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Add support for CSE7761 sensor (#2546)
* Add CSE7761 sensor support * CSE7761: Added test at test3.yaml * CSE7761: changed string style * CSE7761: fixed cpp lint * CSE7761: Added codeowners * Lots of code cleanup * Revert incorrect setup_priority suggestion * Added error log in read with retries. Co-authored-by: Oxan van Leeuwen <oxan@oxanvanleeuwen.nl> * Improved log messages Co-authored-by: Oxan van Leeuwen <oxan@oxanvanleeuwen.nl>
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6 changed files with 403 additions and 0 deletions
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@ -39,6 +39,7 @@ esphome/components/color_temperature/* @jesserockz
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esphome/components/coolix/* @glmnet
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esphome/components/cover/* @esphome/core
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esphome/components/cs5460a/* @balrog-kun
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esphome/components/cse7761/* @berfenger
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esphome/components/ct_clamp/* @jesserockz
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esphome/components/current_based/* @djwmarcx
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esphome/components/daly_bms/* @s1lvi0
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esphome/components/cse7761/__init__.py
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esphome/components/cse7761/__init__.py
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esphome/components/cse7761/cse7761.cpp
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esphome/components/cse7761/cse7761.cpp
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#include "cse7761.h"
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#include "esphome/core/log.h"
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namespace esphome {
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namespace cse7761 {
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static const char *const TAG = "cse7761";
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/*********************************************************************************************\
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* CSE7761 - Energy (Sonoff Dual R3 Pow v1.x)
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*
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* Based on Tasmota source code
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* See https://github.com/arendst/Tasmota/discussions/10793
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* https://github.com/arendst/Tasmota/blob/development/tasmota/xnrg_19_cse7761.ino
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\*********************************************************************************************/
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static const int CSE7761_UREF = 42563; // RmsUc
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static const int CSE7761_IREF = 52241; // RmsIAC
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static const int CSE7761_PREF = 44513; // PowerPAC
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static const uint8_t CSE7761_REG_SYSCON = 0x00; // (2) System Control Register (0x0A04)
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static const uint8_t CSE7761_REG_EMUCON = 0x01; // (2) Metering control register (0x0000)
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static const uint8_t CSE7761_REG_EMUCON2 = 0x13; // (2) Metering control register 2 (0x0001)
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static const uint8_t CSE7761_REG_PULSE1SEL = 0x1D; // (2) Pin function output select register (0x3210)
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static const uint8_t CSE7761_REG_RMSIA = 0x24; // (3) The effective value of channel A current (0x000000)
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static const uint8_t CSE7761_REG_RMSIB = 0x25; // (3) The effective value of channel B current (0x000000)
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static const uint8_t CSE7761_REG_RMSU = 0x26; // (3) Voltage RMS (0x000000)
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static const uint8_t CSE7761_REG_POWERPA = 0x2C; // (4) Channel A active power, update rate 27.2Hz (0x00000000)
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static const uint8_t CSE7761_REG_POWERPB = 0x2D; // (4) Channel B active power, update rate 27.2Hz (0x00000000)
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static const uint8_t CSE7761_REG_SYSSTATUS = 0x43; // (1) System status register
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static const uint8_t CSE7761_REG_COEFFCHKSUM = 0x6F; // (2) Coefficient checksum
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static const uint8_t CSE7761_REG_RMSIAC = 0x70; // (2) Channel A effective current conversion coefficient
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static const uint8_t CSE7761_SPECIAL_COMMAND = 0xEA; // Start special command
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static const uint8_t CSE7761_CMD_RESET = 0x96; // Reset command, after receiving the command, the chip resets
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static const uint8_t CSE7761_CMD_CLOSE_WRITE = 0xDC; // Close write operation
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static const uint8_t CSE7761_CMD_ENABLE_WRITE = 0xE5; // Enable write operation
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enum CSE7761 { RMS_IAC, RMS_IBC, RMS_UC, POWER_PAC, POWER_PBC, POWER_SC, ENERGY_AC, ENERGY_BC };
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void CSE7761Component::setup() {
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ESP_LOGCONFIG(TAG, "Setting up CSE7761...");
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this->write_(CSE7761_SPECIAL_COMMAND, CSE7761_CMD_RESET);
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uint16_t syscon = this->read_(0x00, 2); // Default 0x0A04
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if ((0x0A04 == syscon) && this->chip_init_()) {
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this->write_(CSE7761_SPECIAL_COMMAND, CSE7761_CMD_CLOSE_WRITE);
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ESP_LOGD(TAG, "CSE7761 found");
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this->data_.ready = true;
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} else {
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this->mark_failed();
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}
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}
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void CSE7761Component::dump_config() {
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ESP_LOGCONFIG(TAG, "CSE7761:");
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if (this->is_failed()) {
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ESP_LOGE(TAG, "Communication with CSE7761 failed!");
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}
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LOG_UPDATE_INTERVAL(this);
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this->check_uart_settings(38400, 1, uart::UART_CONFIG_PARITY_EVEN, 8);
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}
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float CSE7761Component::get_setup_priority() const { return setup_priority::DATA; }
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void CSE7761Component::update() {
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if (this->data_.ready) {
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this->get_data_();
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}
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}
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void CSE7761Component::write_(uint8_t reg, uint16_t data) {
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uint8_t buffer[5];
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buffer[0] = 0xA5;
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buffer[1] = reg;
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uint32_t len = 2;
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if (data) {
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if (data < 0xFF) {
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buffer[2] = data & 0xFF;
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len = 3;
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} else {
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buffer[2] = (data >> 8) & 0xFF;
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buffer[3] = data & 0xFF;
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len = 4;
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}
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uint8_t crc = 0;
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for (uint32_t i = 0; i < len; i++) {
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crc += buffer[i];
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}
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buffer[len] = ~crc;
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len++;
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}
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this->write_array(buffer, len);
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}
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bool CSE7761Component::read_once_(uint8_t reg, uint8_t size, uint32_t *value) {
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while (this->available()) {
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this->read();
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}
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this->write_(reg, 0);
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uint8_t buffer[8] = {0};
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uint32_t rcvd = 0;
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for (uint32_t i = 0; i <= size; i++) {
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int value = this->read();
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if (value > -1 && rcvd < sizeof(buffer) - 1) {
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buffer[rcvd++] = value;
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}
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}
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if (!rcvd) {
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ESP_LOGD(TAG, "Received 0 bytes for register %hhu", reg);
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return false;
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}
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rcvd--;
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uint32_t result = 0;
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// CRC check
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uint8_t crc = 0xA5 + reg;
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for (uint32_t i = 0; i < rcvd; i++) {
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result = (result << 8) | buffer[i];
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crc += buffer[i];
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}
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crc = ~crc;
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if (crc != buffer[rcvd]) {
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return false;
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}
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*value = result;
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return true;
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}
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uint32_t CSE7761Component::read_(uint8_t reg, uint8_t size) {
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bool result = false; // Start loop
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uint8_t retry = 3; // Retry up to three times
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uint32_t value = 0; // Default no value
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while (!result && retry > 0) {
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retry--;
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if (this->read_once_(reg, size, &value))
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return value;
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}
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ESP_LOGE(TAG, "Reading register %hhu failed!", reg);
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return value;
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}
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uint32_t CSE7761Component::coefficient_by_unit_(uint32_t unit) {
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switch (unit) {
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case RMS_UC:
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return 0x400000 * 100 / this->data_.coefficient[RMS_UC];
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case RMS_IAC:
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return (0x800000 * 100 / this->data_.coefficient[RMS_IAC]) * 10; // Stay within 32 bits
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case POWER_PAC:
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return 0x80000000 / this->data_.coefficient[POWER_PAC];
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}
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return 0;
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}
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bool CSE7761Component::chip_init_() {
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uint16_t calc_chksum = 0xFFFF;
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for (uint32_t i = 0; i < 8; i++) {
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this->data_.coefficient[i] = this->read_(CSE7761_REG_RMSIAC + i, 2);
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calc_chksum += this->data_.coefficient[i];
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}
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calc_chksum = ~calc_chksum;
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uint16_t coeff_chksum = this->read_(CSE7761_REG_COEFFCHKSUM, 2);
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if ((calc_chksum != coeff_chksum) || (!calc_chksum)) {
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ESP_LOGD(TAG, "Default calibration");
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this->data_.coefficient[RMS_IAC] = CSE7761_IREF;
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this->data_.coefficient[RMS_UC] = CSE7761_UREF;
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this->data_.coefficient[POWER_PAC] = CSE7761_PREF;
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}
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this->write_(CSE7761_SPECIAL_COMMAND, CSE7761_CMD_ENABLE_WRITE);
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uint8_t sys_status = this->read_(CSE7761_REG_SYSSTATUS, 1);
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if (sys_status & 0x10) { // Write enable to protected registers (WREN)
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this->write_(CSE7761_REG_SYSCON | 0x80, 0xFF04);
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this->write_(CSE7761_REG_EMUCON | 0x80, 0x1183);
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this->write_(CSE7761_REG_EMUCON2 | 0x80, 0x0FC1);
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this->write_(CSE7761_REG_PULSE1SEL | 0x80, 0x3290);
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} else {
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ESP_LOGD(TAG, "Write failed at chip_init");
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return false;
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}
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return true;
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}
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void CSE7761Component::get_data_() {
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// The effective value of current and voltage Rms is a 24-bit signed number,
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// the highest bit is 0 for valid data,
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// and when the highest bit is 1, the reading will be processed as zero
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// The active power parameter PowerA/B is in two’s complement format, 32-bit
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// data, the highest bit is Sign bit.
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uint32_t value = this->read_(CSE7761_REG_RMSU, 3);
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this->data_.voltage_rms = (value >= 0x800000) ? 0 : value;
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value = this->read_(CSE7761_REG_RMSIA, 3);
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this->data_.current_rms[0] = ((value >= 0x800000) || (value < 1600)) ? 0 : value; // No load threshold of 10mA
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value = this->read_(CSE7761_REG_POWERPA, 4);
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this->data_.active_power[0] = (0 == this->data_.current_rms[0]) ? 0 : ((uint32_t) abs((int) value));
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value = this->read_(CSE7761_REG_RMSIB, 3);
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this->data_.current_rms[1] = ((value >= 0x800000) || (value < 1600)) ? 0 : value; // No load threshold of 10mA
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value = this->read_(CSE7761_REG_POWERPB, 4);
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this->data_.active_power[1] = (0 == this->data_.current_rms[1]) ? 0 : ((uint32_t) abs((int) value));
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// convert values and publish to sensors
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float voltage = (float) this->data_.voltage_rms / this->coefficient_by_unit_(RMS_UC);
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if (this->voltage_sensor_ != nullptr) {
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this->voltage_sensor_->publish_state(voltage);
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}
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for (uint32_t channel = 0; channel < 2; channel++) {
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// Active power = PowerPA * PowerPAC * 1000 / 0x80000000
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float active_power = (float) this->data_.active_power[channel] / this->coefficient_by_unit_(POWER_PAC); // W
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float amps = (float) this->data_.current_rms[channel] / this->coefficient_by_unit_(RMS_IAC); // A
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ESP_LOGD(TAG, "Channel %d power %f W, current %f A", channel + 1, active_power, amps);
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if (channel == 0) {
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if (this->power_sensor_1_ != nullptr) {
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this->power_sensor_1_->publish_state(active_power);
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}
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if (this->current_sensor_1_ != nullptr) {
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this->current_sensor_1_->publish_state(amps);
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}
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} else if (channel == 1) {
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if (this->power_sensor_2_ != nullptr) {
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this->power_sensor_2_->publish_state(active_power);
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}
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if (this->current_sensor_2_ != nullptr) {
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this->current_sensor_2_->publish_state(amps);
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}
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}
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}
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}
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} // namespace cse7761
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} // namespace esphome
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esphome/components/cse7761/cse7761.h
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esphome/components/cse7761/cse7761.h
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#pragma once
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#include "esphome/components/sensor/sensor.h"
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#include "esphome/components/uart/uart.h"
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#include "esphome/core/component.h"
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namespace esphome {
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namespace cse7761 {
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struct CSE7761DataStruct {
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uint32_t frequency = 0;
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uint32_t voltage_rms = 0;
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uint32_t current_rms[2] = {0};
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uint32_t energy[2] = {0};
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uint32_t active_power[2] = {0};
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uint16_t coefficient[8] = {0};
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uint8_t energy_update = 0;
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bool ready = false;
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};
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/// This class implements support for the CSE7761 UART power sensor.
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class CSE7761Component : public PollingComponent, public uart::UARTDevice {
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public:
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void set_voltage_sensor(sensor::Sensor *voltage_sensor) { voltage_sensor_ = voltage_sensor; }
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void set_active_power_1_sensor(sensor::Sensor *power_sensor_1) { power_sensor_1_ = power_sensor_1; }
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void set_current_1_sensor(sensor::Sensor *current_sensor_1) { current_sensor_1_ = current_sensor_1; }
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void set_active_power_2_sensor(sensor::Sensor *power_sensor_2) { power_sensor_2_ = power_sensor_2; }
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void set_current_2_sensor(sensor::Sensor *current_sensor_2) { current_sensor_2_ = current_sensor_2; }
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void setup() override;
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void dump_config() override;
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float get_setup_priority() const override;
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void update() override;
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protected:
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// Sensors
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sensor::Sensor *voltage_sensor_{nullptr};
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sensor::Sensor *power_sensor_1_{nullptr};
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sensor::Sensor *current_sensor_1_{nullptr};
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sensor::Sensor *power_sensor_2_{nullptr};
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sensor::Sensor *current_sensor_2_{nullptr};
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CSE7761DataStruct data_;
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void write_(uint8_t reg, uint16_t data);
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bool read_once_(uint8_t reg, uint8_t size, uint32_t *value);
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uint32_t read_(uint8_t reg, uint8_t size);
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uint32_t coefficient_by_unit_(uint32_t unit);
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bool chip_init_();
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void get_data_();
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};
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} // namespace cse7761
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} // namespace esphome
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esphome/components/cse7761/sensor.py
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esphome/components/cse7761/sensor.py
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import esphome.codegen as cg
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import esphome.config_validation as cv
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from esphome.components import sensor, uart
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from esphome.const import (
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CONF_ID,
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CONF_VOLTAGE,
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DEVICE_CLASS_CURRENT,
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DEVICE_CLASS_POWER,
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DEVICE_CLASS_VOLTAGE,
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STATE_CLASS_MEASUREMENT,
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UNIT_VOLT,
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UNIT_AMPERE,
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UNIT_WATT,
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)
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CODEOWNERS = ["@berfenger"]
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DEPENDENCIES = ["uart"]
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cse7761_ns = cg.esphome_ns.namespace("cse7761")
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CSE7761Component = cse7761_ns.class_(
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"CSE7761Component", cg.PollingComponent, uart.UARTDevice
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)
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CONF_CURRENT_1 = "current_1"
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CONF_CURRENT_2 = "current_2"
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CONF_ACTIVE_POWER_1 = "active_power_1"
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CONF_ACTIVE_POWER_2 = "active_power_2"
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CONFIG_SCHEMA = (
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cv.Schema(
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{
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cv.GenerateID(): cv.declare_id(CSE7761Component),
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cv.Optional(CONF_VOLTAGE): sensor.sensor_schema(
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unit_of_measurement=UNIT_VOLT,
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accuracy_decimals=1,
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device_class=DEVICE_CLASS_VOLTAGE,
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state_class=STATE_CLASS_MEASUREMENT,
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),
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cv.Optional(CONF_CURRENT_1): sensor.sensor_schema(
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unit_of_measurement=UNIT_AMPERE,
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accuracy_decimals=2,
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device_class=DEVICE_CLASS_CURRENT,
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state_class=STATE_CLASS_MEASUREMENT,
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),
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cv.Optional(CONF_CURRENT_2): sensor.sensor_schema(
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unit_of_measurement=UNIT_AMPERE,
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accuracy_decimals=2,
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device_class=DEVICE_CLASS_CURRENT,
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state_class=STATE_CLASS_MEASUREMENT,
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),
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cv.Optional(CONF_ACTIVE_POWER_1): sensor.sensor_schema(
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unit_of_measurement=UNIT_WATT,
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accuracy_decimals=1,
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device_class=DEVICE_CLASS_POWER,
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state_class=STATE_CLASS_MEASUREMENT,
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),
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cv.Optional(CONF_ACTIVE_POWER_2): sensor.sensor_schema(
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unit_of_measurement=UNIT_WATT,
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accuracy_decimals=1,
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device_class=DEVICE_CLASS_POWER,
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state_class=STATE_CLASS_MEASUREMENT,
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),
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}
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)
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.extend(cv.polling_component_schema("60s"))
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.extend(uart.UART_DEVICE_SCHEMA)
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)
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FINAL_VALIDATE_SCHEMA = uart.final_validate_device_schema(
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"cse7761", baud_rate=38400, require_rx=True, require_tx=True
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)
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async def to_code(config):
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var = cg.new_Pvariable(config[CONF_ID])
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await cg.register_component(var, config)
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await uart.register_uart_device(var, config)
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for key in [
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CONF_VOLTAGE,
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CONF_CURRENT_1,
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CONF_CURRENT_2,
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CONF_ACTIVE_POWER_1,
|
||||
CONF_ACTIVE_POWER_2,
|
||||
]:
|
||||
if key not in config:
|
||||
continue
|
||||
conf = config[key]
|
||||
sens = await sensor.new_sensor(conf)
|
||||
cg.add(getattr(var, f"set_{key}_sensor")(sens))
|
|
@ -250,6 +250,10 @@ uart:
|
|||
tx_pin: GPIO4
|
||||
rx_pin: GPIO5
|
||||
baud_rate: 9600
|
||||
- id: uart7
|
||||
tx_pin: GPIO4
|
||||
rx_pin: GPIO5
|
||||
baud_rate: 38400
|
||||
|
||||
modbus:
|
||||
uart_id: uart1
|
||||
|
@ -549,6 +553,18 @@ sensor:
|
|||
name: 'PMS Humidity'
|
||||
formaldehyde:
|
||||
name: 'PMS Formaldehyde Concentration'
|
||||
- platform: cse7761
|
||||
uart_id: uart7
|
||||
voltage:
|
||||
name: 'CSE7761 Voltage'
|
||||
current_1:
|
||||
name: 'CSE7761 Current 1'
|
||||
current_2:
|
||||
name: 'CSE7761 Current 2'
|
||||
active_power_1:
|
||||
name: 'CSE7761 Active Power 1'
|
||||
active_power_2:
|
||||
name: 'CSE7761 Active Power 2'
|
||||
- platform: cse7766
|
||||
uart_id: uart3
|
||||
voltage:
|
||||
|
|
Loading…
Reference in a new issue