for A2D channel multiplexer`
			`#define ADC_MUX_MASK 0x1F`

			`// channel defines (for reference and use in code)`
			`// these channels supported by all AVRs with A2D`
			`#define ADC_CH_ADC0 0x00`
			`#define ADC_CH_ADC1 0x01`
			`#define ADC_CH_ADC2 0x02`
			`#define ADC_CH_ADC3 0x03`
			`#define ADC_CH_ADC4 0x04`
			`#define ADC_CH_ADC5 0x05`
			`#define ADC_CH_ADC6 0x06`
			`#define ADC_CH_ADC7 0x07`
			`#define ADC_CH_122V 0x1E ///< 1.22V voltage reference`
			`#define ADC_CH_AGND 0x1F ///< AGND`
			`// these channels supported only in ATmega128`
			`// differential with gain`
			`#define ADC_CH_0_0_DIFF10X 0x08`
			`#define ADC_CH_1_0_DIFF10X 0x09`
			`#define ADC_CH_0_0_DIFF200X 0x0A`
			`#define ADC_CH_1_0_DIFF200X 0x0B`
			`#define ADC_CH_2_2_DIFF10X 0x0C`
			`#define ADC_CH_3_2_DIFF10X 0x0D`
			`#define ADC_CH_2_2_DIFF200X 0x0E`
			`#define ADC_CH_3_2_DIFF200X 0x0F`
			`// differential`
			`#define ADC_CH_0_1_DIFF1X 0x10`
			`#define ADC_CH_1_1_DIFF1X 0x11`
			`#define ADC_CH_2_1_DIFF1X 0x12`
			`#define ADC_CH_3_1_DIFF1X 0x13`
			`#define ADC_CH_4_1_DIFF1X 0x14`
			`#define ADC_CH_5_1_DIFF1X 0x15`
			`#define ADC_CH_6_1_DIFF1X 0x16`
			`#define ADC_CH_7_1_DIFF1X 0x17`

			`#define ADC_CH_0_2_DIFF1X 0x18`
			`#define ADC_CH_1_2_DIFF1X 0x19`
			`#define ADC_CH_2_2_DIFF1X 0x1A`
			`#define ADC_CH_3_2_DIFF1X 0x1B`
			`#define ADC_CH_4_2_DIFF1X 0x1C`
			`#define ADC_CH_5_2_DIFF1X 0x1D`

			`// compatibility for new Mega processors`
			`// ADCSR hack apparently no longer necessary in new AVR-GCC`
			`#ifdef ADCSRA`
			`#ifndef ADCSR`
			`#define ADCSR ADCSRA`
			`#endif`
			`#endif`
			`#ifdef ADATE`
			`#define ADFR ADATE`
			`#endif`

			`// function prototypes`

			`//! Initializes the A/D converter`
			`// (turns ADC on and prepares it for use)`
			`void a2dInit(void);`

			`//! Turn off A/D converter`
			`void a2dOff(void);`

			`//! sets the division ratio of the A/D converter clock`
			`// this function is automatically called from a2dInit()`
			`// with a default value`
			`void a2dSetPrescaler(unsigned char prescale);`

			`//! configures which voltage reference the A/D converter uses`
			`// this function is automatically called from a2dInit()`
			`// with a default value`
			`void a2dSetReference(unsigned char ref);`

			`//! sets the a2d input channel`
			`void a2dSetChannel(unsigned char ch);`

			`//! start a conversion on the current a2d input channel`
			`void a2dStartConvert(void);`

			`//! return TRUE if conversion is complete`
			`u08 a2dIsComplete(void);`

			`//! starts a conversion on A/D channel# ch,`
			`// returns the 10-bit value of the conversion when it is finished`
			`unsigned short a2dConvert10bit(unsigned char ch);`

			`//! starts a conversion on A/D channel# ch,`
			`// returns the 8-bit value of the conversion when it is finished`
			`unsigned char a2dConvert8bit(unsigned char ch);`

			`#endif`