esphome: name: $devicename platform: ESP32 board: nodemcu-32s build_path: build/test4 substitutions: devicename: test-4 ethernet: type: LAN8720 mdc_pin: GPIO23 mdio_pin: GPIO25 clk_mode: GPIO0_IN phy_addr: 0 power_pin: GPIO25 manual_ip: static_ip: 192.168.178.56 gateway: 192.168.178.1 subnet: 255.255.255.0 domain: .local api: i2c: sda: 21 scl: 22 scan: False spi: clk_pin: GPIO21 mosi_pin: GPIO22 miso_pin: GPIO23 uart: tx_pin: GPIO22 rx_pin: GPIO23 baud_rate: 115200 ota: safe_mode: True port: 3286 logger: level: DEBUG web_server: auth: username: admin password: admin time: - platform: sntp id: sntp_time tuya: time_id: sntp_time pipsolar: id: inverter0 sensor: - platform: homeassistant entity_id: sensor.hello_world id: ha_hello_world - platform: tuya id: tuya_sensor sensor_datapoint: 1 - platform: pipsolar pipsolar_id: inverter0 grid_rating_voltage: id: inverter0_grid_rating_voltage name: inverter0_grid_rating_voltage grid_rating_current: id: inverter0_grid_rating_current name: inverter0_grid_rating_current ac_output_rating_voltage: id: inverter0_ac_output_rating_voltage name: inverter0_ac_output_rating_voltage ac_output_rating_frequency: id: inverter0_ac_output_rating_frequency name: inverter0_ac_output_rating_frequency ac_output_rating_current: id: inverter0_ac_output_rating_current name: inverter0_ac_output_rating_current ac_output_rating_apparent_power: id: inverter0_ac_output_rating_apparent_power name: inverter0_ac_output_rating_apparent_power ac_output_rating_active_power: id: inverter0_ac_output_rating_active_power name: inverter0_ac_output_rating_active_power battery_rating_voltage: id: inverter0_battery_rating_voltage name: inverter0_battery_rating_voltage battery_recharge_voltage: id: inverter0_battery_recharge_voltage name: inverter0_battery_recharge_voltage battery_under_voltage: id: inverter0_battery_under_voltage name: inverter0_battery_under_voltage battery_bulk_voltage: id: inverter0_battery_bulk_voltage name: inverter0_battery_bulk_voltage battery_float_voltage: id: inverter0_battery_float_voltage name: inverter0_battery_float_voltage battery_type: id: inverter0_battery_type name: inverter0_battery_type current_max_ac_charging_current: id: inverter0_current_max_ac_charging_current name: inverter0_current_max_ac_charging_current current_max_charging_current: id: inverter0_current_max_charging_current name: inverter0_current_max_charging_current input_voltage_range: id: inverter0_input_voltage_range name: inverter0_input_voltage_range output_source_priority: id: inverter0_output_source_priority name: inverter0_output_source_priority charger_source_priority: id: inverter0_charger_source_priority name: inverter0_charger_source_priority parallel_max_num: id: inverter0_parallel_max_num name: inverter0_parallel_max_num machine_type: id: inverter0_machine_type name: inverter0_machine_type topology: id: inverter0_topology name: inverter0_topology output_mode: id: inverter0_output_mode name: inverter0_output_mode battery_redischarge_voltage: id: inverter0_battery_redischarge_voltage name: inverter0_battery_redischarge_voltage pv_ok_condition_for_parallel: id: inverter0_pv_ok_condition_for_parallel name: inverter0_pv_ok_condition_for_parallel pv_power_balance: id: inverter0_pv_power_balance name: inverter0_pv_power_balance grid_voltage: id: inverter0_grid_voltage name: inverter0_grid_voltage grid_frequency: id: inverter0_grid_frequency name: inverter0_grid_frequency ac_output_voltage: id: inverter0_ac_output_voltage name: inverter0_ac_output_voltage ac_output_frequency: id: inverter0_ac_output_frequency name: inverter0_ac_output_frequency ac_output_apparent_power: id: inverter0_ac_output_apparent_power name: inverter0_ac_output_apparent_power ac_output_active_power: id: inverter0_ac_output_active_power name: inverter0_ac_output_active_power output_load_percent: id: inverter0_output_load_percent name: inverter0_output_load_percent bus_voltage: id: inverter0_bus_voltage name: inverter0_bus_voltage battery_voltage: id: inverter0_battery_voltage name: inverter0_battery_voltage battery_charging_current: id: inverter0_battery_charging_current name: inverter0_battery_charging_current battery_capacity_percent: id: inverter0_battery_capacity_percent name: inverter0_battery_capacity_percent inverter_heat_sink_temperature: id: inverter0_inverter_heat_sink_temperature name: inverter0_inverter_heat_sink_temperature pv_input_current_for_battery: id: inverter0_pv_input_current_for_battery name: inverter0_pv_input_current_for_battery pv_input_voltage: id: inverter0_pv_input_voltage name: inverter0_pv_input_voltage battery_voltage_scc: id: inverter0_battery_voltage_scc name: inverter0_battery_voltage_scc battery_discharge_current: id: inverter0_battery_discharge_current name: inverter0_battery_discharge_current battery_voltage_offset_for_fans_on: id: inverter0_battery_voltage_offset_for_fans_on name: inverter0_battery_voltage_offset_for_fans_on eeprom_version: id: inverter0_eeprom_version name: inverter0_eeprom_version pv_charging_power: id: inverter0_pv_charging_power name: inverter0_pv_charging_power - platform: "hrxl_maxsonar_wr" name: "Rainwater Tank Level" filters: - sliding_window_moving_average: window_size: 12 send_every: 12 - or: - throttle: "20min" - delta: 0.02 # # platform sensor.apds9960 requires component apds9960 # # - platform: apds9960 # type: proximity # name: APDS9960 Proximity # - platform: apds9960 # type: clear # name: APDS9960 Clear # - platform: apds9960 # type: red # name: APDS9960 Red # - platform: apds9960 # type: green # name: APDS9960 Green # - platform: apds9960 # type: blue # name: APDS9960 Blue binary_sensor: - platform: tuya id: tuya_binary_sensor sensor_datapoint: 1 - platform: pipsolar pipsolar_id: inverter0 add_sbu_priority_version: id: inverter0_add_sbu_priority_version name: inverter0_add_sbu_priority_version configuration_status: id: inverter0_configuration_status name: inverter0_configuration_status scc_firmware_version: id: inverter0_scc_firmware_version name: inverter0_scc_firmware_version load_status: id: inverter0_load_status name: inverter0_load_status battery_voltage_to_steady_while_charging: id: inverter0_battery_voltage_to_steady_while_charging name: inverter0_battery_voltage_to_steady_while_charging charging_status: id: inverter0_charging_status name: inverter0_charging_status scc_charging_status: id: inverter0_scc_charging_status name: inverter0_scc_charging_status ac_charging_status: id: inverter0_ac_charging_status name: inverter0_ac_charging_status charging_to_floating_mode: id: inverter0_charging_to_floating_mode name: inverter0_charging_to_floating_mode switch_on: id: inverter0_switch_on name: inverter0_switch_on dustproof_installed: id: inverter0_dustproof_installed name: inverter0_dustproof_installed silence_buzzer_open_buzzer: id: inverter0_silence_buzzer_open_buzzer name: inverter0_silence_buzzer_open_buzzer overload_bypass_function: id: inverter0_overload_bypass_function name: inverter0_overload_bypass_function lcd_escape_to_default: id: inverter0_lcd_escape_to_default name: inverter0_lcd_escape_to_default overload_restart_function: id: inverter0_overload_restart_function name: inverter0_overload_restart_function over_temperature_restart_function: id: inverter0_over_temperature_restart_function name: inverter0_over_temperature_restart_function backlight_on: id: inverter0_backlight_on name: inverter0_backlight_on - platform: template id: ar1 lambda: 'return {};' filters: - autorepeat: - delay: 2s time_off: 100ms time_on: 900ms - delay: 4s time_off: 100ms time_on: 400ms on_state: then: - lambda: 'ESP_LOGI("ar1:", "%d", x);' - platform: xpt2046 xpt2046_id: touchscreen id: touch_key0 x_min: 80 x_max: 160 y_min: 106 y_max: 212 on_state: - lambda: 'ESP_LOGI("main", "key0: %s", (x ? "touch" : "release"));' climate: - platform: tuya id: tuya_climate switch_datapoint: 1 target_temperature_datapoint: 3 current_temperature_multiplier: 0.5 target_temperature_multiplier: 0.5 switch: - platform: tuya id: tuya_switch switch_datapoint: 1 - platform: pipsolar pipsolar_id: inverter0 output_source_priority_utility: name: inverter0_output_source_priority_utility output_source_priority_solar: name: inverter0_output_source_priority_solar output_source_priority_battery: name: inverter0_output_source_priority_battery input_voltage_range: name: inverter0_input_voltage_range pv_ok_condition_for_parallel: name: inverter0_pv_ok_condition_for_parallel pv_power_balance: name: inverter0_pv_power_balance light: - platform: fastled_clockless id: led_matrix_32x8 name: "led_matrix_32x8" chipset: WS2812B pin: GPIO15 num_leds: 256 rgb_order: GRB default_transition_length: 0s color_correct: [50%, 50%, 50%] - platform: tuya id: tuya_light switch_datapoint: 1 dimmer_datapoint: 2 min_value_datapoint: 3 color_temperature_datapoint: 4 min_value: 1 max_value: 100 cold_white_color_temperature: 153 mireds warm_white_color_temperature: 500 mireds gamma_correct: 1 cover: - platform: tuya id: tuya_cover position_datapoint: 2 display: - platform: addressable_light id: led_matrix_32x8_display addressable_light_id: led_matrix_32x8 width: 32 height: 8 pixel_mapper: |- if (x % 2 == 0) { return (x * 8) + y; } return (x * 8) + (7 - y); lambda: |- Color red = Color(0xFF0000); Color green = Color(0x00FF00); Color blue = Color(0x0000FF); it.rectangle(0, 0, it.get_width(), it.get_height(), red); it.rectangle(1, 1, it.get_width()-2, it.get_height()-2, green); it.rectangle(2, 2, it.get_width()-4, it.get_height()-4, blue); it.rectangle(3, 3, it.get_width()-6, it.get_height()-6, red); rotation: 0° update_interval: 16ms - platform: waveshare_epaper cs_pin: GPIO23 dc_pin: GPIO23 busy_pin: GPIO23 reset_pin: GPIO23 model: 2.13in-ttgo-b1 full_update_every: 30 lambda: |- it.rectangle(0, 0, it.get_width(), it.get_height()); - platform: waveshare_epaper cs_pin: GPIO23 dc_pin: GPIO23 busy_pin: GPIO23 reset_pin: GPIO23 model: 2.90in full_update_every: 30 lambda: |- it.rectangle(0, 0, it.get_width(), it.get_height()); - platform: waveshare_epaper cs_pin: GPIO23 dc_pin: GPIO23 busy_pin: GPIO23 reset_pin: GPIO23 model: 2.90inv2 full_update_every: 30 lambda: |- it.rectangle(0, 0, it.get_width(), it.get_height()); - platform: inkplate6 id: inkplate_display greyscale: false partial_updating: false update_interval: 60s ckv_pin: GPIO1 sph_pin: GPIO1 gmod_pin: GPIO1 gpio0_enable_pin: GPIO1 oe_pin: GPIO1 spv_pin: GPIO1 powerup_pin: GPIO1 wakeup_pin: GPIO1 vcom_pin: GPIO1 text_sensor: - platform: pipsolar pipsolar_id: inverter0 device_mode: id: inverter0_device_mode name: inverter0_device_mode last_qpigs: id: inverter0_last_qpigs name: inverter0_last_qpigs last_qpiri: id: inverter0_last_qpiri name: inverter0_last_qpiri last_qmod: id: inverter0_last_qmod name: inverter0_last_qmod last_qflag: id: inverter0_last_qflag name: inverter0_last_qflag output: - platform: pipsolar pipsolar_id: inverter0 battery_recharge_voltage: id: inverter0_battery_recharge_voltage_out esp32_camera: name: ESP-32 Camera data_pins: [GPIO17, GPIO35, GPIO34, GPIO5, GPIO39, GPIO18, GPIO36, GPIO19] vsync_pin: GPIO22 href_pin: GPIO26 pixel_clock_pin: GPIO21 external_clock: pin: GPIO27 frequency: 20MHz i2c_pins: sda: GPIO25 scl: GPIO23 reset_pin: GPIO15 power_down_pin: GPIO1 resolution: 640x480 jpeg_quality: 10 external_components: - source: github://esphome/esphome@dev refresh: 1d components: ["bh1750"] - source: ../esphome/components components: ["sntp"] xpt2046: id: touchscreen cs_pin: 17 irq_pin: 16 update_interval: 50ms report_interval: 1s threshold: 400 dimension_x: 240 dimension_y: 320 calibration_x_min: 3860 calibration_x_max: 280 calibration_y_min: 340 calibration_y_max: 3860 swap_x_y: False on_state: - lambda: |- ESP_LOGI("main", "args x=%d, y=%d, touched=%s", x, y, (touched ? "touch" : "release")); ESP_LOGI("main", "member x=%d, y=%d, touched=%d, x_raw=%d, y_raw=%d, z_raw=%d", id(touchscreen).x, id(touchscreen).y, (int) id(touchscreen).touched, id(touchscreen).x_raw, id(touchscreen).y_raw, id(touchscreen).z_raw );