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Implement pulse_meter as an improvement on pulse_counter and pulse_width for meters (#1434)
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@ -67,6 +67,7 @@ esphome/components/pn532/* @OttoWinter @jesserockz
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esphome/components/pn532_i2c/* @OttoWinter @jesserockz
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esphome/components/pn532_spi/* @OttoWinter @jesserockz
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esphome/components/power_supply/* @esphome/core
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esphome/components/pulse_meter/* @stevebaxter
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esphome/components/rc522/* @glmnet
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esphome/components/rc522_i2c/* @glmnet
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esphome/components/rc522_spi/* @glmnet
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0
esphome/components/pulse_meter/__init__.py
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0
esphome/components/pulse_meter/__init__.py
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87
esphome/components/pulse_meter/pulse_meter_sensor.cpp
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87
esphome/components/pulse_meter/pulse_meter_sensor.cpp
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@ -0,0 +1,87 @@
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#include "pulse_meter_sensor.h"
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#include "esphome/core/log.h"
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namespace esphome {
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namespace pulse_meter {
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static const char *TAG = "pulse_meter";
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void PulseMeterSensor::setup() {
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this->pin_->setup();
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this->isr_pin_ = pin_->to_isr();
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this->pin_->attach_interrupt(PulseMeterSensor::gpio_intr, this, CHANGE);
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this->last_detected_edge_us_ = 0;
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this->last_valid_edge_us_ = 0;
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}
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void PulseMeterSensor::loop() {
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const uint32_t now = micros();
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// If we've exceeded our timeout interval without receiving any pulses, assume 0 pulses/min until
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// we get at least two valid pulses.
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const uint32_t time_since_valid_edge_us = now - this->last_valid_edge_us_;
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if ((this->last_valid_edge_us_ != 0) && (time_since_valid_edge_us > this->timeout_us_)) {
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ESP_LOGD(TAG, "No pulse detected for %us, assuming 0 pulses/min", time_since_valid_edge_us / 1000000);
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this->last_detected_edge_us_ = 0;
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this->last_valid_edge_us_ = 0;
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this->pulse_width_us_ = 0;
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}
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// We quantize our pulse widths to 1 ms to avoid unnecessary jitter
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const uint32_t pulse_width_ms = this->pulse_width_us_ / 1000;
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if (this->pulse_width_dedupe_.next(pulse_width_ms)) {
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if (pulse_width_ms == 0) {
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// Treat 0 pulse width as 0 pulses/min (normally because we've not detected any pulses for a while)
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this->publish_state(0);
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} else {
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// Calculate pulses/min from the pulse width in ms
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this->publish_state((60.0 * 1000.0) / pulse_width_ms);
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}
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}
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if (this->total_sensor_ != nullptr) {
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const uint32_t total = this->total_pulses_;
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if (this->total_dedupe_.next(total)) {
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this->total_sensor_->publish_state(total);
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}
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}
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}
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void PulseMeterSensor::dump_config() {
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LOG_SENSOR("", "Pulse Meter", this);
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LOG_PIN(" Pin: ", this->pin_);
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ESP_LOGCONFIG(TAG, " Filtering pulses shorter than %u µs", this->filter_us_);
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ESP_LOGCONFIG(TAG, " Assuming 0 pulses/min after not receiving a pulse for %us", this->timeout_us_ / 1000000);
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}
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void ICACHE_RAM_ATTR PulseMeterSensor::gpio_intr(PulseMeterSensor *sensor) {
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// This is an interrupt handler - we can't call any virtual method from this method
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// Get the current time before we do anything else so the measurements are consistent
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const uint32_t now = micros();
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// We only look at rising edges
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if (!sensor->isr_pin_->digital_read()) {
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return;
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}
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// Ignore the first detected pulse (we need at least two pulses to measure the width)
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if (sensor->last_detected_edge_us_ != 0) {
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// Check to see if we should filter this edge out
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if ((now - sensor->last_detected_edge_us_) >= sensor->filter_us_) {
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// Don't measure the first valid pulse (we need at least two pulses to measure the width)
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if (sensor->last_valid_edge_us_ != 0) {
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sensor->pulse_width_us_ = (now - sensor->last_valid_edge_us_);
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}
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sensor->total_pulses_++;
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sensor->last_valid_edge_us_ = now;
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}
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}
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sensor->last_detected_edge_us_ = now;
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}
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} // namespace pulse_meter
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} // namespace esphome
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42
esphome/components/pulse_meter/pulse_meter_sensor.h
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42
esphome/components/pulse_meter/pulse_meter_sensor.h
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@ -0,0 +1,42 @@
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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/core/helpers.h"
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namespace esphome {
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namespace pulse_meter {
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class PulseMeterSensor : public sensor::Sensor, public Component {
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public:
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void set_pin(GPIOPin *pin) { this->pin_ = pin; }
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void set_filter_us(uint32_t filter) { this->filter_us_ = filter; }
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void set_timeout_us(uint32_t timeout) { this->timeout_us_ = timeout; }
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void set_total_sensor(sensor::Sensor *sensor) { this->total_sensor_ = sensor; }
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void setup() override;
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void loop() override;
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float get_setup_priority() const override { return setup_priority::DATA; }
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void dump_config() override;
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protected:
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static void gpio_intr(PulseMeterSensor *sensor);
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GPIOPin *pin_ = nullptr;
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ISRInternalGPIOPin *isr_pin_;
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uint32_t filter_us_ = 0;
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uint32_t timeout_us_ = 1000000UL * 60UL * 5UL;
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sensor::Sensor *total_sensor_ = nullptr;
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Deduplicator<uint32_t> pulse_width_dedupe_;
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Deduplicator<uint32_t> total_dedupe_;
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volatile uint32_t last_detected_edge_us_ = 0;
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volatile uint32_t last_valid_edge_us_ = 0;
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volatile uint32_t pulse_width_us_ = 0;
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volatile uint32_t total_pulses_ = 0;
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};
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} // namespace pulse_meter
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} // namespace esphome
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58
esphome/components/pulse_meter/sensor.py
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58
esphome/components/pulse_meter/sensor.py
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@ -0,0 +1,58 @@
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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 import pins
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from esphome.components import sensor
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from esphome.const import CONF_ID, CONF_INTERNAL_FILTER, \
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CONF_PIN, CONF_NUMBER, CONF_TIMEOUT, CONF_TOTAL, \
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ICON_PULSE, UNIT_PULSES, UNIT_PULSES_PER_MINUTE
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from esphome.core import CORE
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CODEOWNERS = ['@stevebaxter']
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pulse_meter_ns = cg.esphome_ns.namespace('pulse_meter')
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PulseMeterSensor = pulse_meter_ns.class_('PulseMeterSensor',
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sensor.Sensor,
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cg.Component)
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def validate_internal_filter(value):
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return cv.positive_time_period_microseconds(value)
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def validate_timeout(value):
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value = cv.positive_time_period_microseconds(value)
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if value.total_minutes > 70:
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raise cv.Invalid("Maximum timeout is 70 minutes")
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return value
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def validate_pulse_meter_pin(value):
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value = pins.internal_gpio_input_pin_schema(value)
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if CORE.is_esp8266 and value[CONF_NUMBER] >= 16:
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raise cv.Invalid("Pins GPIO16 and GPIO17 cannot be used as pulse counters on ESP8266.")
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return value
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CONFIG_SCHEMA = sensor.sensor_schema(UNIT_PULSES_PER_MINUTE, ICON_PULSE, 2).extend({
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cv.GenerateID(): cv.declare_id(PulseMeterSensor),
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cv.Required(CONF_PIN): validate_pulse_meter_pin,
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cv.Optional(CONF_INTERNAL_FILTER, default='13us'): validate_internal_filter,
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cv.Optional(CONF_TIMEOUT, default='5min'): validate_timeout,
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cv.Optional(CONF_TOTAL): sensor.sensor_schema(UNIT_PULSES, ICON_PULSE, 0)
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})
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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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pin = yield cg.gpio_pin_expression(config[CONF_PIN])
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cg.add(var.set_pin(pin))
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cg.add(var.set_filter_us(config[CONF_INTERNAL_FILTER]))
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cg.add(var.set_timeout_us(config[CONF_TIMEOUT]))
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if CONF_TOTAL in config:
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sens = yield sensor.new_sensor(config[CONF_TOTAL])
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cg.add(var.set_total_sensor(sens))
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@ -36,7 +36,7 @@ esphome/core/* @esphome/core
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parts = [BASE]
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# Fake some diretory so that get_component works
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# Fake some directory so that get_component works
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CORE.config_path = str(root)
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codeowners = defaultdict(list)
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@ -626,6 +626,13 @@ sensor:
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falling_edge: DECREMENT
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internal_filter: 13us
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update_interval: 15s
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- platform: pulse_meter
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name: 'Pulse Meter'
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pin: GPIO12
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internal_filter: 100ms
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timeout: 2 min
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total:
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name: 'Pulse Meter Total'
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- platform: rotary_encoder
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name: 'Rotary Encoder'
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id: rotary_encoder1
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