mirror of https://github.com/arendst/Tasmota.git
Add AiLight and update Sonoff B1 (experimental)
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700e51b091
commit
5fdc5e890a
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@ -1,7 +1,7 @@
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/* 5.5.2e
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/* 5.5.2f
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* Fix Sonoff Pow intermittent exception 0
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* Change Sonoff Pow sending Domoticz telemetry data only
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* Add Sonoff B1 support (experimental)
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* Add Ai-Thinker RGBW led (AiLight) and Sonoff B1 support (experimental)
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*
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* 5.5.2 20170808
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* Extent max number of WS2812 pixels from 256 to 512 (#667)
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@ -25,7 +25,7 @@
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- Select IDE Tools - Flash Size: "1M (no SPIFFS)"
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====================================================*/
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#define VERSION 0x05050205 // 5.5.2e
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#define VERSION 0x05050206 // 5.5.2f
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enum log_t {LOG_LEVEL_NONE, LOG_LEVEL_ERROR, LOG_LEVEL_INFO, LOG_LEVEL_DEBUG, LOG_LEVEL_DEBUG_MORE, LOG_LEVEL_ALL};
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enum week_t {Last, First, Second, Third, Fourth};
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@ -2318,7 +2318,7 @@ void stateloop()
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button_handler();
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switch_handler();
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if (sfl_flg) { // Sonoff B1, led or BN-SZ01
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if (sfl_flg) { // Sonoff B1, AiLight, Sonoff led or BN-SZ01
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sl_animate();
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}
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@ -2627,13 +2627,16 @@ void GPIO_init()
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Maxdevice = 0;
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Baudrate = 19200;
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}
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else if (SONOFF_BN == sysCfg.module) {
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else if (SONOFF_BN == sysCfg.module) { // Single color led (White)
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sfl_flg = 1;
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}
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else if (SONOFF_LED == sysCfg.module) {
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else if (SONOFF_LED == sysCfg.module) { // Dual color led (White warm and cold)
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sfl_flg = 2;
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}
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else if ((SONOFF_B1 == sysCfg.module) || (SONOFF_B1b == sysCfg.module)) {
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else if (AILIGHT == sysCfg.module) { // RGBW led
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sfl_flg = 4;
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}
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else if (SONOFF_B1 == sysCfg.module) { // RGBWC led
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sfl_flg = 5;
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}
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else {
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@ -2663,8 +2666,8 @@ void GPIO_init()
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}
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}
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if (sfl_flg) { // Sonoff B1, Led or BN-SZ01
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if (sfl_flg < 5) {
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if (sfl_flg) { // Sonoff B1, AiLight, Sonoff Led or BN-SZ01
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if (sfl_flg < 4) {
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pwm_idxoffset = sfl_flg; // 1 for BN-SZ01, 2 for Sonoff Led
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}
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sl_init();
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@ -152,7 +152,7 @@ enum module_t {
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HUAFAN_SS,
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SONOFF_BRIDGE,
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SONOFF_B1,
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SONOFF_B1b,
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AILIGHT,
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MAXMODULE };
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/********************************************************************************************/
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@ -506,10 +506,9 @@ const mytmplt modules[MAXMODULE] PROGMEM = {
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GPIO_DI, // GPIO12 my9231 DI
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0,
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GPIO_DCKI, // GPIO14 my9231 DCKI
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0,
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0, 0
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0, 0, 0
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},
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{ "Sonoff B1 b", // Sonoff B1 (ESP8285 - my9231)
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{ "AiLight", // Ai-Thinker RGBW led (ESP8266 - my9291)
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GPIO_KEY1, // GPIO00 Pad
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GPIO_USER, // GPIO01 Serial RXD and Optional sensor pad
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GPIO_USER, // GPIO02 Optional sensor SDA pad
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@ -519,9 +518,9 @@ const mytmplt modules[MAXMODULE] PROGMEM = {
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0, 0,
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0, // Flash connection
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0,
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GPIO_DI, // GPIO13 my9231 DI
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GPIO_DI, // GPIO13 my9291 DI
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0,
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GPIO_DCKI, // GPIO15 my9231 DCKI
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GPIO_DCKI, // GPIO15 my9291 DCKI
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0, 0
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}
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@ -18,7 +18,7 @@
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*/
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/*********************************************************************************************\
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* Sonoff B1, Led and BN-SZ01
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* Sonoff B1, AiLight, Sonoff Led and BN-SZ01
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\*********************************************************************************************/
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uint8_t ledTable[] = {
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@ -50,7 +50,7 @@ uint8_t sl_wakeupDimmer = 0;
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uint16_t sl_wakeupCntr = 0;
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/*********************************************************************************************\
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* Sonoff B1 based on OpenLight https://github.com/icamgo/noduino-sdk (my9231 and my9291)
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* Sonoff B1 (my9231) and AiLight (my9291) based on OpenLight https://github.com/icamgo/noduino-sdk
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\*********************************************************************************************/
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extern "C" {
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@ -76,7 +76,7 @@ void sl_dcki_pulse(uint8_t times)
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}
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}
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void sl_send_command(uint8_t command)
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void sl_my92x1_command(uint8_t chips, uint8_t command)
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{
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uint8_t command_data;
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@ -86,7 +86,7 @@ void sl_send_command(uint8_t command)
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// pulse's rising edge convert to command mode.
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sl_di_pulse(12);
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os_delay_us(12); // Delay >12us, begin send CMD data
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for (uint8_t n = 0; n < 2; n++) { // Send CMD data
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for (uint8_t n = 0; n < chips; n++) { // Send CMD data
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command_data = command;
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for (uint8_t i = 0; i < 4; i++) { // Send byte
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digitalWrite(sl_pdcki, LOW);
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@ -107,7 +107,7 @@ void sl_send_command(uint8_t command)
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// ets_intr_unlock();
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}
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void sl_send_duty(uint16_t duty_r, uint16_t duty_g, uint16_t duty_b, uint16_t duty_w, uint16_t duty_c)
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void sl_my9231_duty(uint16_t duty_r, uint16_t duty_g, uint16_t duty_b, uint16_t duty_w, uint16_t duty_c)
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{
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uint16_t duty_current = 0;
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@ -134,12 +134,39 @@ void sl_send_duty(uint16_t duty_r, uint16_t duty_g, uint16_t duty_b, uint16_t du
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// ets_intr_unlock();
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}
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void sl_my9291_duty(uint16_t duty_r, uint16_t duty_g, uint16_t duty_b, uint16_t duty_w)
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{
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uint16_t duty_current = 0;
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uint16_t duty[4] = { duty_r, duty_g, duty_b, duty_w }; // Definition for RGBW channels
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// ets_intr_lock();
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os_delay_us(12); // TStop > 12us.
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for (uint8_t channel = 0; channel < 4; channel++) { // RGBW 4CH
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duty_current = duty[channel]; // RGBW Channel
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for (uint8_t i = 0; i < 4; i++) { // Send 8bit Data
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digitalWrite(sl_pdcki, LOW);
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digitalWrite(sl_pdi, (duty_current & 0x80));
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digitalWrite(sl_pdcki, HIGH);
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duty_current = duty_current << 1;
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digitalWrite(sl_pdi, (duty_current & 0x80));
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digitalWrite(sl_pdcki, LOW);
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digitalWrite(sl_pdi, LOW);
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duty_current = duty_current << 1;
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}
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}
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os_delay_us(12); // TStart > 12us. Ready for send DI pulse.
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sl_di_pulse(8); // Send 8 DI pulse. After 8 pulse falling edge, store old data.
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os_delay_us(12); // TStop > 12us.
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// ets_intr_unlock();
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}
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/********************************************************************************************/
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void sl_init(void)
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{
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pin[GPIO_WS2812] = 99; // I do not allow both Sonoff Led AND WS2812 led
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if (sfl_flg < 5) {
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if (sfl_flg < 4) {
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if (!my_module.gp.io[4]) {
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pinMode(4, OUTPUT); // Stop floating outputs
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digitalWrite(4, LOW);
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@ -165,12 +192,15 @@ void sl_init(void)
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digitalWrite(sl_pdi, LOW);
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digitalWrite(sl_pdcki, LOW);
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if (4 == sfl_flg) {
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// Clear all duty register
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sl_dcki_pulse(64);
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sl_send_command(0x18); // ONE_SHOT_DISABLE, REACTION_FAST, BIT_WIDTH_8, FREQUENCY_DIVIDE_1, SCATTER_APDM
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// Test
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// sl_send_duty(16, 0, 0, 0, 0); // Red
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sl_dcki_pulse(32); // 1 * 32 bits
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sl_my92x1_command(1, 0x18); // ONE_SHOT_DISABLE, REACTION_FAST, BIT_WIDTH_8, FREQUENCY_DIVIDE_1, SCATTER_APDM
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} else if (5 == sfl_flg) {
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// Clear all duty register
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sl_dcki_pulse(48); // 2 * 24 bits
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sl_my92x1_command(2, 0x18); // ONE_SHOT_DISABLE, REACTION_FAST, BIT_WIDTH_8, FREQUENCY_DIVIDE_1, SCATTER_APDM
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}
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}
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sl_power = 0;
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for (byte i = 0; i < sfl_flg; i++) {
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sl_lcolor[i] = sl_tcolor[i];
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cur_col[i] = (sysCfg.led_table) ? ledTable[sl_lcolor[i]] : sl_lcolor[i];
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if (sfl_flg < 5) {
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if (sfl_flg < 4) {
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if (pin[GPIO_PWM1 +i] < 99) {
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analogWrite(pin[GPIO_PWM1 +i], cur_col[i] * (PWM_RANGE / 255));
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}
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}
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}
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if (5 == sfl_flg) {
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sl_send_duty(cur_col[0], cur_col[1], cur_col[2], cur_col[3], cur_col[4]);
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if (4 == sfl_flg) {
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sl_my9291_duty(cur_col[0], cur_col[1], cur_col[2], cur_col[3]);
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}
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else if (5 == sfl_flg) {
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sl_my9231_duty(cur_col[0], cur_col[1], cur_col[2], cur_col[3], cur_col[4]);
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}
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}
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}
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@ -417,7 +450,7 @@ void sl_replaceHSB(String *response)
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float sat;
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float bri;
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if (5 == sfl_flg) {
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if (sfl_flg > 2) {
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sl_rgb2hsb(&hue, &sat, &bri);
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response->replace("{h}", String((uint16_t)(65535.0f * hue)));
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response->replace("{s}", String((uint8_t)(254.0f * sat)));
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@ -431,7 +464,7 @@ void sl_replaceHSB(String *response)
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void sl_getHSB(float *hue, float *sat, float *bri)
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{
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if (5 == sfl_flg) {
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if (sfl_flg > 2) {
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sl_rgb2hsb(hue, sat, bri);
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} else {
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*hue = 0;
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@ -443,7 +476,7 @@ void sl_getHSB(float *hue, float *sat, float *bri)
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void sl_setHSB(float hue, float sat, float bri)
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{
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char svalue[MESSZ];
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/*
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char log[LOGSZ];
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char stemp1[10];
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char stemp2[10];
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@ -453,8 +486,8 @@ void sl_setHSB(float hue, float sat, float bri)
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dtostrf(bri, 1, 3, stemp3);
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snprintf_P(log, sizeof(log), PSTR("LED: Hue %s, Sat %s, Bri %s"), stemp1, stemp2, stemp3);
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addLog(LOG_LEVEL_DEBUG, log);
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if (5 == sfl_flg) {
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*/
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if (sfl_flg > 2) {
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sl_hsb2rgb(hue, sat, bri);
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sl_prepPower(svalue, sizeof(svalue));
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mqtt_publish_topic_P(5, "COLOR", svalue);
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