jdillenburg-esphome/trash/mmwave-detector3.yaml

# Enable Home Assistant API
api:
  encryption:
    key: "eBrxqMp+lU7nOEmQBcl5hZsexSr+NcdhF6xa/0HPbig="

ota:
  password: "7ca0ac054d39eec0e41ab0e28b7916ee"

wifi:
  ssid: !secret wifi_ssid
  password: !secret wifi_password

  # Enable fallback hotspot (captive portal) in case wifi connection fails
  ap:
    ssid: "Mmwave-Detector3"
    password: "xNAPBrJVQfuy"

captive_portal:
substitutions:
  devicename: "mmwave-detector3" #Rename the device what you want.
  upper_devicename: ESP Radar #Rename the device what you want.
esphome:
  name: $devicename
  friendly_name: $devicename
  on_boot:    #LD1125H Initial Setting
    priority: -200
    then:
      - uart.write:
          id: LD1125H_UART_BUS
          data: !lambda |-
            std::string th1stm = "mth1_mov=" + str_sprintf("%.0f",id(LD1125H_mth1_mov).state) +"\r\n";
            return std::vector<uint8_t>(th1stm.begin(), th1stm.end());
      - uart.write:
          id: LD1125H_UART_BUS
          data: !lambda |-
            std::string th2stm = "mth2_mov=" + str_sprintf("%.0f",id(LD1125H_mth2_mov).state) +"\r\n";
            return std::vector<uint8_t>(th2stm.begin(), th2stm.end());
      - uart.write:
          id: LD1125H_UART_BUS
          data: !lambda |-
            std::string th3stm = "mth3_mov=" + str_sprintf("%.0f",id(LD1125H_mth3_mov).state) +"\r\n";
            return std::vector<uint8_t>(th3stm.begin(), th3stm.end());
      - uart.write:
          id: LD1125H_UART_BUS
          data: !lambda |-
            std::string th1sto = "mth1_occ=" + str_sprintf("%.0f",id(LD1125H_mth1_occ).state) +"\r\n";
            return std::vector<uint8_t>(th1sto.begin(), th1sto.end());
      - uart.write:
          id: LD1125H_UART_BUS
          data: !lambda |-
            std::string th2sto = "mth2_occ=" + str_sprintf("%.0f",id(LD1125H_mth2_occ).state) +"\r\n";
            return std::vector<uint8_t>(th2sto.begin(), th2sto.end());
      - uart.write:
          id: LD1125H_UART_BUS
          data: !lambda |-
            std::string th3sto = "mth3_occ=" + str_sprintf("%.0f",id(LD1125H_mth3_occ).state) +"\r\n";
            return std::vector<uint8_t>(th3sto.begin(), th3sto.end());
      - uart.write:
          id: LD1125H_UART_BUS
          data: !lambda |-
            std::string rmaxst = "rmax=" + str_sprintf("%.1f",id(LD1125H_rmax).state) +"\r\n";
            return std::vector<uint8_t>(rmaxst.begin(), rmaxst.end());
      - uart.write:
          id: LD1125H_UART_BUS
          data: !lambda |-
            std::string getallst = "get_all\r\n";
            return std::vector<uint8_t>(getallst.begin(), getallst.end());
esp32:
  board: nodemcu-32s
  framework:
    type: arduino
external_components:
  - source:
      type: git
      url: https://github.com/ssieb/custom_components #Thanks for @ssieb components.
    components: [ serial ]
logger:
  level: DEBUG  #You Can Use "INFO" Level
  baud_rate: 0
uart:
  id: LD1125H_UART_BUS
  rx_pin: GPIO16  #For ESP32, you can use any pin, Recommend Use UART_2, Don't use UART_0, It might Cause Boot Fail or System Hang
  tx_pin: GPIO17  #For ESP32, you can use any pin, Recommend Use UART_2, Don't use UART_0, It might Cause Boot Fail or System Hang
  baud_rate: 115200
  data_bits: 8
  stop_bits: 1
  parity: NONE
#  debug:
#    direction: BOTH
#    dummy_receiver: false
#    after:
#      delimiter: "\n"
#    sequence:
#      - lambda: UARTDebug::log_string(direction, bytes);
globals:
  - id: LD1125H_Last_Time
    type: time_t
    restore_value: no
    initial_value: time(NULL)
  - id: LD1125H_Last_Mov_Time
    type: time_t
    restore_value: no
    initial_value: time(NULL)
  - id: LD1125H_Clearence_Status
    type: bool
    restore_value: no
    initial_value: "false"
status_led:
  pin:
    number: GPIO2 #ESP32 OnBroad LED
    inverted: false
#web_server:   #Avoid Using Web Server To Prevent Hang
#  port: 80
interval:
  - interval: 1s #Clearance Scan Time
    setup_priority: -200
    then:
      lambda: |-
        if ((time(NULL)-id(LD1125H_Last_Time))>id(LD1125H_Clear_Time).state) {
          if ((id(LD1125H_Clearence_Status) == false) || (id(LD1125H_Occupancy).state != "Clearance")) {
            id(LD1125H_Occupancy).publish_state("Clearance");
            id(LD1125H_Clearence_Status) = true;
          }
          if (id(LD1125H_MovOcc_Binary).state == true) {
            id(LD1125H_MovOcc_Binary).publish_state(false);
          }
          if (id(LD1125H_Mov_Binary).state == true) {
            id(LD1125H_Mov_Binary).publish_state(false);
          }
        }
number:
  - platform: template
    name: ${upper_devicename} LD1125H mth1 mov #mth1 mov is 0~2.8m motion detection threshold.
    id: LD1125H_mth1_mov
    icon: "mdi:cogs"
    optimistic: true
    restore_value: true #If you don't want to store the setting at ESP, set it to false.
    initial_value: "30.0" #Default mth1_mov Setting
    min_value: 10.0
    max_value: 600.0
    step: 5.0
    set_action:
      then:
        - uart.write:
            id: LD1125H_UART_BUS
            data: !lambda |-
              std::string th1st = "mth1_mov=" + str_sprintf("%.0f",x) +"\r\n";
              return std::vector<uint8_t>(th1st.begin(), th1st.end());
  - platform: template
    name: ${upper_devicename} LD1125H mth2 mov #mth2 mov is 2.8~8m motion detection threshold.
    id: LD1125H_mth2_mov
    icon: "mdi:cogs"
    optimistic: true
    restore_value: true #If you don't want to store the setting at ESP, set it to false.
    initial_value: "15" #Default mth2_mov Setting
    min_value: 5
    max_value: 300
    step: 5
    set_action:
      then:
        - uart.write:
            id: LD1125H_UART_BUS
            data: !lambda |-
              std::string th2st = "mth2_mov=" + str_sprintf("%.0f",x) +"\r\n";
              return std::vector<uint8_t>(th2st.begin(), th2st.end());
  - platform: template
    name: ${upper_devicename} LD1125H mth3 mov #mth3 mov is above 8m motion detection threshold.
    id: LD1125H_mth3_mov
    icon: "mdi:cogs"
    optimistic: true
    restore_value: true #If you don't want to store the setting at ESP, set it to false.
    initial_value: "6" #Default mth3_mov Setting
    min_value: 5
    max_value: 200
    step: 5
    set_action:
      then:
        - uart.write:
            id: LD1125H_UART_BUS
            data: !lambda |-
              std::string th3st = "mth3_mov=" + str_sprintf("%.0f",x) +"\r\n";
              return std::vector<uint8_t>(th3st.begin(), th3st.end());
  - platform: template
    name: ${upper_devicename} LD1125H mth1 occ #mth1 occ is 0~2.8m detection threshold.
    id: LD1125H_mth1_occ
    icon: "mdi:cogs"
    optimistic: true
    restore_value: true #If you don't want to store the setting at ESP, set it to false.
    initial_value: "30.0" #Default mth1_mov Setting
    min_value: 10.0
    max_value: 600.0
    step: 5.0
    set_action:
      then:
        - uart.write:
            id: LD1125H_UART_BUS
            data: !lambda |-
              std::string th1st = "mth1_occ=" + str_sprintf("%.0f",x) +"\r\n";
              return std::vector<uint8_t>(th1st.begin(), th1st.end());
  - platform: template
    name: ${upper_devicename} LD1125H mth2 occ #mth2 occ is 2.8~8m detection threshold.
    id: LD1125H_mth2_occ
    icon: "mdi:cogs"
    optimistic: true
    restore_value: true #If you don't want to store the setting at ESP, set it to false.
    initial_value: "15" #Default mth2_mov Setting
    min_value: 5
    max_value: 300
    step: 5
    set_action:
      then:
        - uart.write:
            id: LD1125H_UART_BUS
            data: !lambda |-
              std::string th2st = "mth2_occ=" + str_sprintf("%.0f",x) +"\r\n";
              return std::vector<uint8_t>(th2st.begin(), th2st.end());
  - platform: template
    name: ${upper_devicename} LD1125H mth3 occ #mth3 occ is above 8m detection threshold.
    id: LD1125H_mth3_occ
    icon: "mdi:cogs"
    optimistic: true
    restore_value: true #If you don't want to store the setting at ESP, set it to false.
    initial_value: "6" #Default mth3_mov Setting
    min_value: 5
    max_value: 200
    step: 5
    set_action:
      then:
        - uart.write:
            id: LD1125H_UART_BUS
            data: !lambda |-
              std::string th3st = "mth3_occ=" + str_sprintf("%.0f",x) +"\r\n";
              return std::vector<uint8_t>(th3st.begin(), th3st.end());
  - platform: template
    name: ${upper_devicename} LD1125H rmax #rmax is max detection distance.
    id: LD1125H_rmax
    icon: "mdi:cogs"
    optimistic: true
    restore_value: true #If you don't want to store the setting at ESP, set it to false.
    initial_value: "8" #Default rmax Setting
    min_value: 0.4
    max_value: 12
    step: 0.2
    set_action:
      then:
        - uart.write:
            id: LD1125H_UART_BUS
            data: !lambda |-
              std::string rmaxst = "rmax=" + str_sprintf("%.1f",x) +"\r\n";
              return std::vector<uint8_t>(rmaxst.begin(), rmaxst.end());
  - platform: template
    name: ${upper_devicename} LD1125H Clearence Time
    id: LD1125H_Clear_Time
    icon: "mdi:cogs"
    optimistic: true
    restore_value: true #If you don't want to store the setting at ESP, set it to false.
    initial_value: "5" #LD1125H Mov/Occ > Clearence Time Here
    min_value: 0.5
    max_value: 60
    step: 0.5
  - platform: template
    name: ${upper_devicename} LD1125H Movement Time
    id: LD1125H_Mov_Time
    icon: "mdi:cogs"
    optimistic: true
    restore_value: true #If you don't want to store the setting at ESP, set it to false.
    initial_value: "1" #LD1125H Mov > Occ Time Here
    min_value: 0.5
    max_value: 10
    step: 0.5
sensor:
  - platform: template
    name: ${upper_devicename} LD1125H Distance
    id: LD1125H_Distance
    icon: "mdi:signal-distance-variant"
    unit_of_measurement: "m"
    accuracy_decimals: 2
    filters:    # Use Fliter To Debounce
    - sliding_window_moving_average:
        window_size: 8
        send_every: 2
    - heartbeat: 0.2s
text_sensor:
  - platform: serial
    uart_id: LD1125H_UART_BUS
    name: ${upper_devicename} LD1125H UART Text
    id: LD1125H_UART_Text
    icon: "mdi:format-text"
    internal: False #If Don't Want to See UART Receive Data, Set To True
    on_value:
      lambda: |-
        if (id(LD1125H_UART_Text).state.substr(0,3) == "occ") {
          id(LD1125H_Distance).publish_state(atof(id(LD1125H_UART_Text).state.substr(9).c_str()));
          if ((time(NULL)-id(LD1125H_Last_Mov_Time))>id(LD1125H_Mov_Time).state) {
            id(LD1125H_Occupancy).publish_state("Occupancy");
            if (id(LD1125H_MovOcc_Binary).state == false) {
              id(LD1125H_MovOcc_Binary).publish_state(true);
            }
            if (id(LD1125H_Mov_Binary).state == true) {
              id(LD1125H_Mov_Binary).publish_state(false);
            }
          }
          if (id(LD1125H_MovOcc_Binary).state == false) {
            id(LD1125H_MovOcc_Binary).publish_state(true);
          }
          id(LD1125H_Last_Time) = time(NULL);
          if (id(LD1125H_Clearence_Status) == true) {
            id(LD1125H_Clearence_Status) = false;
          }
        }
        else if (id(LD1125H_UART_Text).state.substr(0,3) == "mov") {
          id(LD1125H_Distance).publish_state(atof(id(LD1125H_UART_Text).state.substr(9).c_str()));
          id(LD1125H_Occupancy).publish_state("Movement");
          if (id(LD1125H_MovOcc_Binary).state == false) {
            id(LD1125H_MovOcc_Binary).publish_state(true);
          }
          if (id(LD1125H_Mov_Binary).state == false) {
            id(LD1125H_Mov_Binary).publish_state(true);
          }
          id(LD1125H_Last_Mov_Time) = time(NULL);
          id(LD1125H_Last_Time) = time(NULL);
          if (id(LD1125H_Clearence_Status) == true) {
            id(LD1125H_Clearence_Status) = false;
          }
        }
  - platform: template
    name: ${upper_devicename} LD1125H Occupancy Status
    id: LD1125H_Occupancy
    icon: "mdi:motion-sensor"
binary_sensor:
  - platform: template
    name: ${upper_devicename} LD1125H Occupancy or Movement
    id: LD1125H_MovOcc_Binary
    device_class: occupancy
  - platform: template
    name: ${upper_devicename} LD1125H Movement
    id: LD1125H_Mov_Binary
    device_class: motion