diff --git a/milesight-iot-am102l/CHANGELOG.md b/milesight-iot-am102l/CHANGELOG.md new file mode 100644 index 000000000..b585d3a0f --- /dev/null +++ b/milesight-iot-am102l/CHANGELOG.md @@ -0,0 +1,5 @@ +# Changelog + +## 1.0.0 - 2026-03-26 + +- First version of plugin \ No newline at end of file diff --git a/milesight-iot-am102l/LICENSE.md b/milesight-iot-am102l/LICENSE.md new file mode 100644 index 000000000..bffeef341 --- /dev/null +++ b/milesight-iot-am102l/LICENSE.md @@ -0,0 +1,7 @@ +Copyright 2026 Thinger.io + +Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the “Software”), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions: + +The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. + +THE SOFTWARE IS PROVIDED “AS IS”, WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. \ No newline at end of file diff --git a/milesight-iot-am102l/README.md b/milesight-iot-am102l/README.md new file mode 100644 index 000000000..c8fb88fb8 --- /dev/null +++ b/milesight-iot-am102l/README.md @@ -0,0 +1,62 @@ +# Milesight 2-in-1 IAQ Sensor - AM102L + +The Milesight AM102L is a compact indoor ambience monitoring sensor designed for measurement of temperature and humidity. These data are displayed on the E-ink screen in real-time, allowing users to quantify the indoor environment and comfort levels. The device features low-power LoRaWAN connectivity and can operate for more than 7 years on 2 replaceable batteries. + +## Features + +- **Temperature Monitoring**: Measures ambient temperature with real-time display +- **Humidity Monitoring**: Tracks relative humidity levels +- **E-ink Display**: Shows sensor data and network status in real-time +- **Long Battery Life**: More than 7 years operation on 2 replaceable batteries +- **Compact Design**: 68 x 20.5 x 65 mm dimensions +- **LoRaWAN Connectivity**: Wireless long-range communication +- **Operating Temperature**: -20°C to 60°C +- **Screen Smart Mode**: Updates data every 2 minutes with periodic full-screen refresh to remove ghosting + +## Use Cases + +- Indoor air quality monitoring +- Office environment monitoring +- Building management systems +- Smart home applications +- Warehouse environmental monitoring +- Healthcare facility monitoring +- School and educational facility monitoring + +## Thinger.io Integration + +The Milesight AM102L integrates seamlessly with Thinger.io through LoRaWAN network servers, enabling remote monitoring, data visualization, and automated alerts for temperature and humidity measurements. + +## Requirements + +A LoRaWAN server is required to communicate the Milesight AM102L into Thinger.io, some options are: + +- [The Things Stack](https://www.thethingsindustries.com/stack/) +- [LORIOT](https://loriot.io/) +- [ChirpStack](https://www.chirpstack.io/) + +Alongside, the corresponding plugin for the selected LoRaWAN server needs to be installed in your Thinger.io instance. + +## Get Started + +### Installation + +Look for the plugin in the [Thinger.io Plugin Store](https://marketplace.thinger.io/) and install it in your Thinger.io instance. Once the plugin is installed a new Product will be created for this device. + +### Configuration + +The Product is already preconfigured, check that the auto provision prefix matches the one selected in your LoRaWAN server plugin in Thinger.io, or change it to your desire. + +### Usage + +Start sending uplinks for autoprovisioning devices and buckets. +This product also provides a predefined dashboard and downlinks. + +## Additional Resources + +Milesight resources can be found at: + +- [AM102L Datasheet](https://resource.milesight.com/milesight/iot/document/am102-and-am102l-datasheet-en.pdf) +- [User Guide](https://resource.milesight.com/milesight/iot/document/am102(l)-and-am103(l)-user-guide-en.pdf) +- [Milesight IoT](https://www.milesight.com/) +- [Thinger docs](https://docs.thinger.io) \ No newline at end of file diff --git a/milesight-iot-am102l/assets/am102l.png b/milesight-iot-am102l/assets/am102l.png new file mode 100644 index 000000000..55ebf6079 Binary files /dev/null and b/milesight-iot-am102l/assets/am102l.png differ diff --git a/milesight-iot-am102l/plugin.json b/milesight-iot-am102l/plugin.json new file mode 100644 index 000000000..ec79af9af --- /dev/null +++ b/milesight-iot-am102l/plugin.json @@ -0,0 +1,410 @@ +{ + "name": "milesight_iot_am102l", + "version": "1.0.0", + "description": "AM102(L) is a compact indoor ambience monitoringsensor formeasurement of temperature and humidity. These data will beshownon the E-ink screen in real-time, which allow to quantify theindoorenvironment and comfort", + "author": "Thinger.io", + "license": "MIT", + "repository": { + "type": "git", + "url": "https://github.com/thinger-io/plugins.git", + "directory": "milesight-iot-am102l" + }, + "metadata": { + "name": "Milesight-Iot AM102L", + "description": "AM102(L) is a compact indoor ambience monitoringsensor formeasurement of temperature and humidity. These data will beshownon the E-ink screen in real-time, which allow to quantify theindoorenvironment and comfort", + "image": "assets/am102l.png", + "category": "devices", + "vendor": "milesight-iot" + }, + "resources": { + "products": [ + { + "description": "AM102(L) is a compact indoor ambience monitoringsensor formeasurement of temperature and humidity. These data will beshownon the E-ink screen in real-time, which allow to quantify theindoorenvironment and comfort", + "enabled": true, + "name": "Milesight-Iot AM102L", + "product": "milesight_iot_am102l", + "profile": { + "api": { + "downlink": { + "enabled": true, + "handle_connectivity": false, + "request": { + "data": { + "path": "/downlink", + "payload": "{\r\n \"data\" : \"{{payload.data=\"\"}}\",\r\n \"port\" : {{payload.port=2}},\r\n \"priority\": {{payload.priority=3}},\r\n \"confirmed\" : {{payload.confirmed=false}},\r\n \"uplink\" : {{property.uplink}} \r\n}", + "payload_function": "", + "payload_type": "", + "plugin": "{{property.uplink.source}}", + "target": "plugin_endpoint" + } + } + }, + "uplink": { + "enabled": true, + "handle_connectivity": true, + "request": { + "data": { + "payload": "{{payload}}", + "payload_type": "source_payload", + "resource_stream": "uplink", + "target": "resource_stream" + } + } + } + }, + "autoprovisions": { + "device_autoprovisioning": { + "config": { + "mode": "pattern", + "pattern": "am102l_.*" + }, + "enabled": true + } + }, + "buckets": { + "milesight_am102l_data": { + "backend": "mongodb", + "data": { + "payload": "{{payload}}", + "payload_function": "decodeThingerUplink", + "payload_type": "source_payload", + "resource": "uplink", + "source": "resource", + "update": "events" + }, + "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\n\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 * Payload Decoder\n *\n * Copyright 2025 Milesight IoT\n *\n * @product AM102\n */\nvar RAW_VALUE = 0x00;\n\n/* eslint no-redeclare: \"off\" */\n/* eslint-disable */\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 // 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 // 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 // LORAWAN CLASS TYPE\n else if (channel_id === 0xff && channel_type === 0x0f) {\n decoded.lorawan_class = readLoRaWANClass(bytes[i]);\n i += 1;\n }\n // RESET EVENT\n else if (channel_id === 0xff && channel_type === 0xfe) {\n decoded.reset_event = readResetEvent(1);\n i += 1;\n }\n // DEVICE STATUS\n else if (channel_id === 0xff && channel_type === 0x0b) {\n decoded.device_status = readDeviceStatus(1);\n i += 1;\n }\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 // HISTORY DATA\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 = readUInt8(bytes[i + 6]) / 2;\n i += 7;\n decoded.history = decoded.history || [];\n decoded.history.push(data);\n }\n // SENSOR ENABLE\n else if (channel_id === 0xff && channel_type === 0x18) {\n // skip 1 byte\n var data = readUInt8(bytes[i + 1]);\n var sensor_bit_offset = { temperature: 0, humidity: 1 };\n decoded.sensor_enable = {};\n for (var key in sensor_bit_offset) {\n decoded.sensor_enable[key] = readEnableStatus((data >> sensor_bit_offset[key]) & 0x01);\n }\n i += 2;\n }\n // DOWNLINK RESPONSE\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 0x06:\n decoded.temperature_alarm_config = {};\n var condition = readUInt8(bytes[offset]);\n decoded.temperature_alarm_config.condition = readMathCondition(condition & 0x07);\n decoded.temperature_alarm_config.threshold_min = readInt16LE(bytes.slice(offset + 1, offset + 3)) / 10;\n decoded.temperature_alarm_config.threshold_max = readInt16LE(bytes.slice(offset + 3, offset + 5)) / 10;\n // skip 4 bytes\n offset += 9;\n break;\n case 0x10:\n decoded.reboot = readYesNoStatus(1);\n offset += 1;\n break;\n case 0x11:\n decoded.timestamp = readUInt32LE(bytes.slice(offset, offset + 4));\n offset += 4;\n break;\n case 0x17:\n decoded.time_zone = readTimeZone(readInt16LE(bytes.slice(offset, offset + 2)));\n offset += 2;\n break;\n case 0x27:\n decoded.clear_history = 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 0x2f:\n decoded.led_indicator_mode = readLedIndicatorStatus(bytes[offset]);\n offset += 1;\n break;\n case 0x3a:\n var num = readUInt8(bytes[offset]);\n offset += 1;\n for (var i = 0; i < num; i++) {\n var report_schedule_config = {};\n report_schedule_config.start_time = readUInt8(bytes[offset]) / 10;\n report_schedule_config.end_time = readUInt8(bytes[offset + 1]) / 10;\n report_schedule_config.report_interval = readUInt16LE(bytes.slice(offset + 2, offset + 4));\n // skip 1 byte\n report_schedule_config.collection_interval = readUInt8(bytes[offset + 5]);\n offset += 6;\n decoded.report_schedule_config = decoded.report_schedule_config || [];\n decoded.report_schedule_config.push(report_schedule_config);\n }\n break;\n case 0x3b:\n decoded.time_sync_enable = readEnableStatus(bytes[offset]);\n offset += 1;\n break;\n case 0x56:\n decoded.screen_intelligent_enable = readEnableStatus(bytes[offset]);\n offset += 1;\n break;\n case 0x57:\n decoded.clear_report_schedule = readYesNoStatus(1);\n offset += 1;\n break;\n case 0x59:\n decoded.reset_battery = readYesNoStatus(1);\n offset += 1;\n break;\n case 0x5a:\n decoded.screen_refresh_interval = readUInt16LE(bytes.slice(offset, offset + 2));\n offset += 2;\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 0x75:\n decoded.hibernate_config = {};\n decoded.hibernate_config.enable = readEnableStatus(bytes[offset]);\n decoded.hibernate_config.lora_uplink_enable = readEnableStatus(bytes[offset + 1]);\n decoded.hibernate_config.start_time = readUInt16LE(bytes.slice(offset + 2, offset + 4));\n decoded.hibernate_config.end_time = readUInt16LE(bytes.slice(offset + 4, offset + 6));\n decoded.hibernate_config.weekdays = {};\n var data = readUInt8(bytes[offset + 6]);\n var weekday_bit_offset = { monday: 1, tuesday: 2, wednesday: 3, thursday: 4, friday: 5, saturday: 6, sunday: 7 };\n for (var key in weekday_bit_offset) {\n decoded.hibernate_config.weekdays[key] = readEnableStatus((data >> weekday_bit_offset[key]) & 0x01);\n }\n offset += 7;\n break;\n case 0x85:\n decoded.screen_display_time_enable = readEnableStatus(bytes[offset]);\n offset += 1;\n break;\n case 0x86:\n decoded.screen_last_refresh_interval = readUInt8(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 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 class_map = {\n 0: \"Class A\",\n 1: \"Class B\",\n 2: \"Class C\",\n 3: \"Class CtoB\",\n };\n return getValue(class_map, type);\n}\n\nfunction readResetEvent(status) {\n var status_map = { 0: \"normal\", 1: \"reset\" };\n return getValue(status_map, status);\n}\n\nfunction readDeviceStatus(status) {\n var status_map = { 0: \"off\", 1: \"on\" };\n return getValue(status_map, status);\n}\n\nfunction readYesNoStatus(status) {\n var status_map = { 0: \"no\", 1: \"yes\" };\n return getValue(status_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 readLedIndicatorStatus(status) {\n var status_map = { 0: \"off\", 2: \"blink\" };\n return getValue(status_map, status);\n}\n\nfunction readMathCondition(type) {\n var condition_map = { 0: \"disable\", 1: \"below\", 2: \"above\", 3: \"between\", 4: \"outside\" };\n return getValue(condition_map, type);\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\n//if (!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//}\n", + "environment": "javascript", + "storage": "", + "version": "1.0" + }, + "properties": { + "uplink": { + "data": { + "payload": "{{payload}}", + "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": 5 + }, + "panel": { + "color": "#ffffff", + "currentColor": "#ffffff", + "showOffline": { + "type": "none" + }, + "title": "Temperature" + }, + "properties": { + "decimalPlaces": 2, + "enableExtraTextColor": false, + "enableIconColor": false, + "enableIconSize": false, + "extraText": "", + "extraTextColor": "#1E313E", + "extraTextColorConditions": [], + "extraTextConditions": [], + "extraTextPosition": "above-value", + "extraTextSize": "20px", + "extraTextWeight": "font-light", + "icon": "", + "iconColor": "#1E313E", + "iconColorConditions": [], + "iconConditions": [], + "iconGap": "8px", + "iconPosition": "before-value", + "iconSize": "75px", + "iconVerticalOffset": "0px", + "link": "", + "textAlign": "center", + "textColor": "#1E313E", + "textColorConditions": [], + "textSize": "75px", + "textWeight": "font-light", + "unit": "ºC", + "unitSize": "20px" + }, + "sources": [ + { + "bucket": { + "backend": "mongodb", + "id": "milesight_am102l_data", + 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