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MicroRally:main MicroRally:develop MicroRally:feat-fw-hbrake MicroRally:feat-pcb-r10 MicroRally:legacy-fw
MicroRally:CPPFW-V0.1 MicroRally:DEV-PCB-R1 MicroRally:R9 MicroRally:HW-EP-R1 MicroRally:LED-R1 MicroRally:R8 MicroRally:R7 MicroRally:R6
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compare: MicroRally:CPPFW-V0.1
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MicroRally:develop MicroRally:feat-fw-hbrake MicroRally:feat-pcb-r10 MicroRally:main MicroRally:legacy-fw
MicroRally:CPPFW-V0.1 MicroRally:DEV-PCB-R1 MicroRally:R9 MicroRally:HW-EP-R1 MicroRally:LED-R1 MicroRally:R8 MicroRally:R7 MicroRally:R6

12 Commits
R8 ... CPPFW-V0.1

Author SHA1 Message Date
Andis Zīle
4a84afcf7a feat-hal-2 (#4) 
Finished working initial version

Co-authored-by: Andis Zīle <andis.jarganns@gmail.com>
Reviewed-on: #4
Co-authored-by: Andis Zīle <andis.jargans@gmail.com>
Co-committed-by: Andis Zīle <andis.jargans@gmail.com>
 2024-07-31 16:15:35 +00:00
Andis Zīle
68f0f52566 Simple dev-test board 2024-04-25 20:19:44 +03:00
Andis Zīle
9a7f4933b3 Started PCB layout 2024-04-24 23:58:40 +03:00
Andis Zīle
6ba884f51f Started dev board design 2024-04-24 18:22:57 +03:00
Andis Zīle
02cb3a9c70 Repo unification 2024-03-12 21:22:26 +02:00
Andis Zīle
7aa7edba33 Migration refresh 2023-12-11 12:59:44 +02:00
Andis Zīle
8f8a80f05f Migration part 1 2023-12-11 12:59:26 +02:00
Andis Zīle
299429cb92 Started test board 2023-12-11 01:22:03 +02:00
Andis Zīle
98b5333126 PCB Revision 9 2023-12-11 01:18:55 +02:00
Andis Zīle
a54aaa9827 Created case End-plates 2023-12-11 01:14:56 +02:00
Andis Zīle
365dadc23d Created docs 2023-12-11 01:14:31 +02:00
Andis Zīle
51e20be598 LED board Revision 1 2023-12-11 01:12:31 +02:00
79 changed files with 6193 additions and 115 deletions
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21
.gitignore vendored
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@@ -1,3 +1,23 @@
# Ignore list for Atmel studio files
# Hidden folder
.vs/
#Build Directories
Debug/
Release/
#Build Results
*.o
*.d
*.eep
*.elf
*.hex
*.map
*.srec
#User Specific Files
*.atsuo
# Ignore list for Altium temp files # Ignore list for Altium temp files
History/ History/
__Previews/ __Previews/
@@ -9,3 +29,4 @@ Project Logs for*
# Ignore list for Generated output files # Ignore list for Generated output files
*.step *.step
OUTPUTS/ OUTPUTS/

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45
firmware/src/bsp/ain.cpp Normal file
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/**** Includes ****/
#include "../utils/utils.h"
#include "mcu/mcu_hal.h"
#include "ain.h"
using namespace bsp;
/**** Private definitions ****/
/**** Private constants ****/
/**** Private variables ****/
/**** Private function declarations ****/
/**** Public function definitions ****/
bsp::AnalogIn::AnalogIn(void)
{
return;
}
bsp::AnalogIn::~AnalogIn(void)
{
return;
}
void bsp::AnalogIn::init(uint8_t adc_ch)
{
this->adc_ch = adc_ch;
this->mul = DEF_AIN_MUL;
this->div = DEF_AIN_DIV;
this->offset = DEF_AIN_OFFSET;
this->last_read = 0;
}
uint16_t bsp::AnalogIn::read(void)
{
//Read ADC
uint16_t raw = mcu::adc_read(this->adc_ch);
//Convert to mV
this->last_read = util::convert_muldivoff(raw, this->mul, this->div, this->offset);
return this->last_read;
}
/**** Private function definitions ****/

42
firmware/src/bsp/ain.h Normal file
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#ifndef ANALOG_IN_H_
#define ANALOG_IN_H_
/**** Includes ****/
#include <stdint.h>
namespace bsp {
/**** Public definitions ****/
static const uint8_t DEF_AIN_MUL = 215;
static const uint8_t DEF_AIN_DIV = 44;
static const int16_t DEF_AIN_OFFSET = 0;
class AnalogIn
{
public:
AnalogIn(void);
~AnalogIn(void);
void init(uint8_t adc_ch);
uint8_t mul;
uint8_t div;
int16_t offset;
uint16_t last_read;
uint16_t read(void);
#ifndef TESTING
protected:
#endif
uint8_t adc_ch;
};
/**** Public function declarations ****/
#ifdef TESTING
#endif
} //namespace
#endif /* ANALOG_IN_H_ */

52
firmware/src/bsp/ain_lpf.cpp Normal file
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@@ -0,0 +1,52 @@
/**** Includes ****/
#include "../utils/utils.h"
#include "mcu/mcu_hal.h"
#include "ain_lpf.h"
using namespace bsp;
/**** Private definitions ****/
/**** Private constants ****/
/**** Private variables ****/
/**** Private function declarations ****/
/**** Public function definitions ****/
bsp::AnalogInLfp::AnalogInLfp(void)
{
return;
}
bsp::AnalogInLfp::~AnalogInLfp(void)
{
return;
}
void bsp::AnalogInLfp::init(uint8_t adc_ch)
{
this->adc_ch = adc_ch;
this->mul = DEF_AIN_MUL;
this->div = DEF_AIN_DIV;
this->offset = DEF_AIN_OFFSET;
this->strength = 0;
this->last_read = 0;
this->last_read_direct = 0;
}
uint16_t bsp::AnalogInLfp::read(void)
{
//Read ADC
uint16_t raw = mcu::adc_read(this->adc_ch);
//Convert to mV
this->last_read_direct = util::convert_muldivoff(raw, this->mul, this->div, this->offset);
// Do filtering
uint32_t td0 = ((uint32_t)(255 - this->strength) * this->last_read_direct);
uint32_t td1 = ((uint32_t)(this->strength) * this->last_read);
uint32_t out = (td0 + td1)/255;
this->last_read = util::sat_cast(out);
return this->last_read;
}
/**** Private function definitions ****/

36
firmware/src/bsp/ain_lpf.h Normal file
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#ifndef ANALOG_IN_LPF_H_
#define ANALOG_IN_LPF_H_
/**** Includes ****/
#include <stdint.h>
#include "ain.h"
namespace bsp {
/**** Public definitions ****/
class AnalogInLfp : public AnalogIn
{
public:
// New stuff
AnalogInLfp(void);
~AnalogInLfp(void);
void init(uint8_t adc_ch);
uint16_t read(void);
uint8_t strength;
uint16_t last_read_direct;
#ifndef TESTING
protected:
#endif
};
/**** Public function declarations ****/
#ifdef TESTING
#endif
} //namespace
#endif /* ANALOG_IN_LPF_H_ */

108
firmware/src/bsp/board.cpp Normal file
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/**** Includes ****/
#include "../utils/utils.h"
#include "mcu/mcu_hal.h"
#include "board.h"
using namespace bsp;
/**** Private definitions ****/
/**** Private constants ****/
/**** Private variables ****/
/**** Private function declarations ****/
/**** Public function definitions ****/
bsp::Board::Board(void)
{
return;
}
bsp::Board::~Board(void)
{
return;
}
void bsp::Board::init(boardCfg_t* cfg)
{
// Calculate settings
// Controller setup
mcu::startupCfg_t mcu_cfg;
mcu_cfg.adc_clk = mcu::ADC_DIV64; // 8MHz/64=125kHz
mcu_cfg.pwm_clk = mcu::TIM_DIV1; // 8MHz/1 = 8MHz
mcu_cfg.pwm_top = 4000/(uint16_t)cfg->pwm_f_khz;
mcu_cfg.od_common_is_pwm = cfg->od_common_is_pwm;
mcu::startup(&mcu_cfg);
// Analog inputs
this->out_voltage.init(mcu::ADC_VOUT);
this->out_voltage.mul = 20;
this->out_voltage.div = 1;
this->out_voltage.offset = 0;
this->out_current.init(mcu::ADC_IOUT);
this->out_current.mul = 215;
this->out_current.div = 22;
this->out_current.offset = 0;
this->battery_voltage.init(mcu::ADC_VBAT);
this->battery_voltage.mul = 20;
this->battery_voltage.div = 1;
this->battery_voltage.offset = 0;
this->battery_current.init(mcu::ADC_IBAT);
this->battery_current.mul = 235;
this->battery_current.div = 6;
this->battery_current.offset = 0;
this->ain1.init(mcu::ADC_AIN1);
this->ain2.init(mcu::ADC_AIN2);
// Digital inputs
this->din1.init(mcu::GPIO_DIN1, 0);
this->din2.init(mcu::GPIO_DIN2, 0);
this->din3.init(mcu::GPIO_DIN3, 0);
this->din4.init(mcu::GPIO_DIN4, 0);
this->hvdin1.init(mcu::GPIO_HVDIN1, 1);
this->hvdin2.init(mcu::GPIO_HVDIN2, 1);
this->hvdin3.init(mcu::GPIO_HVDIN3, 1);
this->hvdin3_pull.init(mcu::GPIO_HVDIN3_PULL, 0);
this->freq_pull.init(mcu::GPIO_FREQ_PULL, 0);
// Open-drain outputs
this->od1.init(mcu::GPIO_OD1, 1);
this->od2.init(mcu::GPIO_OD2, 1);
this->od3.init(mcu::GPIO_OD3, 1);
this->od4.init(mcu::GPIO_OD4, 1);
this->od5.init(mcu::GPIO_OD5, 1);
this->od6.init(mcu::GPIO_OD6, 1);
this->od_pwm.init(mcu::PWM_OD, 100);
// PWM driver output
this->out_pwm.init(mcu::PWM_OUT, 95);
this->out_low.init(mcu::GPIO_OUT_LOW, 0);
}
void bsp::Board::read(void)
{
// Update all analog inputs
this->out_voltage.read();
this->out_current.read();
this->battery_voltage.read();
this->battery_current.read();
this->ain1.read();
this->ain2.read();
// Update all digital inputs
this->din1.read();
this->din2.read();
this->din3.read();
this->din4.read();
this->hvdin1.read();
this->hvdin2.read();
this->hvdin3.read();
}
/**** Private function definitions ****/

75
firmware/src/bsp/board.h Normal file
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@@ -0,0 +1,75 @@
#ifndef UDCCD_BOARD_H_
#define UDCCD_BOARD_H_
/**** Includes ****/
#include <stdint.h>
#include "ain.h"
#include "ain_lpf.h"
#include "din.h"
#include "dout.h"
#include "pwm_out.h"
#include "memory.h"
namespace bsp {
/**** Public definitions ****/
class Board
{
public:
typedef struct {
uint8_t pwm_f_khz;
uint8_t od_common_is_pwm;
} boardCfg_t;
Board(void);
~Board(void);
void init(boardCfg_t* cfg);
AnalogIn out_voltage;
AnalogIn out_current;
AnalogIn battery_voltage;
AnalogIn battery_current;
AnalogIn ain1;
AnalogIn ain2;
DigitalIn din1;
DigitalIn din2;
DigitalIn din3;
DigitalIn din4;
DigitalIn hvdin1;
DigitalIn hvdin2;
DigitalIn hvdin3;
DigitalOut hvdin3_pull;
DigitalOut freq_pull;
DigitalOut od1;
DigitalOut od2;
DigitalOut od3;
DigitalOut od4;
DigitalOut od5;
DigitalOut od6;
PwmOut od_pwm;
PwmOut out_pwm;
DigitalOut out_low;
Memory nvmem;
void read(void);
#ifndef TESTING
protected:
#endif
};
/**** Public function declarations ****/
#ifdef TESTING
#endif
} //namespace
#endif /* UDCCD_BOARD_H_ */

48
firmware/src/bsp/din.cpp Normal file
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/**** Includes ****/
#include "../utils/utils.h"
#include "mcu/mcu_hal.h"
#include "din.h"
using namespace bsp;
/**** Private definitions ****/
/**** Private constants ****/
/**** Private variables ****/
/**** Private function declarations ****/
/**** Public function definitions ****/
bsp::DigitalIn::DigitalIn(void)
{
return;
}
bsp::DigitalIn::~DigitalIn(void)
{
return;
}
void bsp::DigitalIn::init(uint8_t gpio_ch, uint8_t inverted)
{
this->gpio_ch = gpio_ch;
if(inverted == 0) this->is_inverted = 0;
else this->is_inverted = 1;
this->last_read = 0;
}
uint8_t bsp::DigitalIn::read(void)
{
// Read ADC
this->last_read = mcu::gpio_read(this->gpio_ch);
// Invert if necessary
if(this->is_inverted)
{
if(this->last_read==0) this->last_read = 1;
else this->last_read = 0;
};
return this->last_read;
}
/**** Private function definitions ****/

36
firmware/src/bsp/din.h Normal file
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#ifndef DIGITAL_IN_H_
#define DIGITAL_IN_H_
/**** Includes ****/
#include <stdint.h>
namespace bsp {
/**** Public definitions ****/
class DigitalIn
{
public:
DigitalIn(void);
~DigitalIn(void);
void init(uint8_t gpio_ch, uint8_t inverted);
uint8_t last_read;
uint8_t read(void);
#ifndef TESTING
protected:
#endif
uint8_t gpio_ch;
uint8_t is_inverted;
};
/**** Public function declarations ****/
#ifdef TESTING
#endif
} //namespace
#endif /* DIGITAL_IN_H_ */

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firmware/src/bsp/dout.cpp Normal file
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@@ -0,0 +1,37 @@
/**** Includes ****/
#include "../utils/utils.h"
#include "mcu/mcu_hal.h"
#include "dout.h"
using namespace bsp;
/**** Private definitions ****/
/**** Private constants ****/
/**** Private variables ****/
/**** Private function declarations ****/
/**** Public function definitions ****/
bsp::DigitalOut::DigitalOut(void)
{
return;
}
bsp::DigitalOut::~DigitalOut(void)
{
return;
}
void bsp::DigitalOut::write(int8_t level)
{
if(this->is_inverted)
{
if(level==0) level = 1;
else if (level > 0) level = 0;
};
mcu::gpio_write(this->gpio_ch, level);
this->last_writen = level;
}
/**** Private function definitions ****/

34
firmware/src/bsp/dout.h Normal file
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@@ -0,0 +1,34 @@
#ifndef DIGITAL_OUT_H_
#define DIGITAL_OUT_H_
/**** Includes ****/
#include <stdint.h>
#include "din.h"
namespace bsp {
/**** Public definitions ****/
class DigitalOut : public DigitalIn
{
public:
// New or redefined stuff
DigitalOut(void);
~DigitalOut(void);
int8_t last_writen;
void write(int8_t level);
#ifndef TESTING
protected:
#endif
};
/**** Public function declarations ****/
#ifdef TESTING
#endif
} //namespace
#endif /* DIGITAL_OUT_H_ */

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firmware/src/bsp/mcu/mcu_hal.h Normal file
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#ifndef MCU_HAL_H_
#define MCU_HAL_H_
/**** Includes ****/
#include <stdint.h>
namespace mcu {
/**** Public definitions ****/
/*
*/
const uint8_t LEVEL_LOW = 0;
const uint8_t LEVEL_HIGH = 1;
const int8_t LEVEL_HIZ = -1;
const uint8_t GPIO_DIN1 = 0;
const uint8_t GPIO_DIN2 = 1;
const uint8_t GPIO_DIN3 = 2;
const uint8_t GPIO_DIN4 = 3;
const uint8_t GPIO_HVDIN1 = 4;
const uint8_t GPIO_HVDIN2 = 5;
const uint8_t GPIO_HVDIN3 = 6;
const uint8_t GPIO_HVDIN3_PULL = 7;
const uint8_t GPIO_OD1 = 8;
const uint8_t GPIO_OD2 = 9;
const uint8_t GPIO_OD3 = 10;
const uint8_t GPIO_OD4 = 11;
const uint8_t GPIO_OD5 = 12;
const uint8_t GPIO_OD6 = 13;
const uint8_t GPIO_OUT_LOW = 14;
const uint8_t GPIO_OUT_HIGH = 15;
const uint8_t GPIO_OD_PWM = 16;
const uint8_t GPIO_FREQ1 = 17;
const uint8_t GPIO_FREQ2 = 18;
const uint8_t GPIO_FREQ_PULL = 19;
const uint8_t GPIO_TX = 20;
const uint8_t GPIO_RX = 21;
const uint8_t ADC_IOUT = 0; //Output current
const uint8_t ADC_VOUT = 1; //Output voltage
const uint8_t ADC_VBAT = 2; //Battery voltage
const uint8_t ADC_IBAT = 3; //Battery current
const uint8_t ADC_AIN2 = 4; //Potentiometer
const uint8_t ADC_AIN1 = 5; //Mode
const uint8_t ADC_TEMP = 8; //MCU temperature
const uint8_t ADC_IVREF = 14; //MCU internal reference
const uint8_t ADC_GND = 15; //MCU ground
const uint8_t PWM_OUT = 0; //DCCD
const uint8_t PWM_OD = 1; //LED
//ADC definitions
typedef enum {
ADC_DIV2 = 0x01,
ADC_DIV4 = 0x02,
ADC_DIV8 = 0x03,
ADC_DIV16 = 0x04,
ADC_DIV32 = 0x05,
ADC_DIV64 = 0x06,
ADC_DIV128 = 0x07
} adcClkDiv_t;
//Timer definitions
typedef enum {
TIM_DIV1 = 0x01,
TIM_DIV8 = 0x02,
TIM_DIV64 = 0x03,
TIM_DIV256 = 0x04,
TIM_DIV1024 = 0x05
} timerClkDiv_t;
typedef struct {
adcClkDiv_t adc_clk;
timerClkDiv_t pwm_clk;
uint16_t pwm_top;
uint8_t od_common_is_pwm;
} startupCfg_t;
/**** Public function declarations ****/
void startup(startupCfg_t* hwCfg);
void rtc_set_calibration(uint16_t coef);
uint8_t gpio_read(uint8_t ch);
void gpio_write(uint8_t ch, int8_t lvl);
void gpio_write_pull(uint8_t ch, int8_t lvl);
void adc_start(uint8_t ch);
uint8_t adc_is_running(void);
uint8_t adc_is_new(void);
uint16_t adc_read(void);
uint16_t adc_read(uint8_t ch);
void pwm_write(uint8_t ch, uint16_t dc);
uint16_t pwm_read(uint8_t ch);
void timer_reset(uint8_t ch);
uint16_t timer_read(uint8_t ch);
uint16_t timer_read_top(uint8_t ch);
uint32_t timer_convert_us(uint8_t ch, uint16_t raw);
uint32_t timer_convert_ms(uint8_t ch, uint16_t raw);
uint8_t eeprom_read8b(uint16_t address);
uint16_t eeprom_read16b(uint16_t address);
uint32_t eeprom_read32b(uint16_t address);
void eeprom_write8b(uint16_t address, uint8_t value);
void eeprom_write16b(uint16_t address, uint16_t value);
void eeprom_write32b(uint16_t address, uint32_t value);
} //namespace
#endif /* MCU_HAL_H_ */

527
firmware/src/bsp/mcu/mcu_hal_r8.cpp Normal file
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/**** Includes ****/
#include <avr/io.h>
#include <avr/eeprom.h>
#include "mcu_hal.h"
using namespace mcu;
/**** Private definitions ****/
/**** Private constants ****/
/**** Private variables ****/
static volatile uint16_t rtc_ms = 1000;
/**** Private function declarations ****/
static uint8_t gpio_read_level(uint8_t pin_reg, uint8_t mask);
static void pwm_write_ocx(uint8_t ch, uint16_t value);
static uint16_t pwm_read_ocx(uint8_t ch);
/**** Public function definitions ****/
void mcu::startup(startupCfg_t* hwCfg)
{
// Fail-safe GPIO init
PORTB = 0xF8; // Set PORTB pull-ups
DDRB = 0x00; // Set all as inputs
PORTC = 0x40; // Set PORTC pull-ups
DDRC = 0x00; // Set all as inputs
PORTD = 0x80; // Set PORTD pull-ups
DDRD = 0x00; // Set all as inputs
PORTE = 0x0A; // Set PORTE pull-ups
DDRE = 0x00; // Set all as inputs
// Half-bridge related pins
PORTB &= ~0x03; //Set low
DDRB |= 0x03; //Set as output
// Common OD PWM pin
if(hwCfg->od_common_is_pwm) PORTB &= ~0x04; //Set low
else PORTB |= 0x04; //Set high
DDRB |= 0x04; //Set as output
// OD control pins
PORTD &= ~0x3F; //Set low (off)
DDRD |= 0x3F; //Set as outputs
// Handbrake pull-up pin
PORTB |= 0x20; //Set high
DDRB |= 0x20; //Set as output
// Handbrake and brakes pins
PORTB |= 0xC0; //Set pull-up on
DDRB &= ~0xC0; //Set as inputs
// Dimm
PORTD |= 0x80; //Set pull-up on
DDRD &= ~0x80; //Set as input
// Up and Down
PORTE |= 0x0A; //Set pull-up on
DDRE &= ~0x0A; //Set as inputs
// Internal ADC inputs
PORTC &= ~0x0F; //Pull-up off
DDRC &= ~0x0F; //Set as inputs
// Potentiometer & Mode
PORTC &= ~0x30; //Pull-up off
DDRC &= ~0x30; //Set as inputs
// Freq-pull control pins
PORTD &= ~0x40; //Set low
DDRD |= 0x40; //Set as output
//ADC configuration
PRR0 &= ~0x01; //Enable ADC power
DIDR0 |= 0x0F; //Disable digital inputs, ADC0-ADC3
ADMUX = 0x40; //Set AVCC reference, Right adjust
ADCSRA = 0x00; //ADC Disabled, Single conversion, no IT
ADCSRA |= (uint8_t)hwCfg->adc_clk;
ADCSRB = 0x00; //no trigger input
ADCSRA |= 0x80; //Enable ADC
//DCCD and LED PWM configuration
PRR0 &= ~0x80; //Enable Timer1 power
TCCR1A = 0xC2; //Connect OC1A, inverted mode
if(hwCfg->od_common_is_pwm) TCCR1A |= 0x30; //Connect OC1B, inverted mode
TCCR1B = 0x18; //PWM, Phase & Frequency Correct ICR1 top, no clock, WGM:0xE
TCCR1C = 0x00;
TCNT1 = 0x0000;
OCR1A = 0xFFFF;
OCR1B = 0xFFFF;
ICR1 = hwCfg->pwm_top;
TIMSK1 = 0x00; //No interrupts
TIFR1 = 0x00; //Clear all flags
uint8_t tim1_prescaler = (uint8_t)hwCfg->pwm_clk;
TCCR1B |= tim1_prescaler; //Enable timer
}
void mcu::rtc_set_calibration(uint16_t coef)
{
rtc_ms = coef;
}
// GPIO interface functions
uint8_t mcu::gpio_read(uint8_t ch)
{
switch(ch)
{
case GPIO_DIN1: // Mode DIN1
return gpio_read_level(PINC,0x20);
case GPIO_DIN2: // Pot DIN2
return gpio_read_level(PINC,0x10);
case GPIO_DIN3: // Down DIN3
return gpio_read_level(PINE,0x02);
case GPIO_DIN4: // Up DIN4
return gpio_read_level(PINE,0x08);
case GPIO_HVDIN1: // Dimm DIN5
return gpio_read_level(PIND,0x80);
case GPIO_HVDIN2: // Brakes DIN6
return gpio_read_level(PINB,0x80);
case GPIO_HVDIN3: // Handbrake DIN7
return gpio_read_level(PINB,0x40);
case GPIO_HVDIN3_PULL: // Handbrake pull DIN8
return gpio_read_level(PINB,0x20);
case GPIO_OD1: // LED 0
return gpio_read_level(PIND,0x01);
case GPIO_OD2: // LED 1
return gpio_read_level(PIND,0x02);
case GPIO_OD3: // LED 2
return gpio_read_level(PIND,0x04);
case GPIO_OD4: // LED 3
return gpio_read_level(PIND,0x08);
case GPIO_OD5: // LED 4
return gpio_read_level(PIND,0x10);
case GPIO_OD6: // LED 5
return gpio_read_level(PIND,0x20);
case GPIO_OUT_LOW: // DCCD Enable
return gpio_read_level(PINB,0x01);
case GPIO_OUT_HIGH: // DCCD PWM
return gpio_read_level(PINB,0x02);
case GPIO_OD_PWM: // LED PWM
return gpio_read_level(PINB,0x04);
case GPIO_FREQ1: // Speed 1
return gpio_read_level(PINE,0x04);
case GPIO_FREQ2: // Speed 2
return gpio_read_level(PINE,0x01);
case GPIO_FREQ_PULL: // Speed-pull
return gpio_read_level(PIND,0x40);
case GPIO_TX: //
return gpio_read_level(PINB,0x08);
case GPIO_RX: //
return gpio_read_level(PINB,0x10);
default:
return 0;
}
}
void mcu::gpio_write(uint8_t ch, int8_t lvl)
{
switch(ch)
{
case GPIO_DIN1: // Mode DIN1
if(lvl>0)
{
PORTC |= 0x20;
DDRC |= 0x20;
}
else if(lvl<0)
{
DDRC &= ~0x20;
PORTC &= ~0x20;
}
else
{
PORTC &= ~0x20;
DDRC |= 0x20;
}
return;
case GPIO_DIN2: // Pot DIN2
if(lvl>0)
{
PORTC |= 0x10;
DDRC |= 0x10;
}
else if(lvl<0)
{
DDRC &= ~0x10;
PORTC &= ~0x10;
}
else
{
PORTC &= ~0x10;
DDRC |= 0x10;
}
return;
case GPIO_DIN3: // Down DIN3
if(lvl>0)
{
PORTE |= 0x02;
DDRE |= 0x02;
}
else if(lvl<0)
{
DDRE &= ~0x02;
PORTE &= ~0x02;
}
else
{
PORTE &= ~0x02;
DDRE |= 0x02;
}
return;
case GPIO_DIN4: // Up DIN4
if(lvl>0)
{
PORTE |= 0x08;
DDRE |= 0x08;
}
else if(lvl<0)
{
DDRE &= ~0x08;
PORTE &= ~0x08;
}
else
{
PORTE &= ~0x08;
DDRE |= 0x08;
}
return;
case GPIO_HVDIN3_PULL: // Handbrake pull DIN
if(lvl>0)
{
PORTB |= 0x20;
DDRB |= 0x20;
}
else if(lvl<0)
{
DDRB &= ~0x20;
PORTB &= ~0x20;
}
else
{
PORTB &= ~0x20;
DDRB |= 0x20;
}
return;
case GPIO_OD1: // LED 0
if(lvl>0) PORTD |= 0x01;
else PORTD &= ~0x01;
return;
case GPIO_OD2: // LED 1
if(lvl>0) PORTD |= 0x02;
else PORTD &= ~0x02;
return;
case GPIO_OD3: // LED 2
if(lvl>0) PORTD |= 0x04;
else PORTD &= ~0x04;
return;
case GPIO_OD4: // LED 3
if(lvl>0) PORTD |= 0x08;
else PORTD &= ~0x08;
return;
case GPIO_OD5: // LED 4
if(lvl>0) PORTD |= 0x10;
else PORTD &= ~0x10;
return;
case GPIO_OD6: // LED 5
if(lvl>0) PORTD |= 0x20;
else PORTD &= ~0x20;
return;
case GPIO_OUT_LOW: // DCCD Enable
if(lvl>0) PORTB |= 0x01;
else PORTB &= ~0x01;
return;
case GPIO_FREQ_PULL: // Speed-pull
if(lvl>0) PORTD |= 0x40;
else PORTD &= ~0x40;
return;
default:
return;
}
}
void mcu::gpio_write_pull(uint8_t ch, int8_t lvl)
{
switch(ch)
{
case GPIO_DIN1: // Mode DIN1
if(lvl>0) PORTC |= 0x20;
else PORTC &= ~0x20;
return;
case GPIO_DIN2: // Pot DIN2
if(lvl>0) PORTC |= 0x10;
else PORTC &= ~0x10;
return;
case GPIO_DIN3: // Down DIN3
if(lvl>0) PORTE |= 0x02;
else PORTE &= ~0x02;
return;
case GPIO_DIN4: // Up DIN4
if(lvl>0) PORTE |= 0x08;
else PORTE &= ~0x08;
return;
case GPIO_HVDIN1: // Dimm
if(lvl>0) PORTD |= 0x80;
else PORTD &= ~0x80;
return;
case GPIO_HVDIN2: // Brakes
if(lvl>0) PORTB |= 0x80;
else PORTB &= ~0x80;
return;
case GPIO_HVDIN3: // Handbrake
if(lvl>0) PORTB |= 0x40;
else PORTB &= ~0x40;
return;
default:
return;
}
}
// ADC interface functions
void mcu::adc_start(uint8_t ch)
{
// check if already running
if(ADCSRA&0x40) return;
//check if ADC is enabled
if(!(ADCSRA&0x80)) return;
//Safe guard mux
if(ch > 15) return;
// Not available channels
if((ch > 8) && (ch<14)) return;
ADMUX &= ~0x0F;
ADMUX |= ch;
ADCSRA |= 0x10; // Reset int. flag
ADCSRA |= 0x40;
}
uint8_t mcu::adc_is_running(void)
{
if(ADCSRA&0x40) return 1;
else return 0;
}
uint8_t mcu::adc_is_new(void)
{
if(ADCSRA&0x10) return 1;
else return 0;
}
uint16_t mcu::adc_read(void)
{
ADCSRA |= 0x10; // Reset int. flag
return ADC;
}
uint16_t mcu::adc_read(uint8_t ch)
{
//check if ADC is enabled
if(!(ADCSRA&0x80)) return 0xFFFF;
//Safe guard mux
if(ch > 15) return 0xFFFF;
// Not available channels
if((ch > 8) && (ch<14)) return 0xFFFF;
ADMUX &= ~0x0F;
ADMUX |= ch;
ADCSRA |= 0x40;
while(ADCSRA&0x40); //wait to finish
return ADC;
}
// PWM interface functions
void mcu::pwm_write(uint8_t ch, uint16_t dc)
{
dc = 0xFFFF - dc;
// Calculate value as % of TOP
uint32_t top = (uint32_t)ICR1;
uint32_t temp = (uint32_t)dc * top;
temp = temp/0x0000FFFF;
//Limit temp
if(temp>0x0000FFFF) temp = 0x0000FFFF;
uint16_t ocrx = (uint16_t)temp;
// Write register
pwm_write_ocx(ch, ocrx);
}
uint16_t mcu::pwm_read(uint8_t ch)
{
uint16_t ocrx = pwm_read_ocx(ch);
// Check easy answers
if(ocrx == 0) return 0;
if(ocrx >= ICR1) return 0xFFFF;
// Calculate
uint32_t top = (uint32_t)ICR1;
uint32_t temp = (uint32_t)ocrx * 0xFFFF;
temp = temp/top;
//Limit temp
if(temp>0x0000FFFF) return 0xFFFF;
return (uint16_t)temp;
}
// EEPROM interface functions
uint8_t mcu::eeprom_read8b(uint16_t address)
{
return eeprom_read_byte((uint8_t*)address);
}
uint16_t mcu::eeprom_read16b(uint16_t address)
{
return eeprom_read_word((uint16_t*)address);
}
uint32_t mcu::eeprom_read32b(uint16_t address)
{
return eeprom_read_dword((uint32_t*)address);
}
void mcu::eeprom_write8b(uint16_t address, uint8_t value)
{
eeprom_write_byte((uint8_t*)address, value);
}
void mcu::eeprom_write16b(uint16_t address, uint16_t value)
{
eeprom_write_word((uint16_t*)address, value);
}
void mcu::eeprom_write32b(uint16_t address, uint32_t value)
{
eeprom_write_dword((uint32_t*)address, value);
}
/**** Private function definitions ****/
static uint8_t gpio_read_level(uint8_t pin_reg, uint8_t mask)
{
if(pin_reg&mask) return LEVEL_HIGH;
else return LEVEL_LOW;
}
static void pwm_write_ocx(uint8_t ch, uint16_t value)
{
switch(ch)
{
case PWM_OUT:
OCR1A = value;
return;
case PWM_OD:
OCR1B = value;
return;
default:
return;
}
}
static uint16_t pwm_read_ocx(uint8_t ch)
{
switch(ch)
{
case PWM_OUT:
return OCR1A;
case PWM_OD:
return OCR1B ;
default:
return 0x0000;
}
}

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firmware/src/bsp/memory.cpp Normal file
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/**** Includes ****/
#include "mcu/mcu_hal.h"
#include "memory.h"
using namespace bsp;
/**** Private definitions ****/
/**** Private constants ****/
/**** Private variables ****/
/**** Private function declarations ****/
/**** Public function definitions ****/
bsp::Memory::Memory(void)
{
return;
}
bsp::Memory::~Memory(void)
{
return;
}
uint8_t bsp::Memory::read_8b(uint16_t address)
{
return mcu::eeprom_read8b(address);
}
uint16_t bsp::Memory::read_16b(uint16_t address)
{
return mcu::eeprom_read16b(address);
}
uint32_t bsp::Memory::read_32b(uint16_t address)
{
return mcu::eeprom_read32b(address);
}
void bsp::Memory::write_8b(uint16_t address, uint8_t value)
{
mcu::eeprom_write8b(address, value);
}
void bsp::Memory::write_16b(uint16_t address, uint16_t value)
{
mcu::eeprom_write16b(address, value);
}
void bsp::Memory::write_32b(uint16_t address, uint32_t value)
{
mcu::eeprom_write32b(address, value);
}
/**** Private function definitions ****/

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firmware/src/bsp/memory.h Normal file
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#ifndef MEMORY_IN_H_
#define MEMORY_IN_H_
/**** Includes ****/
#include <stdint.h>
namespace bsp {
/**** Public definitions ****/
class Memory
{
public:
Memory(void);
~Memory(void);
uint8_t read_8b(uint16_t address);
uint16_t read_16b(uint16_t address);
uint32_t read_32b(uint16_t address);
void write_8b(uint16_t address, uint8_t value);
void write_16b(uint16_t address, uint16_t value);
void write_32b(uint16_t address, uint32_t value);
#ifndef TESTING
protected:
#endif
};
/**** Public function declarations ****/
#ifdef TESTING
#endif
} //namespace
#endif /* MEMORY_IN_H_ */

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firmware/src/bsp/pwm_out.cpp Normal file
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/**** Includes ****/
#include "../utils/utils.h"
#include "mcu/mcu_hal.h"
#include "pwm_out.h"
using namespace bsp;
/**** Private definitions ****/
/**** Private constants ****/
/**** Private variables ****/
/**** Private function declarations ****/
/**** Public function definitions ****/
bsp::PwmOut::PwmOut(void)
{
return;
}
bsp::PwmOut::~PwmOut(void)
{
this->last_duty = 0;
}
void bsp::PwmOut::init(uint8_t pwm_ch, uint8_t max_dc)
{
this->pwm_ch = pwm_ch;
this->last_duty = 0;
if(max_dc>100) max_dc = 100;
this->max_dc = util::percent_to_16b(max_dc);
}
void bsp::PwmOut::write(uint16_t numerator)
{
// Update target
if(numerator > this->max_dc) numerator = this->max_dc;
this->last_duty = numerator;
// Set PWM
mcu::pwm_write(this->pwm_ch, numerator);
}
void bsp::PwmOut::write(uint8_t percent)
{
// Convert to numerator/0xFFFF
this->write(util::percent_to_16b(percent));
}
uint16_t bsp::PwmOut::get_set_duty(void)
{
return this->last_duty;
}
/**** Private function definitions ****/

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#ifndef PWM_OUT_H_
#define PWM_OUT_H_
/**** Includes ****/
#include <stdint.h>
namespace bsp {
/**** Public definitions ****/
class PwmOut
{
public:
PwmOut(void);
~PwmOut(void);
void init(uint8_t pwm_ch, uint8_t max_dc);
void write(uint16_t numerator);
void write(uint8_t percent);
uint16_t get_set_duty(void);
#ifndef TESTING
protected:
#endif
uint8_t pwm_ch;
uint16_t last_duty;
uint16_t max_dc;
};
/**** Public function declarations ****/
#ifdef TESTING
#endif
} //namespace
#endif /* PWM_OUT_H_ */

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/**** Includes ****/
#include "../utils/utils.h"
#include "dccd.h"
using namespace dccd;
/**** Private definitions ****/
/**** Private constants ****/
static const uint16_t def_lock_current = 4500;
static const uint16_t def_max_hbrake_time = 0;
static const uint16_t def_btn_force_repeat_time = 300;
static const uint16_t def_btn_mode_repeat_time = 700;
static const uint8_t def_button_inputs = 1;
static const uint8_t def_display_brigth = 100;
static const uint8_t def_display_dimm = 50;
static const uint16_t cv_ref_resistance = 1500;
static const uint16_t cc_ref_resistance = 2000;
static const uint16_t cc_min_resistance = 1000;
static const uint8_t bmode_image_open = 0x07;
static const uint8_t bmode_image_user = 0x1E;
static const uint8_t bmode_image_lock = 0x38;
static const uint16_t display_keep_bmode = 2000;
static const uint16_t display_keep_userf = 1000;
static const uint8_t user_force_step = 10;
static const uint8_t def_btn_force = 0;
static const uint8_t def_brake_mode = 0;
static const uint16_t def_chasis_inp_debounce = 100;
static const uint16_t def_user_inp_debounce = 20;
static const uint16_t mem_addr_inp_mode = 0;
static const uint16_t mem_addr_force = 1;
static const uint16_t mem_addr_bmode = 2;
static const uint16_t mem_addr_dsp_brigth = 3;
static const uint16_t mem_addr_dsp_dimm = 4;
static const uint16_t mem_addr_lock_current = 5;
static const uint16_t mem_addr_hbrake_time = 7;
/**** Private variables ****/
/**** Private function declarations ****/
static uint8_t img_gen_dot10(uint8_t percent);
static uint8_t img_gen_dot20(uint8_t percent);
static uint8_t img_gen_bar(uint8_t percent);
/**** Public function definitions ****/
dccd::DccdApp::DccdApp(void)
{
return;
}
dccd::DccdApp::~DccdApp(void)
{
return;
}
void dccd::DccdApp::init(DccdHw* dccd_hw)
{
this->hardware = dccd_hw;
#define OVERRIDEDEDBNC
#ifdef OVERRIDEDEDBNC
this->hardware->btn_mode.dbnc_lim = def_user_inp_debounce;
this->hardware->btn_up.dbnc_lim = def_user_inp_debounce;
this->hardware->btn_down.dbnc_lim = def_user_inp_debounce;
this->hardware->handbrake.dbnc_lim = def_chasis_inp_debounce;
this->hardware->brakes.dbnc_lim = def_chasis_inp_debounce;
this->hardware->dimm.dbnc_lim = def_chasis_inp_debounce;
#endif
// Load saved config from memory
this->loadMemCfg();
this->btn_force_repeat_time = def_btn_force_repeat_time;
this->btn_mode_repeat_time = def_btn_mode_repeat_time;
this->pot_force = 0;
this->hardware->read();
this->hardware->dimm.force_read();
this->hardware->outreg.write_voltage(0);
this->hardware->outreg.write_current(0);
this->hardware->outreg.write_on(1);
this->hardware->display.write(0x01);
if(this->hardware->dimm.state) this->hardware->display.write_backlight(this->display_dimm);
else this->hardware->display.write_backlight(this->display_brigth);
this->hardware->write();
}
void dccd::DccdApp::process(void)
{
// Update all inputs
this->hardware->read();
uint8_t is_new_mode = 0;
uint8_t is_new_btn_force = 0;
// Process mode button
if((this->hardware->btn_mode.state==1)&&((this->hardware->btn_mode.is_new)||(this->hardware->btn_mode.time_read() >= this->btn_mode_repeat_time)))
{
this->hardware->btn_mode.time_reset();
this->hardware->btn_mode.is_new = 0;
// Change mode
switch(this->brake_mode)
{
case 0:
this->brake_mode = 1;
break;
case 1:
this->brake_mode = 2;
break;
default:
this->brake_mode = 0;
break;
}
is_new_mode = 1;
this->hardware->board_hw.nvmem.write_8b(mem_addr_bmode, this->brake_mode);
};
// Process user force inputs
if((this->hardware->btn_up.state==1)&&((this->hardware->btn_up.is_new)||(this->hardware->btn_up.time_read() >= this->btn_force_repeat_time)))
{
this->hardware->btn_up.time_reset();
this->hardware->btn_up.is_new = 0;
// Increase user force
this->btn_force += user_force_step;
if(this->btn_force > 100) this->btn_force = 100;
is_new_btn_force = 1;
};
if((this->hardware->btn_down.state==1)&&((this->hardware->btn_down.is_new)||(this->hardware->btn_down.time_read() >= this->btn_force_repeat_time)))
{
this->hardware->btn_down.time_reset();
this->hardware->btn_down.is_new = 0;
// Decrease user force
this->btn_force -= user_force_step;
if(this->btn_force > 100) this->btn_force = 0;
is_new_btn_force = 1;
};
if(is_new_btn_force)
{
this->hardware->board_hw.nvmem.write_8b(mem_addr_force, this->btn_force);
};
this->pot_force = this->hardware->pot.last_percent;
// Determine user force
int8_t user_force;
if(this->button_inputs) user_force = (int8_t)this->btn_force;
else user_force = (int8_t)this->pot_force;
// Determine next settable force
int8_t next_force;
uint8_t hbrake_timeout = 0;
if((this->max_hbrake_time!=0)&&(this->hardware->handbrake.time_read() >= this->max_hbrake_time))
{
hbrake_timeout = 1;
};
if((this->hardware->handbrake.state == 1)&&(hbrake_timeout==0))
{
// Handbrake override
next_force = -1;
}
else if(this->hardware->brakes.state == 1)
{
// Brakes override
switch(this->brake_mode)
{
case 0:
next_force = -1;
break;
case 1:
next_force = user_force;
break;
case 2:
next_force = 100;
break;
default:
next_force = -1;
this->brake_mode = 0;
break;
}
}
else
{
// User force
next_force = user_force;
}
// Apply next force
if(next_force < 0)
{
// HiZ
this->hardware->outreg.write_voltage(0);
this->hardware->outreg.write_current(0);
this->hardware->outreg.write_on(0);
// For display
next_force = 0;
}
else if(next_force == 0)
{
// Open
this->hardware->outreg.write_voltage(0);
this->hardware->outreg.write_current(0);
this->hardware->outreg.write_on(1);
}
else
{
// Calculate current and voltage settings
this->hardware->outreg.write_current(util::percent_of((uint8_t)next_force, this->lock_current));
uint16_t ref_resistance = cv_ref_resistance;
if(this->hardware->outreg.cc_mode_en) ref_resistance = cc_ref_resistance;
this->hardware->outreg.write_voltage(util::sat_mul_kilo(this->hardware->outreg.read_current(), ref_resistance));
this->hardware->outreg.write_on(1);
}
// Display image
if(is_new_mode)
{
uint8_t bmode_image;
switch(this->brake_mode)
{
case 0:
bmode_image = bmode_image_open;
break;
case 1:
bmode_image = bmode_image_user;
break;
case 2:
bmode_image = bmode_image_lock;
break;
default:
bmode_image = bmode_image_open;
this->brake_mode = 0;
break;
}
this->hardware->display.write(bmode_image, display_keep_bmode, display_keep_bmode, 1);
is_new_mode = 0;
}
else if((is_new_btn_force)&&(this->button_inputs))
{
this->hardware->display.write(img_gen_dot10(this->btn_force), display_keep_userf, display_keep_userf, 1);
is_new_btn_force = 0;
}
else if(this->hardware->display.is_cycle_end())
{
this->hardware->display.write(img_gen_dot10((uint8_t)next_force));
};
// Display backlight
if(this->hardware->dimm.is_new)
{
this->hardware->dimm.is_new = 0;
if(this->hardware->dimm.state) this->hardware->display.write_backlight(this->display_dimm);
else this->hardware->display.write_backlight(this->display_brigth);
};
// Execute outputs
this->hardware->write();
}
uint8_t dccd::DccdApp::loadMemCfg(void)
{
// Load saved config from memory
uint8_t t1;
uint16_t t2;
uint8_t def_applied = 0;
t1 = this->hardware->board_hw.nvmem.read_8b(mem_addr_inp_mode);
if(t1 > 1){this->button_inputs = def_button_inputs; def_applied=1; }
else this->button_inputs = t1;
t1 = this->hardware->board_hw.nvmem.read_8b(mem_addr_force);
if(t1 > 100){this->btn_force = def_btn_force; def_applied=1; }
else this->btn_force = t1;
t1 = this->hardware->board_hw.nvmem.read_8b(mem_addr_bmode);
if(t1 > 2){this->brake_mode = def_brake_mode; def_applied=1; }
else this->brake_mode = t1;
t1 = this->hardware->board_hw.nvmem.read_8b(mem_addr_dsp_brigth);
if((t1 > 100)||(t1 == 0)){this->display_brigth = def_brake_mode; def_applied=1; }
else this->display_brigth = t1;
t1 = this->hardware->board_hw.nvmem.read_8b(mem_addr_dsp_dimm);
if((t1 > 100)||(t1 == 0)){this->display_dimm = def_brake_mode; def_applied=1; }
else this->display_dimm = t1;
t2 = this->hardware->board_hw.nvmem.read_16b(mem_addr_lock_current);
if((t2 > 5000)||(t2 < 1000)){this->lock_current = def_lock_current; def_applied=1; }
else this->lock_current = t2;
t2 = this->hardware->board_hw.nvmem.read_16b(mem_addr_hbrake_time);
if((t2 > 30000)||(t2 == 0)){this->max_hbrake_time = def_max_hbrake_time; def_applied=1; }
else this->max_hbrake_time = t2;
return def_applied;
}
void dccd::DccdApp::saveMemCfg(void)
{
// Save config to memory
this->hardware->board_hw.nvmem.write_8b(mem_addr_inp_mode, this->button_inputs);
this->hardware->board_hw.nvmem.write_8b(mem_addr_force, this->btn_force);
this->hardware->board_hw.nvmem.write_8b(mem_addr_bmode, this->brake_mode);
this->hardware->board_hw.nvmem.write_8b(mem_addr_dsp_brigth, this->display_brigth);
this->hardware->board_hw.nvmem.write_8b(mem_addr_dsp_dimm, this->display_dimm);
this->hardware->board_hw.nvmem.write_16b(mem_addr_lock_current, this->lock_current);
this->hardware->board_hw.nvmem.write_16b(mem_addr_hbrake_time, this->max_hbrake_time);
}
/**** Private function definitions ***/
static uint8_t img_gen_dot10(uint8_t percent)
{
switch(percent)
{
case 0 ... 5:
return 0x01;
case 6 ... 15:
return 0x03;
case 16 ... 25:
return 0x02;
case 26 ... 35:
return 0x06;
case 36 ... 45:
return 0x04;
case 46 ... 55:
return 0x0C;
case 56 ... 65:
return 0x08;
case 66 ... 75:
return 0x18;
case 76 ... 85:
return 0x10;
case 86 ... 95:
return 0x30;
case 96 ... 100:
return 0x20;
default:
return 0x20;
}
}
static uint8_t img_gen_dot20(uint8_t percent)
{
switch(percent)
{
case 0 ... 10:
return 0x01;
case 11 ... 30:
return 0x02;
case 31 ... 50:
return 0x04;
case 51 ... 70:
return 0x08;
case 71 ... 90:
return 0x10;
case 91 ... 100:
return 0x20;
default:
return 0x20;
}
}
static uint8_t img_gen_bar(uint8_t percent)
{
switch(percent)
{
case 0 ... 10:
return 0x01;
case 11 ... 30:
return 0x03;
case 31 ... 50:
return 0x07;
case 51 ... 70:
return 0x0F;
case 71 ... 90:
return 0x1F;
case 91 ... 100:
return 0x3F;
default:
return 0x3F;
}
}

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#ifndef DCCD_APP_H_
#define DCCD_APP_H_
/**** Includes ****/
#include <stdint.h>
#include "dccd_hw.h"
namespace dccd {
/**** Public definitions ****/
class DccdApp
{
public:
DccdApp(void);
~DccdApp(void);
void init(DccdHw* dccd_hw);
void process(void);
uint16_t lock_current;
uint16_t max_hbrake_time;
uint16_t btn_force_repeat_time;
uint16_t btn_mode_repeat_time;
uint8_t button_inputs;
uint8_t display_brigth;
uint8_t display_dimm;
uint8_t btn_force;
uint8_t pot_force;
uint8_t brake_mode;
uint8_t loadMemCfg(void);
void saveMemCfg(void);
#ifdef TESTING
protected:
#endif
DccdHw* hardware;
};
/**** Public function declarations ****/
#ifdef TESTING
#endif
} //namespace
#endif /* DCCD_APP_H_ */

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/**** Includes ****/
#include "../utils/utils.h"
#include "dccd_hw.h"
using namespace dccd;
/**** Private definitions ****/
/**** Private constants ****/
static const uint8_t def_dbnc_time = 10;
static const uint16_t def_pot_dead_bot = 500;
static const uint16_t def_pot_dead_top = 4500;
static const uint8_t def_cc_mode_en = 1;
static const uint16_t def_cnter_us = 900;
static const uint16_t def_out_voltage_under_treshold = 0;
static const uint16_t def_out_voltage_over_treshold = 9000;
static const uint16_t def_out_voltage_hold_time = 1000;
static const uint16_t def_out_voltage_cooldown_time = 0;
static const uint16_t def_out_current_under_treshold = 0;
static const uint16_t def_out_current_over_treshold = 6000;
static const uint16_t def_out_current_hold_time = 200;
static const uint16_t def_out_current_cooldown_time = 1000;
static const uint16_t def_battery_voltage_under_treshold = 9000;
static const uint16_t def_battery_voltage_over_treshold = 18000;
static const uint16_t def_battery_voltage_hold_time = 1000;
static const uint16_t def_battery_voltage_cooldown_time = 0;
static const uint16_t def_battery_current_under_treshold = 0;
static const uint16_t def_battery_current_over_treshold = 8000;
static const uint16_t def_battery_current_hold_time = 200;
static const uint16_t def_battery_current_cooldown_time = 1000;
static const uint16_t def_inital_bat_voltage = 12000;
/**** Private variables ****/
/**** Private function declarations ****/
/**** Public function definitions ****/
dccd::DccdHw::DccdHw(void)
{
return;
}
dccd::DccdHw::~DccdHw(void)
{
return;
}
void dccd::DccdHw::init(dccdHwCfg_t* cfg)
{
// Apply config
bsp::Board::boardCfg_t board_cfg;
board_cfg.pwm_f_khz = cfg->pwm_f_khz;
board_cfg.od_common_is_pwm = 1;
this->board_hw.init(&board_cfg);
this->counter.init(0xFFFF, cfg->counter_step_us);
this->counter.disabled = 0;
this->out_voltage.init(&(this->board_hw.out_voltage), &(this->counter));
this->out_voltage.under_treshold = def_out_voltage_under_treshold;
this->out_voltage.over_treshold = def_out_voltage_over_treshold;
this->out_voltage.hold_time = def_out_voltage_hold_time;
this->out_voltage.cooldown_time = def_out_voltage_cooldown_time;
this->out_voltage.update_ain = 0;
this->out_voltage.auto_reset = 1;
this->out_current.init(&(this->board_hw.out_current), &(this->counter));
this->out_current.under_treshold = def_out_current_under_treshold;
this->out_current.over_treshold = def_out_current_over_treshold;
this->out_current.hold_time = def_out_current_hold_time;
this->out_current.cooldown_time = def_out_current_cooldown_time;
this->out_current.update_ain = 0;
this->out_current.auto_reset = 1;
this->battery_voltage.init(&(this->board_hw.battery_voltage), &(this->counter));
this->battery_voltage.under_treshold = def_battery_voltage_under_treshold;
this->battery_voltage.over_treshold = def_battery_voltage_over_treshold;
this->battery_voltage.hold_time = def_battery_voltage_hold_time;
this->battery_voltage.cooldown_time = def_battery_voltage_cooldown_time;
this->battery_voltage.update_ain = 0;
this->battery_voltage.auto_reset = 1;
this->battery_voltage.last_read = def_inital_bat_voltage;
this->battery_current.init(&(this->board_hw.battery_current), &(this->counter));
this->battery_current.under_treshold = def_battery_current_under_treshold;
this->battery_current.over_treshold = def_battery_current_over_treshold;
this->battery_current.hold_time = def_battery_current_hold_time;
this->battery_current.cooldown_time = def_battery_current_cooldown_time;
this->battery_current.update_ain = 0;
this->battery_current.auto_reset = 1;
this->btn_up.init(&(this->board_hw.din4), 0, &(this->counter), def_dbnc_time);
this->btn_up.update_din = 0;
this->btn_down.init(&(this->board_hw.din3), 0, &(this->counter), def_dbnc_time);
this->btn_down.update_din = 0;
this->btn_mode.init(&(this->board_hw.din1), 0, &(this->counter), def_dbnc_time);
this->btn_mode.update_din = 0;
this->handbrake.init(&(this->board_hw.hvdin3), 0, &(this->counter), def_dbnc_time);
this->handbrake.update_din = 0;
this->brakes.init(&(this->board_hw.hvdin2), 1, &(this->counter), def_dbnc_time);
this->brakes.update_din = 0;
this->dimm.init(&(this->board_hw.hvdin1), 1, &(this->counter), def_dbnc_time);
this->dimm.update_din = 0;
this->pot.init(&(this->board_hw.ain2), def_pot_dead_bot, def_pot_dead_top);
this->pot.update_ain = 0;
hw::OutReg::outRegCfg_t outreg_cfg;
outreg_cfg.pwm_high = &this->board_hw.out_pwm;
outreg_cfg.dout_low = &this->board_hw.out_low;
outreg_cfg.ubat = &this->board_hw.battery_voltage;
outreg_cfg.uout = &this->board_hw.out_voltage;
outreg_cfg.iout = &this->board_hw.out_current;
this->outreg.init(&outreg_cfg);
this->outreg.cc_mode_en = def_cc_mode_en;
this->outreg.update_ain = 0;
hw::LedDisplay::doutCfg_t dsp_cfg;
dsp_cfg.led0_dout_ch = &(this->board_hw.od1);
dsp_cfg.led1_dout_ch = &(this->board_hw.od2);
dsp_cfg.led2_dout_ch = &(this->board_hw.od3);
dsp_cfg.led3_dout_ch = &(this->board_hw.od4);
dsp_cfg.led4_dout_ch = &(this->board_hw.od5);
dsp_cfg.led5_dout_ch = &(this->board_hw.od6);
this->display.init(&dsp_cfg, 0, &(this->counter), &(this->board_hw.od_pwm));
// Apply configuration
if(cfg->handbrake_pull_up)
{
this->board_hw.hvdin3_pull.write(1);
}
else this->board_hw.hvdin3_pull.write(0);
if(cfg->speed_hall)
{
this->board_hw.freq_pull.write(1);
}
else this->board_hw.freq_pull.write(0);
// Set initial output states
this->outreg.write_voltage(0);
this->outreg.write_current(0);
this->outreg.write_on(0);
this->outreg.write_lock(0);
this->outreg.process();
this->display.write_backlight(100);
this->display.write(0x00);
}
void dccd::DccdHw::read(void)
{
// Update low level inputs
this->board_hw.read();
this->counter.increment();
this->out_voltage.process();
this->out_current.process();
this->battery_voltage.process();
this->battery_current.process();
this->btn_up.process();
this->btn_down.process();
this->btn_mode.process();
this->handbrake.process();
this->brakes.process();
this->dimm.process();
this->pot.read();
}
void dccd::DccdHw::write(void)
{
this->display.process();
this->outreg.process();
}
/**** Private function definitions ***/

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#ifndef DCCD_HW_H_
#define DCCD_HW_H_
/**** Includes ****/
#include <stdint.h>
#include "../bsp/board.h"
#include "../utils/vcounter.h"
#include "../hw/button.h"
#include "../hw/led_display.h"
#include "../hw/potentiometer.h"
#include "../hw/out_driver.h"
#include "../hw/safe_ain.h"
#include "../hw/out_reg.h"
namespace dccd {
/**** Public definitions ****/
class DccdHw
{
public:
typedef struct {
uint8_t pwm_f_khz;
uint8_t handbrake_pull_up;
uint8_t speed_hall;
uint16_t counter_step_us;
} dccdHwCfg_t;
DccdHw(void);
~DccdHw(void);
void init(dccdHwCfg_t* cfg);
// Inputs
hw::SafeAin out_voltage;
hw::SafeAin out_current;
hw::SafeAin battery_voltage;
hw::SafeAin battery_current;
hw::Button btn_up;
hw::Button btn_down;
hw::Button btn_mode;
hw::Button handbrake;
hw::Button brakes;
hw::Button dimm;
hw::Potentiometer pot;
// Outputs
hw::LedDisplay display;
hw::OutReg outreg;
void read(void);
void write(void);
#ifdef TESTING
protected:
#endif
bsp::Board board_hw;
util::VCounter counter;
};
/**** Public function declarations ****/
#ifdef TESTING
#endif
} //namespace
#endif /* DCCD_HW_H_ */

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/**** Includes ****/
#include "../utils/utils.h"
#include "button.h"
using namespace hw;
/**** Private definitions ****/
/**** Private constants ****/
/**** Private variables ****/
/**** Private function declarations ****/
/**** Public function definitions ****/
hw::Button::Button(void)
{
return;
}
hw::Button::~Button(void)
{
return;
}
void hw::Button::init(bsp::DigitalIn* din_ch, uint8_t act_lvl, util::VCounter* timer, uint16_t dbnc_lim)
{
this->din_ch = din_ch;
this->timer = timer;
if(act_lvl) this->act_lvl = 1;
else this->act_lvl = 0;
this->state_start_ts = 0;
this->dbnc_ts = 0;
this->dbnc_lim = dbnc_lim;
this->state = BUTTON_OFF;
this->is_new = 0;
}
uint8_t hw::Button::process(void)
{
// Read din
if(this->update_din) this->din_ch->read();
// Get last read level
uint8_t lvl = this->din_ch->last_read;
// Determine next state
uint8_t next_state = BUTTON_OFF;
if(lvl==this->act_lvl) next_state = BUTTON_ON;
// Advance debounce sample counter
uint16_t ts_now = this->timer->read();
if(next_state != this->state)
{
if(this->dbnc_ts == 0) this->dbnc_ts = ts_now;
uint16_t td = util::time_delta(this->dbnc_ts, ts_now);
uint32_t td_ms = this->timer->convert_ms(td);
// Check for debounce end
if(td_ms >= this->dbnc_lim)
{
// Debounce end. Apply new state.
this->dbnc_ts = 0;
this->state = next_state;
this->state_start_ts = ts_now;
this->is_new = 1;
};
}
else this->dbnc_ts = 0;
return this->state;
}
uint8_t hw::Button::force_read(void)
{
// Read din
if(this->update_din) this->din_ch->read();
// Get last read level
uint8_t lvl = this->din_ch->last_read;
// Cancels active debounce
this->dbnc_ts = 0;
// Determine next state
uint8_t next_state = BUTTON_OFF;
if(lvl==this->act_lvl) next_state = BUTTON_ON;
if(next_state != this->state)
{
this->state_start_ts = this->timer->read();
this->state = next_state;
this->is_new = 1;
};
return this->state;
}
uint32_t hw::Button::time_read(void)
{
uint16_t ts_now = this->timer->read();
uint16_t td = util::time_delta(this->state_start_ts, ts_now);
return this->timer->convert_ms(td);
}
void hw::Button::time_reset(void)
{
this->state_start_ts = this->timer->read();
}
uint32_t hw::Button::time_read_max(void)
{
uint16_t ts_max = this->timer->read_top();
return this->timer->convert_ms(ts_max);
}
/**** Private function definitions ****/

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#ifndef BUTTONS_H_
#define BUTTONS_H_
/**** Includes ****/
#include <stdint.h>
#include "../utils/vcounter.h"
#include "../bsp/board.h"
namespace hw {
/**** Public definitions ****/
const uint8_t BUTTON_OFF = 0;
const uint8_t BUTTON_ON = 1;
class Button
{
public:
Button(void);
~Button(void);
uint8_t state;
uint16_t dbnc_lim;
uint8_t is_new;
uint8_t update_din;
void init(bsp::DigitalIn* din_ch, uint8_t act_lvl, util::VCounter* timer, uint16_t dbnc_lim);
uint8_t process(void);
uint8_t force_read(void);
uint32_t time_read(void);
void time_reset(void);
uint32_t time_read_max(void);
#ifndef TESTING
protected:
#endif
bsp::DigitalIn* din_ch;
util::VCounter* timer;
uint8_t act_lvl;
uint16_t state_start_ts;
uint16_t dbnc_ts;
};
/**** Public function declarations ****/
#ifdef TESTING
#endif
} //namespace
#endif /* BUTTONS_H_ */

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/**** Includes ****/
#include "../utils/utils.h"
#include "led_display.h"
using namespace hw;
/**** Private definitions ****/
/**** Private constants ****/
/**** Private variables ****/
/**** Private function declarations ****/
/**** Public function definitions ****/
hw::LedDisplay::LedDisplay(void)
{
return;
}
hw::LedDisplay::~LedDisplay(void)
{
this->force(0x00);
this->write_backlight(0);
}
void hw::LedDisplay::init(doutCfg_t* dout_chs, uint8_t act_lvl, util::VCounter* timer, bsp::PwmOut* pwm_ch)
{
this->led0_dout_ch = dout_chs->led0_dout_ch;
this->led1_dout_ch = dout_chs->led1_dout_ch;
this->led2_dout_ch = dout_chs->led2_dout_ch;
this->led3_dout_ch = dout_chs->led3_dout_ch;
this->led4_dout_ch = dout_chs->led4_dout_ch;
this->led5_dout_ch = dout_chs->led5_dout_ch;
if(act_lvl) this->act_lvl = 1;
else this->act_lvl = 0;
this->timer = timer;
this->pwm_ch = pwm_ch;
this->on_time = 0;
this->period = 0;
this->cycle_cnt = 0;
this->cycle_limit = 0;
this->timestamp_start = 0;
this->image = 0x00;
this->force(0x00);
this->write_backlight(0);
}
void hw::LedDisplay::force(uint8_t image)
{
uint8_t led_state;
if(image&0x01) led_state = 1;
else led_state = 0;
this->set_single_led(led_state, this->led0_dout_ch);
if(image&0x02) led_state = 1;
else led_state = 0;
this->set_single_led(led_state, this->led1_dout_ch);
if(image&0x04) led_state = 1;
else led_state = 0;
this->set_single_led(led_state, this->led2_dout_ch);
if(image&0x08) led_state = 1;
else led_state = 0;
this->set_single_led(led_state, this->led3_dout_ch);
if(image&0x10) led_state = 1;
else led_state = 0;
this->set_single_led(led_state, this->led4_dout_ch);
if(image&0x20) led_state = 1;
else led_state = 0;
this->set_single_led(led_state, this->led5_dout_ch);
}
void hw::LedDisplay::write(uint8_t image)
{
// Static mode
this->on_time = 1;
this->period = 0;
this->cycle_cnt = 0;
this->cycle_limit = 0;
this->timestamp_start = 0;
this->image = image;
// Set initial state
this->force(this->image);
}
void hw::LedDisplay::write(uint8_t image, uint16_t on_time, uint16_t period, uint8_t cycle_limit)
{
// "PWM" mode
this->on_time = on_time;
this->period = period;
this->cycle_cnt = 0;
this->cycle_limit = cycle_limit;
this->image = image;
// Set initial state
if(this->on_time > 0) this->force(this->image);
else this->force(0x00);
// Cycle start time
this->timestamp_start = this->timer->read();
}
void hw::LedDisplay::process(void)
{
if(this->period == 0) return; // Nothing to do
// Update cycle timing
uint16_t ts_now = this->timer->read();
uint16_t td = util::time_delta(this->timestamp_start, ts_now);
uint32_t td_ms = this->timer->convert_ms(td);
if(td_ms >= this->period)
{
this->timestamp_start = ts_now;
this->cycle_cnt++;
};
// Check cycle limit
if((this->cycle_cnt >= this->cycle_limit)&&(this->cycle_limit))
{
this->on_time = 0;
this->period = 0;
this->timestamp_start = 0;
this->force(0x00);
return;
};
// Do output compare
if(td_ms < this->on_time) this->force(this->image);
else this->force(0x00);
}
uint8_t hw::LedDisplay::is_cycle_end(void)
{
if(this->cycle_cnt >= this->cycle_limit) return 1;
else return 0;
}
void hw::LedDisplay::write_backlight(uint8_t percent)
{
this->pwm_ch->write(percent);
}
void hw::LedDisplay::set_single_led(uint8_t state, bsp::DigitalOut* led_ch)
{
uint8_t lvl = 0;
if(((state==0)&&(this->act_lvl==0))||((state!=0)&&(this->act_lvl==1))) lvl = 1;
led_ch->write(lvl);
}
/**** Private function definitions ***/

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#ifndef LED_DISPLAY_H_
#define LED_DISPLAY_H_
/**** Includes ****/
#include <stdint.h>
#include "../utils/vcounter.h"
#include "../bsp/board.h"
namespace hw {
/**** Public definitions ****/
class LedDisplay
{
public:
typedef struct {
bsp::DigitalOut* led0_dout_ch;
bsp::DigitalOut* led1_dout_ch;
bsp::DigitalOut* led2_dout_ch;
bsp::DigitalOut* led3_dout_ch;
bsp::DigitalOut* led4_dout_ch;
bsp::DigitalOut* led5_dout_ch;
} doutCfg_t;
LedDisplay(void);
~LedDisplay(void);
uint16_t on_time;
uint16_t period;
uint8_t cycle_cnt;
uint8_t cycle_limit;
void init(doutCfg_t* dout_chs, uint8_t act_lvl, util::VCounter* timer, bsp::PwmOut* pwm_ch);
void write(uint8_t image);
void write(uint8_t image, uint16_t on_time, uint16_t period, uint8_t cycle_limit);
void process(void);
uint8_t is_cycle_end(void);
void force(uint8_t image);
void write_backlight(uint8_t percent);
#ifdef TESTING
protected:
#endif
bsp::DigitalOut* led0_dout_ch;
bsp::DigitalOut* led1_dout_ch;
bsp::DigitalOut* led2_dout_ch;
bsp::DigitalOut* led3_dout_ch;
bsp::DigitalOut* led4_dout_ch;
bsp::DigitalOut* led5_dout_ch;
uint8_t act_lvl;
util::VCounter* timer;
bsp::PwmOut* pwm_ch;
uint16_t timestamp_start;
uint8_t image;
void set_single_led(uint8_t state, bsp::DigitalOut* led_ch);
};
/**** Public function declarations ****/
#ifdef TESTING
#endif
} //namespace
#endif /* LED_DISPLAY_H_ */

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/**** Includes ****/
#include "../utils/utils.h"
#include "out_driver.h"
using namespace hw;
/**** Private definitions ****/
/**** Private constants ****/
/**** Private variables ****/
/**** Private function declarations ****/
/**** Public function definitions ****/
hw::OutDriver::OutDriver(void)
{
return;
}
hw::OutDriver::~OutDriver(void)
{
return;
}
void hw::OutDriver::init(bsp::PwmOut* pwm_high, bsp::DigitalOut* dout_low)
{
this->pwm_high = pwm_high;
this->dout_low = dout_low;
this->target_duty = 0;
this->target_low = 0;
this->disabled = 1;
}
void hw::OutDriver::write(uint16_t numerator)
{
this->target_duty = numerator;
this->target_low = 1;
// Check if enabled
if(this->disabled)
{
return;
};
// Set low side
if(this->dout_low->last_writen == 0)
{
this->dout_low->write(this->target_low);
};
// Set PWM
this->pwm_high->write(this->target_duty);
}
void hw::OutDriver::write(uint8_t percent)
{
// Convert to numerator/0xFFFF
this->write(util::percent_to_16b(percent));
}
void hw::OutDriver::write_hiz(void)
{
this->target_duty = 0;
this->target_low = 0;
// Check if enabled
if(this->disabled)
{
return;
};
// Set PWM
this->pwm_high->write((uint16_t)0);
// Set low side
this->dout_low->write(0);
}
void hw::OutDriver::enable(void)
{
if(this->disabled==0) return;
this->disabled = 0;
if(this->target_low==0) this->write_hiz();
else this->write(this->target_duty);
}
void hw::OutDriver::disable(void)
{
if(this->disabled!=0) return;
// Set PWM
this->pwm_high->write((uint16_t)0);
// Set low side
this->dout_low->write(0);
this->disabled = 1;
}
uint8_t hw::OutDriver::is_disabled(void)
{
return this->disabled;
}
/**** Private function definitions ****/

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firmware/src/hw/out_driver.h Normal file
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#ifndef OUT_DRIVER_H_
#define OUT_DRIVER_H_
/**** Includes ****/
#include <stdint.h>
#include "../bsp/board.h"
namespace hw {
/**** Public definitions ****/
class OutDriver
{
public:
OutDriver(void);
~OutDriver(void);
void init(bsp::PwmOut* pwm_high, bsp::DigitalOut* dout_low);
uint16_t target_duty;
uint8_t target_low;
void write(uint16_t numerator);
void write(uint8_t percent);
void write_hiz(void);
void enable(void);
void disable(void);
uint8_t is_disabled(void);
#ifndef TESTING
protected:
#endif
bsp::PwmOut* pwm_high;
bsp::DigitalOut* dout_low;
uint8_t disabled;
};
/**** Public function declarations ****/
#ifdef TESTING
#endif
} //namespace
#endif /* OUT_DRIVER_H_ */

139
firmware/src/hw/out_reg.cpp Normal file
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/**** Includes ****/
#include "../utils/utils.h"
#include "out_reg.h"
using namespace bsp;
/**** Private definitions ****/
/**** Private constants ****/
/**** Private variables ****/
/**** Private function declarations ****/
/**** Public function definitions ****/
hw::OutReg::OutReg(void)
{
return;
}
hw::OutReg::~OutReg(void)
{
return;
}
void hw::OutReg::init(outRegCfg_t* cfg)
{
this->pwm_high = cfg->pwm_high;
this->dout_low = cfg->dout_low;
this->ubat = cfg->ubat;
this->uout = cfg->uout;
this->iout = cfg->iout;
this->voltage = 0;
this->current = 0;
this->out_on = 0;
this->lock = 0;
this->cc_mode_en = 0;
this->update_ain = 0;
this->cc_tolerance = 75;
}
void hw::OutReg::write_voltage(uint16_t voltage)
{
this->voltage = voltage;
}
void hw::OutReg::write_current(uint16_t current)
{
this->current = current;
this->current_bot = util::sat_subtract(current, this->cc_tolerance);
this->current_top = util::sat_add(current, this->cc_tolerance);
}
void hw::OutReg::write_on(uint8_t state)
{
this->out_on = state;
}
void hw::OutReg::write_lock(uint8_t state)
{
this->lock = state;
}
uint16_t hw::OutReg::read_voltage(void)
{
return this->voltage;
}
uint16_t hw::OutReg::read_current(void)
{
return this->current;
}
void hw::OutReg::process(void)
{
// Update analog input
if(this->update_ain)
{
this->ubat->read();
this->uout->read();
this->iout->read();
};
// Check if turned off
if((out_on == 0)||(this->lock != 0))
{
this->pwm_high->write((uint16_t)0);
this->dout_low->write(0);
return;
}
else if(this->dout_low->last_writen == 0)
{
this->dout_low->write(1);
};
// Calculate next duty cycle setting
uint16_t next_duty = this->pwm_high->get_set_duty();
if((this->voltage==0)||(this->current==0))
{
// Off but not HiZ
next_duty = 0;
}
else if((this->cc_mode_en)&&(this->iout->last_read > this->current_bot))
{
// Constant current mode - Change voltage to be within current limit
if(util::is_in_range(this->iout->last_read, this->current_bot, this->current_top)==0)
{
// Current outside of tolerance. Recalculate duty cycle.
uint32_t temp = (uint32_t)this->pwm_high->get_set_duty() * (uint32_t)this->current;
temp /= this->iout->last_read;
next_duty = util::sat_cast(temp);
};
}
else
{
// Constant voltage mode
next_duty = util::sat_ratio(this->voltage, this->ubat->last_read);
}
this->pwm_high->write(next_duty);
return;
}
void hw::OutReg::force_off(void)
{
// Turn off output - HiZ
this->pwm_high->write((uint16_t)0);
this->dout_low->write(0);
// Update targets
this->voltage = 0;
this->current = 0;
this->out_on = 0;
this->lock = 1;
}
/**** Private function definitions ****/

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firmware/src/hw/out_reg.h Normal file
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#ifndef OUTPUT_REGULATOR_H_
#define OUTPUT_REGULATOR_H_
/**** Includes ****/
#include <stdint.h>
#include "../bsp/board.h"
namespace hw {
/**** Public definitions ****/
class OutReg
{
public:
typedef struct {
bsp::PwmOut* pwm_high;
bsp::DigitalOut* dout_low;
bsp::AnalogIn* ubat;
bsp::AnalogIn* uout;
bsp::AnalogIn* iout;
} outRegCfg_t;
OutReg(void);
~OutReg(void);
void init(outRegCfg_t* cfg);
uint8_t cc_mode_en;
uint8_t update_ain;
uint16_t cc_tolerance;
void write_voltage(uint16_t voltage);
void write_current(uint16_t current);
void write_on(uint8_t state);
void write_lock(uint8_t state);
uint16_t read_voltage(void);
uint16_t read_current(void);
void process(void);
void force_off(void);
#ifndef TESTING
protected:
#endif
bsp::PwmOut* pwm_high;
bsp::DigitalOut* dout_low;
bsp::AnalogIn* ubat;
bsp::AnalogIn* uout;
bsp::AnalogIn* iout;
uint16_t voltage;
uint16_t current;
uint16_t current_top;
uint16_t current_bot;
uint8_t out_on;
uint8_t lock;
};
/**** Public function declarations ****/
#ifdef TESTING
#endif
} //namespace
#endif /* OUTPUT_REGULATOR_H_ */

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firmware/src/hw/potentiometer.cpp Normal file
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/**** Includes ****/
#include "../utils/utils.h"
#include "../utils/interpolate.h"
#include "potentiometer.h"
using namespace hw;
/**** Private definitions ****/
/**** Private constants ****/
/**** Private variables ****/
/**** Private function declarations ****/
/**** Public function definitions ****/
hw::Potentiometer::Potentiometer(void)
{
return;
}
hw::Potentiometer::~Potentiometer(void)
{
return;
}
void hw::Potentiometer::init(bsp::AnalogIn* ain_ch, uint16_t low_deadzone, uint16_t high_deadzone)
{
this->ain_ch = ain_ch;
this->low_deadzone = low_deadzone;
this->high_deadzone = high_deadzone;
this->last_percent = 0;
this->update_ain = 1;
}
uint8_t hw::Potentiometer::read(void)
{
// Update analog input
if(this->update_ain) this->ain_ch->read();
// Calculate percent
if(this->ain_ch->last_read <= this->low_deadzone) this->last_percent = 0;
else if(this->ain_ch->last_read >= this->high_deadzone ) this->last_percent = 100;
else this->last_percent = util::interpolate(this->ain_ch->last_read, this->low_deadzone, this->high_deadzone, 0, 100);
return this->last_percent;
}
/**** Private function definitions ****/

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firmware/src/hw/potentiometer.h Normal file
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#ifndef POTENTIOMETER_H_
#define POTENTIOMETER_H_
/**** Includes ****/
#include <stdint.h>
#include "../bsp/board.h"
namespace hw {
/**** Public definitions ****/
class Potentiometer
{
public:
Potentiometer(void);
~Potentiometer(void);
void init(bsp::AnalogIn* ain_ch, uint16_t low_deadzone, uint16_t high_deadzone);
uint16_t low_deadzone;
uint16_t high_deadzone;
uint8_t last_percent;
uint8_t update_ain;
uint8_t read(void);
#ifndef TESTING
protected:
#endif
bsp::AnalogIn* ain_ch;
};
/**** Public function declarations ****/
#ifdef TESTING
#endif
} //namespace
#endif /* POTENTIOMETER_H_ */

87
firmware/src/hw/safe_ain.cpp Normal file
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/**** Includes ****/
#include "../utils/utils.h"
#include "safe_ain.h"
using namespace hw;
/**** Private definitions ****/
/**** Private constants ****/
/**** Private variables ****/
/**** Private function declarations ****/
/**** Public function definitions ****/
hw::SafeAin::SafeAin(void)
{
return;
}
hw::SafeAin::~SafeAin(void)
{
return;
}
void hw::SafeAin::init(bsp::AnalogIn* ain_ch, util::VCounter* timer)
{
this->ain_ch = ain_ch;
this->timer = timer;
this->under_treshold = 0;
this->over_treshold = 0xFFFF;
this->hold_time = 0;
this->cooldown_time = 0;
this->update_ain = 0;
this->auto_reset = 0;
this->warning = 0;
this->fault = 0;
this->last_read = 0;
this->ts_state_chnage = 0;
}
void hw::SafeAin::process(void)
{
// Update analog input
if(this->update_ain) this->ain_ch->read();
this->last_read = this->ain_ch->last_read;
// Get current time
uint16_t ts_now = this->timer->read();
// Update over current and warning condition
uint8_t is_outside = 0;
if(this->last_read < this->under_treshold) is_outside = 1;
if(this->last_read > this->over_treshold) is_outside = 1;
// Note start time if new OC condition
if(is_outside != this->warning) this->ts_state_chnage = ts_now;
// Update warning
this->warning = is_outside;
// Calculate warning condition time
uint16_t td = util::time_delta(this->ts_state_chnage, ts_now);
uint32_t time_ms = this->timer->convert_ms(td);
// Check for fault set
if((this->fault==0)&&(time_ms > (uint32_t)this->hold_time))
{
this->fault = 1;
return;
};
// Check if allowed auto reset
if(this->auto_reset==0) return;
// Check for fault reset
if((this->fault!=0)&&(time_ms > (uint32_t)this->cooldown_time))
{
this->fault = 0;
return;
};
}
/**** Private function definitions ****/

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firmware/src/hw/safe_ain.h Normal file
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#ifndef SAFE_AIN_H_
#define SAFE_AIN_H_
/**** Includes ****/
#include <stdint.h>
#include "../utils/vcounter.h"
#include "../bsp/board.h"
namespace hw {
/**** Public definitions ****/
class SafeAin
{
public:
SafeAin(void);
~SafeAin(void);
void init(bsp::AnalogIn* ain_ch, util::VCounter* timer);
uint8_t warning;
uint8_t fault;
uint16_t last_read;
uint16_t under_treshold;
uint16_t over_treshold;
uint16_t hold_time;
uint16_t cooldown_time;
uint8_t update_ain;
uint8_t auto_reset;
void process(void);
#ifndef TESTING
protected:
#endif
bsp::AnalogIn* ain_ch;
util::VCounter* timer;
uint16_t ts_state_chnage;
};
/**** Public function declarations ****/
#ifdef TESTING
#endif
} //namespace
#endif /* SAFE_AIN_H_ */

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firmware/src/main.cpp Normal file
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/**** Includes ****/
#include "utils/utils.h"
#include "dccd/dccd_hw.h"
#include "dccd/dccd.h"
/**** Private definitions ****/
/**** Private constants ****/
/**** Private variables ****/
static dccd::DccdHw dccd_hw;
static dccd::DccdApp app;
/**** Private function declarations ****/
/**** Public function definitions ****/
int main(void)
{
// Setup
dccd::DccdHw::dccdHwCfg_t cfg;
cfg.handbrake_pull_up = 1;
cfg.pwm_f_khz = 16;
cfg.speed_hall = 0;
cfg.counter_step_us = 2000;
dccd_hw.init(&cfg);
app.init(&dccd_hw);
//#define OVERRIDECFG
#ifdef OVERRIDECFG
// Configuration
app.lock_current = 4500;
app.max_hbrake_time = 2000;
app.button_inputs = 1;
app.display_brigth = 100;
app.display_dimm = 25;
// Initial values
app.btn_force = 0;
app.brake_mode = 0;
#endif
// Save config to memory
//#define SAVECFG
#ifdef SAVECFG
app.saveMemCfg();
#endif
// Super loop
while(1)
{
// Do stuff
app.process();
// End of super loop
continue;
}
// Escape the matrix
return 0;
}
/**** Private function definitions ***/

22
firmware/src/uDCCD.atsln Normal file
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Microsoft Visual Studio Solution File, Format Version 12.00
# Atmel Studio Solution File, Format Version 11.00
VisualStudioVersion = 14.0.23107.0
MinimumVisualStudioVersion = 10.0.40219.1
Project("{E66E83B9-2572-4076-B26E-6BE79FF3018A}") = "uDCCD", "uDCCD.cppproj", "{DCE6C7E3-EE26-4D79-826B-08594B9AD897}"
EndProject
Global
GlobalSection(SolutionConfigurationPlatforms) = preSolution
Debug|AVR = Debug|AVR
Release|AVR = Release|AVR
EndGlobalSection
GlobalSection(ProjectConfigurationPlatforms) = postSolution
{DCE6C7E3-EE26-4D79-826B-08594B9AD897}.Debug|AVR.ActiveCfg = Debug|AVR
{DCE6C7E3-EE26-4D79-826B-08594B9AD897}.Debug|AVR.Build.0 = Debug|AVR
{DCE6C7E3-EE26-4D79-826B-08594B9AD897}.Release|AVR.ActiveCfg = Release|AVR
{DCE6C7E3-EE26-4D79-826B-08594B9AD897}.Release|AVR.Build.0 = Release|AVR
EndGlobalSection
GlobalSection(SolutionProperties) = preSolution
HideSolutionNode = FALSE
EndGlobalSection
EndGlobal

86
firmware/src/uDCCD.componentinfo.xml Normal file
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298
firmware/src/uDCCD.cppproj Normal file
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/**** Includes ****/
#include "utils.h"
#include "interpolate.h"
using namespace util;
/**** Private definitions ****/
/**** Private constants ****/
/**** Private variables ****/
/**** Private function declarations ****/
/**** Public function definitions ****/
uint16_t util::interpolate_1d(uint16_t x, uint16_t* x_axis, uint16_t* y_values, uint8_t len_axis)
{
// validate axis length
if(len_axis==0) return 0; // Empty data set
if(len_axis==1) return y_values[0]; // Only one data point
uint16_t y;
uint8_t i = find_interval_end_index(x, x_axis, len_axis);
if(i==0)
{
//Less then start
y = y_values[0];
}
else if(i==len_axis)
{
//More than end
y = y_values[len_axis-1];
}
else
{
// Do interpolate
y = interpolate(x, x_axis[i-1], x_axis[i], y_values[i-1], y_values[i]);
}
return y;
}
uint16_t util::interpolate_2d(uint16_t x, uint16_t y, uint16_t* x_axis, uint8_t len_x_axis, uint16_t* y_axis, uint8_t len_y_axis, uint16_t* z_values)
{
// validate axis length
if((len_x_axis==0)&&(len_y_axis==0)) return 0; // Empty data set
if((len_x_axis==1)&&(len_y_axis==1)) return z_values[0]; // Only one data point
uint8_t ix = find_interval_end_index(x, x_axis, len_x_axis);
uint8_t iy = find_interval_end_index(y, y_axis, len_y_axis);
// Check corners - easy answers
if((ix==0)&&(iy==0))
{
return z_values[0]; //[0][0] [Y][X]
}
else if((ix==len_x_axis)&&(iy==0))
{
return z_values[len_x_axis-1]; //[0][end]
}
else if((ix==0)&&(iy==len_y_axis))
{
uint16_t i = index2d_to_index1d(0, len_y_axis-1, len_x_axis);
return z_values[i]; //[end][0]
}
else if((ix==len_x_axis)&&(iy==len_y_axis))
{
uint16_t i = index2d_to_index1d(len_x_axis-1, len_y_axis-1, len_x_axis);
return z_values[i]; //[end][end]
};
// Check boundaries - 1D interpolation
if(ix==0)
{
// On ix=0 line
uint16_t i = 0;
uint16_t z0 = z_values[i];
i = index2d_to_index1d(0, len_y_axis-1, len_x_axis);
uint16_t z1 = z_values[i];
return interpolate(y, y_axis[0], y_axis[len_y_axis-1], z0, z1);
}
else if(ix==len_x_axis)
{
// On ix=END line
uint16_t i = len_x_axis-1;
uint16_t z0 = z_values[i];
i = index2d_to_index1d(len_x_axis-1, len_y_axis-1, len_x_axis);
uint16_t z1 = z_values[i];
return interpolate(y, y_axis[0], y_axis[len_y_axis-1], z0, z1);
}
else if(iy==0)
{
// On iy=0 line
uint16_t i = 0;
uint16_t z0 = z_values[i];
i = len_x_axis-1;
uint16_t z1 = z_values[i];
return interpolate(x, x_axis[0], x_axis[len_x_axis-1], z0, z1);
}
else if(iy==len_y_axis)
{
// On iy=END line
uint16_t i = index2d_to_index1d(0, len_y_axis-1, len_x_axis);
uint16_t z0 = z_values[i];
i = index2d_to_index1d(len_x_axis-1, len_y_axis-1, len_x_axis);
uint16_t z1 = z_values[i];
return interpolate(x, x_axis[0], x_axis[len_x_axis-1], z0, z1);
}
// Do interpolation
// Get axis values
uint16_t x0 = x_axis[ix-1];
uint16_t x1 = x_axis[ix];
uint16_t y0 = y_axis[iy-1];
uint16_t y1 = y_axis[iy];
// Do y0 line calculation
// Get z values at x0 and x1 points on y0 line
uint16_t i = index2d_to_index1d(ix-1, iy-1, len_x_axis);
uint16_t z0 = z_values[i];
uint16_t z1 = z_values[i+1];
// Interpolate z value on y0 line
uint16_t zy0 = interpolate(x, x0, x1, z0, z1);
// Do y1 line calculation
// Get z values at x0 and x1 points on y1 line
i = index2d_to_index1d(ix-1, iy, len_x_axis);
z0 = z_values[i];
z1 = z_values[i+1];
// Interpolate z value on y0 line
uint16_t zy1 = interpolate(x, x0, x1, z0, z1);
// Do calculation in y axis on xz line
return interpolate(y, y0, y1, zy0, zy1);
}
uint16_t util::interpolate(uint16_t x, uint16_t x0, uint16_t x1, uint16_t y0, uint16_t y1)
{
int32_t dy = (int32_t)y1 - (int32_t)y0;
int32_t dx = (int32_t)x1 - (int32_t)x0;
int32_t d = (int32_t)x - (int32_t)x0;
int32_t y = dy * d;
y /= dx;
y += y0;
return util::sat_cast(y);
}
uint8_t util::find_interval_end_index(uint16_t val, uint16_t* axis_values, uint8_t len_axis)
{
for(uint8_t i=0; i<len_axis; i++)
{
if(val < axis_values[i]) return i;
continue;
}
return len_axis;
}
uint16_t util::index2d_to_index1d(uint8_t ix, uint8_t iy, uint8_t len_x)
{
return ((uint16_t)len_x * iy) + ix;
}
/**** Private function definitions ****/

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#ifndef UTILS_INTERPOLATE_H_
#define UTILS_INTERPOLATE_H_
/**** Includes ****/
#include <stdint.h>
namespace util {
/**** Public definitions ****/
/**** Public function declarations ****/
uint16_t interpolate_1d(uint16_t x, uint16_t* x_axis, uint16_t* y_values, uint8_t len_axis);
uint16_t interpolate_2d(uint16_t x, uint16_t y, uint16_t* x_axis, uint8_t len_x_axis, uint16_t* y_axis, uint8_t len_y_axis, uint16_t* z_values);
uint8_t find_interval_end_index(uint16_t val, uint16_t* axis_values, uint8_t len_axis);
uint16_t interpolate(uint16_t x, uint16_t x0, uint16_t x1, uint16_t y0, uint16_t y1);
uint16_t index2d_to_index1d(uint8_t ix, uint8_t iy, uint8_t len_x);
#ifdef TESTING
#endif
} //namespace
#endif /* UTILS_INTERPOLATE_H_ */

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/**** Includes ****/
#include "utils.h"
using namespace util;
/**** Private definitions ****/
/**** Private constants ****/
/**** Private variables ****/
/**** Private function declarations ****/
#ifndef TESTING
#endif
/**** Public function definitions ****/
uint8_t util::invert(uint8_t x)
{
if(x!=0) return 0;
else return 1;
}
uint16_t util::invert(uint16_t x)
{
if(x!=0) return 0;
else return 1;
}
uint32_t util::invert(uint32_t x)
{
if(x!=0) return 0;
else return 1;
}
uint8_t util::sat_add(uint8_t x, uint8_t y)
{
uint8_t z = x + y;
// Check for overflow
if((z < x)||(z < y)) return 0xFF;
else return z;
}
uint16_t util::sat_add(uint16_t x, uint16_t y)
{
uint16_t z = x + y;
// Check for overflow
if((z < x)||(z < y)) return 0xFF;
else return z;
}
uint32_t util::sat_add(uint32_t x, uint32_t y)
{
uint32_t z = x + y;
// Check for overflow
if((z < x)||(z < y)) return 0xFF;
else return z;
}
uint8_t util::sat_subtract(uint8_t x, uint8_t y)
{
uint8_t z = x - y;
// Check for underflow
if(z > x) return 0;
else return z;
}
uint16_t util::sat_subtract(uint16_t x, uint16_t y)
{
uint16_t z = x - y;
// Check for underflow
if(z > x) return 0;
else return z;
}
uint32_t util::sat_subtract(uint32_t x, uint32_t y)
{
uint32_t z = x - y;
// Check for underflow
if(z > x) return 0;
else return z;
}
uint8_t util::abs_subtract(uint8_t x, uint8_t y)
{
if(x > y) return x - y;
else return y-x;
}
uint16_t util::abs_subtract(uint16_t x, uint16_t y)
{
if(x > y) return x - y;
else return y-x;
}
uint32_t util::abs_subtract(uint32_t x, uint32_t y)
{
if(x > y) return x - y;
else return y-x;
}
uint16_t util::sat_cast(uint32_t x)
{
if(x > 0x0000FFFF) return 0xFFFF;
else return (uint16_t)x;
}
uint16_t util::sat_cast(int32_t x)
{
if(x < 0) return 0x0000;
else if(x > 0x0000FFFF) return 0xFFFF;
else return (uint16_t)x;
}
uint8_t util::is_timed_out(uint16_t time, uint16_t limit)
{
if(time >= limit) return 1;
else return 0;
}
uint8_t util::is_in_range(uint16_t value, uint16_t min, uint16_t max)
{
if((value >= min)&&(value <= max)) return 1;
else return 0;
}
uint16_t util::time_delta(uint16_t start, uint16_t end)
{
if(end >= start) return (end-start);
uint16_t temp = 0xFFFF - start;
return temp + end;
}
uint32_t util::time_delta(uint32_t start, uint32_t end)
{
if(end >= start) return (end-start);
uint32_t temp = 0xFFFFFFFF - start;
return temp + end;
}
uint16_t util::time_delta(uint16_t start, uint16_t end, uint16_t max)
{
if(end >= start) return (end-start);
uint16_t temp = max - start;
return temp + end;
}
uint32_t util::time_delta(uint32_t start, uint32_t end, uint32_t max)
{
if(end >= start) return (end-start);
uint32_t temp = max - start;
return temp + end;
}
uint16_t util::convert_muldivoff(uint16_t raw, uint8_t mul, uint8_t div, int16_t offset)
{
int32_t temp = (int32_t)raw;
temp = temp * mul;
if(div>1) temp /= div;
temp += offset;
return sat_cast(temp);
}
uint16_t util::sat_mul_kilo(uint16_t xk, uint16_t yk)
{
uint32_t temp = (uint32_t)xk * (uint32_t)yk;
temp /= 1000;
return sat_cast(temp);
}
uint16_t util::sat_div_kilo(uint16_t top, uint16_t bot)
{
//Sanity check bot
if(bot==0) return 0xFFFF; //aka infinity
uint32_t temp = (uint32_t)top * 1000;
temp /= (uint32_t)bot;
return sat_cast(temp);
}
uint16_t util::sat_ratio(uint16_t top, uint16_t bot)
{
//Sanity check bot
if(bot==0) return 0xFFFF; //aka infinity
//Easy option
if(top>=bot) return 0xFFFF;
uint32_t temp = (uint32_t)top * 0x0000FFFF;
temp /= (uint32_t)bot;
return sat_cast(temp);
}
uint16_t util::percent_to_16b(uint8_t percent)
{
uint32_t temp = (uint32_t)percent * 0x0000FFFF;
temp /= 100;
// Limit to 16 bits
uint16_t pwm = sat_cast(temp);
return pwm;
}
uint16_t util::percent_of(uint8_t percent, uint16_t value)
{
if(percent == 0) return 0;
else if(percent >= 100) return value;
uint32_t temp = (uint32_t)value * percent;
return temp/100;
}
/**** Private function definitions ****/

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#ifndef UTILS_H_
#define UTILS_H_
/**** Includes ****/
#include <stdint.h>
namespace util {
/**** Public definitions ****/
/**** Public function declarations ****/
uint8_t invert(uint8_t x);
uint16_t invert(uint16_t x);
uint32_t invert(uint32_t x);
uint8_t sat_add(uint8_t x, uint8_t y);
uint16_t sat_add(uint16_t x, uint16_t y);
uint32_t sat_add(uint32_t x, uint32_t y);
uint8_t sat_subtract(uint8_t x, uint8_t y);
uint16_t sat_subtract(uint16_t x, uint16_t y);
uint32_t sat_subtract(uint32_t x, uint32_t y);
uint8_t abs_subtract(uint8_t x, uint8_t y);
uint16_t abs_subtract(uint16_t x, uint16_t y);
uint32_t abs_subtract(uint32_t x, uint32_t y);
uint16_t sat_cast(uint32_t x);
uint16_t sat_cast(int32_t x);
uint8_t is_timed_out(uint16_t time, uint16_t limit);
uint8_t is_in_range(uint16_t value, uint16_t min, uint16_t max);
uint16_t time_delta(uint16_t start, uint16_t end);
uint32_t time_delta(uint32_t start, uint32_t end);
uint16_t time_delta(uint16_t start, uint16_t end, uint16_t max);
uint32_t time_delta(uint32_t start, uint32_t end, uint32_t max);
uint16_t convert_muldivoff(uint16_t raw, uint8_t mul, uint8_t div, int16_t offset);
uint16_t sat_mul_kilo(uint16_t xk, uint16_t yk);
uint16_t sat_div_kilo(uint16_t top, uint16_t bot);
uint16_t sat_ratio(uint16_t top, uint16_t bot);
uint16_t percent_to_16b(uint8_t percent);
uint16_t percent_of(uint8_t percent, uint16_t value);
#ifdef TESTING
#endif
} //namespace
#endif /* UTILS_H_ */

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/**** Includes ****/
#include "utils.h"
#include "vcounter.h"
using namespace util;
/**** Private definitions ****/
/**** Private constants ****/
/**** Private variables ****/
/**** Private function declarations ****/
/**** Public function definitions ****/
util::VCounter::VCounter(void)
{
return;
}
util::VCounter::~VCounter(void)
{
return;
}
void util::VCounter::init(uint16_t top, uint16_t step_us)
{
this->counter = 0;
this->top = top;
this->step_us = step_us;
this->disabled = 1;
}
void util::VCounter::reset(void)
{
this->counter = 0;
}
void util::VCounter::increment(void)
{
if(this->disabled) return;
this->counter++;
if(this->counter > this->top) this->counter = 0;
}
uint16_t util::VCounter::read(void)
{
return this->counter;
}
uint32_t util::VCounter::read_ms(void)
{
return this->convert_ms(this->counter);
}
uint16_t util::VCounter::read_top(void)
{
return this->top;
}
uint32_t util::VCounter::convert_ms(uint16_t raw)
{
if(this->step_us==0) return 0;
uint32_t out = (uint32_t)raw * (uint32_t)this->step_us;
return out/1000;
}
/**** Private function definitions ****/

42
firmware/src/utils/vcounter.h Normal file
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@@ -0,0 +1,42 @@
#ifndef VIRTUAL_COUNTER_H_
#define VIRTUAL_COUNTER_H_
/**** Includes ****/
#include <stdint.h>
namespace util {
/**** Public definitions ****/
class VCounter
{
public:
VCounter(void);
~VCounter(void);
void init(uint16_t top, uint16_t step_us);
uint8_t disabled;
void reset(void);
void increment(void);
uint16_t read(void);
uint32_t read_ms(void);
uint16_t read_top(void);
uint32_t convert_ms(uint16_t raw);
#ifndef TESTING
protected:
#endif
uint16_t step_us;
uint16_t counter;
uint16_t top;
};
/**** Public function declarations ****/
#ifdef TESTING
#endif
} //namespace
#endif /* VIRTUAL_COUNTER_H_ */

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@@ -305,24 +305,24 @@ DocumentPath=Project Outputs for uDCCD_Controller\Design Rule Check - uDCCD_Cont
DItemRevisionGUID= DItemRevisionGUID=
[Parameter1] [Parameter1]
Name=UT_BOM_Version Name=UT_Project_Name
Value=V1 Value=uDCCD Controller
[Parameter2] [Parameter2]
Name=UT_Output_file_name Name=UT_PCB_Revision
Value=uDCCD Controller Value=R9
[Parameter3] [Parameter3]
Name=UT_PCB_Designer Name=UT_PCB_Designer
Value=Andis Zīle Value=Andis Zīle
[Parameter4] [Parameter4]
Name=UT_PCB_Revision Name=UT_Output_file_name
Value=R8 Value=uDCCD_Controller
[Parameter5] [Parameter5]
Name=UT_Project_Name Name=UT_BOM_Version
Value=uDCCD Controller Value=V1
[Configuration1] [Configuration1]
Name=Sources Name=Sources
@@ -544,6 +544,12 @@ OutputDocumentPath13=
OutputVariantName13=[No Variations] OutputVariantName13=[No Variations]
OutputDefault13=0 OutputDefault13=0
PageOptions13=Record=PageOptions|CenterHorizontal=True|CenterVertical=True|PrintScale=1.00|XCorrection=1.00|YCorrection=1.00|PrintKind=1|BorderSize=5000000|LeftOffset=0|BottomOffset=0|Orientation=2|PaperLength=1000|PaperWidth=1000|Scale=100|PaperSource=7|PrintQuality=-3|MediaType=1|DitherType=10|PrintScaleMode=1|PaperKind=A4|PaperIndex=9 PageOptions13=Record=PageOptions|CenterHorizontal=True|CenterVertical=True|PrintScale=1.00|XCorrection=1.00|YCorrection=1.00|PrintKind=1|BorderSize=5000000|LeftOffset=0|BottomOffset=0|Orientation=2|PaperLength=1000|PaperWidth=1000|Scale=100|PaperSource=7|PrintQuality=-3|MediaType=1|DitherType=10|PrintScaleMode=1|PaperKind=A4|PaperIndex=9
OutputType14=PCBDrawing
OutputName14=Draftsman
OutputDocumentPath14=
OutputVariantName14=[No Variations]
OutputDefault14=0
PageOptions14=Record=PageOptions|CenterHorizontal=True|CenterVertical=True|PrintScale=1.00|XCorrection=1.00|YCorrection=1.00|PrintKind=1|BorderSize=5000000|LeftOffset=0|BottomOffset=0|Orientation=2|PaperLength=1000|PaperWidth=1000|Scale=100|PaperSource=7|PrintQuality=-3|MediaType=1|DitherType=10|PrintScaleMode=1|PaperKind=A4|PaperIndex=9
[OutputGroup4] [OutputGroup4]
Name=Assembly Outputs Name=Assembly Outputs