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Started following some tutorial on att85 usi. Downloaded example code from make avr book.

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Dan
2022-09-20 01:08:01 -04:00
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Make AVR Examples/Chapter12_Analog-to-Digital-Conversion-II/voltmeter/Makefile Normal file
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##########------------------------------------------------------##########
########## Project-specific Details ##########
########## Check these every time you start a new project ##########
##########------------------------------------------------------##########
MCU = atmega168p
F_CPU = 1000000UL
BAUD = 9600UL
## Also try BAUD = 19200 or 38400 if you're feeling lucky.
## A directory for common include files and the simple USART library.
## If you move either the current folder or the Library folder, you'll
## need to change this path to match.
LIBDIR = ../../AVR-Programming-Library
##########------------------------------------------------------##########
########## Programmer Defaults ##########
########## Set up once, then forget about it ##########
########## (Can override. See bottom of file.) ##########
##########------------------------------------------------------##########
PROGRAMMER_TYPE = usbtiny
# extra arguments to avrdude: baud rate, chip type, -F flag, etc.
PROGRAMMER_ARGS =
##########------------------------------------------------------##########
########## Program Locations ##########
########## Won't need to change if they're in your PATH ##########
##########------------------------------------------------------##########
CC = avr-gcc
OBJCOPY = avr-objcopy
OBJDUMP = avr-objdump
AVRSIZE = avr-size
AVRDUDE = avrdude
##########------------------------------------------------------##########
########## Makefile Magic! ##########
########## Summary: ##########
########## We want a .hex file ##########
########## Compile source files into .elf ##########
########## Convert .elf file into .hex ##########
########## You shouldn't need to edit below. ##########
##########------------------------------------------------------##########
## The name of your project (without the .c)
# TARGET = blinkLED
## Or name it automatically after the enclosing directory
TARGET = $(lastword $(subst /, ,$(CURDIR)))
# Object files: will find all .c/.h files in current directory
# and in LIBDIR. If you have any other (sub-)directories with code,
# you can add them in to SOURCES below in the wildcard statement.
SOURCES=$(wildcard *.c $(LIBDIR)/*.c)
OBJECTS=$(SOURCES:.c=.o)
HEADERS=$(SOURCES:.c=.h)
## Compilation options, type man avr-gcc if you're curious.
CPPFLAGS = -DF_CPU=$(F_CPU) -DBAUD=$(BAUD) -I. -I$(LIBDIR)
CFLAGS = -Os -g -std=gnu99 -Wall
## Use short (8-bit) data types
CFLAGS += -funsigned-char -funsigned-bitfields -fpack-struct -fshort-enums
## Splits up object files per function
CFLAGS += -ffunction-sections -fdata-sections
LDFLAGS = -Wl,-Map,$(TARGET).map
## Optional, but often ends up with smaller code
LDFLAGS += -Wl,--gc-sections
## Relax shrinks code even more, but makes disassembly messy
## LDFLAGS += -Wl,--relax
## LDFLAGS += -Wl,-u,vfprintf -lprintf_flt -lm ## for floating-point printf
## LDFLAGS += -Wl,-u,vfprintf -lprintf_min ## for smaller printf
TARGET_ARCH = -mmcu=$(MCU)
## Explicit pattern rules:
## To make .o files from .c files
%.o: %.c $(HEADERS) Makefile
$(CC) $(CFLAGS) $(CPPFLAGS) $(TARGET_ARCH) -c -o $@ $<;
$(TARGET).elf: $(OBJECTS)
$(CC) $(LDFLAGS) $(TARGET_ARCH) $^ $(LDLIBS) -o $@
%.hex: %.elf
$(OBJCOPY) -j .text -j .data -O ihex $< $@
%.eeprom: %.elf
$(OBJCOPY) -j .eeprom --change-section-lma .eeprom=0 -O ihex $< $@
%.lst: %.elf
$(OBJDUMP) -S $< > $@
## These targets don't have files named after them
.PHONY: all disassemble disasm eeprom size clean squeaky_clean flash fuses
all: $(TARGET).hex
debug:
@echo
@echo "Source files:" $(SOURCES)
@echo "MCU, F_CPU, BAUD:" $(MCU), $(F_CPU), $(BAUD)
@echo
# Optionally create listing file from .elf
# This creates approximate assembly-language equivalent of your code.
# Useful for debugging time-sensitive bits,
# or making sure the compiler does what you want.
disassemble: $(TARGET).lst
disasm: disassemble
# Optionally show how big the resulting program is
size: $(TARGET).elf
$(AVRSIZE) -C --mcu=$(MCU) $(TARGET).elf
clean:
rm -f $(TARGET).elf $(TARGET).hex $(TARGET).obj \
$(TARGET).o $(TARGET).d $(TARGET).eep $(TARGET).lst \
$(TARGET).lss $(TARGET).sym $(TARGET).map $(TARGET)~ \
$(TARGET).eeprom
squeaky_clean:
rm -f *.elf *.hex *.obj *.o *.d *.eep *.lst *.lss *.sym *.map *~ *.eeprom
##########------------------------------------------------------##########
########## Programmer-specific details ##########
########## Flashing code to AVR using avrdude ##########
##########------------------------------------------------------##########
flash: $(TARGET).hex
$(AVRDUDE) -c $(PROGRAMMER_TYPE) -p $(MCU) $(PROGRAMMER_ARGS) -U flash:w:$<
## An alias
program: flash
flash_eeprom: $(TARGET).eeprom
$(AVRDUDE) -c $(PROGRAMMER_TYPE) -p $(MCU) $(PROGRAMMER_ARGS) -U eeprom:w:$<
avrdude_terminal:
$(AVRDUDE) -c $(PROGRAMMER_TYPE) -p $(MCU) $(PROGRAMMER_ARGS) -nt
## If you've got multiple programmers that you use,
## you can define them here so that it's easy to switch.
## To invoke, use something like `make flash_arduinoISP`
flash_usbtiny: PROGRAMMER_TYPE = usbtiny
flash_usbtiny: PROGRAMMER_ARGS = # USBTiny works with no further arguments
flash_usbtiny: flash
flash_usbasp: PROGRAMMER_TYPE = usbasp
flash_usbasp: PROGRAMMER_ARGS = # USBasp works with no further arguments
flash_usbasp: flash
flash_arduinoISP: PROGRAMMER_TYPE = avrisp
flash_arduinoISP: PROGRAMMER_ARGS = -b 19200 -P /dev/ttyACM0
## (for windows) flash_arduinoISP: PROGRAMMER_ARGS = -b 19200 -P com5
flash_arduinoISP: flash
flash_109: PROGRAMMER_TYPE = avr109
flash_109: PROGRAMMER_ARGS = -b 9600 -P /dev/ttyUSB0
flash_109: flash
##########------------------------------------------------------##########
########## Fuse settings and suitable defaults ##########
##########------------------------------------------------------##########
## Mega 48, 88, 168, 328 default values
LFUSE = 0x62
HFUSE = 0xdf
EFUSE = 0x00
## Generic
FUSE_STRING = -U lfuse:w:$(LFUSE):m -U hfuse:w:$(HFUSE):m -U efuse:w:$(EFUSE):m
fuses:
$(AVRDUDE) -c $(PROGRAMMER_TYPE) -p $(MCU) \
$(PROGRAMMER_ARGS) $(FUSE_STRING)
show_fuses:
$(AVRDUDE) -c $(PROGRAMMER_TYPE) -p $(MCU) $(PROGRAMMER_ARGS) -nv
## Called with no extra definitions, sets to defaults
set_default_fuses: FUSE_STRING = -U lfuse:w:$(LFUSE):m -U hfuse:w:$(HFUSE):m -U efuse:w:$(EFUSE):m
set_default_fuses: fuses
## Set the fuse byte for full-speed mode
## Note: can also be set in firmware for modern chips
set_fast_fuse: LFUSE = 0xE2
set_fast_fuse: FUSE_STRING = -U lfuse:w:$(LFUSE):m
set_fast_fuse: fuses
## Set the EESAVE fuse byte to preserve EEPROM across flashes
set_eeprom_save_fuse: HFUSE = 0xD7
set_eeprom_save_fuse: FUSE_STRING = -U hfuse:w:$(HFUSE):m
set_eeprom_save_fuse: fuses
## Clear the EESAVE fuse byte
clear_eeprom_save_fuse: FUSE_STRING = -U hfuse:w:$(HFUSE):m
clear_eeprom_save_fuse: fuses

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Make AVR Examples/Chapter12_Analog-to-Digital-Conversion-II/voltmeter/voltmeter.c Normal file
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/* ADC Voltmeter
* Continuously outputs voltage over the serial line.
*/
// ------- Preamble -------- //
#include <avr/io.h>
#include <util/delay.h>
#include <avr/interrupt.h>
#include <avr/sleep.h> /* for ADC sleep mode */
#include <math.h> /* for round() and floor() */
#include "pinDefines.h"
#include "USART.h"
/* Note: This voltmeter is only as accurate as your reference voltage.
* If you want four digits of accuracy, need to measure your AVCC well.
* Measure either AVCC of the voltage on AREF and enter it here.
*/
#define REF_VCC 5.053
/* measured division by voltage divider */
#define VOLTAGE_DIV_FACTOR 3.114
// -------- Functions --------- //
void initADC(void) {
ADMUX |= (0b00001111 & PC5); /* set mux to ADC5 */
ADMUX |= (1 << REFS0); /* reference voltage on AVCC */
ADCSRA |= (1 << ADPS1) | (1 << ADPS2); /* ADC clock prescaler /64 */
ADCSRA |= (1 << ADEN); /* enable ADC */
}
void setupADCSleepmode(void) {
set_sleep_mode(SLEEP_MODE_ADC); /* defined in avr/sleep.h */
ADCSRA |= (1 << ADIE); /* enable ADC interrupt */
sei(); /* enable global interrupts */
}
EMPTY_INTERRUPT(ADC_vect);
uint16_t oversample16x(void) {
uint16_t oversampledValue = 0;
uint8_t i;
for (i = 0; i < 16; i++) {
sleep_mode(); /* chip to sleep, takes ADC sample */
oversampledValue += ADC; /* add them up 16x */
}
return (oversampledValue >> 2); /* divide back down by four */
}
void printFloat(float number) {
number = round(number * 100) / 100; /* round off to 2 decimal places */
transmitByte('0' + number / 10); /* tens place */
transmitByte('0' + number - 10 * floor(number / 10)); /* ones */
transmitByte('.');
transmitByte('0' + (number * 10) - floor(number) * 10); /* tenths */
/* hundredths place */
transmitByte('0' + (number * 100) - floor(number * 10) * 10);
printString("\r\n");
}
int main(void) {
float voltage;
// -------- Inits --------- //
initUSART();
printString("\r\nDigital Voltmeter\r\n\r\n");
initADC();
setupADCSleepmode();
// ------ Event loop ------ //
while (1) {
voltage = oversample16x() * VOLTAGE_DIV_FACTOR * REF_VCC / 4096;
printFloat(voltage);
/* alternatively, just print it out:
* printWord(voltage*100);
* but then you have to remember the decimal place
*/
_delay_ms(500);
} /* End event loop */
return 0; /* This line is never reached */
}