/* * Marlin 3D Printer Firmware * Copyright (c) 2020 MarlinFirmware [https://github.com/MarlinFirmware/Marlin] * * Based on Sprinter and grbl. * Copyright (c) 2011 Camiel Gubbels / Erik van der Zalm * * This program is free software: you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation, either version 3 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . * */ /** * PCA9533 LED controller driver (MightyBoard, FlashForge Creator Pro, etc.) * by @grauerfuchs - 1 Apr 2020 */ #include "../../inc/MarlinConfig.h" #if ENABLED(PCA9533) #include "pca9533.h" #include void PCA9533_init() { Wire.begin(); PCA9533_reset(); } static void PCA9533_writeAllRegisters(uint8_t psc0, uint8_t pwm0, uint8_t psc1, uint8_t pwm1, uint8_t ls0){ uint8_t data[6] = { PCA9533_REG_PSC0 | PCA9533_REGM_AI, psc0, pwm0, psc1, pwm1, ls0 }; Wire.beginTransmission(PCA9533_Addr >> 1); Wire.write(data, 6); Wire.endTransmission(); delayMicroseconds(1); } static void PCA9533_writeRegister(uint8_t reg, uint8_t val){ uint8_t data[2] = { reg, val }; Wire.beginTransmission(PCA9533_Addr >> 1); Wire.write(data, 2); Wire.endTransmission(); delayMicroseconds(1); } // Reset (clear) all registers void PCA9533_reset() { PCA9533_writeAllRegisters(0, 0, 0, 0, 0); } // Turn all LEDs off void PCA9533_setOff() { PCA9533_writeRegister(PCA9533_REG_SEL, 0); } void PCA9533_set_rgb(uint8_t red, uint8_t green, uint8_t blue) { uint8_t r_pwm0 = 0; // Register data - PWM value uint8_t r_pwm1 = 0; // Register data - PWM value uint8_t op_g = 0, op_r = 0, op_b = 0; // Opcodes - Green, Red, Blue // Light theory! GREEN takes priority because // it's the most visible to the human eye. if (green == 0) op_g = PCA9533_LED_OP_OFF; else if (green == 255) op_g = PCA9533_LED_OP_ON; else { r_pwm0 = green; op_g = PCA9533_LED_OP_PWM0; } // RED if (red == 0) op_r = PCA9533_LED_OP_OFF; else if (red == 255) op_r = PCA9533_LED_OP_ON; else if (r_pwm0 == 0 || r_pwm0 == red) { r_pwm0 = red; op_r = PCA9533_LED_OP_PWM0; } else { r_pwm1 = red; op_r = PCA9533_LED_OP_PWM1; } // BLUE if (blue == 0) op_b = PCA9533_LED_OP_OFF; else if (blue == 255) op_b = PCA9533_LED_OP_ON; else if (r_pwm0 == 0 || r_pwm0 == blue) { r_pwm0 = blue; op_b = PCA9533_LED_OP_PWM0; } else if (r_pwm1 == 0 || r_pwm1 == blue) { r_pwm1 = blue; op_b = PCA9533_LED_OP_PWM1; } else { /** * Conflict. 3 values are requested but only 2 channels exist. * G is on channel 0 and R is on channel 1, so work from there. * Find the closest match, average the values, then use the free channel. */ uint8_t dgb = ABS(green - blue), dgr = ABS(green - red), dbr = ABS(blue - red); if (dgb < dgr && dgb < dbr) { // Mix with G on channel 0. op_b = PCA9533_LED_OP_PWM0; r_pwm0 = uint8_t(((uint16_t)green + (uint16_t)blue) / 2); } else if (dbr <= dgr && dbr <= dgb) { // Mix with R on channel 1. op_b = PCA9533_LED_OP_PWM1; r_pwm1 = uint8_t(((uint16_t)red + (uint16_t)blue) / 2); } else { // Mix R+G on 0 and put B on 1. op_r = PCA9533_LED_OP_PWM0; r_pwm0 = uint8_t(((uint16_t)green + (uint16_t)red) / 2); op_b = PCA9533_LED_OP_PWM1; r_pwm1 = blue; } } // Write the changes to the hardware PCA9533_writeAllRegisters(0, r_pwm0, 0, r_pwm1, (op_g << PCA9533_LED_OFS_GRN) | (op_r << PCA9533_LED_OFS_RED) | (op_b << PCA9533_LED_OFS_BLU) ); } #endif // PCA9533