ESPHome config - Onju Voice/Home as a voice assistant satellite in Home Assistant

README.md

⚠️ CONFIG WAS MOVED HERE ⚠️

https://github.com/tetele/onju-voice-satellite

This Gist will no longer be maintained, please check out the new location for the config.

Introduction

Ever since voice satellites were introduced to Home Assistant, people wanted to use good microphones and speakers for this purpose, but not many were really available.

In a valiant attempt to free a Google Nest Mini (2nd generation) from its privacy ignoring overlords, Justin Alvey created Onju Voice, a drop-in replacement PCB for the Mini, with an ESP32-S3 at its heart, capable of some pretty funky stuff.

The purpose of this ESPHome config is to be able to use such a modded Nest Mini as a voice satellite in Home Assistant. Here's a small demo:

https://youtu.be/fuX6IYa79gA

Features

• wake word, push to talk, on-demand and continuous conversation support
• response playback
• audio media player
• service exposed in HA to start and stop the voice assistant from another device/trigger
• visual feedback of the wake word listening/audio recording/success/error status via the Mini's onboard top LEDs
• uses all 3 of the original Mini's touch controls as volume controls and a means of manually starting the assistant and setting the volume
• uses the original Mini's microphone mute button to prevent the wake word engine from starting unintendedly
• automatic continuous touch control calibration

Pre-requisites

• Home Assistant 2023.11.3 or newer
• A voice assistant configured in HA with STT and TTS in a language of your choice
• ESPHome 2023.11.6 or newer

Known issues and limitations

• you have to be able to retrofit an Onju Voice PCB inside a 2nd generation Google Nest Mini.
• the media_player component in ESPHome does not play raw audio coming from Piper TTS. It works with any STT that outputs mp3 by default, though fixed in HA 2023.12
• the version for microWakeWord is in BETA and probably full of bugs

Installation instructions

Here is a video explaining how to perform the PCB "transplant". You can find some instructions for disassembly here.

To flash the Onju Voice for the first time, you have to do so BEFORE YOU PUT EVERYTHING BACK TOGETHER in the Google Nest Mini housing. Otherwise, you lose access to the USB port.

So, before connecting the board for the first time, hold down the BOOT switch on it and connect a USB cable to your computer. Use the ESPHome web installer to flash according to the config below.

Double check Wifi connection details, API encryption key and device name/friendly name to make sure you use your own.

After the device has been added to ESPHome, if auto discovery is turned on, the device should appear in Home Assistant automatically. Otherwise, check out this guide.

Credits

• obviously, a huge thanks to Justin Alvey (@justLV) for the excellent Onju Voice project
• many thanks to Mike Hansen (@synesthesiam) for the relentless work he's put into Year of the Voice at Home Assistant
• thanks to the ESPHome Discord server members for both creating the most time saving piece of software ever and for helping out with some kinks with the config - in particular @jesserockz, @ssieb and @Hawwa

or

onju-voice-microwakeword.yaml

substitutions:
  name: "onju-voice"
  friendly_name: "Onju Voice"
  wifi_ap_password: ""

esphome:
  name: ${name}
  friendly_name: ${friendly_name}
  name_add_mac_suffix: false
  min_version: 2024.2.0
  platformio_options:
    build_flags: "-DBOARD_HAS_PSRAM"
    board_build.arduino.memory_type: qio_opi
  on_boot:
    then:
      - light.turn_on:
          id: top_led
          effect: slow_pulse
          red: 100%
          green: 60%
          blue: 0%
      - wait_until:
          condition:
            wifi.connected:
      - light.turn_on:
          id: top_led
          effect: pulse
          red: 0%
          green: 100%
          blue: 0%
      - wait_until:
          condition:
            api.connected:
      - light.turn_on:
          id: top_led
          effect: none
          red: 0%
          green: 100%
          blue: 0%
      - delay: 1s
      - script.execute: reset_led

esp32:
  board: esp32-s3-devkitc-1
  framework:
    type: esp-idf

psram:
  mode: octal
  speed: 80MHz

logger:
api:
  services:
    - service: start_va
      then:
        - voice_assistant.start
    - service: stop_va
      then:
        - voice_assistant.stop

ota:

wifi:
  ap:
    password: "${wifi_ap_password}"

captive_portal:

globals:
  - id: thresh_percent
    type: float
    initial_value: "0.03"
    restore_value: false
  - id: touch_calibration_values_left
    type: uint32_t[5]
    restore_value: false
  - id: touch_calibration_values_center
    type: uint32_t[5]
    restore_value: false
  - id: touch_calibration_values_right
    type: uint32_t[5]
    restore_value: false

interval:
  - interval: 1s
    then:
      - script.execute:
          id: calibrate_touch
          button: 0
      - script.execute:
          id: calibrate_touch
          button: 1
      - script.execute:
          id: calibrate_touch
          button: 2

i2s_audio:
  - i2s_lrclk_pin: GPIO13
    i2s_bclk_pin: GPIO18

micro_wake_word:
  model: okay_nabu
#   model: hey_jarvis
#   model: alexa
  on_wake_word_detected:
    then:
      - voice_assistant.start

speaker:
  - platform: i2s_audio
    id: onju_out
    dac_type: external
    i2s_dout_pin: GPIO12

microphone:
  - platform: i2s_audio
    id: onju_microphone
    i2s_din_pin: GPIO17
    adc_type: external
    pdm: false

voice_assistant:
  id: va
  microphone: onju_microphone
  speaker: onju_out
  use_wake_word: false
  on_listening:
    - light.turn_on:
        id: top_led
        blue: 100%
        red: 100%
        green: 100%
        brightness: 100%
        effect: listening
  on_stt_vad_end:
    - light.turn_on:
        id: top_led
        blue: 100%
        red: 0%
        green: 20%
        brightness: 70%
        effect: processing
  on_tts_end:
    - light.turn_on:
        id: top_led
        blue: 0%
        red: 20%
        green: 100%
        effect: speaking
  on_end:
    - delay: 500ms
    - wait_until:
        not:
          speaker.is_playing: onju_out
    - script.execute: reset_led
    - if:
        condition:
          and:
            - switch.is_on: use_wake_word
            - binary_sensor.is_off: mute_switch
        then:
          - delay: 200ms
          - micro_wake_word.start
  on_client_connected:
    - if:
        condition:
          and:
            - switch.is_on: use_wake_word
            - binary_sensor.is_off: mute_switch
        then:
          - micro_wake_word.start:
  on_client_disconnected:
    - if:
        condition:
          and:
            - switch.is_on: use_wake_word
            - binary_sensor.is_off: mute_switch
        then:
          - voice_assistant.stop:
          - micro_wake_word.stop:
  on_error:
    - light.turn_on:
        id: top_led
        blue: 0%
        red: 100%
        green: 0%
        effect: none
    - delay: 1s
    - script.execute: reset_led

number:
  - platform: template
    name: "Touch threshold percentage"
    id: touch_threshold_percentage
    update_interval: never
    entity_category: config
    initial_value: 1.25
    min_value: -1
    max_value: 5
    step: 0.25
    optimistic: true
    on_value:
      then:
        - lambda: !lambda |-
            id(thresh_percent) = 0.01 * x;

esp32_touch:
  setup_mode: false
  sleep_duration: 2ms
  measurement_duration: 800us
  low_voltage_reference: 0.8V
  high_voltage_reference: 2.4V

  filter_mode: IIR_16
  debounce_count: 2
  noise_threshold: 0
  jitter_step: 0
  smooth_mode: IIR_2

  denoise_grade: BIT8
  denoise_cap_level: L0

binary_sensor:
  - platform: esp32_touch
    id: volume_down
    pin: GPIO4
    threshold: 539000 # 533156-551132

  - platform: esp32_touch
    id: volume_up
    pin: GPIO2
    threshold: 580000 # 575735-593064

  - platform: esp32_touch
    id: action
    pin: GPIO3
    threshold: 751000 # 745618-767100
    on_click:
      - if:
          condition:
            or:
              - switch.is_off: use_wake_word
              - binary_sensor.is_on: mute_switch
          then:
            - logger.log:
                tag: "action_click"
                format: "Voice assistant is running: %s"
                args: ['id(va).is_running() ? "yes" : "no"']
            - if:
                condition: speaker.is_playing
                then:
                  - speaker.stop
            - if:
                condition: voice_assistant.is_running
                then:
                  - voice_assistant.stop:
                else:
                  - voice_assistant.start:
          else:
            - logger.log:
                tag: "action_click"
                format: "Voice assistant was running with wake word detection enabled. Starting continuously"
            - if:
                condition: speaker.is_playing
                then:
                  - speaker.stop
            - voice_assistant.stop
            - delay: 1s
            - script.execute: reset_led
            - script.wait: reset_led
            - voice_assistant.start_continuous:

  - platform: gpio
    id: mute_switch
    pin:
      number: GPIO38
      mode: INPUT_PULLUP
    name: Disable wake word
    on_press:
      - script.execute: turn_off_wake_word
    on_release:
      - script.execute: turn_on_wake_word

light:
  - platform: esp32_rmt_led_strip
    id: leds
    pin: GPIO11
    chipset: SK6812
    num_leds: 6
    rgb_order: grb
    rmt_channel: 0
    default_transition_length: 0s
    gamma_correct: 2.8
  - platform: partition
    id: left_led
    segments:
      - id: leds
        from: 0
        to: 0
    default_transition_length: 100ms
  - platform: partition
    id: top_led
    segments:
      - id: leds
        from: 1
        to: 4
    default_transition_length: 100ms
    effects:
      - pulse:
          name: pulse
          transition_length: 250ms
          update_interval: 250ms
      - pulse:
          name: slow_pulse
          transition_length: 1s
          update_interval: 2s
      - addressable_twinkle:
          name: listening_ww
          twinkle_probability: 1%
      - addressable_twinkle:
          name: listening
          twinkle_probability: 45%
      - addressable_scan:
          name: processing
          move_interval: 80ms
      - addressable_flicker:
          name: speaking
          intensity: 35%
  - platform: partition
    id: right_led
    segments:
      - id: leds
        from: 5
        to: 5
    default_transition_length: 100ms

script:
  - id: reset_led
    then:
      - if:
          condition:
            and:
              - switch.is_on: use_wake_word
              - binary_sensor.is_off: mute_switch
          then:
            - light.turn_on:
                id: top_led
                blue: 100%
                red: 100%
                green: 0%
                brightness: 60%
                effect: listening_ww
          else:
            - light.turn_off: top_led

  - id: turn_on_wake_word
    then:
      - if:
          condition:
            and:
              - binary_sensor.is_off: mute_switch
              - switch.is_on: use_wake_word
          then:
            - micro_wake_word.start
            - if:
                condition:
                  speaker.is_playing:
                then:
                  - speaker.stop:
            - script.execute: reset_led
          else:
            - logger.log:
                tag: "turn_on_wake_word"
                format: "Trying to start listening for wake word, but %s"
                args:
                  [
                    'id(mute_switch).state ? "mute switch is on" : "use wake word toggle is off"',
                  ]
                level: "INFO"

  - id: turn_off_wake_word
    then:
      - micro_wake_word.stop
      - script.execute: reset_led

  - id: calibrate_touch
    parameters:
      button: int
    then:
      - lambda: |-
          static uint8_t thresh_indices[3] = {0, 0, 0};
          static uint32_t sums[3] = {0, 0, 0};
          static uint8_t qsizes[3] = {0, 0, 0};
          static uint16_t consecutive_anomalies_per_button[3] = {0, 0, 0};

          uint32_t newval;
          uint32_t* calibration_values;
          switch(button) {
            case 0:
              newval = id(volume_down).get_value();
              calibration_values = id(touch_calibration_values_left);
              break;
            case 1:
              newval = id(action).get_value();
              calibration_values = id(touch_calibration_values_center);
              break;
            case 2:
              newval = id(volume_up).get_value();
              calibration_values = id(touch_calibration_values_right);
              break;
            default:
              ESP_LOGE("touch_calibration", "Invalid button ID (%d)", button);
              return;
          }

          if(newval == 0) return;

          //ESP_LOGD("touch_calibration", "[%d] qsize %d, sum %d, thresh_index %d, consecutive_anomalies %d", button, qsizes[button], sums[button], thresh_indices[button], consecutive_anomalies_per_button[button]);
          //ESP_LOGD("touch_calibration", "[%d] New value is %d", button, newval);

          if(qsizes[button] == 5) {
            float avg = float(sums[button])/float(qsizes[button]);
            if((fabs(float(newval)-avg)/avg) > id(thresh_percent)) {
              consecutive_anomalies_per_button[button]++;
              //ESP_LOGD("touch_calibration", "[%d] %d anomalies detected.", button, consecutive_anomalies_per_button[button]);
              if(consecutive_anomalies_per_button[button] < 10)
                return;
            } 
          }

          //ESP_LOGD("touch_calibration", "[%d] Resetting consecutive anomalies counter.", button);
          consecutive_anomalies_per_button[button] = 0;


          if(qsizes[button] == 5) {
            //ESP_LOGD("touch_calibration", "[%d] Queue full, removing %d.", button, id(touch_calibration_values)[thresh_indices[button]]);
            sums[button] -= (uint32_t) *(calibration_values+thresh_indices[button]);// id(touch_calibration_values)[thresh_indices[button]];
            qsizes[button]--;
          }
          *(calibration_values+thresh_indices[button]) = newval;
          sums[button] += newval;
          qsizes[button]++;
          thresh_indices[button] = (thresh_indices[button] + 1) % 5;

          //ESP_LOGD("touch_calibration", "[%d] Average value is %d", button, sums[button]/qsizes[button]);
          uint32_t newthresh = uint32_t((sums[button]/qsizes[button]) * (1.0 + id(thresh_percent)));
          //ESP_LOGD("touch_calibration", "[%d] Setting threshold %d", button, newthresh);

          switch(button) {
            case 0:
              id(volume_down).set_threshold(newthresh);
              break;
            case 1:
              id(action).set_threshold(newthresh);
              break;
            case 2:
              id(volume_up).set_threshold(newthresh);
              break;
            default:
              ESP_LOGE("touch_calibration", "Invalid button ID (%d)", button);
              return;
          }

switch:
  - platform: template
    name: Use Wake Word
    id: use_wake_word
    optimistic: true
    restore_mode: RESTORE_DEFAULT_ON
    on_turn_on:
      - script.execute: turn_on_wake_word
    on_turn_off:
      - script.execute: turn_off_wake_word
  - platform: gpio
    id: dac_mute
    restore_mode: ALWAYS_OFF
    pin:
      number: GPIO21
      inverted: True

onju-voice.yaml

substitutions:
  name: "onju-voice"
  friendly_name: "Onju Voice"
  wifi_ap_password: ""

esphome:
  name: ${name}
  friendly_name: ${friendly_name}
  name_add_mac_suffix: false
  min_version: 2023.11.6
  on_boot:
    then:
      - light.turn_on:
          id: top_led
          effect: slow_pulse
          red: 100%
          green: 60%
          blue: 0%
      - wait_until:
          condition:
            wifi.connected:
      - light.turn_on:
          id: top_led
          effect: pulse
          red: 0%
          green: 100%
          blue: 0%
      - wait_until:
          condition:
            api.connected:
      - light.turn_on:
          id: top_led
          effect: none
          red: 0%
          green: 100%
          blue: 0%
      - delay: 1s
      - script.execute: reset_led

esp32:
  board: esp32-s3-devkitc-1
  framework:
    type: arduino

logger:
api:
  services:
    - service: start_va
      then:
        - voice_assistant.start
    - service: stop_va
      then:
        - voice_assistant.stop

ota:

wifi:
  ap:
    password: "${wifi_ap_password}"

captive_portal:

globals:
  - id: thresh_percent
    type: float
    initial_value: "0.03"
    restore_value: false
  - id: touch_calibration_values_left
    type: uint32_t[5]
    restore_value: false
  - id: touch_calibration_values_center
    type: uint32_t[5]
    restore_value: false
  - id: touch_calibration_values_right
    type: uint32_t[5]
    restore_value: false

interval:
  - interval: 1s
    then:
      - script.execute:
          id: calibrate_touch
          button: 0
      - script.execute:
          id: calibrate_touch
          button: 1
      - script.execute:
          id: calibrate_touch
          button: 2

i2s_audio:
  - i2s_lrclk_pin: GPIO13
    i2s_bclk_pin: GPIO18

media_player:
  - platform: i2s_audio
    name: None
    id: onju_out
    dac_type: external
    i2s_dout_pin: GPIO12
    mode: mono
    mute_pin:
      number: GPIO21
      inverted: True

######
# speaker:
#   - platform: i2s_audio
#     id: onju_out
#     dac_type: external
#     i2s_dout_pin: GPIO12
#     mode: stereo
######

microphone:
  - platform: i2s_audio
    id: onju_microphone
    i2s_din_pin: GPIO17
    adc_type: external
    pdm: false

voice_assistant:
  id: va
  microphone: onju_microphone
  media_player: onju_out
  ######
  # speaker: onju_out
  ######
  use_wake_word: true
  on_listening:
    - light.turn_on:
        id: top_led
        blue: 100%
        red: 100%
        green: 100%
        brightness: 100%
        effect: listening
  on_stt_vad_end:
    - light.turn_on:
        id: top_led
        blue: 100%
        red: 0%
        green: 20%
        brightness: 70%
        effect: processing
  on_tts_end:
    - media_player.play_media: !lambda return x;
    - light.turn_on:
        id: top_led
        blue: 0%
        red: 20%
        green: 100%
        effect: speaking
  on_end:
    - delay: 100ms
    - wait_until:
        not:
          media_player.is_playing: onju_out
    - script.execute: reset_led
  on_client_connected:
    - if:
        condition:
          and:
            - switch.is_on: use_wake_word
            - binary_sensor.is_off: mute_switch
        then:
          - voice_assistant.start_continuous:
  on_client_disconnected:
    - if:
        condition:
          and:
            - switch.is_on: use_wake_word
            - binary_sensor.is_off: mute_switch
        then:
          - voice_assistant.stop:
  on_error:
    - light.turn_on:
        id: top_led
        blue: 0%
        red: 100%
        green: 0%
        effect: none
    - delay: 1s
    - script.execute: reset_led

number:
  - platform: template
    name: "Touch threshold percentage"
    id: touch_threshold_percentage
    update_interval: never
    entity_category: config
    initial_value: 1.25
    min_value: -1
    max_value: 5
    step: 0.25
    optimistic: true
    on_value:
      then:
        - lambda: !lambda |-
            id(thresh_percent) = 0.01 * x;

esp32_touch:
  setup_mode: false
  sleep_duration: 2ms 
  measurement_duration: 800us
  low_voltage_reference: 0.8V
  high_voltage_reference: 2.4V

  filter_mode: IIR_16
  debounce_count: 2
  noise_threshold: 0
  jitter_step: 0
  smooth_mode: IIR_2

  denoise_grade: BIT8
  denoise_cap_level: L0

binary_sensor:
  - platform: esp32_touch
    id: volume_down
    pin: GPIO4
    threshold: 539000 # 533156-551132
    on_press:
      then:
        - light.turn_on: left_led
        - script.execute:
            id: set_volume
            volume: -0.05
        - delay: 0.75s
        - while:
            condition:
              binary_sensor.is_on: volume_down
            then:
              - script.execute:
                  id: set_volume
                  volume: -0.05
              - delay: 150ms
    on_release:
      then:
        - light.turn_off: left_led

  - platform: esp32_touch
    id: volume_up
    pin: GPIO2
    threshold: 580000 # 575735-593064
    on_press:
      then:
        - light.turn_on: right_led
        - script.execute:
            id: set_volume
            volume: 0.05
        - delay: 0.75s
        - while:
            condition:
              binary_sensor.is_on: volume_up
            then:
              - script.execute:
                  id: set_volume
                  volume: 0.05
              - delay: 150ms
    on_release:
      then:
        - light.turn_off: right_led

  - platform: esp32_touch
    id: action
    pin: GPIO3
    threshold: 751000 # 745618-767100
    on_click:
      - if:
          condition:
            or:
              - switch.is_off: use_wake_word
              - binary_sensor.is_on: mute_switch
          then:
            - logger.log:
                tag: "action_click"
                format: "Voice assistant is running: %s"
                args: ['id(va).is_running() ? "yes" : "no"']
            - if:
                condition: media_player.is_playing
                then:
                  - media_player.stop
            - if:
                condition: voice_assistant.is_running
                then:
                  - voice_assistant.stop:
                else:
                  - voice_assistant.start:
          else:
            - logger.log:
                tag: "action_click"
                format: "Voice assistant was running with wake word detection enabled. Starting continuously"
            - if:
                condition: media_player.is_playing
                then:
                  - media_player.stop
            - voice_assistant.stop
            - delay: 1s
            - script.execute: reset_led
            - script.wait: reset_led
            - voice_assistant.start_continuous:

  - platform: gpio
    id: mute_switch
    pin:
      number: GPIO38
      mode: INPUT_PULLUP
    name: Disable wake word
    on_press:
      - script.execute: turn_off_wake_word
    on_release:
      - script.execute: turn_on_wake_word

light:
  - platform: esp32_rmt_led_strip
    id: leds
    pin: GPIO11
    chipset: SK6812
    num_leds: 6
    rgb_order: grb
    rmt_channel: 0
    default_transition_length: 0s
    gamma_correct: 2.8
  - platform: partition
    id: left_led
    segments:
      - id: leds
        from: 0
        to: 0
    default_transition_length: 100ms
  - platform: partition
    id: top_led
    segments:
      - id: leds
        from: 1
        to: 4
    default_transition_length: 100ms
    effects:
      - pulse:
          name: pulse
          transition_length: 250ms
          update_interval: 250ms
      - pulse:
          name: slow_pulse
          transition_length: 1s
          update_interval: 2s
      - addressable_lambda:
          name: show_volume
          update_interval: 50ms
          lambda: |-
            int int_volume = int(id(onju_out).volume * 100.0f * it.size());
            int full_leds = int_volume / 100;
            int last_brightness = int_volume % 100;
            int i = 0;
            for(; i < full_leds; i++) {
              it[i] = Color::WHITE;
            }
            if(i < 4) {
              it[i++] = Color(0,0,0).fade_to_white(last_brightness*256/100);
            }
            for(; i < it.size(); i++) {
              it[i] = Color::BLACK;
            }
      - addressable_twinkle:
          name: listening_ww
          twinkle_probability: 1%
      - addressable_twinkle:
          name: listening
          twinkle_probability: 45%
      - addressable_scan:
          name: processing
          move_interval: 80ms
      - addressable_flicker:
          name: speaking
          intensity: 35%
  - platform: partition
    id: right_led
    segments:
      - id: leds
        from: 5
        to: 5
    default_transition_length: 100ms

script:
  - id: reset_led
    then:
      - if:
          condition:
            and:
              - switch.is_on: use_wake_word
              - binary_sensor.is_off: mute_switch
          then:
            - light.turn_on:
                id: top_led
                blue: 100%
                red: 100%
                green: 0%
                brightness: 60%
                effect: listening_ww
          else:
            - light.turn_off: top_led

  - id: set_volume
    mode: restart
    parameters:
      volume: float
    then:
      - media_player.volume_set:
          id: onju_out
          volume: !lambda return clamp(id(onju_out).volume+volume, 0.0f, 1.0f);
      - light.turn_on:
          id: top_led
          effect: show_volume
      - delay: 1s
      - script.execute: reset_led

  - id: turn_on_wake_word
    then:
      - if:
          condition:
            and:
              - binary_sensor.is_off: mute_switch
              - switch.is_on: use_wake_word
          then:
            - lambda: id(va).set_use_wake_word(true);
            - if:
                condition:
                  media_player.is_playing:
                then:
                  - media_player.stop:
            - if:
                condition:
                  not:
                    - voice_assistant.is_running
                then:
                  - voice_assistant.start_continuous
            - script.execute: reset_led
          else:
            - logger.log:
                tag: "turn_on_wake_word"
                format: "Trying to start listening for wake word, but %s"
                args:
                  [
                    'id(mute_switch).state ? "mute switch is on" : "use wake word toggle is off"',
                  ]
                level: "INFO"

  - id: turn_off_wake_word
    then:
      - voice_assistant.stop
      - lambda: id(va).set_use_wake_word(false);
      - script.execute: reset_led

  - id: calibrate_touch
    parameters:
      button: int
    then:
      - lambda: |-
          static byte thresh_indices[3] = {0, 0, 0};
          static uint32_t sums[3] = {0, 0, 0};
          static byte qsizes[3] = {0, 0, 0};
          static int consecutive_anomalies_per_button[3] = {0, 0, 0};

          uint32_t newval;
          uint32_t* calibration_values;
          switch(button) {
            case 0:
              newval = id(volume_down).get_value();
              calibration_values = id(touch_calibration_values_left);
              break;
            case 1:
              newval = id(action).get_value();
              calibration_values = id(touch_calibration_values_center);
              break;
            case 2:
              newval = id(volume_up).get_value();
              calibration_values = id(touch_calibration_values_right);
              break;
            default:
              ESP_LOGE("touch_calibration", "Invalid button ID (%d)", button);
              return;
          }

          if(newval == 0) return;

          //ESP_LOGD("touch_calibration", "[%d] qsize %d, sum %d, thresh_index %d, consecutive_anomalies %d", button, qsizes[button], sums[button], thresh_indices[button], consecutive_anomalies_per_button[button]);
          //ESP_LOGD("touch_calibration", "[%d] New value is %d", button, newval);

          if(qsizes[button] == 5) {
            float avg = float(sums[button])/float(qsizes[button]);
            if((fabs(float(newval)-avg)/avg) > id(thresh_percent)) {
              consecutive_anomalies_per_button[button]++;
              //ESP_LOGD("touch_calibration", "[%d] %d anomalies detected.", button, consecutive_anomalies_per_button[button]);
              if(consecutive_anomalies_per_button[button] < 10)
                return;
            } 
          }

          //ESP_LOGD("touch_calibration", "[%d] Resetting consecutive anomalies counter.", button);
          consecutive_anomalies_per_button[button] = 0;


          if(qsizes[button] == 5) {
            //ESP_LOGD("touch_calibration", "[%d] Queue full, removing %d.", button, id(touch_calibration_values)[thresh_indices[button]]);
            sums[button] -= (uint32_t) *(calibration_values+thresh_indices[button]);// id(touch_calibration_values)[thresh_indices[button]];
            qsizes[button]--;
          }
          *(calibration_values+thresh_indices[button]) = newval;
          sums[button] += newval;
          qsizes[button]++;
          thresh_indices[button] = (thresh_indices[button] + 1) % 5;

          //ESP_LOGD("touch_calibration", "[%d] Average value is %d", button, sums[button]/qsizes[button]);
          uint32_t newthresh = uint32_t((sums[button]/qsizes[button]) * (1.0 + id(thresh_percent)));
          //ESP_LOGD("touch_calibration", "[%d] Setting threshold %d", button, newthresh);

          switch(button) {
            case 0:
              id(volume_down).set_threshold(newthresh);
              break;
            case 1:
              id(action).set_threshold(newthresh);
              break;
            case 2:
              id(volume_up).set_threshold(newthresh);
              break;
            default:
              ESP_LOGE("touch_calibration", "Invalid button ID (%d)", button);
              return;
          }

switch:
  - platform: template
    name: Use Wake Word
    id: use_wake_word
    optimistic: true
    restore_mode: RESTORE_DEFAULT_ON
    on_turn_on:
      - script.execute: turn_on_wake_word
    on_turn_off:
      - script.execute: turn_off_wake_word

Hi guys, I'm trying to install onju voice microwakeword from ha esphome add ons but it gets stuck on Preparing installation and the CPU Usage is at 100 percent. But when I install onju voice without the microwakeword everything works fine. Can someone please direct me?

@yahav-bot the build takes much longer, especially on an underpowered machine. I've heard reports of 1h30' on a HA Green. I have a pretty big i5 with 32GB RAM and it takes ~5-7 minutes, compared to ~1 minute for the config without MWW.

Won't it damage the machine if it stays at 100 percent for the Processor so long time?

@yahav-bot It should not damage the cpu, in case of you can watch the cpu temperature or overall temperature of the box. By the way those kind of questions or not specific to onju so you can easily find good answer on the forum or every other support space for home assistant