From bcaa751aa1b29cb3b4c76df2075feb1941d043fe Mon Sep 17 00:00:00 2001 From: Selene ToyKeeper Date: Thu, 3 Aug 2023 19:15:34 -0600 Subject: converted all K9.3 builds and D4Sv2-tintramp-fet (now emisar-2ch-fet) to multi-channel, and removed old K9.3 builds which aren't relevant any more, and old D4Sv2-tintramp builds --- hwdef-Emisar_D4Sv2-tintramp.h | 189 ------------------ hwdef-Noctigon_K9.3.h | 164 --------------- hwdef-emisar-2ch-fet.c | 220 +++++++++++++++++++++ hwdef-emisar-2ch-fet.h | 209 ++++++++++++++++++++ hwdef-emisar-2ch.h | 28 ++- spaghetti-monster/anduril/MODELS | 10 +- spaghetti-monster/anduril/cfg-emisar-2ch-fet.h | 113 +++++++++++ spaghetti-monster/anduril/cfg-emisar-2ch.h | 30 ++- spaghetti-monster/anduril/cfg-noctigon-k9.3-219.h | 9 +- .../anduril/cfg-noctigon-k9.3-nofet.h | 52 +---- .../anduril/cfg-noctigon-k9.3-tintramp-219.h | 14 -- .../anduril/cfg-noctigon-k9.3-tintramp-fet.h | 67 ------- .../anduril/cfg-noctigon-k9.3-tintramp-nofet.h | 85 -------- spaghetti-monster/anduril/cfg-noctigon-k9.3.h | 107 ++++++---- spaghetti-monster/fsm-ramping.h | 6 + 15 files changed, 656 insertions(+), 647 deletions(-) delete mode 100644 hwdef-Emisar_D4Sv2-tintramp.h delete mode 100644 hwdef-Noctigon_K9.3.h create mode 100644 hwdef-emisar-2ch-fet.c create mode 100644 hwdef-emisar-2ch-fet.h create mode 100644 spaghetti-monster/anduril/cfg-emisar-2ch-fet.h delete mode 100644 spaghetti-monster/anduril/cfg-noctigon-k9.3-tintramp-219.h delete mode 100644 spaghetti-monster/anduril/cfg-noctigon-k9.3-tintramp-fet.h delete mode 100644 spaghetti-monster/anduril/cfg-noctigon-k9.3-tintramp-nofet.h diff --git a/hwdef-Emisar_D4Sv2-tintramp.h b/hwdef-Emisar_D4Sv2-tintramp.h deleted file mode 100644 index 2709bc4..0000000 --- a/hwdef-Emisar_D4Sv2-tintramp.h +++ /dev/null @@ -1,189 +0,0 @@ -// Emisar D4Sv2 w/ tint ramping -// Copyright (C) 2021-2023 Selene ToyKeeper -// SPDX-License-Identifier: GPL-3.0-or-later -#pragma once - -/* - * (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 - -#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< - -#define PWM_CHANNELS 3 // 2 for main LEDs, 1 for 2nd LEDs -#define PWM_BITS 10 // 0 to 1023 at 4 kHz, not 0 to 255 at 16 kHz -#define PWM_TOP 1023 - -#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 PCINT_vect PCINT0_vect // ISR for PCINT[7:0] - -#define PWM1_PIN PB3 // pin 16, Opamp reference -#define PWM1_LVL OCR1A // OCR1A is the output compare register for PB3 - -#define PWM2_PIN PC0 // pin 15, DD FET PWM -#define PWM2_LVL OCR0A // OCR0A is the output compare register for PC0 - -#define PWM3_PIN PA6 // pin 1, 2nd LED Opamp reference -#define PWM3_LVL OCR1B // OCR1B is the output compare register for PA6 - -#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]: 0,0,1,1: PWM, Phase Correct, 10-bit (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<0) | (CH2_PWM>0) | (CH3_PWM>0); + bool now_on = (ch1_pwm>0) | (ch2_pwm>0) | (ch3_pwm>0); + + if (! now_on) { + CH1_PWM = 0; // linear + CH2_PWM = 0; // linear + CH3_PWM = 0; // DD FET + PWM_TOP = PWM_TOP_INIT; + PWM_CNT = 0; + CH1_ENABLE_PORT &= ~(1 << CH1_ENABLE_PIN); // disable opamp + CH2_ENABLE_PORT &= ~(1 << CH2_ENABLE_PIN); // disable opamp + return; + } + + if (ch1_pwm) + CH1_ENABLE_PORT |= (1 << CH1_ENABLE_PIN); // enable opamp + else + CH1_ENABLE_PORT &= ~(1 << CH1_ENABLE_PIN); // disable opamp + + if (ch2_pwm) + CH2_ENABLE_PORT |= (1 << CH2_ENABLE_PIN); // enable opamp + else + CH2_ENABLE_PORT &= ~(1 << CH2_ENABLE_PIN); // disable opamp + + CH1_PWM = ch1_pwm; + CH2_PWM = ch2_pwm; + CH3_PWM = ch3_pwm; + + // manual phase sync when changing level while already on + if (was_on && now_on) while(PWM_CNT > (top - 32)) {} + + PWM_TOP = top; + + // reset phase when turning on or off + //if ((! was_on) | (! now_on)) PWM_CNT = 0; + if (! was_on) PWM_CNT = 0; +} + +void set_level_ch1(uint8_t level) { + if (0 == level) + return set_pwms(0, 0, 0, PWM_TOP_INIT); + + level --; + uint8_t pwm1 = PWM_GET8 (pwm1_levels, level); + uint8_t pwm3 = PWM_GET8 (pwm2_levels, level); + uint16_t top = PWM_GET16(pwm3_levels, level); + set_pwms(pwm1, 0, pwm3, top); +} + +void set_level_ch2(uint8_t level) { + if (0 == level) + return set_pwms(0, 0, 0, PWM_TOP_INIT); + + level --; + uint8_t pwm2 = PWM_GET8 (pwm4_levels, level); + uint16_t top = PWM_GET16(pwm5_levels, level); + set_pwms(0, pwm2, 0, top); +} + +void set_level_both(uint8_t level) { + if (0 == level) + return set_pwms(0, 0, 0, PWM_TOP_INIT); + + level --; + uint8_t pwm1 = PWM_GET8 (pwm1_levels, level); + uint8_t pwm3 = PWM_GET8 (pwm2_levels, level); + uint16_t top = PWM_GET16(pwm3_levels, level); + set_pwms(pwm1, pwm1, pwm3, top); +} + +void set_level_blend(uint8_t level) { + if (0 == level) + return set_pwms(0, 0, 0, PWM_TOP_INIT); + + level --; + uint16_t pwm1, pwm2; + uint8_t pwm3 = PWM_GET8 (pwm2_levels, level); // DD FET + //uint16_t brightness = PWM_GET8 (pwm1_levels, level) << 1; + uint16_t brightness = PWM_GET8 (pwm1_levels, level) + pwm3; + uint16_t top = PWM_GET16(pwm3_levels, level); + uint8_t blend = cfg.channel_mode_args[cfg.channel_mode]; + + calc_2ch_blend(&pwm1, &pwm2, brightness, top, blend); + + set_pwms(pwm1, pwm2, pwm3, top); +} + +void set_level_auto(uint8_t level) { + if (0 == level) + return set_pwms(0, 0, 0, PWM_TOP_INIT); + + level --; + uint16_t pwm1, pwm2; + uint8_t brightness = PWM_GET8 (pwm4_levels, level); + uint16_t top = PWM_GET16(pwm5_levels, level); + uint8_t blend = 255 * (uint16_t)level / RAMP_SIZE; + if (cfg.channel_mode_args[cfg.channel_mode] & 0b01000000) + blend = 255 - blend; + + calc_2ch_blend(&pwm1, &pwm2, brightness, top, blend); + + set_pwms(pwm1, pwm2, 0, top); +} + + +///// bump each channel toward a target value ///// +bool gradual_adjust(uint8_t ch1_pwm, uint8_t ch2_pwm, uint8_t ch3_pwm) { + GRADUAL_ADJUST_STACKED(ch1_pwm, CH1_PWM, PWM_TOP_INIT); + GRADUAL_ADJUST_STACKED(ch2_pwm, CH2_PWM, PWM_TOP_INIT); + GRADUAL_ADJUST_SIMPLE (ch3_pwm, CH3_PWM); + + // check for completion + if ((ch1_pwm == CH1_PWM) + && (ch2_pwm == CH2_PWM) + && (ch3_pwm == CH3_PWM)) { + return true; // done + } + return false; // not done yet +} + +bool gradual_tick_ch1(uint8_t gt) { + uint8_t pwm1 = PWM_GET8(pwm1_levels, gt); + uint8_t pwm3 = PWM_GET8(pwm2_levels, gt); + return gradual_adjust(pwm1, 0, pwm3); +} + +bool gradual_tick_ch2(uint8_t gt) { + uint8_t pwm2 = PWM_GET8(pwm4_levels, gt); + return gradual_adjust(0, pwm2, 0); +} + +bool gradual_tick_both(uint8_t gt) { + uint8_t pwm1 = PWM_GET8(pwm1_levels, gt); + uint8_t pwm3 = PWM_GET8(pwm2_levels, gt); + return gradual_adjust(pwm1, pwm1, pwm3); +} + +bool gradual_tick_blend(uint8_t level) { + uint16_t pwm1, pwm2; + uint8_t pwm3 = PWM_GET8 (pwm2_levels, level); // DD FET + //uint16_t brightness = PWM_GET8 (pwm1_levels, level) << 1; + uint16_t brightness = PWM_GET8 (pwm1_levels, level) + pwm3; + uint16_t top = PWM_GET16(pwm3_levels, level); + uint8_t blend = cfg.channel_mode_args[cfg.channel_mode]; + + calc_2ch_blend(&pwm1, &pwm2, brightness, top, blend); + + return gradual_adjust(pwm1, pwm2, pwm3); +} + +bool gradual_tick_auto(uint8_t level) { + uint16_t pwm1, pwm2; + uint8_t brightness = PWM_GET8 (pwm4_levels, level); + uint16_t top = PWM_GET16(pwm5_levels, level); + uint8_t blend = 255 * (uint16_t)level / RAMP_SIZE; + if (cfg.channel_mode_args[cfg.channel_mode] & 0b01000000) + blend = 255 - blend; + + calc_2ch_blend(&pwm1, &pwm2, brightness, top, blend); + + return gradual_adjust(pwm1, pwm2, 0); +} + + diff --git a/hwdef-emisar-2ch-fet.h b/hwdef-emisar-2ch-fet.h new file mode 100644 index 0000000..451cdfc --- /dev/null +++ b/hwdef-emisar-2ch-fet.h @@ -0,0 +1,209 @@ +// Emisar 2-channel generic w/ tint ramping + DD FET +// Copyright (C) 2021-2023 Selene ToyKeeper +// SPDX-License-Identifier: GPL-3.0-or-later +#pragma once + +/* + * Pin / Name / Function + * 1 PA6 ch2 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 (channel 2 LEDs) + * 7 PA0 Opamp 1 enable (channel 1 LEDs) + * 8 GND GND + * 9 VCC VCC + * 10 PC5 (none) + * 11 PC4 (none) + * 12 PC3 RESET + * 13 PC2 (none) + * 14 PC1 SCK + * 15 PC0 ch1 LED PWM (FET) (PWM0A, 8-bit) + * 16 PB3 ch1 LED PWM (linear) (PWM1A) + * 17 PB2 MISO + * 18 PB1 MOSI / battery voltage (ADC6) + * 19 PB0 (none) + * 20 PA7 e-switch (PCINT7) + * ADC12 thermal sensor + * + * Both sets of LEDs use one pin to turn the Opamp on/off, + * and one pin to control the Opamp power level. + * The first channel also has a direct-drive FET for turbo. + */ + +#define ATTINY 1634 +#include + +#define HWDEF_C_FILE hwdef-emisar-2ch-fet.c + +// allow using aux LEDs as extra channel modes +#include "chan-rgbaux.h" + +// channel modes: +// * 0. channel 1 only (linear + DD FET) +// * 1. channel 2 only (linear) +// * 2. both channels, tied together (linear tied + DD FET at top of ramp) +// * 3. both channels, manual blend, max 200% power + DD FET at top of ramp +// * 4. both channels, auto blend, reversible (linear only) +#define NUM_CHANNEL_MODES (5 + NUM_RGB_AUX_CHANNEL_MODES) +enum channel_modes_e { + CM_CH1 = 0, + CM_CH2, + CM_BOTH, + CM_BLEND, + CM_AUTO, + RGB_AUX_ENUMS +}; + +// right-most bit first, modes are in fedcba9876543210 order +#define CHANNEL_MODES_ENABLED 0b0000000000011111 +#define USE_CHANNEL_MODE_ARGS +// _, _, _, 128=middle CCT, 0=warm-to-cool +#define CHANNEL_MODE_ARGS 0,0,0,128,0,RGB_AUX_CM_ARGS + +// can use some of the common handlers +#define USE_CALC_2CH_BLEND + + +#define PWM_CHANNELS 3 // old, remove this + +#define PWM_BITS 16 // 0 to 16383 at variable Hz, not 0 to 255 at 16 kHz +#define PWM_GET PWM_GET8 +#define PWM_DATATYPE uint16_t +#define PWM_DATATYPE2 uint16_t // only needs 32-bit if ramp values go over 255 +#define PWM1_DATATYPE uint8_t // linear part of linear+FET ramp +#define PWM2_DATATYPE uint8_t // DD FET part of linear+FET ramp +#define PWM3_DATATYPE uint16_t // linear+FET ramp tops +#define PWM4_DATATYPE uint8_t // linear-only ramp +#define PWM5_DATATYPE uint16_t // linear-only ramp tops + +// PWM parameters of both channels are tied together because they share a counter +#define PWM_TOP ICR1 // holds the TOP value for for variable-resolution PWM +#define PWM_TOP_INIT 255 // highest value used in top half of ramp +#define PWM_CNT TCNT1 // for dynamic PWM, reset phase + +// main LEDs, linear +#define CH1_PIN PB3 // pin 16, Opamp reference +#define CH1_PWM OCR1A // OCR1A is the output compare register for PB3 +#define CH1_ENABLE_PIN PA0 // pin 7, Opamp power +#define CH1_ENABLE_PORT PORTA // control port for PA0 + +// 2nd LEDs, linear +#define CH2_PIN PA6 // pin 1, 2nd LED Opamp reference +#define CH2_PWM OCR1B // OCR1B is the output compare register for PA6 +#define CH2_ENABLE_PIN PA1 // pin 6, Opamp power +#define CH2_ENABLE_PORT PORTA // control port for PA1 + +// main LEDs, DD FET +#define CH3_PIN PC0 // pin 15, DD FET PWM +#define CH3_PWM OCR0A // OCR0A is the output compare register for PC0 + +// e-switch +#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 + +#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 + + +inline void hwdef_setup() { + // enable output ports + DDRC = (1 << CH3_PIN); + DDRB = (1 << CH1_PIN); + DDRA = (1 << CH2_PIN) + | (1 << AUXLED_R_PIN) + | (1 << AUXLED_G_PIN) + | (1 << AUXLED_B_PIN) + | (1 << BUTTON_LED_PIN) + | (1 << CH1_ENABLE_PIN) + | (1 << CH2_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<