Plugin file
Plugin configuration file
{
"name": "milesight-iot-am319",
"version": "1.0.0",
"description": "The Milesight AM319 is a 9-in-1 LoRaWAN indoor air quality sensor. It monitors , PM2.5/10, temperature, and pollutants via a 4.2-inch E-ink screen.",
"author": "Thinger.io",
"license": "MIT",
"repository": {
"type": "git",
"url": "https://github.com/thinger-io/plugins.git",
"directory": "milesight-iot-am319"
},
"metadata": {
"name": "Milesight-Iot AM319",
"description": "The Milesight AM319 is a 9-in-1 LoRaWAN indoor air quality sensor. It monitors , PM2.5/10, temperature, and pollutants via a 4.2-inch E-ink screen.",
"image": "assets/am319.png",
"category": "devices",
"vendor": "milesight-iot"
},
"resources": {
"products": [
{
"config": {
"icons": []
},
"description": "The Milesight AM319 is a 9-in-1 LoRaWAN indoor air quality sensor. It monitors , PM2.5/10, temperature, and pollutants via a 4.2-inch E-ink screen.",
"enabled": true,
"name": "Milesight-Iot AM319",
"product": "milesight_iot_am319",
"profile": {
"api": {
"downlink": {
"enabled": true,
"handle_connectivity": false,
"request": {
"data": {
"path": "/downlink",
"payload": "{\n \"data\" : \"{{payload.data=\"\"}}\",\n \"port\" : {{payload.port=85}},\n \"priority\": {{payload.priority=3}},\n \"confirmed\" : {{payload.confirmed=false}},\n \"uplink\" : {{property.uplink}} \n}",
"payload_function": "",
"payload_type": "",
"plugin": "{{property.uplink.source}}",
"target": "plugin_endpoint"
}
},
"response": {
"data": {}
}
},
"uplink": {
"device_id_resolver": "getId",
"enabled": true,
"handle_connectivity": true,
"request": {
"data": {
"payload": "{{payload}}",
"payload_function": "",
"payload_type": "source_payload",
"resource_stream": "uplink",
"target": "resource_stream"
}
},
"response": {
"data": {}
}
}
},
"autoprovisions": {
"device_autoprovisioning": {
"config": {
"mode": "pattern",
"pattern": "am319_.*"
},
"enabled": true
}
},
"buckets": {
"milesight_am319_data": {
"backend": "mongodb",
"data": {
"payload": "{{payload}}",
"payload_function": "",
"payload_type": "source_payload",
"resource_stream": "uplink_decoded",
"source": "resource_stream"
},
"enabled": true,
"retention": {
"period": 3,
"unit": "months"
},
"tags": []
}
},
"code": {
"code": "function decodeThingerUplink(thingerData) {\n // 0. If data has already been decoded, we will return it\n if (thingerData.decodedPayload) return thingerData.decodedPayload;\n \n // 1. Extract and Validate Input\n // We need 'payload' (hex string) and 'fPort' (integer)\n const hexPayload = thingerData.payload || \"\";\n const port = thingerData.fPort || 1;\n\n // 2. Convert Hex String to Byte Array\n const bytes = [];\n for (let i = 0; i < hexPayload.length; i += 2) {\n bytes.push(parseInt(hexPayload.substr(i, 2), 16));\n }\n\n // 3. Dynamic Function Detection and Execution\n \n // CASE A: (The Things Stack v3)\n if (typeof decodeUplink === 'function') {\n try {\n const input = {\n bytes: bytes,\n fPort: port\n };\n var result = decodeUplink(input);\n \n if (result.data) return result.data;\n\n return result; \n } catch (e) {\n console.error(\"Error inside decodeUplink:\", e);\n throw e;\n }\n }\n\n // CASE B: Legacy TTN (v2)\n else if (typeof Decoder === 'function') {\n try {\n return Decoder(bytes, port);\n } catch (e) {\n console.error(\"Error inside Decoder:\", e);\n throw e;\n }\n }\n\n // CASE C: No decoder found\n else {\n throw new Error(\"No compatible TTN decoder function (decodeUplink or Decoder) found in scope.\");\n }\n}\n\n\n// TTN decoder\nfunction decodeUplink(input) {\n var res = Decoder(input.bytes, input.fPort);\n if (res.error) {\n return {\n errors: [res.error],\n };\n }\n return {\n data: res,\n };\n}\n\n\n/**\n * Payload Decoder\n *\n * Copyright 2025 Milesight IoT\n *\n * @product AM319 HCHO (v2)\n */\nvar RAW_VALUE = 0x00;\n\n\n// The Things Network\nfunction Decoder(bytes, port) {\n return milesightDeviceDecode(bytes);\n}\n/* eslint-enable */\n\nfunction milesightDeviceDecode(bytes) {\n var decoded = {};\n\n for (var i = 0; i < bytes.length; ) {\n var channel_id = bytes[i++];\n var channel_type = bytes[i++];\n\n // IPSO VERSION\n if (channel_id === 0xff && channel_type === 0x01) {\n decoded.ipso_version = readProtocolVersion(bytes[i]);\n i += 1;\n }\n // HARDWARE VERSION\n else if (channel_id === 0xff && channel_type === 0x09) {\n decoded.hardware_version = readHardwareVersion(bytes.slice(i, i + 2));\n i += 2;\n }\n // FIRMWARE VERSION\n else if (channel_id === 0xff && channel_type === 0x0a) {\n decoded.firmware_version = readFirmwareVersion(bytes.slice(i, i + 2));\n i += 2;\n }\n // DEVICE STATUS\n else if (channel_id === 0xff && channel_type === 0x0b) {\n decoded.device_status = readDeviceStatus(bytes[i]);\n i += 1;\n }\n // LORAWAN CLASS\n else if (channel_id === 0xff && channel_type === 0x0f) {\n decoded.lorawan_class = readLoRaWANClass(bytes[i]);\n i += 1;\n }\n // PRODUCT SERIAL NUMBER\n else if (channel_id === 0xff && channel_type === 0x16) {\n decoded.sn = readSerialNumber(bytes.slice(i, i + 8));\n i += 8;\n }\n // TSL VERSION\n else if (channel_id === 0xff && channel_type === 0xff) {\n decoded.tsl_version = readTslVersion(bytes.slice(i, i + 2));\n i += 2;\n }\n // BATTERY\n else if (channel_id === 0x01 && channel_type === 0x75) {\n decoded.battery = readUInt8(bytes[i]);\n i += 1;\n }\n // TEMPERATURE\n else if (channel_id === 0x03 && channel_type === 0x67) {\n // °C\n decoded.temperature = readInt16LE(bytes.slice(i, i + 2)) / 10;\n i += 2;\n }\n // HUMIDITY\n else if (channel_id === 0x04 && channel_type === 0x68) {\n decoded.humidity = readUInt8(bytes[i]) / 2;\n i += 1;\n }\n // PIR\n else if (channel_id === 0x05 && channel_type === 0x00) {\n decoded.pir = readPIRStatus(bytes[i]);\n i += 1;\n }\n // LIGHT\n else if (channel_id === 0x06 && channel_type === 0xcb) {\n decoded.light_level = readUInt8(bytes[i]);\n i += 1;\n }\n // CO2\n else if (channel_id === 0x07 && channel_type === 0x7d) {\n decoded.co2 = readUInt16LE(bytes.slice(i, i + 2));\n i += 2;\n }\n // TVOC (iaq)\n else if (channel_id === 0x08 && channel_type === 0x7d) {\n decoded.tvoc = readUInt16LE(bytes.slice(i, i + 2)) / 100;\n i += 2;\n }\n // TVOC (µg/m³)\n else if (channel_id === 0x08 && channel_type === 0xe6) {\n decoded.tvoc = readUInt16LE(bytes.slice(i, i + 2));\n i += 2;\n }\n // PRESSURE\n else if (channel_id === 0x09 && channel_type === 0x73) {\n decoded.pressure = readUInt16LE(bytes.slice(i, i + 2)) / 10;\n i += 2;\n }\n // HCHO\n else if (channel_id === 0x0a && channel_type === 0x7d) {\n decoded.hcho = readUInt16LE(bytes.slice(i, i + 2)) / 100;\n i += 2;\n }\n // PM2.5\n else if (channel_id === 0x0b && channel_type === 0x7d) {\n decoded.pm2_5 = readUInt16LE(bytes.slice(i, i + 2));\n i += 2;\n }\n // PM10\n else if (channel_id === 0x0c && channel_type === 0x7d) {\n decoded.pm10 = readUInt16LE(bytes.slice(i, i + 2));\n i += 2;\n }\n // BEEP\n else if (channel_id === 0x0e && channel_type === 0x01) {\n decoded.buzzer_status = readBuzzerStatus(bytes[i]);\n i += 1;\n }\n // HISTORY DATA (AM319 CH2O)\n else if (channel_id === 0x20 && channel_type === 0xce) {\n var data = {};\n data.timestamp = readUInt32LE(bytes.slice(i, i + 4));\n data.temperature = readInt16LE(bytes.slice(i + 4, i + 6)) / 10;\n data.humidity = readUInt16LE(bytes.slice(i + 6, i + 8)) / 2;\n data.pir = readPIRStatus(bytes[i + 8]);\n data.light_level = readUInt8(bytes[i + 9]);\n data.co2 = readUInt16LE(bytes.slice(i + 10, i + 12));\n // unit: iaq\n data.tvoc = readUInt16LE(bytes.slice(i + 12, i + 14)) / 100;\n data.pressure = readUInt16LE(bytes.slice(i + 14, i + 16)) / 10;\n data.pm2_5 = readUInt16LE(bytes.slice(i + 16, i + 18));\n data.pm10 = readUInt16LE(bytes.slice(i + 18, i + 20));\n data.hcho = readUInt16LE(bytes.slice(i + 20, i + 22)) / 100;\n i += 22;\n\n decoded.history = decoded.history || [];\n decoded.history.push(data);\n }\n // HISTORY DATA (AM319 CH2O) with tvoc unit: µg/m³\n else if (channel_id === 0x21 && channel_type === 0xce) {\n var data = {};\n data.timestamp = readUInt32LE(bytes.slice(i, i + 4));\n data.temperature = readInt16LE(bytes.slice(i + 4, i + 6)) / 10;\n data.humidity = readUInt16LE(bytes.slice(i + 6, i + 8)) / 2;\n data.pir = readPIRStatus(bytes[i + 8]);\n data.light_level = readUInt8(bytes[i + 9]);\n data.co2 = readUInt16LE(bytes.slice(i + 10, i + 12));\n // unit: µg/m³\n data.tvoc = readUInt16LE(bytes.slice(i + 12, i + 14));\n data.pressure = readUInt16LE(bytes.slice(i + 14, i + 16)) / 10;\n data.pm2_5 = readUInt16LE(bytes.slice(i + 16, i + 18));\n data.pm10 = readUInt16LE(bytes.slice(i + 18, i + 20));\n data.hcho = readUInt16LE(bytes.slice(i + 20, i + 22)) / 100;\n i += 22;\n\n decoded.history = decoded.history || [];\n decoded.history.push(data);\n }\n // RESPONSE DATA\n else if (channel_id === 0xfe || channel_id === 0xff) {\n var result = handle_downlink_response(channel_type, bytes, i);\n decoded = Object.assign(decoded, result.data);\n i = result.offset;\n } else {\n break;\n }\n }\n\n return decoded;\n}\n\nfunction handle_downlink_response(channel_type, bytes, offset) {\n var decoded = {};\n\n switch (channel_type) {\n case 0x03:\n decoded.report_interval = readUInt16LE(bytes.slice(offset, offset + 2));\n offset += 2;\n break;\n case 0x10:\n decoded.reboot = readYesNoStatus(1);\n offset += 1;\n break;\n case 0x17:\n decoded.time_zone = readTimeZone(readInt16LE(bytes.slice(offset, offset + 2)));\n offset += 2;\n break;\n case 0x1a:\n var mode_value = readUInt8(bytes[offset]);\n decoded.co2_calibration_settings = {};\n decoded.co2_calibration_settings.mode = readCalibrationMode(mode_value);\n if (mode_value === 2) {\n decoded.co2_calibration_settings.calibration_value = readUInt16LE(bytes.slice(offset + 1, offset + 3));\n offset += 3;\n } else {\n offset += 1;\n }\n break;\n case 0x25:\n decoded.child_lock_settings = readChildLockSettings(bytes[offset]);\n offset += 1;\n break;\n case 0x27:\n decoded.clear_history = readYesNoStatus(1);\n offset += 1;\n break;\n case 0x2c:\n decoded.query_status = readYesNoStatus(1);\n offset += 1;\n break;\n case 0x2d:\n decoded.screen_display_enable = readEnableStatus(bytes[offset]);\n offset += 1;\n break;\n case 0x2e:\n decoded.led_indicator_mode = readLedIndicatorMode(bytes[offset]);\n offset += 1;\n break;\n case 0xeb:\n decoded.tvoc_unit = readTVOCUnit(bytes[offset]);\n offset += 1;\n break;\n case 0x39:\n decoded.co2_abc_calibration_enable = readEnableStatus(bytes[offset]);\n offset += 1;\n break;\n case 0x3a:\n decoded.report_interval = readUInt16LE(bytes.slice(offset, offset + 2));\n offset += 2;\n break;\n case 0x3b:\n decoded.time_sync_enable = readEnableStatus(bytes[offset]);\n offset += 1;\n break;\n case 0x3c:\n decoded.screen_display_pattern = bytes[offset];\n offset += 1;\n break;\n case 0x3d:\n decoded.stop_buzzer = readYesNoStatus(1);\n offset += 1;\n break;\n case 0x3e:\n decoded.buzzer_enable = readEnableStatus(bytes[offset]);\n offset += 1;\n break;\n case 0x65:\n decoded.pm2_5_collection_interval = readUInt16LE(bytes.slice(offset, offset + 2));\n offset += 2;\n break;\n case 0x66:\n decoded.screen_display_alarm_enable = readEnableStatus(bytes[offset]);\n offset += 1;\n break;\n case 0x68:\n decoded.history_enable = readEnableStatus(bytes[offset]);\n offset += 1;\n break;\n case 0x69:\n decoded.retransmit_enable = readEnableStatus(bytes[offset]);\n offset += 1;\n break;\n case 0x6a:\n var interval_type = readUInt8(bytes[offset]);\n if (interval_type === 0) {\n decoded.retransmit_interval = readUInt16LE(bytes.slice(offset + 1, offset + 3));\n } else if (interval_type === 1) {\n decoded.resend_interval = readUInt16LE(bytes.slice(offset + 1, offset + 3));\n }\n offset += 3;\n break;\n case 0x6d:\n decoded.stop_transmit = readYesNoStatus(1);\n offset += 1;\n break;\n case 0xf0:\n decoded.screen_display_element_settings = readScreenDisplayElementSettings(bytes.slice(offset, offset + 4));\n offset += 4;\n break;\n case 0xf4:\n decoded.co2_calibration_enable = readEnableStatus(bytes[offset]);\n offset += 1;\n break;\n default:\n throw new Error(\"unknown downlink response\");\n }\n\n return { data: decoded, offset: offset };\n}\n\nfunction readProtocolVersion(bytes) {\n var major = (bytes & 0xf0) >> 4;\n var minor = bytes & 0x0f;\n return \"v\" + major + \".\" + minor;\n}\n\nfunction readHardwareVersion(bytes) {\n var major = (bytes[0] & 0xff).toString(16);\n var minor = (bytes[1] & 0xff) >> 4;\n return \"v\" + major + \".\" + minor;\n}\n\nfunction readFirmwareVersion(bytes) {\n var major = (bytes[0] & 0xff).toString(16);\n var minor = (bytes[1] & 0xff).toString(16);\n return \"v\" + major + \".\" + minor;\n}\n\nfunction readTslVersion(bytes) {\n var major = bytes[0] & 0xff;\n var minor = bytes[1] & 0xff;\n return \"v\" + major + \".\" + minor;\n}\n\nfunction readDeviceStatus(type) {\n var device_status_map = {\n 0: \"offline\",\n 1: \"online\",\n };\n return getValue(device_status_map, type);\n}\n\nfunction readSerialNumber(bytes) {\n var temp = [];\n for (var idx = 0; idx < bytes.length; idx++) {\n temp.push((\"0\" + (bytes[idx] & 0xff).toString(16)).slice(-2));\n }\n return temp.join(\"\");\n}\n\nfunction readLoRaWANClass(type) {\n var lorawan_class_map = {\n 0: \"Class A\",\n 1: \"Class B\",\n 2: \"Class C\",\n 3: \"Class CtoB\",\n };\n return getValue(lorawan_class_map, type);\n}\n\nfunction readPIRStatus(type) {\n var pir_status_map = { 0: \"idle\", 1: \"trigger\" };\n return getValue(pir_status_map, type);\n}\n\nfunction readBuzzerStatus(type) {\n var buzzer_status_map = { 0: \"off\", 1: \"on\" };\n return getValue(buzzer_status_map, type);\n}\n\nfunction readYesNoStatus(status) {\n var yes_no_map = { 0: \"no\", 1: \"yes\" };\n return getValue(yes_no_map, status);\n}\n\nfunction readEnableStatus(status) {\n var status_map = { 0: \"disable\", 1: \"enable\" };\n return getValue(status_map, status);\n}\n\nfunction readTimeZone(time_zone) {\n var timezone_map = { \"-120\": \"UTC-12\", \"-110\": \"UTC-11\", \"-100\": \"UTC-10\", \"-95\": \"UTC-9:30\", \"-90\": \"UTC-9\", \"-80\": \"UTC-8\", \"-70\": \"UTC-7\", \"-60\": \"UTC-6\", \"-50\": \"UTC-5\", \"-40\": \"UTC-4\", \"-35\": \"UTC-3:30\", \"-30\": \"UTC-3\", \"-20\": \"UTC-2\", \"-10\": \"UTC-1\", 0: \"UTC\", 10: \"UTC+1\", 20: \"UTC+2\", 30: \"UTC+3\", 35: \"UTC+3:30\", 40: \"UTC+4\", 45: \"UTC+4:30\", 50: \"UTC+5\", 55: \"UTC+5:30\", 57: \"UTC+5:45\", 60: \"UTC+6\", 65: \"UTC+6:30\", 70: \"UTC+7\", 80: \"UTC+8\", 90: \"UTC+9\", 95: \"UTC+9:30\", 100: \"UTC+10\", 105: \"UTC+10:30\", 110: \"UTC+11\", 120: \"UTC+12\", 127: \"UTC+12:45\", 130: \"UTC+13\", 140: \"UTC+14\" };\n return getValue(timezone_map, time_zone);\n}\n\nfunction readTVOCUnit(status) {\n var tvoc_unit_map = { 0: \"iaq\", 1: \"µg/m³\" };\n return getValue(tvoc_unit_map, status);\n}\n\nfunction readCalibrationMode(status) {\n var calibration_mode_map = { 0: \"factory\", 1: \"abc\", 2: \"manual\", 3: \"background\", 4: \"zero\" };\n return getValue(calibration_mode_map, status);\n}\n\nfunction readLedIndicatorMode(status) {\n var led_indicator_mode_map = { 0: \"off\", 1: \"on\", 2: \"blink\" };\n return getValue(led_indicator_mode_map, status);\n}\n\nfunction readScreenDisplayElementSettings(bytes) {\n var mask = readUInt16LE(bytes.slice(0, 2));\n var data = readUInt16LE(bytes.slice(2, 4));\n\n var settings = {};\n var sensor_bit_offset = { temperature: 0, humidity: 1, co2: 2, light: 3, tvoc: 4, smile: 5, letter: 6, pm2_5: 7, pm10: 8, hcho: 9, o3: 9 };\n for (var key in sensor_bit_offset) {\n if ((mask >>> sensor_bit_offset[key]) & 0x01) {\n settings[key] = readEnableStatus((data >> sensor_bit_offset[key]) & 0x01);\n }\n }\n return settings;\n}\n\nfunction readChildLockSettings(data) {\n var button_bit_offset = { off_button: 0, on_button: 1, collection_button: 2 };\n\n var settings = {};\n for (var key in button_bit_offset) {\n settings[key] = readEnableStatus((data >> button_bit_offset[key]) & 0x01);\n }\n return settings;\n}\n\n/* eslint-disable */\nfunction readUInt8(bytes) {\n return bytes & 0xff;\n}\n\nfunction readInt8(bytes) {\n var ref = readUInt8(bytes);\n return ref > 0x7f ? ref - 0x100 : ref;\n}\n\nfunction readUInt16LE(bytes) {\n var value = (bytes[1] << 8) + bytes[0];\n return value & 0xffff;\n}\n\nfunction readInt16LE(bytes) {\n var ref = readUInt16LE(bytes);\n return ref > 0x7fff ? ref - 0x10000 : ref;\n}\n\nfunction readUInt32LE(bytes) {\n var value = (bytes[3] << 24) + (bytes[2] << 16) + (bytes[1] << 8) + bytes[0];\n return (value & 0xffffffff) >>> 0;\n}\n\nfunction readInt32LE(bytes) {\n var ref = readUInt32LE(bytes);\n return ref > 0x7fffffff ? ref - 0x100000000 : ref;\n}\n\nfunction getValue(map, key) {\n if (RAW_VALUE) return key;\n\n var value = map[key];\n if (!value) value = \"unknown\";\n return value;\n}\n\nif (!Object.assign) {\n Object.defineProperty(Object, \"assign\", {\n enumerable: false,\n configurable: true,\n writable: true,\n value: function (target) {\n \"use strict\";\n if (target == null) {\n throw new TypeError(\"Cannot convert first argument to object\");\n }\n\n var to = Object(target);\n for (var i = 1; i < arguments.length; i++) {\n var nextSource = arguments[i];\n if (nextSource == null) {\n continue;\n }\n nextSource = Object(nextSource);\n\n var keysArray = Object.keys(Object(nextSource));\n for (var nextIndex = 0, len = keysArray.length; nextIndex < len; nextIndex++) {\n var nextKey = keysArray[nextIndex];\n var desc = Object.getOwnPropertyDescriptor(nextSource, nextKey);\n if (desc !== undefined && desc.enumerable) {\n // concat array\n if (Array.isArray(to[nextKey]) && Array.isArray(nextSource[nextKey])) {\n to[nextKey] = to[nextKey].concat(nextSource[nextKey]);\n } else {\n to[nextKey] = nextSource[nextKey];\n }\n }\n }\n }\n return to;\n },\n });\n}",
"environment": "javascript",
"storage": "",
"version": "1.0"
},
"flows": {
"milesight_am319_decoder": {
"data": {
"payload": "{{payload}}",
"payload_function": "decodeThingerUplink",
"payload_type": "source_payload",
"resource": "uplink",
"source": "resource",
"update": "events"
},
"enabled": true,
"sink": {
"payload": "{{payload}}",
"payload_function": "",
"payload_type": "source_payload",
"resource_stream": "uplink_decoded",
"target": "resource_stream"
},
"split_data": false
}
},
"properties": {
"uplink": {
"data": {
"payload": "{{payload}}",
"payload_function": "",
"payload_type": "source_payload",
"resource": "uplink",
"source": "resource",
"update": "events"
},
"default": {
"source": "value"
},
"enabled": true
}
}
},
"_resources": {
"properties": [
{
"property": "dashboard",
"value": {
"tabs": [
{
"name": "Overview",
"widgets": [
{
"layout": {
"col": 0,
"row": 0,
"sizeX": 2,
"sizeY": 4
},
"panel": {
"color": "#ffffff",
"currentColor": "#ffffff",
"showOffline": {
"type": "none"
},
"title": "Temperature"
},
"properties": {
"decimalPlaces": 1,
"textAlign": "center",
"textColor": "#1E313E",
"textSize": "65px",
"textWeight": "font-light",
"unit": "°C",
"unitSize": "18px"
},
"sources": [
{
"bucket": {
"backend": "mongodb",
"id": "milesight_am319_data",
"mapping": "temperature",
"tags": {
"device": [],
"group": []
}
},
"source": "bucket",
"timespan": {
"mode": "latest"
}
}
],
"type": "text"
},
{
"layout": {
"col": 2,
"row": 0,
"sizeX": 2,
"sizeY": 4
},
"panel": {
"color": "#ffffff",
"currentColor": "#ffffff",
"showOffline": {
"type": "none"
},
"title": "Humidity"
},
"properties": {
"decimalPlaces": 1,
"textAlign": "center",
"textColor": "#1E313E",
"textSize": "65px",
"textWeight": "font-light",
"unit": "%",
"unitSize": "18px"
},
"sources": [
{
"bucket": {
"backend": "mongodb",
"id": "milesight_am319_data",
"mapping": "humidity",
"tags": {
"device": [],
"group": []
}
},
"source": "bucket",
"timespan": {
"mode": "latest"
}
}
],
"type": "text"
},
{
"layout": {
"col": 4,
"row": 0,
"sizeX": 2,
"sizeY": 4
},
"panel": {
"color": "#ffffff",
"currentColor": "#ffffff",
"showOffline": {
"type": "none"
},
"title": "CO2"
},
"properties": {
"decimalPlaces": 0,
"textAlign": "center",
"textColor": "#1E313E",
"textSize": "65px",
"textWeight": "font-light",
"unit": "ppm",
"unitSize": "18px"
},
"sources": [
{
"bucket": {
"backend": "mongodb",
"id": "milesight_am319_data",
"mapping": "co2",
"tags": {
"device": [],
"group": []
}
},
"source": "bucket",
"timespan": {
"mode": "latest"
}
}
],
"type": "text"
},
{
"layout": {
"col": 0,
"row": 4,
"sizeX": 6,
"sizeY": 9
},
"panel": {
"color": "#ffffff",
"currentColor": "#ffffff",
"showOffline": {
"type": "none"
},
"title": "Temperature & Humidity (24h)"
},
"properties": {
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