posilani dat

Dependencies:   FatFileSystemCpp mbed PowerControl USBHostLite

ADC_full/adc.h

Committer:
jkaderka
Date:
2015-02-13
Revision:
0:16fd37cf4a7c

File content as of revision 0:16fd37cf4a7c:

/* mbed Library - ADC
 * Copyright (c) 2010, sblandford
 * released under MIT license http://mbed.org/licence/mit
 */

#ifndef MBED_ADC_H
#define MBED_ADC_H
 
#include "mbed.h"
#define XTAL_FREQ       12000000
#define MAX_ADC_CLOCK   13000000
#define CLKS_PER_SAMPLE 64

class ADC {
public:

    //Initialize ADC with ADC maximum sample rate of
    //sample_rate and system clock divider of cclk_div
    //Maximum recommened sample rate is 184000
    ADC(int sample_rate, int cclk_div);

    //Enable/disable ADC on pin according to state
    //and also select/de-select for next conversion
    void setup(PinName pin, int state);

    //Return enabled/disabled state of ADC on pin
    int setup(PinName pin);

    //Enable/disable burst mode according to state
    void burst(int state);

    //Select channel already setup
    void select(PinName pin);

    //Return burst mode enabled/disabled
    int burst(void);

    /*Set start condition and edge according to mode:
    0 - No start (this value should be used when clearing PDN to 0).
    1 - Start conversion now.
    2 - Start conversion when the edge selected by bit 27 occurs on the P2.10 / EINT0 / NMI pin.
    3 - Start conversion when the edge selected by bit 27 occurs on the P1.27 / CLKOUT /
        USB_OVRCRn / CAP0.1 pin.
    4 - Start conversion when the edge selected by bit 27 occurs on MAT0.1. Note that this does
        not require that the MAT0.1 function appear on a device pin.
    5 - Start conversion when the edge selected by bit 27 occurs on MAT0.3. Note that it is not
        possible to cause the MAT0.3 function to appear on a device pin.
    6 - Start conversion when the edge selected by bit 27 occurs on MAT1.0. Note that this does
        not require that the MAT1.0 function appear on a device pin.
    7 - Start conversion when the edge selected by bit 27 occurs on MAT1.1. Note that this does
        not require that the MAT1.1 function appear on a device pin.
    When mode >= 2, conversion is triggered by edge:
    0 - Rising edge
    1 - Falling edge
    */
    void startmode(int mode, int edge);
    
    //Return startmode state according to mode_edge=0: mode and mode_edge=1: edge
    int startmode(int mode_edge);
    
    //Start ADC conversion
    void start(void);

    //Set interrupt enable/disable for pin to state
    void interrupt_state(PinName pin, int state);
    
    //Return enable/disable state of interrupt for pin
    int interrupt_state(PinName pin);

    //Attach custom interrupt handler replacing default
    void attach(void(*fptr)(void));

    //Restore default interrupt handler
    void detach(void);

    //Append custom interrupt handler for pin
    void append(PinName pin, void(*fptr)(uint32_t value));

    //Unappend custom interrupt handler for pin
    void unappend(PinName pin);

    //Append custom global interrupt handler
    void append(void(*fptr)(int chan, uint32_t value));

    //Unappend custom global interrupt handler
    void unappend(void);

    //Set ADC offset to a value 0-7
    void offset(int offset);
    
    //Return current ADC offset
    int offset(void);

    //Return value of ADC on pin
    int read(PinName pin);

    //Return DONE flag of ADC on pin
    int done(PinName pin);
    
    //Return OVERRUN flag of ADC on pin
    int overrun(PinName pin);

    //Return actual ADC clock
    int actual_adc_clock(void);
    
    //Return actual maximum sample rate
    int actual_sample_rate(void);

    //Return pin ID of ADC channel
    PinName channel_to_pin(int chan);

    //Return pin number of ADC channel
    int channel_to_pin_number(int chan);


private:
    int _pin_to_channel(PinName pin);
    uint32_t _data_of_pin(PinName pin);

    int _adc_clk_freq;
    void adcisr(void);
    static void _adcisr(void);
    static ADC *instance;
    
    uint32_t _adc_data[8];
    void(*_adc_isr[8])(uint32_t value);
    void(*_adc_g_isr)(int chan, uint32_t value);
    void(*_adc_m_isr)(void);
};

#endif