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heating_channel_linear.yaml
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heating_channel_linear.yaml
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###### Info at https://github.com/nliaudat/floor-heating-controller/wiki/heating_channel_linear
########### Climate thermostat
climate:
- platform: thermostat
id: ${id}_thermostat
name: ${frendly_name}
sensor: ${temperature_sensor}
default_preset: ${default_preset}
on_boot_restore_from: memory
startup_delay: true
preset: #ECO, AWAY, BOOST, COMFORT, HOME, SLEEP, ACTIVITY
- name: ${preset_1_name}
default_target_temperature_low: ${preset_1_target_temperature_low}
# default_target_temperature_high: ${preset_1_target_temperature_high}
mode: ${preset_1_mode} #OFF, AUTO, HEAT, COOL, HEAT_COOL, FAN_ONLY, DRY
- name: ${preset_2_name}
default_target_temperature_low: ${preset_2_target_temperature_low}
# default_target_temperature_high: ${preset_2_target_temperature_high}
mode: ${preset_2_mode}
- name: ${preset_3_name}
default_target_temperature_low: ${preset_3_target_temperature_low}
# default_target_temperature_high: ${preset_3_target_temperature_high}
mode: ${preset_3_mode}
# min_cooling_off_time: 300s
# min_cooling_run_time: 300s
min_heating_off_time: 300s
min_heating_run_time: 300s
min_idle_time: 30s
heat_action:
- lambda: 'return;' # do nothing cause action is triggered by time interval
# cool_action:
# - lambda: 'return;'
idle_action:
- lambda: 'return;'
visual:
min_temperature: ${visual_min_temperature}
max_temperature: ${visual_max_temperature}
temperature_step: ${visual_temperature_step}
########### cover
cover:
- platform: endstop
name: CH${channel_number}
device_class: shutter
open_action:
- switch.turn_on: CH${channel_number}_IB_pin
- switch.turn_off: CH${channel_number}_IA_pin
open_duration: 60s
open_endstop: BEMF_${channel_number}_sensor
close_action:
- switch.turn_on: CH${channel_number}_IA_pin
- switch.turn_off: CH${channel_number}_IB_pin
close_duration: 60s
close_endstop: BEMF_${channel_number}_sensor
stop_action:
- switch.turn_off: CH${channel_number}_IA_pin
- switch.turn_off: CH${channel_number}_IB_pin
max_duration : 65s
#assumed_state: true
id: CH${channel_number}_cover
number:
- platform: template
name: "bemf_trigger_${channel_number}"
optimistic: true
min_value: 0.005
max_value: 150.00
step: 0.005
restore_value: true
initial_value: ${bemf_trigger_initial_value}
id: bemf_trigger_${channel_number}
script:
- id: calibrate_CH${channel_number}_cover
then:
- logger.log: "Calibrate CH${channel_number}_cover"
- cover.close: CH${channel_number}_cover
- delay: 5s
- cover.open: CH${channel_number}_cover
- delay: 5s
- cover.close: CH${channel_number}_cover
- delay: 5s
- cover.open: CH${channel_number}_cover
- delay: 5s
- cover.close: CH${channel_number}_cover
- delay: 5s
- cover.open: CH${channel_number}_cover
- delay: 60s
- cover.close: CH${channel_number}_cover
- delay: 60s
- cover.close: CH${channel_number}_cover
- delay: 60s
- cover.close: CH${channel_number}_cover
- id: TH${channel_number}_check
then:
- lambda: |-
if (id(${id}_thermostat).mode == CLIMATE_MODE_OFF) {
if (id(CH${channel_number}_cover).position > 0) {
auto call = id(CH${channel_number}_cover).make_call();
call.set_position(0);
call.perform();
ESP_LOGD("main", "Adjustment done for CH${channel_number} set to position 0 as CH${channel_number} is OFF ");
}
else{
ESP_LOGD("main", "CH${channel_number} is OFF and at 0 position");
}
return;
}
if (id(${id}_thermostat).preset == CLIMATE_PRESET_SLEEP ) {
ESP_LOGD("main", "CH${channel_number} is sleeping - no position change ");
return;
}
ESP_LOGD("main", "TH${channel_number}_check triggered");
// check if any others actuator is running. If yes, stop action and return.
if (id(CH${bemf_linked_with_channel}_cover).current_operation != COVER_OPERATION_IDLE) {
ESP_LOGD("main", "CH${bemf_linked_with_channel} running cause CH${channel_number} cancel operation");
return;
}
// get info from climate
float current_temp = id(${id}_thermostat).current_temperature;
float target_temp = id(${id}_thermostat).target_temperature_low;
//float target_temp_low = id(${id}_thermostat).target_temperature_low_low;
//float target_temp_high = id(${id}_thermostat).target_temperature_high ;
//float diff_temp = (target_temp_high + target_temp_low)/2 - current_temp;
float diff_temp = target_temp - current_temp;
// get info from cover
//float current_position = id(CH${channel_number}_cover).position;
//arduino map function : return (x - in_min) * (out_max - out_min) / (in_max - in_min) + out_min; in_min=-1;in_max=1;out_min=0;out_max=1
//simplified => f(x) = (x+1)/2
//rounded at 0.1 => f(x) = round(((x+1)/2)/0.1)*0.1
//float target_position = round(((diff_temp+1)/2)/0.1)*0.1;
//float target_position = round(((((id(${id}_thermostat).target_temperature_high + id(${id}_thermostat).target_temperature_low)/2 - id(${id}_thermostat).current_temperature)+1)/2)/0.1)*0.1;
float target_position = round(((diff_temp+1)/2)/0.1)*0.1;
target_position = target_position * (id(heating_controller_boost_factor).state)/100;
//normalize
if (target_position >1) { target_position = 1;}
if (target_position <0) { target_position = 0;}
//call movement if target_position change consequently
if (abs(id(CH${channel_number}_cover).position - target_position) > id(min_movement).state/100) {
auto call = id(CH${channel_number}_cover).make_call();
call.set_position(target_position);
call.perform();
ESP_LOGD("main", "Adjustment done for CH${channel_number} set to position %.2f%% (boost=%.2f%%)", target_position, id(heating_controller_boost_factor).state);
} else {
ESP_LOGD("main", "No adjustment done for CH${channel_number} to target position %.2f%% cause min movement (%.2f%%) is not reached", target_position, id(min_movement).state);
}
### back electromotive force (back EMF)
### https://en.wikipedia.org/wiki/Counter-electromotive_force
binary_sensor:
- platform: template
id: BEMF_${channel_number}_sensor
name: "BEMF CH${channel_number} sensor"
lambda: return ((id(${bemf_sensor_adc}).state >= id(bemf_trigger_${channel_number}).state));
on_press:
then:
- lambda: |-
if (id(CH${channel_number}_cover).current_operation == COVER_OPERATION_OPENING) {
auto call = id(CH${channel_number}_cover).make_call();
call.set_command_stop();
call.perform();
ESP_LOGD("main", "CH${channel_number} opening endstop reached at %f V", id(${bemf_sensor_adc}).state);
//id(bemf_opening_${channel_number}).publish_state(id(${bemf_sensor_adc}).state *1000);
id(CH${channel_number}_cover).position = 1.0; //1.0 = 100% = OPEN
id(CH${channel_number}_cover).publish_state();
} else if (id(CH${channel_number}_cover).current_operation == COVER_OPERATION_CLOSING) {
auto call = id(CH${channel_number}_cover).make_call();
call.set_command_stop();
call.perform();
ESP_LOGD("main", "CH${channel_number} closing endstop reached at %f V", id(${bemf_sensor_adc}).state);
//id(bemf_closing_${channel_number}).publish_state(id(${bemf_sensor_adc}).state * 1000);
id(CH${channel_number}_cover).position = 0.0; //0.0 = 0% = CLOSED
id(CH${channel_number}_cover).publish_state();
}
switch:
- platform: gpio
name: "CH${channel_number} IA"
pin:
sn74hc595: sn74hc595_hub
number: ${sn74hc595_IA_pin}
inverted: False
internal: true
on_turn_on: #interlock do not support templating => replaced with switch.turn_off
- switch.turn_off: CH${channel_number}_IB_pin
- delay: 200ms #allow for switching time and any discharge
id: CH${channel_number}_IA_pin
#interlock: [CH${channel_number}_IA_pin, CH${channel_number}_IB_pin] #interlock: &interlock_group_CH1 [CH1_IA_pin, CH1_IB_pin]
restore_mode: always off
- platform: gpio
name: "CH${channel_number} IB"
pin:
sn74hc595: sn74hc595_hub
number: ${sn74hc595_IB_pin}
inverted: False
internal: true
on_turn_on:
- switch.turn_off: CH${channel_number}_IA_pin
- delay: 200ms #allow for switching time and any discharge
id: CH${channel_number}_IB_pin
#interlock: CH${channel_number}_IA_pin #interlock: *interlock_group_CH1
restore_mode: always off
- platform: template
name: "Run ${frendly_name} check"
turn_on_action:
- script.execute: TH${channel_number}_check
interval:
- interval: ${check_interval}
then:
- script.execute: TH${channel_number}_check
# sensor:
# - platform: template
# id: bemf_opening_${channel_number}
# name: bemf_opening_${channel_number}
# accuracy_decimals: 0
# update_interval: never
# unit_of_measurement: 'mV'
# device_class: voltage
# state_class: measurement
# #internal: true
# - platform: template
# id: bemf_closing_${channel_number}
# name: bemf_closing_${channel_number}
# accuracy_decimals: 0
# update_interval: never
# unit_of_measurement: 'mV'
# device_class: voltage
# state_class: measurement
# #internal: true