hwdef-Noctigon_DM11-SBT90.h

#ifndef HWDEF_NOCTIGON_DM11SBT90_H
#define HWDEF_NOCTIGON_DM11SBT90_H

/* Noctigon DM11-SBT90.2 driver layout (attiny1634)
 * (based on Noctigon K1 and DM11)
 *
 * Pin / Name / Function
 *   1    PA6   FET PWM (direct drive) (PWM1B)
 *   2    PA5   R: red aux LED (PWM0B)
 *   3    PA4   G: green aux LED
 *   4    PA3   B: blue aux LED
 *   5    PA2   L: button LED
 *   6    PA1   (none)
 *   7    PA0   (none)
 *   8    GND   GND
 *   9    VCC   VCC
 *  10    PC5   (none)
 *  11    PC4   (none)
 *  12    PC3   RESET
 *  13    PC2   (none)
 *  14    PC1   SCK
 *  15    PC0   (none) PWM0A
 *  16    PB3   main LED PWM (PWM1A)
 *  17    PB2   MISO / e-switch (PCINT10)
 *  18    PB1   MOSI / battery voltage (ADC6)
 *  19    PB0   Opamp power
 *  20    PA7   (none)  (PCINT7)
 *      ADC12   thermal sensor
 *
 * Main LED power uses one pin to turn the Opamp on/off,
 * and one pin to control Opamp power level.
 * Linear brightness control uses the power level pin, with dynamic PWM.
 * The on/off pin is only used to turn the main LED on and off,
 * not to change brightness.
 * Also has a direct-drive FET for turbo.
 */

#ifdef ATTINY
#undef ATTINY
#endif
#define ATTINY 1634
#include <avr/io.h>

#define PWM_CHANNELS 2  // override this for the no-FET version
#define PWM_BITS 16  // data type needs 16 bits, not 8
#define PWM_TOP  255 // highest value used in top half of ramp
#define USE_DYN_PWM  // dynamic frequency and speed

#define SWITCH_PIN   PB2     // pin 17
#define SWITCH_PCINT PCINT10 // pin 17 pin change interrupt
#define SWITCH_PCIE  PCIE1   // PCIE1 is for PCINT[11:8]
#define SWITCH_PCMSK PCMSK1  // PCMSK1 is for PCINT[11:8]
#define SWITCH_PORT  PINB    // PINA or PINB or PINC
#define PCINT_vect   PCINT1_vect  // ISR for PCINT[11:8]

#define PWM1_PIN PB3        // pin 16, Opamp reference
#define PWM1_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

#define PWM2_PIN PA6        // pin 1, DD FET PWM
#define PWM2_LVL OCR1B      // OCR1B is the output compare register for PA6

// 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  PB0    // pin 19, Opamp power
#define LED_ENABLE_PORT PORTB  // control port for PB0


#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
  // Opamp level and Opamp on/off
  DDRB = (1 << PWM1_PIN)
       | (1 << LED_ENABLE_PIN);
  // DD FET PWM, aux R/G/B, button LED
  DDRA = (1 << PWM2_PIN)
       | (1 << AUXLED_R_PIN)
       | (1 << AUXLED_G_PIN)
       | (1 << AUXLED_B_PIN)
       | (1 << BUTTON_LED_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
  // 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)
          ;

  // set PWM resolution
  PWM1_TOP = PWM_TOP;

  // set up e-switch
  //PORTB = (1 << SWITCH_PIN);  // TODO: configure PORTA / PORTB / PORTC?
  PUEB = (1 << SWITCH_PIN);  // pull-up for e-switch
  SWITCH_PCMSK = (1 << SWITCH_PCINT);  // enable pin change interrupt
}

#define LAYOUT_DEFINED

#endif