//*****************************************************************************
// File Name : a2dtest.c
//
// Title : example usage of some avr library functions
// Revision : 1.0
// Notes :
// Target MCU : Atmel AVR series
// Editor Tabs : 4
//
// Revision History:
// When Who Description of change
// ----------- ----------- -----------------------
// 20-Oct-2002 pstang Created the program
//*****************************************************************************
//----- Include Files ---------------------------------------------------------
#include <avr/io.h> // include I/O definitions (port names, pin names, etc)
#include <avr/interrupt.h> // include interrupt support
#include "global.h" // include our global settings
#include "uart.h" // include uart function library
#include "rprintf.h" // include printf function library
#include "timer.h" // include timer function library (timing, PWM, etc)
#include "a2d.h" // include A/D converter function library
#include "vt100.h" // include VT100 terminal support
//----- Begin Code ------------------------------------------------------------
int main(void)
{
u16 a=0;
u08 i=0;
// initialize our libraries
// initialize the UART (serial port)
uartInit();
// make all rprintf statements use uart for output
rprintfInit(uartSendByte);
// initialize the timer system
timerInit();
// turn on and initialize A/D converter
a2dInit();
// print a little intro message so we know things are working
/* vt100ClearScreen();
vt100SetCursorPos(1,1);
rprintf("Welcome to the a2d test!\r\n");*/
// configure a2d port (PORTA) as input
// so we can receive analog signals
DDRC = 0x00;
// make sure pull-up resistors are turned off
PORTC = 0x00;
// set the a2d prescaler (clock division ratio)
// - a lower prescale setting will make the a2d converter go faster
// - a higher setting will make it go slower but the measurements
// will be more accurate
// - other allowed prescale values can be found in a2d.h
a2dSetPrescaler(ADC_PRESCALE_DIV32);
// set the a2d reference
// - the reference is the voltage against which a2d measurements are made
// - other allowed reference values can be found in a2d.h
a2dSetReference(ADC_REFERENCE_AVCC);
// use a2dConvert8bit(channel#) to get an 8bit a2d reading
// use a2dConvert10bit(channel#) to get a 10bit a2d reading
while(1)
{
u08 c=0;
u08 n;
char radka[100];
for(n=0;n<100;n++) radka[n]=0;
n=0;
while(uartReceiveByte(&c))
{
radka[n]=c;
n++;
}
n=0;
while (0!=radka[n])
{
uartSendByte(radka[n]);
n++;
timerPause(31);
}
/* // sample all a2d channels and print them to the terminal
vt100SetCursorPos(2,1);
for(i=0; i<6; i++)
{
rprintf("Channel %d: %d \r\n", i, a2dConvert8bit(i));
timerPause(1000);
}
// print the sample number so far
rprintf("Sample # : %d \r\n", a++);*/
}
return 0;
}