Marcin Kosela
It is simple to use PCF8591 Library (ADC / DAC converter) for LPC800MAX
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PCF8591
by 
Wim Huiskamp
Revision 1:7e567e0adc6d, committed 2013-10-13
- Comitter:
- kosik84
- Date:
- Sun Oct 13 14:54:55 2013 +0000
- Parent:
- 0:1116b0d151fc
- Commit message:
- It is simple to use PCF8591 Library (ADC / DAC converter) for LPC800MAX
Changed in this revision
| PCF8591.cpp | Show diff for this revision Revisions of this file |
| PCF8591.h | Show annotated file Show diff for this revision Revisions of this file |
diff -r 1116b0d151fc -r 7e567e0adc6d PCF8591.cpp
--- a/PCF8591.cpp Sat Sep 21 19:25:09 2013 +0000
+++ /dev/null Thu Jan 01 00:00:00 1970 +0000
@@ -1,293 +0,0 @@
-/* PCF8591 - I2C 8 bit 4 channel A/D and 8 bit 1 channel D/A converter
- * Copyright (c) 2013 Wim Huiskamp
- *
- * Released under the MIT License: http://mbed.org/license/mit
- *
- * version 0.2 Initial Release
-*/
-#include "mbed.h"
-#include "PCF8591.h"
-
-
-/** Create a PCF8591 AD and DA object using a specified I2C bus and slaveaddress
- *
- * @param I2C &i2c the I2C port to connect to
- * @param char deviceAddress the address of the PCF8591
- */
-PCF8591::PCF8591(I2C *i2c, uint8_t deviceAddress) : _i2c(i2c) {
-
- _slaveAddress = deviceAddress;
- _init();
-}
-
-
-#if(0)
-//These methods are disabled since they interfere with normal expected behaviour for mbed type Analog I/O
-//
-
-/** Set ADC mode
- *
- * @param adc_mode ADC Channel mode, valid Range (PCF8591_4S, PCF8591_3D, PCF8591_2S_1D, PCF8591_2D)
- */
-void PCF8591::setADCMode(uint8_t mode){
- uint8_t data[6];
-
- _mode = _mode & ~PCF8591_2D; // Clear ADC mode bits
-
- switch (mode) {
- case PCF8591_4S:
- _mode = _mode | PCF8591_4S;
- break;
- case PCF8591_3D:
- _mode = _mode | PCF8591_3D;
- break;
- case PCF8591_2S_1D:
- _mode = _mode | PCF8591_2S_1D;
- break;
- case PCF8591_2D:
- _mode = _mode | PCF8591_2D;
- break;
- default:
- _mode = _mode | PCF8591_4S;
- break;
- }
-
- data[0] = _mode; // Control Reg
-
- // write data to the device
- _i2c->write(_slaveAddress, (char*) data, 1);
-
-};
-
-/** Set DAC mode
- *
- * @param dac_mode DAC Channel mode, valid Range (false=disable, true=enable)
- */
-void PCF8591::setDACMode(bool mode) {
- uint8_t data[6];
-
- if (mode)
- _mode = _mode | PCF8591_AOUT; // Enable DAC output
- else
- _mode = _mode & ~PCF8591_AOUT; // Disable DAC output
-
- data[0] = _mode; // Control Reg
-
- // write data to the device
- _i2c->write(_slaveAddress, (char*) data, 1);
-
-};
-#endif
-
-
-/** Write Analog Output
- *
- * @param analogOut output value (0..255)
- */
-void PCF8591::write(uint8_t analogOut) {
- uint8_t data[6];
-
- data[0] = _mode; // Control Reg
- data[1] = analogOut; // DAC Channel
-
- // write data to the device
- _i2c->write(_slaveAddress, (char*) data, 2);
-};
-
-/** Read Analog Channel
- *
- * @param Channel ADC channel, valid range PCF8591_ADC0, PCF8591_ADC1, PCF8591_ADC2 or PCF8591_ADC3
- * @return value uint8_t AD converted value (0..255, representing 0V..Vcc)
- */
-#if(0)
-// I2C block operations test
-// Causes problems with Ticker and printf on LPC812. No issues found on LPC1768
-uint8_t PCF8591::read(uint8_t channel) {
-// uint8_t data[6];
- uint8_t data[6] = {123,123,123,123,123,123}; //test to check failed read
-
- _mode = _mode & ~PCF8591_CHMSK; // Clear ADC Channel bits
- _mode = _mode | (channel & PCF8591_CHMSK); // Set ADC Channel bits
-
- data[0] = _mode; // Init Control Reg
-
- // write data to the device to select the ADC channel
- _i2c->write(_slaveAddress, (char*) data, 1);
-
- // read selected ADC channel
- // note that first byte is a 'dummy' and should be ignored
- _i2c->read(_slaveAddress, (char*) data, 2);
- return data[1];
-};
-
-#else
-// I2C single byte operations test
-// No issues found on LPC812
-uint8_t PCF8591::read(uint8_t channel) {
- uint8_t data[6];
-// uint8_t data[6] = {123,123,123,123,123,123}; //test to check failed read
-
- _mode = _mode & ~PCF8591_CHMSK; // Clear ADC Channel bits
- _mode = _mode | (channel & PCF8591_CHMSK); // Set ADC Channel bits
-
- data[0] = _mode; // Init Control Reg
-
- // write data to the device to select the ADC channel
- _i2c->start();
- _i2c->write(_slaveAddress); // Slave write address
- _i2c->write(data[0]);
- _i2c->stop();
-
- // read selected ADC channel
- // note that first byte is a 'dummy' and should be ignored
- _i2c->start();
- _i2c->write(_slaveAddress | 0x01); // Slave read address
- data[0]=_i2c->read(1); //ack
- data[1]=_i2c->read(0); //nack
- _i2c->stop();
-
- return data[1];
-};
-
-#endif
-
-
-/** Initialise AD and DA driver
- *
- */
-void PCF8591::_init() {
- uint8_t data[6];
-
- _mode = PCF8591_CTRL_DEF; // Init mode
-
- data[0] = _mode; // Init Control Reg
- data[1] = 0x00; // Init DAC Channel to 0
-
- // write data to the device
- _i2c->write(_slaveAddress, (char*) data, 2);
-};
-
-
-
-
-
-/** Create a PCF8591 AnalogOut object connected to the specified I2C bus and deviceAddress
- *
- */
-PCF8591_AnalogOut::PCF8591_AnalogOut(I2C *i2c, uint8_t deviceAddress) : _i2c(i2c) {
-
- _slaveAddress = deviceAddress;
- _init();
-}
-
-
-/** Write Analog Output
- *
- * @param analogOut value (0 .. 1.0)
- */
-void PCF8591_AnalogOut::write(float analogOut) {
- uint8_t data[6];
-
- data[0] = _mode; // Control Reg
-
- // DAC Channel
- if (analogOut < 0.0) data[1] = 0;
- else if (analogOut >= 1.0) data[1] = 255;
- else data[1] = uint8_t (analogOut * 255.0);
-
- // write data to the device
- _i2c->write(_slaveAddress, (char*) data, 2);
-};
-
-/** Operator = Analog Output
- *
- * @param analogOut value (0.0f .. 1.0f)
- */
-PCF8591_AnalogOut& PCF8591_AnalogOut::operator= (float value){
- write(value);
- return *this;
-}
-
-
-/** Initialise DAC driver
- *
- */
-void PCF8591_AnalogOut::_init() {
- uint8_t data[6];
-
- _mode = PCF8591_CTRL_DEF; // Init mode
-
- data[0] = _mode; // Init Control Reg
- data[1] = 0x00; // Init DAC Channel to 0
-
- // write data to the device
- _i2c->write(_slaveAddress, (char*) data, 2);
-};
-
-
-
-/** Create a PCF8591 AnalogIn object connected to the specified I2C bus and deviceAddress
- *
- */
-PCF8591_AnalogIn::PCF8591_AnalogIn(I2C *i2c, uint8_t channel, uint8_t deviceAddress) : _i2c(i2c) {
-
- _slaveAddress = deviceAddress;
- _channel = channel;
- _init();
-}
-
-
-/** Read Analog input
- *
- * @return analogIn value (0 .. 1.0)
- */
-float PCF8591_AnalogIn::read() {
- uint8_t data[6];
-
- data[0] = _mode; // Init Control Reg
-
- // write data to the device to select the ADC channel
- _i2c->start();
- _i2c->write(_slaveAddress); // Slave write address
- _i2c->write(data[0]);
- _i2c->stop();
-
- // read selected ADC channel
- // note that first byte is a 'dummy' and should be ignored
- _i2c->start();
- _i2c->write(_slaveAddress | 0x01); // Slave read address
- data[0]=_i2c->read(1); //ack
- data[1]=_i2c->read(0); //nack
- _i2c->stop();
-
-
- // ADC Channel
- return ((float) data[1] / 255.0);
-
-};
-
-
-/** Operator float Analog Input
- *
- * @return analogIn value (0 .. 1.0)
- */
-PCF8591_AnalogIn::operator float(){
- return (read());
-}
-
-
-/** Initialise ADC driver
- *
- */
-void PCF8591_AnalogIn::_init() {
- uint8_t data[6];
-
- _mode = PCF8591_CTRL_DEF; // Init mode
- _mode = _mode & ~PCF8591_CHMSK; // Clear ADC Channel bits
- _mode = _mode | (_channel & PCF8591_CHMSK); // Set ADC Channel bits
-
- data[0] = _mode; // Init Control Reg
-
- // write data to the device
- _i2c->write(_slaveAddress, (char*) data, 1);
-};
diff -r 1116b0d151fc -r 7e567e0adc6d PCF8591.h
--- a/PCF8591.h Sat Sep 21 19:25:09 2013 +0000
+++ b/PCF8591.h Sun Oct 13 14:54:55 2013 +0000
@@ -1,221 +1,22 @@
-/* PCF8591 - I2C 8 bit, 4 channel A/D and 8 bit, 1 channel D/A converter
- * Copyright (c) 2013 Wim Huiskamp
- *
- * Released under the MIT License: http://mbed.org/license/mit
- *
- * version 0.2 Initial Release
-*/
-#ifndef _PCF8591_H
-#define _PCF8591_H
-
-/** Driver for PCF8591 I2C I2C A/D and D/A converter
- *
- * @code
- * #include "mbed.h"
- * #include "PCF8591.h"
- *
- * // I2C Communication
- * I2C i2c_adcdac(p28,p27); // SDA, SCL for LPC1768
- * //I2C i2c_adcdac(P0_10,P0_11); // SDA, SCL for LPC812
- *
- * //Declare a composite ADC and DAC device that may be used through public methods
- * PCF8591 adc_dac(&i2c_adcdac); // I2C bus, Default PCF8591 Slaveaddress
- *
- * //Declare independent ADC and DAC objects that may be used similar to mbed AnalogIn and AnalogOut pins
- * //PCF8591_AnalogOut anaOut(&i2c_bus);
- * //
- * //PCF8591_AnalogIn anaIn(&i2c_bus, PCF8591_ADC0);
- *
- *
- * int main() {
- * uint8_t count = 0;
- * uint8_t analog;
- *
- * while(1) {
- * wait(0.2);
- * count++;
- *
- * // Composite device methods
- * adc_dac.write(count); // write D/A value
- * analog = adc_dac.read(PCF8591_ADC0); // read A/D value for Channel 0
- *
- * // mbed pin type methods
- * //anaOut = (float)count / 255.0; // write D/A value using range 0.0f .. 1.0f
- * //analog = anaIn * 33.0; // read A/D value for Channel 0 in (Volts*10)
- * }
- *
- * }
- * @endcode
- */
-
-
-//Address Defines for PCF8591
-#define PCF8591_SA0 0x90
-#define PCF8591_SA1 0x92
-#define PCF8591_SA2 0x94
-#define PCF8591_SA3 0x96
-#define PCF8591_SA4 0x98
-#define PCF8591_SA5 0x9A
-#define PCF8591_SA6 0x9C
-#define PCF8591_SA7 0x9E
-
-//Register Defines for PCF8591
-#define PCF8591_CTRL 0x00
-#define PCF8591_ADR0 0x01
-#define PCF8591_ADR1 0x02
-#define PCF8591_ADR2 0x03
-#define PCF8591_ADR3 0x04
-#define PCF8591_DAR 0x01
-
-//Control Register Defines for PCF8591
-//AD Channels
-#define PCF8591_ADC0 0x00
-#define PCF8591_ADC1 0x01
-#define PCF8591_ADC2 0x02
-#define PCF8591_ADC3 0x03
-//AD Channel Mask
-#define PCF8591_CHMSK 0x03
-
-//Auto Increment flag (0=disable, 1=enable)
-#define PCF8591_AIF 0x04
-
-//AD Channels Input modes
-//4 Single Channels (Chan0=AIN0, Chan1=AIN0, Chan2=AIN0, Chan3=AIN0)
-#define PCF8591_4S 0x00
-//3 Diff Channels (Chan0=AIN0-AIN3, Chan1=AIN1-AIN3, Chan2=AIN2-AIN3)
-#define PCF8591_3D 0x10
-//2 Single Channels (Chan0=AIN0, Chan1=AIN1)
-//1 Diff Channel (Chan2=AIN2-AIN3)
-#define PCF8591_2S_1D 0x20
-//2 Diff Channels (Chan0=AIN0-AIN1, Chan1=AIN2-AIN3)
-#define PCF8591_2D 0x30
-//ChannelMode Mask
-#define PCF8591_CHMDMSK 0x30
-
-//Analog Output enable flag (0=disable, 1=enable)
-#define PCF8591_AOUT 0x40
-
-//Default Mode: ADC0, AutoIncr Off, 4 Single Chan, AnalogOut On
-#define PCF8591_CTRL_DEF (PCF8591_ADC0 | PCF8591_4S | PCF8591_AOUT)
+#include "mbed.h"
+#include "stdio.h"
-/** Create a PCF8591 object connected to the specified I2C bus and deviceAddress
- *
-*/
-class PCF8591 {
-public:
- /** Create a PCF8591 AD and DA object using a specified I2C bus and slaveaddress
- *
- * @param I2C &i2c the I2C port to connect to
- * @param char deviceAddress the address of the PCF8591
- */
- PCF8591(I2C *i2c, uint8_t deviceAddress = PCF8591_SA0);
-
-#if(0)
-//These methods are disabled since they interfere with normal expected behaviour for mbed type Analog I/O
-//
- /** Set ADC mode
- *
- * @param adc_mode ADC Channel mode, valid Range (PCF8591_4S, PCF8591_3D, PCF8591_2S_1D, PCF8591_2D)
- */
- void setADCMode(uint8_t mode);
+//init_adc(pin sda, pin scl, address, ADC mux, DAC value) return 1/0 (1-transmission ok)
- /** Set DAC mode
- *
- * @param dac_mode DAC Channel mode, valid Range (false=disable, true=enable)
- */
- void setDACMode(bool mode);
-#endif
-
-/** Write Analog Output
- *
- * @param analogOut output value (0..255)
- */
- void write(uint8_t analogOut);
-
-/** Read Analog Channel
- *
- * @param Channel ADC channel, valid range PCF8591_ADC0, PCF8591_ADC1, PCF8591_ADC2 or PCF8591_ADC3
- * @return value uint8_t AD converted value (0..255, representing 0V..Vcc)
- */
- uint8_t read(uint8_t channel);
-
-
-
-protected:
- I2C *_i2c; //I2C bus reference
- uint8_t _slaveAddress; //I2C Slave address of device
- uint8_t _mode; //Device mode
-
-/** Initialise AD and DA driver
- *
- */
- void _init();
-};
-
+// adc(pin sda, pin scl, address, ADC mux) return ADC value
-/** Create a PCF8591 AnalogOut object connected to the specified I2C bus and deviceAddress
- *
-*/
-class PCF8591_AnalogOut {
-public:
- /** Create a PCF8591 Analogout object using a specified I2C bus and slaveaddress
- *
- * @param I2C &i2c the I2C port to connect to
- * @param char deviceAddress the address of the PCF8591
- */
- PCF8591_AnalogOut(I2C *i2c, uint8_t deviceAddress = PCF8591_SA0);
-
- void write(float value);
- #ifdef MBED_OPERATORS
- /** An operator shorthand for write()
- */
- PCF8591_AnalogOut& operator= (float value);
- #endif
-
-protected:
- I2C *_i2c; //I2C bus reference
- uint8_t _slaveAddress; //I2C Slave address of device
- uint8_t _mode; //Device mode
-
-/** Initialise DAC driver
- *
- */
- void _init();
-};
-
+int init_adc (PinName sda, PinName scl,unsigned char addr, char mux,char dac_)
+{
+const char comm[] = {0x40+mux,dac_};
+I2C p_i2c(sda,scl);
+return(p_i2c.write(addr,comm,2));
+}
-/** Create a PCF8591 AnalogIn object connected to the specified I2C bus and deviceAddress
- *
-*/
-class PCF8591_AnalogIn {
-public:
- /** Create a PCF8591 AnalogIn object using a specified I2C bus and slaveaddress
- *
- * @param I2C &i2c the I2C port to connect to
- * @param channel ADC channel of the PCF8591
- * @param char deviceAddress the address of the PCF8591
- */
- PCF8591_AnalogIn(I2C *i2c, uint8_t channel, uint8_t deviceAddress = PCF8591_SA0);
-
- float read();
- #ifdef MBED_OPERATORS
- /** An operator shorthand for read()
- */
- operator float();
- #endif
-
-protected:
- I2C *_i2c; //I2C bus reference
- uint8_t _slaveAddress; //I2C Slave address of device
- uint8_t _mode; //Device mode
- uint8_t _channel; //Channel
-
-/** Initialise DAC driver
- *
- */
- void _init();
-};
-
-
-#endif
\ No newline at end of file
+int adc (PinName sda, PinName scl,char addr)
+{
+char response[1];
+I2C p_i2c(sda,scl);
+p_i2c.read((addr+0x01), response, 1);
+return(response[0]);
+}
\ No newline at end of file