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hwdef-Emisar_D4Sv2-tintramp.h
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hwdef-Emisar_D4Sv2-tintramp.h
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#ifndef HWDEF_D4SV2_TINTRAMP_H
#define HWDEF_D4SV2_TINTRAMP_H
/* Emisar D4Sv2 w/ tint ramping
* (based on the Noctigon K9.3 driver layout (attiny1634))
*
* Pin / Name / Function
* 1 PA6 2nd LED PWM (linear) (PWM1B)
* 2 PA5 R: red aux LED (PWM0B)
* 3 PA4 G: green aux LED
* 4 PA3 B: blue aux LED
* 5 PA2 button LED
* 6 PA1 Opamp 2 enable (2nd LEDs)
* 7 PA0 Opamp 1 enable (main LEDs)
* 8 GND GND
* 9 VCC VCC
* 10 PC5 (none)
* 11 PC4 (none)
* 12 PC3 RESET
* 13 PC2 (none)
* 14 PC1 SCK
* 15 PC0 main LED PWM (FET) (PWM0A) (unused on some models because tint ramping)
* 16 PB3 main LED PWM (linear) (PWM1A)
* 17 PB2 MISO
* 18 PB1 MOSI / battery voltage (ADC6)
* 19 PB0 (none)
* 20 PA7 e-switch (PCINT7)
* ADC12 thermal sensor
*
* Main LED power uses one pin to turn the Opamp on/off,
* and one pin to control Opamp power level.
* Main brightness control uses the power level pin, with 4 kHz 10-bit PWM.
* The on/off pin is only used to turn the main LED on and off,
* not to change brightness.
*/
#ifdef ATTINY
#undef ATTINY
#endif
#define ATTINY 1634
#include <avr/io.h>
#define PWM_CHANNELS 1 // 1 virtual channel (1 for main LEDs + 1 for 2nd LEDs)
#define PWM_BITS 14 // 0 to 16383 at variable Hz, not 0 to 255 at 16 kHz
#define PWM_TOP 511
// dynamic PWM with tint ramping
#define USE_DYN_PWM // dynamic frequency and speed
#define PWM_DATATYPE2 uint32_t // only needs 32-bit if ramp values go over 255
#ifndef SWITCH_PIN
#define SWITCH_PIN PA7 // pin 20
#define SWITCH_PCINT PCINT7 // pin 20 pin change interrupt
#define SWITCH_PCIE PCIE0 // PCIE1 is for PCINT[7:0]
#define SWITCH_PCMSK PCMSK0 // PCMSK1 is for PCINT[7:0]
#define SWITCH_PORT PINA // PINA or PINB or PINC
#define SWITCH_PUE PUEA // pullup group A
#define PCINT_vect PCINT0_vect // ISR for PCINT[7:0]
#endif
// usually PWM1_LVL would be a hardware register, but we need to abstract
// it out to a soft brightness value, in order to handle tint ramping
// (this allows smooth thermal regulation to work, and makes things
// otherwise simpler and easier)
uint16_t PWM1_LVL;
#define PWM1_PIN PB3 // pin 16, Opamp reference
#define TINT1_LVL OCR1A // OCR1A is the output compare register for PB3
#define PWM1_CNT TCNT1 // for dynamic PWM, reset phase
#define PWM1_PHASE_RESET_OFF // force reset while shutting off
#define PWM1_PHASE_RESET_ON // force reset while turning on
#define PWM1_PHASE_SYNC // manual sync while changing level
// gah, this driver is weird...
// two linear channels are treated as one,
// while there's also a FET on one channel for turbo on half the LEDs
// so the FET needs to be "PWM2" but the second linear is "TINT2"
#define PWM3_PIN PA6 // pin 1, 2nd LED Opamp reference
#define TINT2_LVL OCR1B // OCR1B is the output compare register for PA6
#define PWM2_PIN PC0 // pin 15, DD FET PWM
#define PWM2_LVL OCR0A // OCR0A is the output compare register for PC0
// PWM parameters of both channels are tied together because they share a counter
#define PWM1_TOP ICR1 // holds the TOP value for for variable-resolution PWM
#define LED_ENABLE_PIN PA0 // pin 7, Opamp power
#define LED_ENABLE_PORT PORTA // control port for PA0
#define LED2_ENABLE_PIN PA1 // pin 6, Opamp power
#define LED2_ENABLE_PORT PORTA // control port for PA1
#define USE_VOLTAGE_DIVIDER // use a dedicated pin, not VCC, because VCC input is flattened
#define VOLTAGE_PIN PB1 // Pin 18 / PB1 / ADC6
// pin to ADC mappings are in DS table 19-4
#define VOLTAGE_ADC ADC6D // digital input disable pin for PB1
// DIDR0/DIDR1 mappings are in DS section 19.13.5, 19.13.6
#define VOLTAGE_ADC_DIDR DIDR1 // DIDR channel for ADC6D
// DS tables 19-3, 19-4
// Bit 7 6 5 4 3 2 1 0
// REFS1 REFS0 REFEN ADC0EN MUX3 MUX2 MUX1 MUX0
// MUX[3:0] = 0, 1, 1, 0 for ADC6 / PB1
// divided by ...
// REFS[1:0] = 1, 0 for internal 1.1V reference
// other bits reserved
#define ADMUX_VOLTAGE_DIVIDER 0b10000110
#define ADC_PRSCL 0x07 // clk/128
// Raw ADC readings at 4.4V and 2.2V
// calibrate the voltage readout here
// estimated / calculated values are:
// (voltage - D1) * (R2/(R2+R1) * 1024 / 1.1)
// D1, R1, R2 = 0, 330, 100
#ifndef ADC_44
//#define ADC_44 981 // raw value at 4.40V
#define ADC_44 967 // manually tweaked so 4.16V will blink out 4.2
#endif
#ifndef ADC_22
//#define ADC_22 489 // raw value at 2.20V
#define ADC_22 482 // manually tweaked so 4.16V will blink out 4.2
#endif
// this light has aux LEDs under the optic
#define AUXLED_R_PIN PA5 // pin 2
#define AUXLED_G_PIN PA4 // pin 3
#define AUXLED_B_PIN PA3 // pin 4
#define AUXLED_RGB_PORT PORTA // PORTA or PORTB or PORTC
#define AUXLED_RGB_DDR DDRA // DDRA or DDRB or DDRC
#define AUXLED_RGB_PUE PUEA // PUEA or PUEB or PUEC
#define BUTTON_LED_PIN PA2 // pin 5
#define BUTTON_LED_PORT PORTA // for all "PA" pins
#define BUTTON_LED_DDR DDRA // for all "PA" pins
#define BUTTON_LED_PUE PUEA // for all "PA" pins
// with so many pins, doing this all with #ifdefs gets awkward...
// ... so just hardcode it in each hwdef file instead
inline void hwdef_setup() {
// enable output ports
DDRC = (1 << PWM2_PIN);
DDRB = (1 << PWM1_PIN);
DDRA = (1 << PWM3_PIN)
| (1 << AUXLED_R_PIN)
| (1 << AUXLED_G_PIN)
| (1 << AUXLED_B_PIN)
| (1 << BUTTON_LED_PIN)
| (1 << LED_ENABLE_PIN)
| (1 << LED2_ENABLE_PIN)
;
// configure PWM
// Setup PWM. F_pwm = F_clkio / 2 / N / TOP, where N = prescale factor, TOP = top of counter
// pre-scale for timer: N = 1
// Linear opamp PWM for both main and 2nd LEDs (10-bit)
// WGM1[3:0]: 1,0,1,0: PWM, Phase Correct, adjustable (DS table 12-5)
// CS1[2:0]: 0,0,1: clk/1 (No prescaling) (DS table 12-6)
// COM1A[1:0]: 1,0: PWM OC1A in the normal direction (DS table 12-4)
// COM1B[1:0]: 1,0: PWM OC1B in the normal direction (DS table 12-4)
TCCR1A = (1<<WGM11) | (0<<WGM10) // adjustable PWM (TOP=ICR1) (DS table 12-5)
| (1<<COM1A1) | (0<<COM1A0) // PWM 1A in normal direction (DS table 12-4)
| (1<<COM1B1) | (0<<COM1B0) // PWM 1B in normal direction (DS table 12-4)
;
TCCR1B = (0<<CS12) | (0<<CS11) | (1<<CS10) // clk/1 (no prescaling) (DS table 12-6)
| (1<<WGM13) | (0<<WGM12) // phase-correct adjustable PWM (DS table 12-5)
;
// FET PWM (8-bit; this channel can't do 10-bit)
// WGM0[2:0]: 0,0,1: PWM, Phase Correct, 8-bit (DS table 11-8)
// CS0[2:0]: 0,0,1: clk/1 (No prescaling) (DS table 11-9)
// COM0A[1:0]: 1,0: PWM OC0A in the normal direction (DS table 11-4)
// COM0B[1:0]: 1,0: PWM OC0B in the normal direction (DS table 11-7)
TCCR0A = (0<<WGM01) | (1<<WGM00) // 8-bit (TOP=0xFF) (DS table 11-8)
| (1<<COM0A1) | (0<<COM0A0) // PWM 0A in normal direction (DS table 11-4)
//| (1<<COM0B1) | (0<<COM0B0) // PWM 0B in normal direction (DS table 11-7)
;
TCCR0B = (0<<CS02) | (0<<CS01) | (1<<CS00) // clk/1 (no prescaling) (DS table 11-9)
| (0<<WGM02) // phase-correct PWM (DS table 11-8)
;
// set PWM resolution
PWM1_TOP = PWM_TOP;
// set up e-switch
SWITCH_PUE = (1 << SWITCH_PIN); // pull-up for e-switch
SWITCH_PCMSK = (1 << SWITCH_PCINT); // enable pin change interrupt
}
#define LAYOUT_DEFINED
#endif