Legacy branch migration

Repo unification
Migration refresh
2024-03-12 21:23:47 +02:00 · 2024-03-12 21:22:26 +02:00 · 2023-12-11 12:59:44 +02:00 · 2023-12-11 12:59:26 +02:00 · 2023-12-11 01:22:03 +02:00 · 2023-12-11 01:18:55 +02:00
66 changed files with 4879 additions and 115 deletions
--- a/.gitignore
+++ b/.gitignore
@@ -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
 History/
 __Previews/
@@ -9,3 +29,4 @@ Project Logs for*
 # Ignore list for Generated output files
 *.step
 OUTPUTS/
--- a/board/Source/Coil_driver.SchDoc
+++ b/board/Source/Coil_driver.SchDoc
--- a/board/Source/Controller.SchDoc
+++ b/board/Source/Controller.SchDoc
--- a/board/Source/LEDs.SchDoc
+++ b/board/Source/LEDs.SchDoc
--- a/board/Data/1455K1201.stp
+++ b/board/Data/1455K1201.stp
--- a/docs/MCU_Pinout.pdf
+++ b/docs/MCU_Pinout.pdf
--- a/docs/MCU_Pinout.xlsx
+++ b/docs/MCU_Pinout.xlsx
--- a/board/Data/SDC
+++ b/board/Data/SDC
--- a/board/Data/SDC3
+++ b/board/Data/SDC3
--- a/docs/atmega328PB_datasheet.pdf
+++ b/docs/atmega328PB_datasheet.pdf
--- a/plates/End-plate-75mm.PcbDoc
+++ b/plates/End-plate-75mm.PcbDoc
--- a/plates/End-plate-ampseal23-75mm.PcbDoc
+++ b/plates/End-plate-ampseal23-75mm.PcbDoc
--- a/firmware/devices/analog.c
+++ b/firmware/devices/analog.c
@@ -0,0 +1,120 @@
 /**** Includes ****/
 #include "hal/udccd_hal.h"
 #include "analog.h"
 /**** Private variables ****/
 static const uint8_t ICOIL_MUL = 215;
 static const uint8_t ICOIL_DIV = 22;
 static const int16_t ICOIL_OFF = 0;
 static const uint8_t ICOIL_CNT = 1;
 static const uint8_t UCOIL_MUL = 20;
 static const uint8_t UCOIL_DIV = 1;
 static const int16_t UCOIL_OFF = 0;
 static const uint8_t UCOIL_CNT = 1;
 static const uint8_t UBAT_MUL = 20;
 static const uint8_t UBAT_DIV = 1;
 static const int16_t UBAT_OFF = 0;
 static const uint8_t UBAT_CNT = 1;
 static const uint8_t IBAT_MUL = 235;
 static const uint8_t IBAT_DIV = 6;
 static const int16_t IBAT_OFF = 0;
 static const uint8_t IBAT_CNT = 1;
 static const uint8_t POT_MUL = 215;
 static const uint8_t POT_DIV = 44;
 static const int16_t POT_OFF = 0;
 static const uint8_t POT_CNT = 1;
 static const uint8_t MODE_MUL = 215;
 static const uint8_t MODE_DIV = 44;
 static const int16_t MODE_OFF = 0;
 static const uint8_t MODE_CNT = 1;
 /**** Private function declarations ****/
 static uint16_t ConvertSIntShort(int32_t in);
 static uint16_t ConvertUintShort(uint32_t in);
 static uint16_t read_ch(adcCh_t ch, uint16_t gnd_raw, uint8_t mul, uint8_t div, int16_t offset, uint8_t samples);
 /**** Public function definitions ****/
 void Analog_UpdateAll(analog_t* meas)
 {
 	uint16_t gnd_lvl = HAL_ADC_Read(ADC_GND);
 	meas->hb_currnet     = read_ch(ADC_ICOIL, 0, ICOIL_MUL, ICOIL_DIV, ICOIL_OFF, ICOIL_CNT ); //mA
 	meas->hb_voltage     = read_ch(ADC_UCOIL, 0, UCOIL_MUL, UCOIL_DIV, UCOIL_OFF, UCOIL_CNT ); //mV
 	meas->supply_current = read_ch(ADC_IBAT , 0, IBAT_MUL , IBAT_DIV , IBAT_OFF , IBAT_CNT  ); //mA
 	meas->supply_voltage = read_ch(ADC_UBAT , 0, UBAT_MUL , UBAT_DIV , UBAT_OFF , UBAT_CNT  ); //mV
 	meas->pot_voltage    = read_ch(ADC_POT  , 0, POT_MUL  , POT_DIV  , POT_OFF  , POT_CNT   ); //mV
 	meas->mode_voltage   = read_ch(ADC_MODE , 0, MODE_MUL , MODE_DIV , MODE_OFF , MODE_CNT  ); //mV
 	// Calculate derived measurements
 	// Halfbridge output power
 	uint32_t temp = (uint32_t)meas->hb_currnet * (uint32_t)meas->hb_voltage;
 	temp /= 1000;
 	meas->hb_power = ConvertUintShort(temp);
 	// Halfbridge output resistance
 	if(meas->hb_currnet == 0) meas->hb_resistance = 0xFFFF;
 	else if(meas->hb_voltage == 0) meas->hb_resistance = 0;
 	else
 	{
 		temp = (uint32_t)meas->hb_voltage * 1000;
 		temp /= (uint32_t)meas->hb_currnet;
 		meas->hb_resistance = ConvertUintShort(temp);
 	}
 	// Supply power
 	temp = (uint32_t)meas->supply_current * (uint32_t)meas->supply_voltage;
 	temp /= 1000;
 	meas->supply_power = ConvertUintShort(temp);
 }
 static uint16_t read_ch(adcCh_t ch, uint16_t gnd_raw, uint8_t mul, uint8_t div, int16_t offset, uint8_t samples)
 {
 	//Sanity check
 	if(div==0) return 0xFFFF;
 	// Do at least one sample
 	if(samples<1) samples = 1;
 	// Read ADC value
 	int32_t raw = 0;
 	for(uint8_t i=0; i<samples; i++)
 	{
 		raw += (int32_t)HAL_ADC_Read(ch);
 	}
 	// Do average
 	if(samples != 1)
 	{
 		raw /= samples;
 	};
 	// Remove GND level
 	if(gnd_raw)	raw = raw - (int32_t)gnd_raw;
 	// Convert to target units	
 	raw = raw * mul;
 	if(div!=1) raw /= div;
 	raw += offset;
 	return ConvertSIntShort(raw);
 }
 static uint16_t ConvertSIntShort(int32_t in)
 {
 	if(in <= 0) return 0;
 	else if(in >= 0x0000FFFF) return 0xFFFF;
 	else return (uint16_t)in;
 }
 static uint16_t ConvertUintShort(uint32_t in)
 {
 	if(in == 0) return 0;
 	else if(in >= 0x0000FFFF) return 0xFFFF;
 	else return (uint16_t)in;
 }
--- a/firmware/devices/analog.h
+++ b/firmware/devices/analog.h
@@ -0,0 +1,23 @@
 #ifndef ANALOG_H_
 #define ANALOG_H_
 /**** Includes ****/
 #include <stdint.h>
 /**** Public definitions ****/
 typedef struct {
 	uint16_t hb_currnet;
 	uint16_t hb_voltage;
 	uint16_t hb_power;
 	uint16_t hb_resistance;
 	uint16_t supply_current;
 	uint16_t supply_voltage;
 	uint16_t supply_power;
 	uint16_t pot_voltage;
 	uint16_t mode_voltage;
 } analog_t;
 /**** Public function declarations ****/
 void Analog_UpdateAll(analog_t* meas);
 #endif /* ANALOG_H_ */
--- a/firmware/devices/common/level.h
+++ b/firmware/devices/common/level.h
@@ -0,0 +1,11 @@
 #ifndef LEVEL_T_H_
 #define LEVEL_T_H_
 /**** Public definitions ****/
 typedef enum {
 	HIZ = -1,
 	LOW = 0,
 	HIGH = 1
 } level_t;
 #endif /* LEVEL_T_H_ */
--- a/firmware/devices/config.c
+++ b/firmware/devices/config.c
@@ -0,0 +1,24 @@
 /**** Includes ****/
 #include "hal/udccd_hal.h"
 #include "config.h"
 /**** Public function definitions ****/
 void Init_HW(void)
 {
 	hwConfig_t hwCfg;
 	hwCfg.adc_clk_prescaler = ADC_DIV2;
 	hwCfg.adc_auto_wake = 1;
 	// 64kHz PWM
 	hwCfg.pwm_timer_prescaler = TIM_DIV1;
 	hwCfg.pwm_timer_top = 0x01FF;
 	// 1.9Hz..62.5kHz Speed input
 	hwCfg.freq_timer_prescaler = TIM_DIV64;
 	// 1kHz systick
 	hwCfg.systick_timer_top = 125;
 	hwCfg.systick_timer_prescaler = TIM_DIV64;
 	// No extra features
 	hwCfg.uart_prescaler = 0;
 	hwCfg.disable_unused = 0;
 	hwCfg.en_watchdog = 0;
 	HAL_Init_Min(&hwCfg);
 }
--- a/firmware/devices/config.h
+++ b/firmware/devices/config.h
@@ -0,0 +1,10 @@
 #ifndef CONFIG_H_
 #define CONFIG_H_
 /**** Includes ****/
 #include <stdint.h>
 /**** Public function declarations ****/
 void Init_HW(void);
 #endif /* CONFIG_H_ */
--- a/firmware/devices/filter_iir_lpf.c
+++ b/firmware/devices/filter_iir_lpf.c
@@ -0,0 +1,21 @@
 /**** Includes ****/
 #include "filter_iir_lpf.h"
 /**** Private variables ****/
 /**** Public function definitions ****/
 uint16_t LPF_Update(uint16_t new, uint16_t last, uint8_t strength)
 {
 	if(strength==0) return new;
 	else if(strength==255) return last;
 	else
 	{
 		uint32_t temp = (uint32_t)last * strength;
 		temp += new * (255-strength);
 		temp /= 255;
 		//Limit to 16bits
 		if(temp > 0x0000FFFF) return 0xFFFF;
 		else return (uint16_t) temp;
 	}
 }
--- a/firmware/devices/filter_iir_lpf.h
+++ b/firmware/devices/filter_iir_lpf.h
@@ -0,0 +1,10 @@
 #ifndef FILTER_IIR_LPF_H_
 #define FILTER_IIR_LPF_H_
 /**** Includes ****/
 #include <stdint.h>
 /**** Public function declarations ****/
 uint16_t LPF_Update(uint16_t new, uint16_t last, uint8_t strength);
 #endif /* FILTER_IIR_LPF_H_ */
--- a/firmware/devices/hal/udccd_hal.h
+++ b/firmware/devices/hal/udccd_hal.h
@@ -0,0 +1,102 @@
 #ifndef UDCCD_R8_BSP_H_
 #define UDCCD_R8_BSP_H_
 /**** Includes ****/
 #include <stdint.h>
 #include "../common/level.h"
 /**** Public definitions ****/
 //ADC definitions
 typedef enum {
 	ADC_ICOIL = 0x00,
 	ADC_UCOIL = 0x01,
 	ADC_UBAT = 0x02,
 	ADC_IBAT = 0x03,	
 	ADC_POT = 0x04,
 	ADC_MODE = 0x05,
 	ADC_TEMP = 0x08,
 	ADC_INTREF = 0x0E,
 	ADC_GND = 0x0F
 } adcCh_t;
 typedef enum {
 	ADC_DIV2 = 0x01,
 	ADC_DIV4 = 0x02,
 	ADC_DIV8 = 0x03,
 	ADC_DIV16 = 0x04,
 	ADC_DIV32 = 0x05,
 	ADC_DIV64 = 0x06,
 	ADC_DIV128 = 0x07
 } adcDiv_t;
 //Timer definitions
 typedef enum {
 	TIM_DIV1 = 0x01,
 	TIM_DIV8 = 0x02,
 	TIM_DIV64 = 0x03,
 	TIM_DIV256 = 0x04,
 	TIM_DIV1024 = 0x05
 } timerDiv_t;
 typedef enum {
 	PWM_COIL = 'A',
 	PWM_LED = 'B'
 } pwmCh_t;
 typedef enum {
 	SPEED_1 = 3,
 	SPEED_0 = 4
 } speedCh_t;
 typedef struct {
 	adcDiv_t adc_clk_prescaler;
 	uint8_t adc_auto_wake;
 	timerDiv_t pwm_timer_prescaler;
 	uint16_t pwm_timer_top;
 	timerDiv_t freq_timer_prescaler;
 	uint16_t uart_prescaler;
 	uint8_t systick_timer_top;
 	timerDiv_t systick_timer_prescaler;
 	uint8_t disable_unused;
 	uint8_t en_watchdog;
 } hwConfig_t;
 /**** Public function declarations ****/
 void HAL_Init_Min(hwConfig_t* hwCfg);
 void HAL_Init_Extra(hwConfig_t* hwCfg);
 level_t HAL_ReadLvl_Handbrake(void);
 level_t HAL_ReadLvl_Brake(void);
 level_t HAL_ReadLvl_Dimm(void);
 level_t HAL_ReadLvl_BtnUp(void);
 level_t HAL_ReadLvl_BtnDown(void);
 level_t HAL_ReadLvl_BtnMode(void);
 level_t HAL_ReadLvl_HandbrakePull(void);
 level_t HAL_ReadLvl_CoilLow(void);
 level_t HAL_ReadLvl_CoilHigh(void);
 level_t HAL_ReadLvl_LedsPwm(void);
 level_t HAL_ReadLvl_Speed0(void);
 level_t HAL_ReadLvl_Speed1(void);
 level_t HAL_ReadLvl_SpeedPull(void);
 void HAL_SetPull_Handbrake(level_t lvl);
 void HAL_SetPull_Speed(level_t lvl);
 void HAL_ADC_Wake(void);
 void HAL_ADC_Sleep(void);
 uint16_t HAL_ADC_Read(adcCh_t ch);
 void HAL_Coil_SetLowSide(uint8_t on);
 void HAL_Coil_SetPWM(uint8_t percent);
 void HAL_Coil_SetPWM16b(uint16_t value);
 void HAL_LEDS_Set(uint8_t image);
 uint8_t HAL_LEDS_Get(void);
 void HAL_LEDS_SetPWM(uint8_t percent);
 void HAL_PWM_Wake(void);
 void HAL_PWM_Sleep(void);
 void HAL_PWM_SetDuty16b(pwmCh_t ch, uint16_t value);
 void HAL_PWM_SetDuty100(pwmCh_t ch, uint8_t percent);
 #endif /* UDCCD_R8_BSP_H_ */
--- a/firmware/devices/hal/udccd_r7_hal.c
+++ b/firmware/devices/hal/udccd_r7_hal.c
@@ -0,0 +1,463 @@
 /**** Includes ****/
 #include <avr/io.h>
 #include "udccd_hal.h"
 /**** Private variables ****/
 static uint8_t tim0_prescaler = 0x00;
 static uint8_t tim1_prescaler = 0x00;
 static uint8_t tim3_prescaler = 0x00;
 static uint8_t tim4_prescaler = 0x00;
 /**** Private function declarations ****/
 static void PWM_SetOCx(pwmCh_t ch, uint16_t value);
 /**** Public function definitions ****/
 void HAL_Init_Min(hwConfig_t* hwCfg)
 {
 	// PIN Configuration
 	//DCCD Enable and PWM
 	PORTB &= ~0x03; //Set low
 	DDRB |= 0x03;  //Set as outputs
 	//LED PWM
 	PORTB &= ~0x04;  //Set low
 	DDRB |= 0x04;   //Set as output
 	//UART TX
 	PORTB |= 0x18;  //Set high / pull-up on
 	DDRB |= 0x08;  //Set as output
 	DDRB &= ~0x10;  //Set as input
 	//Handbrake pull-up
 	PORTB |= 0x20;  //Set high
 	DDRB |= 0x20;   //Set as output
 	//Handbrake and Brake inputs
 	PORTB |= 0xC0;  //Pull-up on
 	DDRB &= ~0xC0;  //Set as input
 	// ADC inputs
 	PORTC &= ~0x3F; //Pull-up off
 	DDRC &= ~0x3F;  //Set as inputs
 	// Reset
 	PORTC |= 0x40; //Pull-up on
 	DDRC &= ~0x40;  //Set as input
 	// LED control
 	PORTD &= ~0x3F;  //Set low
 	DDRD |= 0x3F;   //Set as outputs
 	// Speed pull
 	PORTD &= ~0x40;  //Set low
 	DDRD |= 0x40;   //Set as outputs
 	// Dim input
 	PORTD |= 0x80;  //Set pull-up on
 	DDRD &= ~0x80;   //Set as input
 	// Speed inputs
 	PORTE &= ~0x05;  //Set pull-down
 	DDRE |= 0x05;   //Set as output
 	// Up/Down inputs
 	PORTE |= 0x0A;  //Set pull-up on
 	DDRE &= ~0x0A;   //Set as input
 	//ADC configuration
 	PRR0 &= ~0x01; //Enable ADC power
 	DIDR0 |= 0x1F; //Disable digital inputs, ADC0-ADC4
 	ADMUX = 0x40;  //Set AVCC reference, Right adjust
 	ADCSRA = 0x00; //ADC Disabled, Single conversion, no IT
 	ADCSRA |= (uint8_t)hwCfg->adc_clk_prescaler;
 	ADCSRB = 0x00; //no trigger input
 	if(hwCfg->adc_auto_wake) ADCSRA |= 0x80;  //Enable ADC
 	else PRR0 |= 0x01;
 	//DCCD and LED PWM configuration
 	PRR0 &= ~0x80;  //Enable Timer1 power
 	TCCR1A = 0xF2; //Connect OC1A and OC1B, normal logic
 	TCCR1B = 0x18; //PWM, Phase & Frequency Correct ICR1 top, no clock, WGM:0xE
 	TCCR1C = 0x00;
 	TCNT1 = 0x0000;
 	OCR1A = 0x0000;
 	OCR1B = 0x0000;
 	ICR1 = (hwCfg->pwm_timer_top);
 	TIMSK1 = 0x00;  //No interrupts
 	TIFR1 = 0x00;	//Clear all flags
 	tim1_prescaler = (uint8_t)hwCfg->pwm_timer_prescaler;
 	TCCR1B |= tim1_prescaler;  //Enable timer
 }
 void HAL_Init_Extra(hwConfig_t* hwCfg)
 {
 	//Speed 1 input timer configuration
 	PRR1 &= ~0x01;  //Enable Timer3 power
 	TCCR3A = 0x00;  //OCx disconnected, WGM:0x0
 	TCCR3B = 0x80;  //ICP Noise filter, Falling edge, no clock
 	TCCR3C = 0x00;
 	TCNT3 = 0x0000;
 	OCR3A = 0x0000;
 	OCR3B = 0x0000;
 	ICR3 = 0x0000;
 	TIMSK3 = 0x00;
 	//TIMSK3 |= 0x21; //ICP and OVF interrupts
 	TIFR3 = 0x00;	//Clear all flags
 	tim3_prescaler = (uint8_t)hwCfg->freq_timer_prescaler;
 	TCCR3B |=  tim3_prescaler; //Enable timer
 	//Speed 0 input timer configuration
 	PRR1 &= ~0x08;  //Enable Timer4 power
 	TCCR4A = 0x00;  //OCx disconnected, WGM:0x0
 	TCCR4B = 0x80;  //ICP Noise filter, Falling edge, no clock
 	TCCR4C = 0x00;
 	TCNT4 = 0x0000;
 	OCR4A = 0x0000;
 	OCR4B = 0x0000;
 	ICR4 = 0x0000;
 	TIMSK4 = 0x00;
 	//TIMSK4 |= 0x21;	//ICP and OVF interrupts
 	TIFR4 = 0x00;	//Clear all flags
 	tim4_prescaler = (uint8_t)hwCfg->freq_timer_prescaler;
 	TCCR4B |= tim4_prescaler;  //Enable timer
 	//UART1 configuration
 	PRR0 &= 0x10;   //Enable UART1 power
 	UCSR1A = 0x00;  //Clear flags, Single UART speed, Single processor mode
 	UCSR1B = 0x18;  //Enable RX/TX hardware, 8bit char
 	//UCSR1B |= 0xC0; //Enable RX/TX interrupt,
 	UCSR1C = 0x06; ; //async, No parity, 1 stop bit, 8bit char,
 	UBRR1 = hwCfg->uart_prescaler; //UART baud rate select
 	//"Systick" timer configuration
 	PRR0 &= ~0x20; //Enable Timer0 power
 	TCCR0A = 0x02 ;//OC0x not connected, WGM 0x01-CTC OC0A TOP
 	TCCR0B = 0x00; //WGM 0x01-CTC, No clock
 	TIMSK0 = 0x00;
 	//TIMSK0 |= 0x01; //OVF interrupt enabled
 	TCNT0 = 0x00;
 	OCR0A = hwCfg->systick_timer_top;
 	OCR0B= 0x00;
 	TIFR0 = 0x00; //Reset all flags
 	tim0_prescaler = (uint8_t)hwCfg->systick_timer_prescaler;
 	TCCR0B |= tim0_prescaler;
 	//Disabled not used power configuration
 	if(hwCfg->disable_unused)
 	{
 		//Disable power to not used peripherals
 		PRR0 |= 0xC6; //Disable TWI0, TIM2, SPI0, UART0
 		PRR1 |= 0x34; //Disable TWI1, PRTC, SPI1
 	}
 	//Watchdog configuration
 	if(hwCfg->en_watchdog)
 	{
 		//watchdog timer setup
 		WDTCSR |= 0x10; //Change enable
 		WDTCSR |= 0x0D; //System reset mode, 0.5s period.
 		//use special instruction to reset watchdog timer
 	};
 }
 // Handbrake input
 level_t HAL_ReadLvl_Handbrake(void)
 {
 	if(PINB & 0x40) return HIGH;
 	else return LOW;
 }
 // Brakes input
 level_t HAL_ReadLvl_Brake(void)
 {
 	if(PINB & 0x80) return HIGH;
 	else return LOW;
 }
 // Dimm input
 level_t HAL_ReadLvl_Dimm(void)
 {
 	if(PIND & 0x80) return HIGH;
 	else return LOW;
 }
 // UP button
 level_t HAL_ReadLvl_BtnUp(void)
 {
 	if(PINE & 0x08) return HIGH;
 	else return LOW;
 }
 // Down button
 level_t HAL_ReadLvl_BtnDown(void)
 {
 	if(PINE & 0x02) return HIGH;
 	else return LOW;
 }
 // Mode button
 level_t HAL_ReadLvl_BtnMode(void)
 {
 	if(PINC & 0x20) return HIGH;
 	else return LOW;
 }
 // Handbrake pull
 level_t HAL_ReadLvl_HandbrakePull(void)
 {
 	if(PINB & 0x20) return HIGH;
 	else return LOW;
 }
 // Coil driver control low
 level_t HAL_ReadLvl_CoilLow(void)
 {
 	if(PINB & 0x01) return HIGH;
 	else return LOW;
 }
 // Coil driver control high
 level_t HAL_ReadLvl_CoilHigh(void)
 {
 	if(PINB & 0x02) return HIGH;
 	else return LOW;
 }
 // LED PWM control
 level_t HAL_ReadLvl_LedsPwm(void)
 {
 	if(PINB & 0x04) return HIGH;
 	else return LOW;
 }
 // Speed 0 input pin
 level_t HAL_ReadLvl_Speed0(void)
 {
 	if(PINE & 0x04) return HIGH;
 	else return LOW;
 }
 // Speed 1 input pin
 level_t HAL_ReadLvl_Speed1(void)
 {
 	if(PINE & 0x01) return HIGH;
 	else return LOW;
 }
 // Speed common pull pin
 level_t HAL_ReadLvl_SpeedPull(void)
 {
 	if(PIND & 0x40) return HIGH;
 	else return LOW;
 }
 // Set handbrake pull-up
 void HAL_SetPull_Handbrake(level_t lvl)
 {
 	switch(lvl)
 	{
 		case HIGH:
 		PORTB |= 0x20;  //Set high
 		DDRB |= 0x20;   //Set as output
 		break;
 		case LOW:
 		PORTB &= ~0x20;  //Set low
 		DDRB |= 0x20;   //Set as output
 		default:
 		DDRB &= ~0x20;   //Set as input
 		PORTB |= 0x20;  //Set high
 		break;
 	}
 }
 // Set speed inputs common pull
 void HAL_SetPull_Speed(level_t lvl)
 {
 	switch(lvl)
 	{
 		case HIGH:
 		PORTD |= 0x40;  //Set high
 		break;
 		default:
 		PORTD &= ~0x40;  //Set low
 		break;
 	}
 }
 // ADC Wake
 void HAL_ADC_Wake(void)
 {
 	//Enable ADC power
 	PRR0 &= ~0x01;
 	//Enable ADC
 	ADCSRA |= 0x80;
 }
 // ADC Sleep
 void HAL_ADC_Sleep(void)
 {
 	//wait to finish
 	while(ADCSRA&0x40);
 	//Disable ADC
 	ADCSRA &= ~0x80;
 	//Disable ADC power
 	PRR0 |= 0x01;
 }
 // ADC Read
 uint16_t HAL_ADC_Read(adcCh_t ch)
 {
 	//check if ADC is enabled
 	if(!(ADCSRA&0x80)) return 0xFFFF;
 	uint8_t mux = (uint8_t)ch;
 	//Safe guard mux
 	if(mux > 15) return 0xFFFF;
 	// Not available channels
 	if((mux > 8) && (mux<14)) return 0xFFFF;
 	ADMUX &= ~0x0F;
 	ADMUX |= mux;
 	ADCSRA |= 0x40;
 	while(ADCSRA&0x40); //wait to finish
 	return ADC;
 }
 // Coil Driver Low Side control
 void HAL_Coil_SetLowSide(uint8_t on)
 {
 	if(on) PORTB |= 0x01;
 	else PORTB &= ~0x01;
 }
 void HAL_Coil_SetPWM(uint8_t percent)
 {
 	HAL_PWM_SetDuty100(PWM_COIL, percent);
 }
 void HAL_Coil_SetPWM16b(uint16_t value)
 {
 	HAL_PWM_SetDuty16b(PWM_COIL, value);
 }
 // LED Display
 void HAL_LEDS_Set(uint8_t image)
 {
 	//Read current PORTD pin6, pin7
 	uint8_t keep = PORTD & 0xC0;
 	//Safe guard display
 	image &= 0x3F;
 	//Calculate new PORTD
 	keep |= image;
 	//Set PORTD
 	PORTD = keep;
 }
 uint8_t HAL_LEDS_Get(void)
 {
 	return (PIND & 0x3F);
 }
 void HAL_LEDS_SetPWM(uint8_t percent)
 {
 	HAL_PWM_SetDuty100(PWM_LED, percent);
 }
 // PWM Direct functions
 void HAL_PWM_Wake(void)
 {
 	//Enable Timer1 power
 	PRR0 &= ~0x80;
 	//Prepare Timer1 settings
 	TCNT1 = 0x0000;
 	OCR1A = 0x0000;
 	OCR1B = 0x0000;
 	//Enable clock
 	TCCR1B |= tim1_prescaler;  //Enable timer
 }
 void HAL_PWM_Sleep(void)
 {
 	// Turn off outputs
 	OCR1A = 0x0000;
 	OCR1B = 0x0000;
 	// Force timer to bottom
 	TCNT1 = (ICR1-1);
 	// Wait for outputs to be off
 	while((PINB&0x06)!=0x00) continue;
 	// Disable clock
 	TCCR1B &= ~0x07;
 	// Disable Timer1 power
 	PRR0 |= 0x80;
 }
 void HAL_PWM_SetDuty16b(pwmCh_t ch, uint16_t value)
 {
 	value = 0xFFFF - value;
 	uint32_t top = (uint32_t)ICR1;
 	uint32_t temp = (uint32_t)value * top;
 	temp = temp/0x0000FFFF;
 	//Limit temp
 	if(temp>0x0000FFFF) temp = 0x0000FFFF;
 	uint16_t ocrx = (uint16_t) temp;
 	PWM_SetOCx(ch, ocrx);
 }
 void HAL_PWM_SetDuty100(pwmCh_t ch, uint8_t percent)
 {
 	if(percent > 100) percent = 100;
 	percent = 100 - percent;
 	uint32_t top = (uint32_t)ICR1;
 	uint32_t temp = (uint32_t)percent * top;
 	temp = temp/100;
 	//Limit temp
 	if(temp>0x0000FFFF) temp = 0x0000FFFF;
 	uint16_t ocrx = (uint16_t) temp;
 	PWM_SetOCx(ch, ocrx);
 }
 /**** Private function definitions ****/
 static void PWM_SetOCx(pwmCh_t ch, uint16_t value)
 {
 	switch(ch)
 	{
 		case PWM_COIL:
 		OCR1A = value;
 		return;
 		case PWM_LED:
 		OCR1B = value;
 		return;
 		default:
 		return;
 	}
 }
--- a/firmware/devices/halfbridge.c
+++ b/firmware/devices/halfbridge.c
@@ -0,0 +1,127 @@
 /**** Includes ****/
 #include "hal/udccd_hal.h"
 #include "halfbridge.h"
 /**** Private variables ****/
 static const uint16_t min_dc = 3277;  //5%
 static const uint16_t max_dc = 62258; //95%
 static uint16_t target = 0;
 static uint8_t low_side_on = 1;
 static uint16_t active_dc = 0;
 static uint8_t is_en = 0;
 /**** Private function declarations ****/
 static uint16_t CalculateDuty16b(uint16_t target, uint16_t supply);
 /**** Public function definitions ****/
 void HB_SetTarget(uint16_t voltage)
 {
 	target = voltage;
 }
 void HB_SetLowSide(uint8_t on)
 {
 	low_side_on = on;
 }
 uint16_t HB_GetTarget(void)
 {
 	return target;
 }
 void HB_UpdateOutput(uint16_t supply)
 {
 	uint16_t temp_dc = CalculateDuty16b(target, supply);
 	HB_SetDirect(temp_dc);
 }
 void HB_SetDirect(uint16_t duty)
 {
 	/// Limit duty cycle
 	if(duty > max_dc) active_dc = max_dc;
 	else if(duty < min_dc) active_dc = 0;
 	else active_dc = duty;
 	// Set duty cycle
 	if(!is_en) return;
 	HAL_Coil_SetLowSide(low_side_on);
 	HAL_Coil_SetPWM16b(active_dc);
 }
 uint8_t HB_IsLowOn(void)
 {
 	if(HAL_ReadLvl_CoilLow() == HIGH) return 1;
 	else return 0;
 }
 void HB_Enable(void)
 {
 	// Restore low side
 	if(low_side_on) HAL_Coil_SetLowSide(1);
 	// Restore duty cycle
 	HAL_Coil_SetPWM(active_dc);
 	is_en = 1;
 }
 void HB_Disable(void)
 {
 	// Set 0 DC
 	HAL_Coil_SetPWM(0);
 	// Disable low side
 	HAL_Coil_SetLowSide(0);
 	is_en = 0;
 }
 uint8_t HB_IsEnabled(void)
 {
 	if(is_en) return 1;
 	else return 0;
 }
 int8_t HB_IsOutputMatch(uint16_t fb_output_voltage, uint16_t limit)
 {
 	// No fault if output not enabled
 	if(!is_en) return -1;
 	// Can't check voltage if low side is off
 	if(!low_side_on) return -1;
 	if(target==0)
 	{
 		// Output can be only 0
 		if(fb_output_voltage != 0) return 0;
 		else return 1;
 	};
 	// Calculate upper and lower bounds
 	uint16_t max = target + limit;
 	uint16_t min = target - limit;
 	//Sanity check
 	if(max < target) max = 0xFFFF;
 	if(min > target) min = 0;
 	//Do check
 	if((fb_output_voltage < min)||(fb_output_voltage > max)) return 0;
 	else return 1;
 }
 /**** Private function definitions ****/
 static uint16_t CalculateDuty16b(uint16_t target, uint16_t supply)
 {
 	if(target==0) return 0;
 	if(supply==0) return 0;
 	if(target > supply) return 0xFFFF;
 	// Calculate Duty cycle, in 16bit format
 	uint32_t temp = (uint32_t)target * 0x0000FFFF;
 	temp = temp / supply;
 	//Limit output to 16 bits
 	if(temp > 0x0000FFFF) return 0xFFFF;
 	else return (uint16_t)temp;	
 }
--- a/firmware/devices/halfbridge.h
+++ b/firmware/devices/halfbridge.h
@@ -0,0 +1,24 @@
 #ifndef HALFBRIDGE_H_
 #define HALFBRIDGE_H_
 /**** Includes ****/
 #include <stdint.h>
 /**** Public function declarations ****/
 void HB_UpdateOutput(uint16_t supply);
 void HB_SetTarget(uint16_t voltage);
 void HB_SetLowSide(uint8_t on);
 void HB_SetDirect(uint16_t duty);
 void HB_Enable(void);
 void HB_Disable(void);
 uint16_t HB_GetTarget(void);
 uint8_t HB_IsLowOn(void);
 uint8_t HB_IsEnabled(void);
 int8_t HB_IsOutputMatch(uint16_t fb_output_voltage, uint16_t limit);
 #endif /* HALFBRIDGE_H_ */
--- a/firmware/devices/inputs.c
+++ b/firmware/devices/inputs.c
@@ -0,0 +1,82 @@
 /**** Includes ****/
 #include "hal/udccd_hal.h"
 #include "inputs.h"
 /**** Private definitions ****/
 /**** Private variables ****/
 static const uint8_t def_debounce_lim = 10;
 /**** Private function declarations ****/
 static void InitDefaultInput(inCh_t* inp);
 static void ProcessInput(uint8_t read_lvl, inCh_t* inp);
 /**** Public function definitions ****/
 void Inputs_DefInit(inputs_t* inputs)
 {
 	InitDefaultInput(&inputs->handbrake);
 	InitDefaultInput(&inputs->brakes);
 	InitDefaultInput(&inputs->dimm);
 	InitDefaultInput(&inputs->up);
 	InitDefaultInput(&inputs->down);
 	InitDefaultInput(&inputs->mode);
 }
 void Inputs_UpdateAll(inputs_t* inputs)
 {
 	// Chassis inputs
 	ProcessInput(HAL_ReadLvl_Handbrake(), &inputs->handbrake);
 	ProcessInput(HAL_ReadLvl_Brake(), &inputs->brakes);
 	ProcessInput(HAL_ReadLvl_Dimm(), &inputs->dimm);
 	// User inputs
 	ProcessInput(HAL_ReadLvl_BtnUp(), &inputs->up);
 	ProcessInput(HAL_ReadLvl_BtnDown(), &inputs->down);
 	ProcessInput(HAL_ReadLvl_BtnMode(), &inputs->mode);
 }
 void Inputs_SetHanbrakePullUp(uint8_t on)
 {
 	if(on) HAL_SetPull_Handbrake(HIGH);
 	else HAL_SetPull_Handbrake(HIZ);
 }
 /**** Private function definitions ****/
 static void InitDefaultInput(inCh_t* inp)
 {
 	inp->is_active = 0;
 	inp->is_new = 0;
 	inp->state_timer = 0;
 	inp->cfg.act_level = LOW;
 	inp->cfg.dbnc_treshold = def_debounce_lim;
 	inp->proc.level = LOW;
 	inp->proc.dbnc_counter = 0;
 }
 static void ProcessInput(uint8_t read_lvl, inCh_t* inp)
 {
 	if(inp->state_timer < 0xFFFF) inp->state_timer++;
 	if(read_lvl != inp->proc.level)
 	{
 		//Debounce ongoing
 		inp->proc.dbnc_counter++;
 		if(inp->proc.dbnc_counter < inp->cfg.dbnc_treshold) return;
 		//Save level
 		inp->proc.level = read_lvl;
 		//Change state
 		if(inp->proc.level == inp->cfg.act_level) inp->is_active = 1;
 		else inp->is_active = 0;
 		// Update new flag
 		inp->is_new = 1;
 		// Reset state timer
 		inp->state_timer = 0;
 		return;
 	}
 	else
 	{
 		//Debounce failed
 		if(inp->proc.dbnc_counter) inp->proc.dbnc_counter = 0;
 	}
 }
--- a/firmware/devices/inputs.h
+++ b/firmware/devices/inputs.h
@@ -0,0 +1,43 @@
 #ifndef INPUTS_H_
 #define INPUTS_H_
 /**** Includes ****/
 #include <stdint.h>
 #include "common/level.h"
 /**** Public definitions ****/
 typedef struct {
 	level_t act_level;
 	uint8_t dbnc_treshold;
 } inChCfg_t;
 typedef struct {
 	level_t level;
 	uint8_t dbnc_counter;
 } inChRaw_t;
 typedef struct {
 	uint8_t is_active;
 	uint8_t is_new;
 	uint16_t state_timer;
 	inChRaw_t proc;
 	inChCfg_t cfg;
 } inCh_t;
 typedef struct {
 	inCh_t handbrake;
 	inCh_t brakes;
 	inCh_t dimm;
 	inCh_t up;
 	inCh_t down;
 	inCh_t mode;
 } inputs_t;
 /**** Public function declarations ****/
 void Inputs_DefInit(inputs_t* inputs);
 void Inputs_UpdateAll(inputs_t* inputs);
 void Inputs_SetHanbrakePullUp(uint8_t on);
 #endif /* INPUTS_H_ */
--- a/firmware/devices/led_display.c
+++ b/firmware/devices/led_display.c
@@ -0,0 +1,20 @@
 /**** Includes ****/
 #include "hal/udccd_hal.h"
 #include "led_display.h"
 /**** Private variables ****/
 /**** Private function declarations ****/
 /**** Public function definitions ****/
 void LED_DSP_ShowImage(uint8_t image)
 {
 	HAL_LEDS_Set(image);
 }
 void LED_DSP_SetBrightness(uint8_t percent)
 {
 	HAL_LEDS_SetPWM(percent);
 }
 /**** Private function definitions ****/
--- a/firmware/devices/led_display.h
+++ b/firmware/devices/led_display.h
@@ -0,0 +1,13 @@
 #ifndef LED_DISPLAY_H_
 #define LED_DISPLAY_H_
 /**** Includes ****/
 #include <stdint.h>
 /**** Public definitions ****/
 /**** Public function declarations ****/
 void LED_DSP_ShowImage(uint8_t image);
 void LED_DSP_SetBrightness(uint8_t percent);
 #endif /* LED_DISPLAY_H_ */
--- a/firmware/devices/memory.c
+++ b/firmware/devices/memory.c
@@ -0,0 +1,34 @@
 /**** Includes ****/
 #include <avr/eeprom.h>
 #include "memory.h"
 /**** Public function definitions ****/
 uint8_t MEM_Read8b(uint8_t address)
 {
 	return eeprom_read_byte((uint8_t*)address);
 }
 uint16_t MEM_Read16b(uint8_t address)
 {
 	return eeprom_read_word((uint8_t*)address);
 }
 uint32_t MEM_Read32b(uint8_t address)
 {
 	return eeprom_read_dword((uint8_t*)address);
 }
 void MEM_Write8b(uint8_t address, uint8_t value)
 {
 	return eeprom_write_byte((uint8_t*)address, value);
 }
 void MEM_Write16b(uint8_t address, uint16_t value)
 {
 	return eeprom_write_word((uint8_t*)address, value);
 }
 void MEM_Write32b(uint8_t address, uint32_t value)
 {
 	return eeprom_write_dword((uint8_t*)address, value);
 }
--- a/firmware/devices/memory.h
+++ b/firmware/devices/memory.h
@@ -0,0 +1,16 @@
 #ifndef MEMORY_H_
 #define MEMORY_H_
 /**** Includes ****/
 #include <stdint.h>
 /**** Public function declarations ****/
 uint8_t MEM_Read8b(uint8_t address);
 uint16_t MEM_Read16b(uint8_t address);
 uint32_t MEM_Read32b(uint8_t address);
 void MEM_Write8b(uint8_t address, uint8_t value);
 void MEM_Write16b(uint8_t address, uint16_t value);
 void MEM_Write32b(uint8_t address, uint32_t value);
 #endif /* MEMORY_H_ */
--- a/firmware/drivers/display.c
+++ b/firmware/drivers/display.c
@@ -0,0 +1,125 @@
 /**** Includes ****/
 #include "display.h"
 /**** Private definitions ****/
 /**** Private variables ****/
 static uint8_t PWM_DIMM = 50;
 static uint8_t PWM_BRIGTH = 100;
 static uint8_t set_image = 0x00;
 static uint16_t lock_timer = 0;
 /**** Private function declarations ****/
 static uint8_t ImageGen_Dot10(uint8_t percent);
 static uint8_t ImageGen_Dot20(uint8_t percent);
 static uint8_t ImageGen_Bar(uint8_t percent);
 /**** Public function definitions ****/
 void Display_CfgBacklight(uint8_t brigth, uint8_t dimm)
 {
 	//Limit values
 	if(brigth>100) brigth = 100;
 	else if(brigth==0) brigth = 1;
 	if(dimm>100) dimm = 100;
 	else if(dimm==0) dimm = 1;
 	//Save values
 	PWM_BRIGTH = brigth;
 	PWM_DIMM = dimm;
 }
 void Display_SetImage(uint8_t image)
 {
 	if(lock_timer) return;
 	set_image = image & 0x3F;
 }
 void Display_SetPercent(uint8_t value, dspStyle_t style)
 {
 	switch(style)
 	{
 		case BAR:
 		Display_SetImage(ImageGen_Bar(value));
 		break;
 		case DOT10:
 		Display_SetImage(ImageGen_Dot10(value));
 		break;
 		default:
 		Display_SetImage(ImageGen_Dot20(value));
 		break;
 	}
 }
 void Display_SetScale(uint16_t value, uint16_t max_value ,dspStyle_t style)
 {
 	//Convert value to percent
 	uint32_t temp = (uint32_t)value *100;
 	temp /= max_value;
 	//Limit value to 100 percent
 	uint8_t percent = 0;
 	if(temp >= 100) percent = 100;
 	else if(temp == 0) percent = 0;
 	else percent = (uint8_t)temp;
 	Display_SetPercent(percent, style);
 }
 void Display_SetLock(uint16_t time)
 {
 	lock_timer = time;
 }
 void Display_Update(inputs_t* inputs)
 {
 	// Brightness control
 	if(inputs->dimm.is_active) LED_DSP_SetBrightness(PWM_DIMM);
 	else LED_DSP_SetBrightness(PWM_BRIGTH);
 	if(lock_timer) lock_timer--;
 	// Set image
 	LED_DSP_ShowImage(set_image);
 }
 /**** Private function definitions ****/
 static uint8_t ImageGen_Dot10(uint8_t percent)
 {
 	if(percent<6) return 0x01;
 	else if(percent<16) return 0x03;
 	else if(percent<26) return 0x02;
 	else if(percent<36) return 0x06;
 	else if(percent<46) return 0x04;
 	else if(percent<56) return 0x0C;
 	else if(percent<66) return 0x08;
 	else if(percent<76) return 0x18;
 	else if(percent<86) return 0x10;
 	else if(percent<96) return 0x30;
 	else return 0x20;
 }
 static uint8_t ImageGen_Dot20(uint8_t percent)
 {
 	if(percent<11) return 0x01;
 	else if(percent<31) return 0x02;
 	else if(percent<51) return 0x04;
 	else if(percent<71) return 0x08;
 	else if(percent<91) return 0x10;
 	else return 0x20;
 }
 static uint8_t ImageGen_Bar(uint8_t percent)
 {
 	if(percent<11) return 0x01;
 	else if(percent<31) return 0x03;
 	else if(percent<51) return 0x07;
 	else if(percent<71) return 0x0F;
 	else if(percent<91) return 0x1F;
 	else return 0x3F;
 }
--- a/firmware/drivers/display.h
+++ b/firmware/drivers/display.h
@@ -0,0 +1,27 @@
 #ifndef DISPLAY_DRV_H_
 #define DISPLAY_DRV_H_
 /**** Includes ****/
 #include <avr/io.h>
 #include "../devices/led_display.h"
 #include "../devices/inputs.h"
 /**** Public definitions ****/
 typedef enum {
 	DOT20,
 	DOT10,
 	BAR
 } dspStyle_t;
 /**** Public function declarations ****/
 void Display_SetImage(uint8_t image);
 void Display_SetPercent(uint8_t value, dspStyle_t style);
 void Display_SetScale(uint16_t value, uint16_t max_value ,dspStyle_t style);
 void Display_SetLock(uint16_t time);
 void Display_Update(inputs_t* inputs);
 void Display_CfgBacklight(uint8_t brigth, uint8_t dimm);
 #endif /* DISPLAY_DRV_H_ */
--- a/firmware/drivers/output.c
+++ b/firmware/drivers/output.c
@@ -0,0 +1,341 @@
 /**** Includes ****/
 #include "output.h"
 /**** Private definitions ****/
 typedef struct {
 	uint8_t active;
 	uint8_t time;
 } warn_t;
 typedef struct {
 	warn_t supply_voltage;
 	warn_t supply_current;
 	warn_t supply_power;
 	warn_t output_voltage;
 	warn_t output_current;
 	warn_t output_power;
 	warn_t output_open;
 	warn_t output_short;
 	warn_t output_mismatch;
 } warnings_t;
 typedef struct {
 	uint8_t supply_uvlo;
 	uint8_t supply_ovp;
 	uint8_t supply_ocp;
 	uint8_t supply_opp;
 	uint8_t output_ovp;
 	uint8_t output_ocp;
 	uint8_t output_opp;
 	uint8_t output_open;
 	uint8_t output_short;
 } faults_t;
 /**** Private constants ****/
 static const uint16_t LIM_SUPPLY_UVLO =  8000; //mV
 static const uint16_t LIM_SUPPLY_OVP  = 18000; //mV
 static const uint16_t LIM_SUPPLY_OCP  =  7000; //mA
 static const uint16_t LIM_SUPPLY_OPP  = 40000; //mW
 static const uint16_t LIM_OUTPUT_OVP = 12000;  //mV
 static const uint16_t LIM_OUTPUT_OCP =  7000;  //mA
 static const uint16_t LIM_OUTPUT_OPP = 40000;  //mW
 static const uint16_t LIM_OUTPUT_OPEN = 40000; //mR
 static const uint16_t LIM_OUTPUT_SHORT =  750; //mR
 static const uint16_t LIM_OUTPUT_MATCH = 100; //mV
 static const uint8_t OCP_WARNING_LIMIT   = 10; //cycles
 static const uint8_t SHORT_WARNING_LIMIT = 50; //cycles
 static const uint16_t MAX_OUTPUT_VOLTAGE = 10000; //mV
 static const uint16_t MIN_OUTPUT_VOLTAGE  =  100; //mV
 static const uint16_t COOLDOWN_TIME = 5000;
 /**** Private variables ****/
 static warnings_t warnings;
 static faults_t faults;
 static uint16_t target_output = 0;
 static uint16_t adj_target = 0;
 static int32_t hb_volt_sum = 0;
 static uint8_t new_target = 1;
 static uint8_t steady_state = 0;
 static faultState_t fault_state = F_NONE;
 static uint16_t cooldown_timer = 0;
 static outState_t out_state = O_OFF;
 /**** Private function declarations ****/
 static void Process_Warnings(analog_t* meas);
 static uint8_t Process_Faults(void);
 static void ProcessWarningTime(warn_t* w);
 static uint8_t isAnyFaultActive(faults_t* f);
 static uint8_t isFaultWarningActive(warnings_t* w, faults_t* f);
 static void ResetFaults(faults_t* f);
 /**** Public function definitions ****/
 void Output_Enable(void)
 {
 	ResetFaults(&faults);
 	target_output = 0;
 	out_state = O_ACTIVE;
 	HB_SetTarget(0) ;
 	HB_SetLowSide(1);
 	HB_Enable();
 }
 void Output_Update(analog_t* meas)
 {	
 	Process_Warnings(meas);
 	// Convert Warnings to Faults
 	uint8_t active_fault = Process_Faults();
 	/// Ignore faults
 	active_fault = 0;
 	// Determine coil state	
 	switch(out_state)
 	{
 		case O_ACTIVE:
 		if(active_fault)
 		{
 			// Disable output
 			HB_Disable();
 			out_state = O_FAULTED;
 			break;
 		};
 		//Do target adjustment logic
 		if(steady_state >= 10)
 		{
 			//Calculate average HB voltage
 			hb_volt_sum /= 11;
 			// Calculate feedback adjusted HB output
 			int32_t error = hb_volt_sum - (int32_t)target_output;
 			int32_t temp = (int32_t)adj_target - error;
 			// Limit to 16bits
 			if(temp<=0) adj_target = 0;
 			else if(temp >= 0x0000FFFF) adj_target = 0xFFFF;
 			else adj_target = (uint16_t)temp;
 			steady_state = 0;
 			hb_volt_sum = 0;
 		}
 		else
 		{
 			hb_volt_sum += meas->hb_voltage;
 			steady_state++;
 		}
 		// Closed loop or open loop target set
 		if(new_target)
 		{
 			// Set open-loop HB output
 			HB_SetTarget(target_output);
 			adj_target = target_output;
 			steady_state = 0;
 			new_target = 0;
 			hb_volt_sum = 0;
 		}
 		else
 		{
 			HB_SetTarget(adj_target);
 		}
 		// Update output
 		HB_UpdateOutput(meas->supply_voltage);
 		break;
 		case O_FAULTED:
 		if(!active_fault)
 		{
 			//Return to normal state
 			HB_Enable();
 			out_state = O_ACTIVE;
 		}
 		break;
 		default:  //OFF
 		if(HB_IsEnabled()) HB_Disable();
 		break;
 	}
 }
 void Output_SetTarget(uint16_t voltage)
 {
 	if(voltage > MAX_OUTPUT_VOLTAGE) voltage = MAX_OUTPUT_VOLTAGE;
 	else if((voltage > 0)&&(voltage < MIN_OUTPUT_VOLTAGE)) voltage = MIN_OUTPUT_VOLTAGE;
 	if(voltage != target_output) new_target = 1;
 	target_output = voltage;
 }
 outState_t Output_GetOutputState(void)
 {
 	return out_state;
 }
 /**** Private function definitions ****/
 static void Process_Warnings(analog_t* meas)
 {
 	// Supply UVLO and OVP
 	if((meas->supply_voltage > LIM_SUPPLY_OVP)||(meas->supply_voltage < LIM_SUPPLY_UVLO)) warnings.supply_voltage.active = 1;
 	else warnings.supply_voltage.active = 0;
 	// Supply OCP
 	if(meas->supply_current > LIM_SUPPLY_OCP) warnings.supply_current.active = 1;
 	else warnings.supply_current.active = 0;
 	// Supply OPP
 	if(meas->supply_power > LIM_SUPPLY_OPP) warnings.supply_power.active = 1;
 	else warnings.supply_power.active = 0;
 	// Halfbridge output conditions
 	// Output Target mismatch
 	if(HB_IsOutputMatch(meas->hb_voltage, LIM_OUTPUT_MATCH) == 0) warnings.output_mismatch.active = 1;
 	else warnings.output_mismatch.active = 0;
 	// Output OCP
 	if((HB_IsLowOn())&&(meas->hb_currnet > LIM_OUTPUT_OCP)) warnings.output_current.active = 1;
 	else warnings.output_current.active = 0;
 	// Output OVP
 	if((HB_IsLowOn())&&(meas->hb_voltage > LIM_OUTPUT_OVP)) warnings.output_voltage.active = 1;
 	else warnings.output_voltage.active = 0;
 	// Output OPP
 	if((HB_IsEnabled())&&(meas->hb_power > LIM_OUTPUT_OPP)) warnings.output_power.active = 1;
 	else warnings.output_power.active = 0;
 	// Output Short
 	if((HB_IsEnabled())&&(meas->hb_resistance < LIM_OUTPUT_SHORT)) warnings.output_short.active = 1;
 	else warnings.output_short.active = 0;
 	// Output Open - Load loss
 	if((HB_IsEnabled())&&(meas->hb_resistance > LIM_OUTPUT_OPEN)) warnings.output_open.active = 1;
 	else warnings.output_open.active = 0;
 	ProcessWarningTime(&warnings.supply_voltage);
 	ProcessWarningTime(&warnings.supply_current);
 	ProcessWarningTime(&warnings.supply_power);
 	ProcessWarningTime(&warnings.output_mismatch);
 	ProcessWarningTime(&warnings.output_voltage);
 	ProcessWarningTime(&warnings.output_current);
 	ProcessWarningTime(&warnings.output_power);
 	ProcessWarningTime(&warnings.output_open);
 	ProcessWarningTime(&warnings.output_short);
 }
 static uint8_t Process_Faults(void)
 {
 	// Check warnings to escalate to fault	
 	// Supply OCP
 	if(warnings.supply_current.time > OCP_WARNING_LIMIT) faults.supply_ocp = 1;
 	// Output OCP
 	if(warnings.output_current.time > OCP_WARNING_LIMIT) faults.output_ocp = 1;
 	// Output short
 	if(warnings.output_short.time > SHORT_WARNING_LIMIT) faults.output_short = 1;
 	switch(fault_state)
 	{	
 		case F_ACTIVE:
 		// Check if fault still active
 		if(!isFaultWarningActive(&warnings, &faults))
 		{
 			// Fault cause ended, go to cooldown
 			cooldown_timer = COOLDOWN_TIME;
 			fault_state = F_COOLDOWN;
 		};
 		break;
 		case F_COOLDOWN:
 		// Check if fault reoccurs
 		if(isFaultWarningActive(&warnings, &faults))
 		{
 			fault_state = F_ACTIVE;
 			break;
 		};
 		// Wait for cooldown timer, reset fault flags
 		if(cooldown_timer) cooldown_timer--;
 		else
 		{
 			ResetFaults(&faults);
 			fault_state = F_NONE;
 		}
 		break;
 		default: //NONE
 		// Check for new faults
 		if(isAnyFaultActive(&faults))
 		{
 			// Start fault process
 			fault_state = F_ACTIVE;
 		};
 		break;
 	}
 	if(fault_state != F_NONE) return 1;
 	else return 0;
 }
 static void ProcessWarningTime(warn_t* w)
 {
 	if((w->active)&&(w->time < 0xFF)) w->time++;
 	else if(w->active == 0) w->time = 0;
 }
 static uint8_t isAnyFaultActive(faults_t* f)
 {
 	if(f->supply_uvlo) return 1;
 	if(f->supply_ovp) return 1;
 	if(f->supply_ocp) return 1;
 	if(f->supply_opp) return 1;
 	if(f->output_ovp) return 1;
 	if(f->output_ocp) return 1;
 	if(f->output_opp) return 1;
 	if(f->output_open) return 1;
 	if(f->output_short) return 1;
 	return 0;
 }
 static uint8_t isFaultWarningActive(warnings_t* w, faults_t* f)
 {
 	if((f->supply_uvlo)  && (w->supply_voltage.active)) return 1;
 	if((f->supply_ovp)   && (w->supply_voltage.active)) return 1;
 	if((f->supply_ocp)   && (w->supply_current.active)) return 1;
 	if((f->supply_opp)   && (w->supply_power.active)  ) return 1;
 	if((f->output_ovp)   && (w->output_voltage.active)) return 1;
 	if((f->output_ocp)   && (w->output_current.active)) return 1;
 	if((f->output_opp)   && (w->output_power.active)  ) return 1;
 	if((f->output_open)  && (w->output_open.active)   ) return 1;
 	if((f->output_short) && (w->output_short.active)  ) return 1;
 	return 0;
 }
 static void ResetFaults(faults_t* f)
 {
 	f->supply_uvlo = 0;
 	f->supply_ovp = 0;
 	f->supply_ocp = 0;
 	f->supply_opp = 0;
 	f->output_ovp = 0;
 	f->output_ocp = 0;
 	f->output_opp = 0;
 	f->output_open = 0;
 	f->output_short = 0;
 }
--- a/firmware/drivers/output.h
+++ b/firmware/drivers/output.h
@@ -0,0 +1,30 @@
 #ifndef OUTPUT_DRV_H_
 #define OUTPUT_DRV_H_
 /**** Includes ****/
 #include <avr/io.h>
 #include "../devices/analog.h"
 #include "../devices/halfbridge.h"
 /**** Public definitions ****/
 typedef enum {
 	F_NONE,
 	F_ACTIVE,
 	F_COOLDOWN
 } faultState_t;
 typedef enum {
 	O_OFF,
 	O_ACTIVE,
 	O_FAULTED
 } outState_t;
 /**** Public function declarations ****/
 void Output_Enable(void);
 void Output_Update(analog_t* meas);
 void Output_SetTarget(uint16_t voltage);
 outState_t Output_GetOutputState(void);
 #endif /* OUTPUT_DRV_H_ */
--- a/firmware/logic/coil.c
+++ b/firmware/logic/coil.c
@@ -0,0 +1,127 @@
 /**** Includes ****/
 #include "coil.h"
 /**** Private definitions ****/
 /**** Private constants ****/
 /**** Private variables ****/
 static uint16_t lock_current = 4500; //mA
 static uint16_t min_current = 100; //mA
 static uint16_t target_current = 0; //mA
 static uint8_t new_target = 1;
 static uint16_t adj_target_current = 0; //mA
 static uint16_t target_voltage = 0; //mV
 static uint8_t act_force = 0;
 static uint16_t nominal_resitance = 1500; //mR
 static int32_t sum_current = 0;
 static uint8_t sum_cnt = 0;
 /**** Private function declarations ****/
 static uint16_t UpdateVoltage(uint16_t cur, uint16_t res);
 /**** Public function definitions ****/
 void Coil_SetLockCurrent(uint16_t lock_i)
 {
 	lock_current = lock_i;
 }
 void Coil_SetTarget_Force(uint8_t force)
 {
 	// Check if worth doing
 	if(force == act_force) return;
 	// Calculate new target current
 	act_force = force;
 	// Check simple answer
 	uint16_t new_current = 0;
 	if(force==0) new_current = 0;
 	else if(force >= 100) new_current = lock_current;
 	else
 	{
 		uint32_t temp = (uint32_t)force * lock_current;
 		temp /= 100;
 		if(temp > 0x0000FFFF) new_current = lock_current;
 		else new_current = (uint16_t) temp;
 	}
 	// Update new target
 	Coil_SetTarget_Current(new_current);
 }
 void Coil_SetTarget_Current(uint16_t current)
 {
 	if(current >= lock_current) current = lock_current;
 	else if((current > 0)&&(current <= min_current)) current = min_current;
 	if(current != target_current) new_target = 1;
 	target_current = current;
 }
 uint16_t Coil_GetTargetVolatge(void)
 {
 	return target_voltage;
 }
 uint16_t Coil_Update(analog_t* meas)
 {
 	// Collect average current
 	sum_current += meas->hb_currnet;
 	sum_cnt++;
 	// Update measurement
 	if(sum_cnt >= 10)
 	{
 		// Calculate average
 		sum_current /= sum_cnt;
 		// Calculate error
 		int32_t error = sum_current - (int32_t)target_current;
 		int32_t temp = (int32_t)adj_target_current - error;
 		// Limit to 16bits
 		if(temp<0) adj_target_current = 0;
 		else if(temp > 0x0000FFFF) adj_target_current = 0xFFFF;
 		else adj_target_current = (uint16_t)temp;
 		sum_cnt = 0;
 		sum_current = 0;
 	};
 	// Closed loop or open loop target set
 	if(new_target)
 	{
 		// Set open-loop HB output
 		target_voltage = UpdateVoltage(target_current, nominal_resitance);
 		adj_target_current = target_current;
 		new_target = 0;
 		sum_cnt = 0;
 		sum_current = 0;
 	}
 	else
 	{
 		target_voltage = UpdateVoltage(adj_target_current, nominal_resitance);
 	}
 	return target_voltage;
 }
 /**** Private function definitions ****/
 static uint16_t UpdateVoltage(uint16_t cur, uint16_t res)
 {
 	// Update settable voltage
 	if(cur==0) return 0;
 	else
 	{
 		uint32_t volt = (uint32_t)cur * res;
 		volt /= 1000;
 		if(volt > 0x0000FFFF) return 0xFFFF;
 		else return (uint16_t)volt;
 	}
 }
--- a/firmware/logic/coil.h
+++ b/firmware/logic/coil.h
@@ -0,0 +1,19 @@
 #ifndef COIL_LOGIC_H_
 #define COIL_LOGIC_H_
 /**** Includes ****/
 #include <stdint.h>
 #include "../devices/analog.h"
 /**** Public definitions ****/
 /**** Public function declarations ****/
 void Coil_SetTarget_Force(uint8_t force);
 void Coil_SetTarget_Current(uint16_t current);
 uint16_t Coil_GetTargetVolatge(void);
 uint16_t Coil_Update(analog_t* meas);
 void Coil_SetLockCurrent(uint16_t lock_i);
 #endif /* COIL_LOGIC_H_ */
--- a/firmware/logic/force.c
+++ b/firmware/logic/force.c
@@ -0,0 +1,186 @@
 /**** Includes ****/
 #include "force.h"
 /**** Private definitions ****/
 /**** Private constants ****/
 static const int8_t BUTTONS_STEP = 10;
 static const uint16_t BUTTON_HOLD_TIME = 250;
 static const uint16_t MODE_HOLD_TIME = 500;
 /**** Private variables ****/
 static inputMode_t input_mode = IM_BUTTONS;
 static uint8_t user_force = 0;
 static uint8_t new_user_force = 0;
 static brakeMode_t brake_mode = BM_OPEN;
 static uint8_t new_brake_mode = 1;
 /**** Private function declarations ****/
 static uint8_t SaturatedAdd(uint8_t base, int8_t delta);
 /**** Public function definitions ****/
 inputMode_t Force_GetInputMode(void)
 {
 	return input_mode;
 }
 void Force_CfgInputMode(inputMode_t in_mode)
 {
 	input_mode = in_mode;
 }
 void Force_SetUserForce(uint8_t force)
 {
 	if(force > 100) force = 100;
 	user_force = force;
 }
 void Force_SetBrakeMode(uint8_t bmode)
 {
 	brake_mode = bmode;
 }
 uint8_t Force_Update(inputs_t* inputs, analog_t* meas)
 {
 	// Process user inputs
 	if(input_mode==IM_POT)
 	{
 		// Process potentiometer
 		if(meas->pot_voltage <= 500) user_force = 0;
 		else if(meas->pot_voltage >= 4500 ) user_force = 100;
 		else
 		{
 			uint16_t pot_u = meas->pot_voltage;
 			pot_u /= 50;
 			//Limit to 100
 			if(pot_u > 100) user_force = 100;
 			else if(pot_u < 10) user_force = 10;
 			else user_force = (uint8_t)pot_u;
 		}
 	}
 	else
 	{
 		// Process +/- timer
 		if((inputs->down.is_active)&&(inputs->down.state_timer > BUTTON_HOLD_TIME))
 		{
 			inputs->down.is_new = 1;
 			inputs->down.state_timer = 0;
 		};
 		if((inputs->up.is_active)&&(inputs->up.state_timer > BUTTON_HOLD_TIME))
 		{
 			inputs->up.is_new = 1;
 			inputs->up.state_timer = 0;
 		};
 		// Process +/- logic
 		if((inputs->down.is_new)&&(inputs->down.is_active))
 		{
 			user_force = SaturatedAdd(user_force, -1 * BUTTONS_STEP);
 			new_user_force = 1;
 		}
 		else if((inputs->up.is_new)&&(inputs->up.is_active))
 		{
 			user_force = SaturatedAdd(user_force, BUTTONS_STEP);
 			new_user_force = 1;
 		};
 		inputs->down.is_new = 0;
 		inputs->up.is_new = 0;
 	}
 	// Process mode timer
 	if((inputs->mode.is_active)&&(inputs->mode.state_timer > MODE_HOLD_TIME))
 	{
 		inputs->mode.is_new = 1;
 		inputs->mode.state_timer = 0;
 	};
 	// Process mode logic
 	if((inputs->mode.is_new)&&(inputs->mode.is_active))
 	{
 		//Cycle mode
 		switch(brake_mode)
 		{
 			case BM_OPEN:
 			brake_mode = BM_KEEP;
 			break;
 			case BM_KEEP:
 			brake_mode = BM_LOCK;
 			break;
 			case BM_LOCK:
 			brake_mode = BM_OPEN;
 			break;
 			default:
 			brake_mode = BM_OPEN;
 			break;
 		}
 		new_brake_mode = 1;
 	};
 	inputs->mode.is_new = 0;
 	// Determine next target force from inputs
 	if(inputs->handbrake.is_active)
 	{
 		return 0;
 	}
 	else if(inputs->brakes.is_active)
 	{
 		switch(brake_mode)
 		{
 			case BM_LOCK:
 			return 100;
 			case BM_KEEP:
 			return user_force;
 			default:
 			return 0;
 		}
 	}
 	else
 	{
 		return user_force;
 	}
 }
 uint8_t Force_IsNewUserForce(void)
 {
 	return new_user_force;
 }
 void Force_ResetNewUserForce(void)
 {
 	new_user_force = 0;
 }
 brakeMode_t Force_GetBrakeMode(void)
 {
 	return brake_mode;
 }
 uint8_t Force_IsNewBrakeMode(void)
 {
 	return new_brake_mode;
 }
 void Force_ResetNewBrakeMode(void)
 {
 	new_brake_mode = 0;
 }
 /**** Private function definitions ****/
 static uint8_t SaturatedAdd(uint8_t base, int8_t delta)
 {
 	int16_t temp = (int16_t)base + delta;
 	if(temp < 0) return 0;
 	else if(temp >= 100) return 100;
 	else return (uint8_t)temp;
 }
--- a/firmware/logic/force.h
+++ b/firmware/logic/force.h
@@ -0,0 +1,36 @@
 #ifndef FORCE_LOGIC_H_
 #define FORCE_LOGIC_H_
 /**** Includes ****/
 #include <stdint.h>
 #include "../devices/analog.h"
 #include "../devices/inputs.h"
 /**** Public definitions ****/
 typedef enum {
 	BM_OPEN,
 	BM_KEEP,
 	BM_LOCK
 } brakeMode_t;
 typedef enum {
 	IM_BUTTONS,
 	IM_POT
 } inputMode_t;
 /**** Public function declarations ****/
 void Force_CfgInputMode(inputMode_t in_mode);
 inputMode_t Force_GetInputMode(void);
 uint8_t Force_Update(inputs_t* inputs, analog_t* meas);
 void Force_SetBrakeMode(uint8_t bmode);
 brakeMode_t Force_GetBrakeMode(void);
 uint8_t Force_IsNewBrakeMode(void);
 void Force_ResetNewBrakeMode(void);
 void Force_SetUserForce(uint8_t force);
 uint8_t Force_IsNewUserForce(void);
 void Force_ResetNewUserForce(void);
 #endif /* FORCE_LOGIC_H_ */
--- a/firmware/logic/settings.c
+++ b/firmware/logic/settings.c
@@ -0,0 +1,184 @@
 /**** Includes ****/
 #include "settings.h"
 /**** Private definitions ****/
 /**** Private constants ****/
 static const uint8_t addr_force = 0x01;
 static const uint8_t addr_bmode = 0x02;
 static const uint8_t addr_inmode = 0x03;
 static const uint8_t addr_dsp_bright = 0x04;
 static const uint8_t addr_dsp_dimm = 0x05;
 static const uint8_t addr_lock_amps = 0x06;
 /**** Private variables ****/
 static uint16_t save_force_timer = 0;
 static uint16_t save_bmode_timer = 0;
 /**** Private function declarations ****/
 /**** Public function definitions ****/
 void Setings_Update(uint8_t is_new_force, uint8_t force, uint8_t is_new_bmode, brakeMode_t bmode)
 {
 	if(is_new_force) save_force_timer = 5000;
 	if(is_new_bmode) save_bmode_timer = 5000;
 	if(save_force_timer)
 	{
 		save_force_timer--;
 		if(!save_force_timer)
 		{
 			// Save force setting
 			Setings_SaveForce(force);
 		};
 	};
 	if(save_bmode_timer)
 	{
 		save_bmode_timer--;
 		if(!save_bmode_timer)
 		{
 			// Save mode setting
 			Setings_SaveBrakeMode(bmode);
 		};
 	};
 }
 void Setings_SaveForce(uint8_t value)
 {
 	MEM_Write8b(addr_force, value);
 }
 uint8_t Setings_GetForce(void)
 {
 	uint8_t val = MEM_Read8b(addr_force);
 	if(val > 100) return 0;
 	else return val;
 }
 void Setings_SaveBrakeMode(brakeMode_t bmode)
 {
 	// Convert and save input mode setting
 	// Convert and save mode setting
 	uint8_t val = 0x00;
 	switch(bmode)
 	{
 		case BM_LOCK:
 		val = 'L';
 		break;
 		case BM_KEEP:
 		val = 'K';
 		break;
 		default:
 		val = 'O';
 		break;
 	}
 	MEM_Write8b(addr_bmode, val);
 }
 brakeMode_t Setings_GetBrakeMode(void)
 {
 	// Convert and return mode setting
 	uint8_t val = MEM_Read8b(addr_bmode);
 	switch(val)
 	{
 		case 'L':
 		return BM_LOCK;
 		case 'K':
 		return BM_KEEP;
 		default:
 		return BM_OPEN;
 	}
 }
 void Setings_SaveInputMode(inputMode_t inmode)
 {
 	// Convert and save input mode setting
 	uint8_t val = 0x00;
 	switch(inmode)
 	{
 		case IM_POT:
 		val = 'P';
 		break;
 		default:
 		val = 'B';
 		break;
 	}
 	MEM_Write8b(addr_inmode, val);
 }
 inputMode_t Setings_GetInputMode(void)
 {
 	// Convert and return input mode setting
 	uint8_t val = MEM_Read8b(addr_inmode);
 	switch(val)
 	{
 		case 'P':
 		return IM_POT;
 		default:
 		return IM_BUTTONS;
 	}
 }
 void Setings_SaveDisplayBrigthLvl(uint8_t value)
 {
 	MEM_Write8b(addr_dsp_bright, value);
 }
 uint8_t Setings_GetDisplayBrigthLvl(void)
 {
 	uint8_t val = MEM_Read8b(addr_dsp_bright);
 	if(val > 100) return 100;
 	else return val;
 }
 void Setings_SaveDisplayDimmLvl(uint8_t value)
 {
 	MEM_Write8b(addr_dsp_dimm, value);
 }
 uint8_t Setings_GetDisplayDimmLvl(void)
 {
 	uint8_t val = MEM_Read8b(addr_dsp_dimm);
 	if(val > 100) return 50;
 	else return val;
 }
 void Setings_SaveLockCurrent(uint16_t value)
 {
 	MEM_Write16b(addr_lock_amps, value);
 }
 uint16_t Setings_GetLockCurrent(void)
 {
 	uint16_t val = MEM_Read16b(addr_lock_amps);
 	if(val > 6000) return 4500;
 	else return val;
 }
 void Setings_SaveDefault(void)
 {
 	Setings_SaveForce(0);
 	Setings_SaveBrakeMode(BM_OPEN);
 	Setings_SaveInputMode(IM_BUTTONS);
 	Setings_SaveDisplayBrigthLvl(100);
 	Setings_SaveDisplayDimmLvl(50);
 	Setings_SaveLockCurrent(4500);
 }
 /**** Private function definitions ****/
--- a/firmware/logic/settings.h
+++ b/firmware/logic/settings.h
@@ -0,0 +1,34 @@
 #ifndef SETTINGS_LOGIC_H_
 #define SETTINGS_LOGIC_H_
 /**** Includes ****/
 #include <stdint.h>
 #include "../devices/memory.h"
 #include "force.h"
 /**** Public definitions ****/
 /**** Public function declarations ****/
 void Setings_Update(uint8_t is_new_force, uint8_t force, uint8_t is_new_bmode, brakeMode_t bmode);
 void Setings_SaveForce(uint8_t value);
 uint8_t Setings_GetForce(void);
 void Setings_SaveBrakeMode(brakeMode_t bmode);
 brakeMode_t Setings_GetBrakeMode(void);
 void Setings_SaveInputMode(inputMode_t inmode);
 inputMode_t Setings_GetInputMode(void);
 void Setings_SaveDisplayBrigthLvl(uint8_t value);
 uint8_t Setings_GetDisplayBrigthLvl(void);
 void Setings_SaveDisplayDimmLvl(uint8_t value);
 uint8_t Setings_GetDisplayDimmLvl(void);
 void Setings_SaveLockCurrent(uint16_t value);
 uint16_t Setings_GetLockCurrent(void);
 void Setings_SaveDefault(void);
 #endif /* SETTINGS_LOGIC_H_ */
--- a/firmware/main.c
+++ b/firmware/main.c
@@ -0,0 +1,170 @@
 /**** Includes ****/
 #include <stdint.h>
 #include "devices/config.h"
 #include "devices/analog.h"
 #include "devices/inputs.h"
 #include "devices/memory.h"
 #include "drivers/output.h"
 #include "drivers/display.h"
 #include "logic/force.h"
 #include "logic/coil.h"
 #include "logic/settings.h"
 /**** Private definitions ****/
 /**** Private constants ****/
 /**** Private variables ****/
 inputs_t inputs;
 analog_t analog;
 /**** Private function declarations ****/
 void Setup(void);
 void GatherData(uint8_t times);
 /**** Public function definitions ****/
 int main(void)
 {
 	Setup();
    while(1)
    {
 		// Read all inputs
 		GatherData(1);
 		// Process force logic
 		uint8_t force = Force_Update(&inputs, &analog);
 		// Save values
 		uint8_t new_bmode = Force_IsNewBrakeMode();
 		uint8_t new_force = Force_IsNewUserForce();
 		if(Force_GetInputMode()==IM_POT) new_force = 0;
 		Setings_Update(new_force, force, new_bmode, Force_GetBrakeMode());
 		// Set coil current target
 		Coil_SetTarget_Force(force);
 		// Calculate next target voltage
 		uint16_t next_u = Coil_Update(&analog);
 		// Set next output voltage
 		Output_SetTarget(next_u);
 		// Update output
 		Output_Update(&analog);
 		// Display logic
 		if(Output_GetOutputState()==O_FAULTED)
 		{
 			// Show fault code
 			Display_SetLock(0);
 			Display_SetImage(0x33);
 		}
 		else if(Force_IsNewBrakeMode())
 		{
 			Display_SetLock(0);			
 			switch(Force_GetBrakeMode())
 			{
 				case BM_LOCK:
 				Display_SetImage(0x38);
 				break;
 				case BM_KEEP:
 				Display_SetImage(0x1E);
 				break;
 				default:
 				Display_SetImage(0x07);
 				break;
 			}
 			Display_SetLock(1000);
 		}
 		else
 		{
 			Display_SetPercent(force, DOT10);
 		}
 		// Update display
 		Display_Update(&inputs);
 		// Reset new flags
 		Force_ResetNewBrakeMode();
 		Force_ResetNewUserForce();
    }
 	return 0;
 }
 /**** Private function definitions ****/
 void Setup(void)
 {
 	// Initialize low level hardware
 	Init_HW();
 	// Prime EEPROM
 	//Setings_SaveDefault();
 	// Configure inputs
 	Inputs_DefInit(&inputs);
 	inputs.handbrake.cfg.act_level = HIGH;
 	inputs.handbrake.cfg.dbnc_treshold = 10;
 	inputs.brakes.cfg.act_level = LOW;
 	inputs.brakes.cfg.dbnc_treshold = 20;
 	inputs.dimm.cfg.act_level = LOW;
 	inputs.dimm.cfg.dbnc_treshold = 20;
 	inputs.up.cfg.act_level = LOW;
 	inputs.up.cfg.dbnc_treshold = 20;
 	inputs.down.cfg.act_level = LOW;
 	inputs.down.cfg.dbnc_treshold = 20;
 	inputs.mode.cfg.act_level = LOW;
 	inputs.mode.cfg.dbnc_treshold = 20;
 	Inputs_SetHanbrakePullUp(0);
 	// Configure display
 	Display_CfgBacklight(100,50);
 	// Show startup display
 	Display_SetImage(0xFF);
 	Display_Update(&inputs);
 	// Configure force logic
 	Force_CfgInputMode(IM_POT); //IM_BUTTONS IM_POT
 	// Restore saved force
 	Force_SetUserForce(Setings_GetForce());
 	// Restore saved brake mode
 	Force_SetBrakeMode(Setings_GetBrakeMode());
 	// Prime analog channels
 	GatherData(100);
 	// Show default display
 	Display_SetImage(0x01);
 	Display_Update(&inputs);
 	// Enable output
 	Output_Enable();
 	Output_SetTarget(0);
 }
 void GatherData(uint8_t times)
 {
 	do
 	{
 		Analog_UpdateAll(&analog);
 		Inputs_UpdateAll(&inputs);
 		if(times) times--;
 	}
 	while(times);
 }
--- a/firmware/uDCCD_Controller.atsln
+++ b/firmware/uDCCD_Controller.atsln
@@ -0,0 +1,22 @@
 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("{54F91283-7BC4-4236-8FF9-10F437C3AD48}") = "uDCCD_Controller", "uDCCD_Controller.cproj", "{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
--- a/firmware/uDCCD_Controller.componentinfo.xml
+++ b/firmware/uDCCD_Controller.componentinfo.xml
@@ -0,0 +1,86 @@
 <?xml version="1.0" encoding="utf-8"?>
 <Store xmlns:i="http://www.w3.org/2001/XMLSchema-instance" xmlns="AtmelPackComponentManagement">
 	<ProjectComponents>
 		<ProjectComponent z:Id="i1" xmlns:z="http://schemas.microsoft.com/2003/10/Serialization/">
 			<CApiVersion></CApiVersion>
 			<CBundle></CBundle>
 			<CClass>Device</CClass>
 			<CGroup>Startup</CGroup>
 			<CSub></CSub>
 			<CVariant></CVariant>
 			<CVendor>Atmel</CVendor>
 			<CVersion>1.7.0</CVersion>
 			<DefaultRepoPath>C:/Program Files (x86)\Atmel\Studio\7.0\Packs</DefaultRepoPath>
 			<DependentComponents xmlns:d4p1="http://schemas.microsoft.com/2003/10/Serialization/Arrays" />
 			<Description></Description>
 			<Files xmlns:d4p1="http://schemas.microsoft.com/2003/10/Serialization/Arrays">
 				<d4p1:anyType i:type="FileInfo">
 					<AbsolutePath>C:/Program Files (x86)\Atmel\Studio\7.0\Packs\atmel\ATmega_DFP\1.7.374\include\</AbsolutePath>
 					<Attribute></Attribute>
 					<Category>include</Category>
 					<Condition>C</Condition>
 					<FileContentHash i:nil="true" />
 					<FileVersion></FileVersion>
 					<Name>include/</Name>
 					<SelectString></SelectString>
 					<SourcePath></SourcePath>
 				</d4p1:anyType>
 				<d4p1:anyType i:type="FileInfo">
 					<AbsolutePath>C:/Program Files (x86)\Atmel\Studio\7.0\Packs\atmel\ATmega_DFP\1.7.374\include\avr\iom328pb.h</AbsolutePath>
 					<Attribute></Attribute>
 					<Category>header</Category>
 					<Condition>C</Condition>
 					<FileContentHash>TU9y07FA4IWGxznrvGv9rQ==</FileContentHash>
 					<FileVersion></FileVersion>
 					<Name>include/avr/iom328pb.h</Name>
 					<SelectString></SelectString>
 					<SourcePath></SourcePath>
 				</d4p1:anyType>
 				<d4p1:anyType i:type="FileInfo">
 					<AbsolutePath>C:/Program Files (x86)\Atmel\Studio\7.0\Packs\atmel\ATmega_DFP\1.7.374\templates\main.c</AbsolutePath>
 					<Attribute>template</Attribute>
 					<Category>source</Category>
 					<Condition>C Exe</Condition>
 					<FileContentHash>YLr2MkKo6ZooP7MhARWYNA==</FileContentHash>
 					<FileVersion></FileVersion>
 					<Name>templates/main.c</Name>
 					<SelectString>Main file (.c)</SelectString>
 					<SourcePath></SourcePath>
 				</d4p1:anyType>
 				<d4p1:anyType i:type="FileInfo">
 					<AbsolutePath>C:/Program Files (x86)\Atmel\Studio\7.0\Packs\atmel\ATmega_DFP\1.7.374\templates\main.cpp</AbsolutePath>
 					<Attribute>template</Attribute>
 					<Category>source</Category>
 					<Condition>C Exe</Condition>
 					<FileContentHash>mkKaE95TOoATsuBGv6jmxg==</FileContentHash>
 					<FileVersion></FileVersion>
 					<Name>templates/main.cpp</Name>
 					<SelectString>Main file (.cpp)</SelectString>
 					<SourcePath></SourcePath>
 				</d4p1:anyType>
 				<d4p1:anyType i:type="FileInfo">
 					<AbsolutePath>C:/Program Files (x86)\Atmel\Studio\7.0\Packs\atmel\ATmega_DFP\1.7.374\gcc\dev\atmega328pb</AbsolutePath>
 					<Attribute></Attribute>
 					<Category>libraryPrefix</Category>
 					<Condition>GCC</Condition>
 					<FileContentHash i:nil="true" />
 					<FileVersion></FileVersion>
 					<Name>gcc/dev/atmega328pb</Name>
 					<SelectString></SelectString>
 					<SourcePath></SourcePath>
 				</d4p1:anyType>
 			</Files>
 			<PackName>ATmega_DFP</PackName>
 			<PackPath>C:/Program Files (x86)/Atmel/Studio/7.0/Packs/atmel/ATmega_DFP/1.7.374/Atmel.ATmega_DFP.pdsc</PackPath>
 			<PackVersion>1.7.374</PackVersion>
 			<PresentInProject>true</PresentInProject>
 			<ReferenceConditionId>ATmega328PB</ReferenceConditionId>
 			<RteComponents xmlns:d4p1="http://schemas.microsoft.com/2003/10/Serialization/Arrays">
 				<d4p1:string></d4p1:string>
 			</RteComponents>
 			<Status>Resolved</Status>
 			<VersionMode>Fixed</VersionMode>
 			<IsComponentInAtProject>true</IsComponentInAtProject>
 		</ProjectComponent>
 	</ProjectComponents>
 </Store>
--- a/firmware/uDCCD_Controller.cproj
+++ b/firmware/uDCCD_Controller.cproj
@@ -0,0 +1,231 @@
 <?xml version="1.0" encoding="utf-8"?>
 <Project DefaultTargets="Build" xmlns="http://schemas.microsoft.com/developer/msbuild/2003" ToolsVersion="14.0">
  <PropertyGroup>
    <SchemaVersion>2.0</SchemaVersion>
    <ProjectVersion>7.0</ProjectVersion>
    <ToolchainName>com.Atmel.AVRGCC8.C</ToolchainName>
    <ProjectGuid>dce6c7e3-ee26-4d79-826b-08594b9ad897</ProjectGuid>
    <avrdevice>ATmega328PB</avrdevice>
    <avrdeviceseries>none</avrdeviceseries>
    <OutputType>Executable</OutputType>
    <Language>C</Language>
    <OutputFileName>$(MSBuildProjectName)</OutputFileName>
    <OutputFileExtension>.elf</OutputFileExtension>
    <OutputDirectory>$(MSBuildProjectDirectory)\$(Configuration)</OutputDirectory>
    <AssemblyName>uDCCD_Controller</AssemblyName>
    <Name>uDCCD_Controller</Name>
    <RootNamespace>uDCCD_Controller</RootNamespace>
    <ToolchainFlavour>Native</ToolchainFlavour>
    <KeepTimersRunning>true</KeepTimersRunning>
    <OverrideVtor>false</OverrideVtor>
    <CacheFlash>true</CacheFlash>
    <ProgFlashFromRam>true</ProgFlashFromRam>
    <RamSnippetAddress>0x20000000</RamSnippetAddress>
    <UncachedRange />
    <preserveEEPROM>true</preserveEEPROM>
    <OverrideVtorValue>exception_table</OverrideVtorValue>
    <BootSegment>2</BootSegment>
    <ResetRule>0</ResetRule>
    <eraseonlaunchrule>0</eraseonlaunchrule>
    <EraseKey />
    <AsfFrameworkConfig>
      <framework-data>
        <options />
        <configurations />
        <files />
        <documentation help="" />
        <offline-documentation help="" />
        <dependencies>
          <content-extension eid="atmel.asf" uuidref="Atmel.ASF" version="3.42.0" />
        </dependencies>
      </framework-data>
    </AsfFrameworkConfig>
    <avrtool>com.atmel.avrdbg.tool.atmelice</avrtool>
    <avrtoolserialnumber>J42700001490</avrtoolserialnumber>
    <avrdeviceexpectedsignature>0x1E9516</avrdeviceexpectedsignature>
    <com_atmel_avrdbg_tool_atmelice>
      <ToolOptions>
        <InterfaceProperties>
          <IspClock>125000</IspClock>
        </InterfaceProperties>
        <InterfaceName>ISP</InterfaceName>
      </ToolOptions>
      <ToolType>com.atmel.avrdbg.tool.atmelice</ToolType>
      <ToolNumber>J42700001490</ToolNumber>
      <ToolName>Atmel-ICE</ToolName>
    </com_atmel_avrdbg_tool_atmelice>
    <avrtoolinterface>ISP</avrtoolinterface>
    <avrtoolinterfaceclock>125000</avrtoolinterfaceclock>
  </PropertyGroup>
  <PropertyGroup Condition=" '$(Configuration)' == 'Release' ">
    <ToolchainSettings>
      <AvrGcc>
        <avrgcc.common.Device>-mmcu=atmega328pb -B "%24(PackRepoDir)\atmel\ATmega_DFP\1.7.374\gcc\dev\atmega328pb"</avrgcc.common.Device>
        <avrgcc.common.outputfiles.hex>True</avrgcc.common.outputfiles.hex>
        <avrgcc.common.outputfiles.lss>True</avrgcc.common.outputfiles.lss>
        <avrgcc.common.outputfiles.eep>True</avrgcc.common.outputfiles.eep>
        <avrgcc.common.outputfiles.srec>True</avrgcc.common.outputfiles.srec>
        <avrgcc.common.outputfiles.usersignatures>False</avrgcc.common.outputfiles.usersignatures>
        <avrgcc.compiler.general.ChangeDefaultCharTypeUnsigned>True</avrgcc.compiler.general.ChangeDefaultCharTypeUnsigned>
        <avrgcc.compiler.general.ChangeDefaultBitFieldUnsigned>True</avrgcc.compiler.general.ChangeDefaultBitFieldUnsigned>
        <avrgcc.compiler.symbols.DefSymbols>
          <ListValues>
            <Value>NDEBUG</Value>
          </ListValues>
        </avrgcc.compiler.symbols.DefSymbols>
        <avrgcc.compiler.directories.IncludePaths>
          <ListValues>
            <Value>%24(PackRepoDir)\atmel\ATmega_DFP\1.7.374\include\</Value>
          </ListValues>
        </avrgcc.compiler.directories.IncludePaths>
        <avrgcc.compiler.optimization.level>Optimize for size (-Os)</avrgcc.compiler.optimization.level>
        <avrgcc.compiler.optimization.PackStructureMembers>True</avrgcc.compiler.optimization.PackStructureMembers>
        <avrgcc.compiler.optimization.AllocateBytesNeededForEnum>True</avrgcc.compiler.optimization.AllocateBytesNeededForEnum>
        <avrgcc.compiler.warnings.AllWarnings>True</avrgcc.compiler.warnings.AllWarnings>
        <avrgcc.linker.libraries.Libraries>
          <ListValues>
            <Value>libm</Value>
          </ListValues>
        </avrgcc.linker.libraries.Libraries>
        <avrgcc.assembler.general.IncludePaths>
          <ListValues>
            <Value>%24(PackRepoDir)\atmel\ATmega_DFP\1.7.374\include\</Value>
          </ListValues>
        </avrgcc.assembler.general.IncludePaths>
      </AvrGcc>
    </ToolchainSettings>
  </PropertyGroup>
  <PropertyGroup Condition=" '$(Configuration)' == 'Debug' ">
    <ToolchainSettings>
      <AvrGcc>
  <avrgcc.common.Device>-mmcu=atmega328pb -B "%24(PackRepoDir)\atmel\ATmega_DFP\1.7.374\gcc\dev\atmega328pb"</avrgcc.common.Device>
  <avrgcc.common.outputfiles.hex>True</avrgcc.common.outputfiles.hex>
  <avrgcc.common.outputfiles.lss>True</avrgcc.common.outputfiles.lss>
  <avrgcc.common.outputfiles.eep>True</avrgcc.common.outputfiles.eep>
  <avrgcc.common.outputfiles.srec>True</avrgcc.common.outputfiles.srec>
  <avrgcc.common.outputfiles.usersignatures>False</avrgcc.common.outputfiles.usersignatures>
  <avrgcc.compiler.general.ChangeDefaultCharTypeUnsigned>True</avrgcc.compiler.general.ChangeDefaultCharTypeUnsigned>
  <avrgcc.compiler.general.ChangeDefaultBitFieldUnsigned>True</avrgcc.compiler.general.ChangeDefaultBitFieldUnsigned>
  <avrgcc.compiler.symbols.DefSymbols>
    <ListValues>
      <Value>DEBUG</Value>
    </ListValues>
  </avrgcc.compiler.symbols.DefSymbols>
  <avrgcc.compiler.directories.IncludePaths>
    <ListValues>
      <Value>%24(PackRepoDir)\atmel\ATmega_DFP\1.7.374\include\</Value>
    </ListValues>
  </avrgcc.compiler.directories.IncludePaths>
  <avrgcc.compiler.optimization.PackStructureMembers>True</avrgcc.compiler.optimization.PackStructureMembers>
  <avrgcc.compiler.optimization.AllocateBytesNeededForEnum>True</avrgcc.compiler.optimization.AllocateBytesNeededForEnum>
  <avrgcc.compiler.optimization.DebugLevel>Default (-g2)</avrgcc.compiler.optimization.DebugLevel>
  <avrgcc.compiler.warnings.AllWarnings>True</avrgcc.compiler.warnings.AllWarnings>
  <avrgcc.linker.libraries.Libraries>
    <ListValues>
      <Value>libm</Value>
    </ListValues>
  </avrgcc.linker.libraries.Libraries>
  <avrgcc.assembler.general.IncludePaths>
    <ListValues>
      <Value>%24(PackRepoDir)\atmel\ATmega_DFP\1.7.374\include\</Value>
    </ListValues>
  </avrgcc.assembler.general.IncludePaths>
  <avrgcc.assembler.debugging.DebugLevel>Default (-Wa,-g)</avrgcc.assembler.debugging.DebugLevel>
 </AvrGcc>
    </ToolchainSettings>
  </PropertyGroup>
  <ItemGroup>
    <Compile Include="devices\analog.c">
      <SubType>compile</SubType>
    </Compile>
    <Compile Include="devices\analog.h">
      <SubType>compile</SubType>
    </Compile>
    <Compile Include="devices\common\level.h">
      <SubType>compile</SubType>
    </Compile>
    <Compile Include="devices\config.c">
      <SubType>compile</SubType>
    </Compile>
    <Compile Include="devices\config.h">
      <SubType>compile</SubType>
    </Compile>
    <Compile Include="devices\led_display.c">
      <SubType>compile</SubType>
    </Compile>
    <Compile Include="devices\led_display.h">
      <SubType>compile</SubType>
    </Compile>
    <Compile Include="devices\filter_iir_lpf.c">
      <SubType>compile</SubType>
    </Compile>
    <Compile Include="devices\filter_iir_lpf.h">
      <SubType>compile</SubType>
    </Compile>
    <Compile Include="devices\halfbridge.c">
      <SubType>compile</SubType>
    </Compile>
    <Compile Include="devices\halfbridge.h">
      <SubType>compile</SubType>
    </Compile>
    <Compile Include="devices\hal\udccd_r7_hal.c">
      <SubType>compile</SubType>
    </Compile>
    <Compile Include="devices\hal\udccd_hal.h">
      <SubType>compile</SubType>
    </Compile>
    <Compile Include="devices\inputs.c">
      <SubType>compile</SubType>
    </Compile>
    <Compile Include="devices\inputs.h">
      <SubType>compile</SubType>
    </Compile>
    <Compile Include="devices\memory.c">
      <SubType>compile</SubType>
    </Compile>
    <Compile Include="devices\memory.h">
      <SubType>compile</SubType>
    </Compile>
    <Compile Include="drivers\display.c">
      <SubType>compile</SubType>
    </Compile>
    <Compile Include="drivers\display.h">
      <SubType>compile</SubType>
    </Compile>
    <Compile Include="drivers\output.c">
      <SubType>compile</SubType>
    </Compile>
    <Compile Include="drivers\output.h">
      <SubType>compile</SubType>
    </Compile>
    <Compile Include="logic\coil.c">
      <SubType>compile</SubType>
    </Compile>
    <Compile Include="logic\coil.h">
      <SubType>compile</SubType>
    </Compile>
    <Compile Include="logic\force.c">
      <SubType>compile</SubType>
    </Compile>
    <Compile Include="logic\force.h">
      <SubType>compile</SubType>
    </Compile>
    <Compile Include="logic\settings.c">
      <SubType>compile</SubType>
    </Compile>
    <Compile Include="logic\settings.h">
      <SubType>compile</SubType>
    </Compile>
    <Compile Include="main.c">
      <SubType>compile</SubType>
    </Compile>
  </ItemGroup>
  <ItemGroup>
    <Folder Include="devices" />
    <Folder Include="devices\hal" />
    <Folder Include="devices\common" />
    <Folder Include="drivers" />
    <Folder Include="logic" />
  </ItemGroup>
  <Import Project="$(AVRSTUDIO_EXE_PATH)\\Vs\\Compiler.targets" />
 </Project>
--- a/board/LED_Interface.PrjPcb
+++ b/board/LED_Interface.PrjPcb
--- a/board/settings/Private_OutJob_v1.OutJob
+++ b/board/settings/Private_OutJob_v1.OutJob
--- a/board/source/Connections.SchDoc
+++ b/board/source/Connections.SchDoc
--- a/board/source/Cover_page.SchDoc
+++ b/board/source/Cover_page.SchDoc
--- a/board/source/History.SchDoc
+++ b/board/source/History.SchDoc
--- a/board/source/Index.SchDoc
+++ b/board/source/Index.SchDoc
--- a/board/source/LED_board.PcbDoc
+++ b/board/source/LED_board.PcbDoc
--- a/board/source/Miscellaneous.SchDoc
+++ b/board/source/Miscellaneous.SchDoc
--- a/board/settings/Private_OutJob_v2.OutJob
+++ b/board/settings/Private_OutJob_v2.OutJob
--- a/board/source/Chasis_inputs.SchDoc
+++ b/board/source/Chasis_inputs.SchDoc
--- a/board/source/Coil_driver.SchDoc
+++ b/board/source/Coil_driver.SchDoc
--- a/board/source/Controller.SchDoc
+++ b/board/source/Controller.SchDoc
--- a/board/source/Cover_page.SchDoc
+++ b/board/source/Cover_page.SchDoc
--- a/board/source/History.SchDoc
+++ b/board/source/History.SchDoc
--- a/board/source/Index.SchDoc
+++ b/board/source/Index.SchDoc
--- a/board/source/LEDs.SchDoc
+++ b/board/source/LEDs.SchDoc
--- a/board/source/Main_Connector.SchDoc
+++ b/board/source/Main_Connector.SchDoc
--- a/board/source/Miscellaneous.SchDoc
+++ b/board/source/Miscellaneous.SchDoc
--- a/board/source/Power.SchDoc
+++ b/board/source/Power.SchDoc
--- a/board/source/Speed_inputs.SchDoc
+++ b/board/source/Speed_inputs.SchDoc
--- a/board/source/USB.SchDoc
+++ b/board/source/USB.SchDoc
--- a/board/source/uDCCD_Controller.PcbDoc
+++ b/board/source/uDCCD_Controller.PcbDoc
--- a/board/uDCCD_Controller.PrjPcb
+++ b/board/uDCCD_Controller.PrjPcb
@@ -305,24 +305,24 @@ DocumentPath=Project Outputs for uDCCD_Controller\Design Rule Check - uDCCD_Cont
 DItemRevisionGUID=
 [Parameter1]
-Name=UT_BOM_Version
+Name=UT_Project_Name
-Value=V1
+Value=uDCCD Controller
 [Parameter2]
-Name=UT_Output_file_name
+Name=UT_PCB_Revision
-Value=uDCCD Controller
+Value=R9
 [Parameter3]
 Name=UT_PCB_Designer
 Value=Andis Zīle
 [Parameter4]
-Name=UT_PCB_Revision
+Name=UT_Output_file_name
-Value=R8
+Value=uDCCD_Controller
 [Parameter5]
-Name=UT_Project_Name
+Name=UT_BOM_Version
-Value=uDCCD Controller
+Value=V1
 [Configuration1]
 Name=Sources
@@ -544,6 +544,12 @@ OutputDocumentPath13=
 OutputVariantName13=[No Variations]
 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
 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]
 Name=Assembly Outputs
Author	SHA1	Message	Date
Andis Zīle	ddf9d263b1	Legacy branch migration	2024-03-12 21:23:47 +02:00
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