mirror of https://github.com/arendst/Tasmota.git
293 lines
9.7 KiB
C++
293 lines
9.7 KiB
C++
/*
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xdrv_87_tm1621_sonoff.ino - Sonoff POWR3xxD and THR3xxD display support for Tasmota
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SPDX-FileCopyrightText: 2022 Theo Arends
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SPDX-License-Identifier: GPL-3.0-only
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*/
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#ifdef USE_DISPLAY_TM1621_SONOFF
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/*********************************************************************************************\
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* Sonoff POWR3xxD and THR3xxD LCD support
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*
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* {"NAME":"Sonoff POWR316D","GPIO":[32,0,0,0,0,576,0,0,0,224,9280,0,3104,0,320,0,0,0,0,0,0,9184,9248,9216,0,0,0,0,0,0,0,0,0,0,0,0],"FLAG":0,"BASE":1}
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* {"NAME":"Sonoff POWR320D","GPIO":[32,0,224,0,225,576,0,0,0,0,9280,0,3104,0,320,0,0,0,0,0,0,9184,9248,9216,0,0,0,0,0,0,0,0,0,0,0,0],"FLAG":0,"BASE":1}
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* {"NAME":"Sonoff THR316D","GPIO":[32,0,0,0,225,9280,0,0,0,321,0,576,320,9184,9216,0,0,224,0,9248,0,1,0,3840,0,0,0,0,0,0,0,0,0,0,0,0],"FLAG":0,"BASE":1}
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\*********************************************************************************************/
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#define XDRV_87 87
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#define TM1621_PULSE_WIDTH 10 // microseconds (Sonoff = 100)
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#define TM1621_SYS_EN 0x01 // 0b00000001
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#define TM1621_LCD_ON 0x03 // 0b00000011
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#define TM1621_TIMER_DIS 0x04 // 0b00000100
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#define TM1621_WDT_DIS 0x05 // 0b00000101
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#define TM1621_TONE_OFF 0x08 // 0b00001000
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#define TM1621_BIAS 0x29 // 0b00101001 = LCD 1/3 bias 4 commons option
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#define TM1621_IRQ_DIS 0x80 // 0b100x0xxx
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enum Tm1621Device { TM1621_USER, TM1621_POWR316D, TM1621_THR316D };
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const uint8_t tm1621_commands[] = { TM1621_SYS_EN, TM1621_LCD_ON, TM1621_BIAS, TM1621_TIMER_DIS, TM1621_WDT_DIS, TM1621_TONE_OFF, TM1621_IRQ_DIS };
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const char tm1621_kchar[] PROGMEM = { "0|1|2|3|4|5|6|7|8|9|-| " };
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// 0 1 2 3 4 5 6 7 8 9 - off
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const uint8_t tm1621_digit_row[2][12] = {{ 0x5F, 0x50, 0x3D, 0x79, 0x72, 0x6B, 0x6F, 0x51, 0x7F, 0x7B, 0x20, 0x00 },
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{ 0xF5, 0x05, 0xB6, 0x97, 0x47, 0xD3, 0xF3, 0x85, 0xF7, 0xD7, 0x02, 0x00 }};
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struct Tm1621 {
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uint8_t buffer[8];
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char row[2][12];
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uint8_t pin_da;
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uint8_t pin_cs;
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uint8_t pin_rd;
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uint8_t pin_wr;
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uint8_t state;
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uint8_t device;
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bool celsius;
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bool fahrenheit;
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bool humidity;
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bool voltage;
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bool kwh;
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bool present;
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} Tm1621;
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void TM1621StopSequence(void) {
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digitalWrite(Tm1621.pin_cs, 1); // Stop command sequence
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delayMicroseconds(TM1621_PULSE_WIDTH / 2);
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digitalWrite(Tm1621.pin_da, 1); // Reset data
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}
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void TM1621SendCmnd(uint16_t command) {
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uint16_t full_command = (0x0400 | command) << 5; // 0b100cccccccc00000
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digitalWrite(Tm1621.pin_cs, 0); // Start command sequence
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delayMicroseconds(TM1621_PULSE_WIDTH / 2);
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for (uint32_t i = 0; i < 12; i++) {
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digitalWrite(Tm1621.pin_wr, 0); // Start write sequence
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if (full_command & 0x8000) {
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digitalWrite(Tm1621.pin_da, 1); // Set data
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} else {
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digitalWrite(Tm1621.pin_da, 0); // Set data
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}
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delayMicroseconds(TM1621_PULSE_WIDTH);
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digitalWrite(Tm1621.pin_wr, 1); // Read data
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delayMicroseconds(TM1621_PULSE_WIDTH);
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full_command <<= 1;
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}
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TM1621StopSequence();
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}
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void TM1621SendAddress(uint16_t address) {
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uint16_t full_address = (address | 0x0140) << 7; // 0b101aaaaaa0000000
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digitalWrite(Tm1621.pin_cs, 0); // Start command sequence
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delayMicroseconds(TM1621_PULSE_WIDTH / 2);
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for (uint32_t i = 0; i < 9; i++) {
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digitalWrite(Tm1621.pin_wr, 0); // Start write sequence
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if (full_address & 0x8000) {
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digitalWrite(Tm1621.pin_da, 1); // Set data
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} else {
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digitalWrite(Tm1621.pin_da, 0); // Set data
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}
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delayMicroseconds(TM1621_PULSE_WIDTH);
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digitalWrite(Tm1621.pin_wr, 1); // Read data
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delayMicroseconds(TM1621_PULSE_WIDTH);
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full_address <<= 1;
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}
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}
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void TM1621SendCommon(uint8_t common) {
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for (uint32_t i = 0; i < 8; i++) {
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digitalWrite(Tm1621.pin_wr, 0); // Start write sequence
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if (common & 1) {
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digitalWrite(Tm1621.pin_da, 1); // Set data
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} else {
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digitalWrite(Tm1621.pin_da, 0); // Set data
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}
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delayMicroseconds(TM1621_PULSE_WIDTH);
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digitalWrite(Tm1621.pin_wr, 1); // Read data
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delayMicroseconds(TM1621_PULSE_WIDTH);
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common >>= 1;
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}
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}
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void TM1621SendRows(void) {
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// AddLog(LOG_LEVEL_DEBUG, PSTR("TM1: Row1 '%s', Row2 '%s'"), Tm1621.row[0], Tm1621.row[1]);
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uint8_t buffer[8] = { 0 }; // TM1621 16-segment 4-bit common buffer
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char row[4];
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for (uint32_t j = 0; j < 2; j++) {
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// 0.4V => " 04", 0.0A => " ", 1234.5V => "1234"
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uint32_t len = strlen(Tm1621.row[j]);
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char *dp = nullptr;
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int row_idx = len -3;
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if (len <= 5) {
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dp = strchr(Tm1621.row[j], '.');
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row_idx = len -1;
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}
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row[3] = (row_idx >= 0) ? Tm1621.row[j][row_idx--] : ' ';
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if ((row_idx >= 0) && dp) { row_idx--; }
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row[2] = (row_idx >= 0) ? Tm1621.row[j][row_idx--] : ' ';
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row[1] = (row_idx >= 0) ? Tm1621.row[j][row_idx--] : ' ';
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row[0] = (row_idx >= 0) ? Tm1621.row[j][row_idx--] : ' ';
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// AddLog(LOG_LEVEL_DEBUG, PSTR("TM1: Dump%d %4_H"), j +1, row);
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char command[10];
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char needle[2] = { 0 };
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for (uint32_t i = 0; i < 4; i++) {
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needle[0] = row[i];
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int index = GetCommandCode(command, sizeof(command), (const char*)needle, tm1621_kchar);
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if (-1 == index) { index = 11; }
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uint32_t bidx = (0 == j) ? i : 7 -i;
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buffer[bidx] = tm1621_digit_row[j][index];
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}
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if (dp) {
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if (0 == j) {
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buffer[2] |= 0x80; // Row 1 decimal point
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} else {
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buffer[5] |= 0x08; // Row 2 decimal point
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}
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}
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}
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if (Tm1621.fahrenheit) { buffer[1] |= 0x80; }
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if (Tm1621.celsius) { buffer[3] |= 0x80; }
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if (Tm1621.kwh) { buffer[4] |= 0x08; }
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if (Tm1621.humidity) { buffer[6] |= 0x08; }
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if (Tm1621.voltage) { buffer[7] |= 0x08; }
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// AddLog(LOG_LEVEL_DEBUG, PSTR("TM1: Dump3 %8_H"), buffer);
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TM1621SendAddress(0x10); // Sonoff only uses the upper 16 Segments
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for (uint32_t i = 0; i < 8; i++) {
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TM1621SendCommon(buffer[i]);
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}
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TM1621StopSequence();
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}
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void TM1621PreInit(void) {
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if (!PinUsed(GPIO_TM1621_CS) || !PinUsed(GPIO_TM1621_WR) || !PinUsed(GPIO_TM1621_RD) || !PinUsed(GPIO_TM1621_DAT)) { return; }
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Tm1621.device = (14 == Pin(GPIO_TM1621_DAT)) ? TM1621_POWR316D : (5 == Pin(GPIO_TM1621_DAT)) ? TM1621_THR316D : TM1621_USER;
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Tm1621.present = true;
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Tm1621.pin_da = Pin(GPIO_TM1621_DAT);
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Tm1621.pin_cs = Pin(GPIO_TM1621_CS);
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Tm1621.pin_rd = Pin(GPIO_TM1621_RD);
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Tm1621.pin_wr = Pin(GPIO_TM1621_WR);
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pinMode(Tm1621.pin_da, OUTPUT);
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digitalWrite(Tm1621.pin_da, 1);
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pinMode(Tm1621.pin_cs, OUTPUT);
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digitalWrite(Tm1621.pin_cs, 1);
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pinMode(Tm1621.pin_rd, OUTPUT);
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digitalWrite(Tm1621.pin_rd, 1);
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pinMode(Tm1621.pin_wr, OUTPUT);
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digitalWrite(Tm1621.pin_wr, 1);
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Tm1621.state = 100;
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AddLog(LOG_LEVEL_INFO, PSTR("DSP: TM1621"));
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}
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void TM1621Init(void) {
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digitalWrite(Tm1621.pin_cs, 0);
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delayMicroseconds(80);
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digitalWrite(Tm1621.pin_rd, 0);
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delayMicroseconds(15);
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digitalWrite(Tm1621.pin_wr, 0);
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delayMicroseconds(25);
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digitalWrite(Tm1621.pin_da, 0);
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delayMicroseconds(TM1621_PULSE_WIDTH);
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digitalWrite(Tm1621.pin_da, 1);
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for (uint32_t command = 0; command < sizeof(tm1621_commands); command++) {
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TM1621SendCmnd(tm1621_commands[command]);
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}
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TM1621SendAddress(0x00);
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for (uint32_t segment = 0; segment < 16; segment++) {
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TM1621SendCommon(0);
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}
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TM1621StopSequence();
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snprintf_P(Tm1621.row[0], sizeof(Tm1621.row[0]), PSTR("----"));
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snprintf_P(Tm1621.row[1], sizeof(Tm1621.row[1]), PSTR("----"));
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TM1621SendRows();
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}
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void TM1621Show(void) {
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if (TM1621_POWR316D == Tm1621.device) {
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static uint32_t display = 0;
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if (0 == display) {
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Tm1621.kwh = false;
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ext_snprintf_P(Tm1621.row[0], sizeof(Tm1621.row[0]), PSTR("%1_f"), &Energy.voltage[0]);
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ext_snprintf_P(Tm1621.row[1], sizeof(Tm1621.row[1]), PSTR("%1_f"), &Energy.current[0]);
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Tm1621.voltage = true;
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display = 1;
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} else {
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Tm1621.voltage = false;
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ext_snprintf_P(Tm1621.row[0], sizeof(Tm1621.row[0]), PSTR("%1_f"), &Energy.total[0]);
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ext_snprintf_P(Tm1621.row[1], sizeof(Tm1621.row[1]), PSTR("%1_f"), &Energy.active_power[0]);
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Tm1621.kwh = true;
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display = 0;
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}
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TM1621SendRows();
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}
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if (TM1621_THR316D == Tm1621.device) {
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Tm1621.celsius = false;
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Tm1621.fahrenheit = false;
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Tm1621.humidity = false;
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snprintf_P(Tm1621.row[0], sizeof(Tm1621.row[0]), PSTR(" "));
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snprintf_P(Tm1621.row[1], sizeof(Tm1621.row[1]), PSTR(" "));
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if (!isnan(TasmotaGlobal.temperature_celsius)) {
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float temperature = ConvertTempToFahrenheit(TasmotaGlobal.temperature_celsius);
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ext_snprintf_P(Tm1621.row[0], sizeof(Tm1621.row[0]), PSTR("%1_f"), &temperature);
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if (Settings->flag.temperature_conversion) { // SetOption8 - Switch between Celsius or Fahrenheit
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Tm1621.fahrenheit = true;
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} else {
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Tm1621.celsius = true;
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}
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}
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if (TasmotaGlobal.humidity > 0.0f) {
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Tm1621.humidity = true;
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ext_snprintf_P(Tm1621.row[1], sizeof(Tm1621.row[1]), PSTR("%1_f"), &TasmotaGlobal.humidity);
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}
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TM1621SendRows();
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}
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}
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void TM1621EverySecond(void) {
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Tm1621.state++;
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if (5 == Tm1621.state) {
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TM1621Show();
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Tm1621.state = 0;
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}
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if (102 == Tm1621.state) {
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TM1621Init();
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Tm1621.state = 0;
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}
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}
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/*********************************************************************************************\
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* Interface
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\*********************************************************************************************/
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bool Xdrv87(uint8_t function) {
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bool result = false;
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if (FUNC_INIT == function) {
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TM1621PreInit();
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}
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else if (Tm1621.present) {
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switch (function) {
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case FUNC_EVERY_SECOND:
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TM1621EverySecond();
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break;
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}
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}
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return result;
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}
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#endif // USE_DISPLAY_TM1621_SONOFF
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