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Add CT Clamp component (#559)
* Add CT Clamp component * Update lint * Some more fixes * Make updates to work as an analog sensor consumer * Remove unused imports Update lint suggestions * Move setup_priority to header * Remove unused calibration value * Remove Unique ID - Will be auto generated * Update to use loop and not slow down main loop Co-authored-by: Otto Winter <otto@otto-winter.com>
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esphome/components/ct_clamp/__init__.py
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esphome/components/ct_clamp/__init__.py
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esphome/components/ct_clamp/ct_clamp_sensor.cpp
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esphome/components/ct_clamp/ct_clamp_sensor.cpp
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#include "ct_clamp_sensor.h"
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#include "esphome/core/log.h"
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#include <cmath>
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namespace esphome {
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namespace ct_clamp {
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static const char *TAG = "ct_clamp";
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void CTClampSensor::dump_config() {
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LOG_SENSOR("", "CT Clamp Sensor", this);
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ESP_LOGCONFIG(TAG, " Sample Duration: %.2fs", this->sample_duration_ / 1e3f);
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LOG_UPDATE_INTERVAL(this);
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}
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void CTClampSensor::update() {
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// Update only starts the sampling phase, in loop() the actual sampling is happening.
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// Request a high loop() execution interval during sampling phase.
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this->high_freq_.start();
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// Set timeout for ending sampling phase
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this->set_timeout("read", this->sample_duration_, [this]() {
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this->is_sampling_ = false;
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this->high_freq_.stop();
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if (this->num_samples_ == 0) {
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// Shouldn't happen, but let's not crash if it does.
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this->publish_state(NAN);
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return;
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}
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float raw = this->sample_sum_ / this->num_samples_;
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float irms = std::sqrt(raw);
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ESP_LOGD(TAG, "'%s' - Raw Value: %.2fA", this->name_.c_str(), irms);
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this->publish_state(irms);
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});
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// Set sampling values
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this->is_sampling_ = true;
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this->num_samples_ = 0;
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this->sample_sum_ = 0.0f;
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}
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void CTClampSensor::loop() {
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if (!this->is_sampling_)
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return;
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// Perform a single sample
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float value = this->source_->sample();
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// Adjust DC offset via low pass filter (exponential moving average)
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const float alpha = 0.001f;
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this->offset_ = this->offset_ * (1 - alpha) + value * alpha;
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// Filtered value centered around the mid-point (0V)
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float filtered = value - this->offset_;
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// IRMS is sqrt(∑v_i²)
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float sq = filtered * filtered;
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this->sample_sum_ += sq;
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this->num_samples_++;
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}
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} // namespace ct_clamp
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} // namespace esphome
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esphome/components/ct_clamp/ct_clamp_sensor.h
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esphome/components/ct_clamp/ct_clamp_sensor.h
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#pragma once
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#include "esphome/core/component.h"
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#include "esphome/core/esphal.h"
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#include "esphome/components/sensor/sensor.h"
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#include "esphome/components/voltage_sampler/voltage_sampler.h"
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namespace esphome {
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namespace ct_clamp {
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class CTClampSensor : public sensor::Sensor, public PollingComponent {
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public:
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void update() override;
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void loop() override;
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void dump_config() override;
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float get_setup_priority() const override { return setup_priority::DATA; }
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void set_sample_duration(uint32_t sample_duration) { sample_duration_ = sample_duration; }
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void set_source(voltage_sampler::VoltageSampler *source) { source_ = source; }
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protected:
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/// High Frequency loop() requester used during sampling phase.
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HighFrequencyLoopRequester high_freq_;
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/// Duration in ms of the sampling phase.
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uint32_t sample_duration_;
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/// The sampling source to read values from.
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voltage_sampler::VoltageSampler *source_;
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/** The DC offset of the circuit.
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*
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* Diagram: https://learn.openenergymonitor.org/electricity-monitoring/ct-sensors/interface-with-arduino
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*
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* This is automatically calculated with an exponential moving average/digital low pass filter.
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*
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* 0.5 is a good initial approximation to start with for most ESP8266 setups.
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*/
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float offset_ = 0.5f;
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float sample_sum_ = 0.0f;
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uint32_t num_samples_ = 0;
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bool is_sampling_ = false;
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};
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} // namespace ct_clamp
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} // namespace esphome
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esphome/components/ct_clamp/sensor.py
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esphome/components/ct_clamp/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, voltage_sampler
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from esphome.const import CONF_SENSOR, CONF_ID, ICON_FLASH, UNIT_AMPERE
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AUTO_LOAD = ['voltage_sampler']
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CONF_SAMPLE_DURATION = 'sample_duration'
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ct_clamp_ns = cg.esphome_ns.namespace('ct_clamp')
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CTClampSensor = ct_clamp_ns.class_('CTClampSensor', sensor.Sensor, cg.PollingComponent)
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CONFIG_SCHEMA = sensor.sensor_schema(UNIT_AMPERE, ICON_FLASH, 2).extend({
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cv.GenerateID(): cv.declare_id(CTClampSensor),
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cv.Required(CONF_SENSOR): cv.use_id(voltage_sampler.VoltageSampler),
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cv.Optional(CONF_SAMPLE_DURATION, default='200ms'): cv.positive_time_period_milliseconds,
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}).extend(cv.polling_component_schema('60s'))
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def to_code(config):
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var = cg.new_Pvariable(config[CONF_ID])
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yield cg.register_component(var, config)
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yield sensor.register_sensor(var, config)
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sens = yield cg.get_variable(config[CONF_SENSOR])
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cg.add(var.set_source(sens))
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cg.add(var.set_sample_duration(config[CONF_SAMPLE_DURATION]))
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@ -129,6 +129,19 @@ sensor:
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b_constant: 3950
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b_constant: 3950
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reference_resistance: 10k
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reference_resistance: 10k
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reference_temperature: 25°C
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reference_temperature: 25°C
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- platform: ntc
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sensor: resist
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name: NTC Sensor2
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calibration:
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- 10.0kOhm -> 25°C
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- 27.219kOhm -> 0°C
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- 14.674kOhm -> 15°C
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- platform: ct_clamp
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sensor: my_sensor
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name: CT Clamp
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sample_duration: 500ms
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update_interval: 5s
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- platform: tcs34725
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- platform: tcs34725
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red_channel:
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red_channel:
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name: Red Channel
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name: Red Channel
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