如何将 RN172plus series 连接至 ThingsBoard？

Hardware type: Sensors
Connectivity: Wi-Fi, MODBUS TCP, HTTP, HTTPS
Industry: Smart Cities, Smart Buildings, Environmental Monitoring, Industrial Manufacturing
Use cases: Environment Monitoring, Smart Office, Smart Retail, Health Care
Platforms: Community Edition, Professional Edition, Cloud

概述
前置条件
在ThingsBoard中创建设备
安装所需Payload解码器
连接设备到ThingsBoard
在ThingsBoard上查看数据
设置仪表板

概述

RADIONODE出品的 RN172WCD 是一款多功能Wi-Fi传感器数据发射器，用于工业、商业及实验室环境的实时监测。
支持多种UA系列传感器，包括气体检测（CO₂、O₂、NH₃ 等）、温度传感器（PT100、热电偶）及模拟变送器（4–20 mA、0–1 V），可灵活部署于各类应用。
通过Wi-Fi（IEEE 802.11 b/g）、MODBUS TCP和HTTP/HTTPS，可无缝将数据传送至Radionode365等云平台、本地服务器或PLC集中监控。
内置蜂鸣器、双色LED指示及4位数码管，用于实时读数与告警。
RN172WCD支持通过Telnet远程配置，具备SMS与语音告警等告警功能，适用于气体监测、HVAC系统、工业自动化等安全关键场景。

前置条件

继续本指南前需准备以下内容：

在ThingsBoard中创建设备

为简单起见，我们将通过UI手动创建设备。

登录ThingsBoard实例，导航到实体，然后打开设备页面。
点击表格右上角的+图标，选择添加新设备。
输入设备名称，例如My Device。其他字段保持默认值即可。
点击添加创建设备。

设备已成功添加。

安装所需Payload解码器

添加设备后，需要创建一个集成，以建立设备与ThingsBoard平台的连接。

点击集成选项卡，然后点击“+”按钮开始添加集成。

点击集成选项卡，选择集成类型开始添加集成。

这里我们为RN172设备选择HTTP协议。

然后为集成输入一个名称。

下一步是为设备创建数据转换器。

为数据转换器输入名称
点击解码配置选择js类型，并添加以下代码。

/**
 * Helper function to decode raw payload bytes to a string using a simple loop.
 * This method is more robust and compatible with older JS environments.
 */
function decodeToString(payload) {
    var text = "";
    var i = 0;
    while (i < payload.length) {
        text += String.fromCharCode(payload[i]);
        i++;
    }
    return text;
}

/**
 * Helper function to decode raw payload bytes to a JSON object.
 * It safely parses the string and returns a JSON object.
 */
function decodeToJson(payload) {
    try {
        var str = decodeToString(payload);
        return JSON.parse(str);
    } catch (e) {
        return null;
    }
}

/**
 * A custom parser to handle URL-encoded payloads.
 */
function parseUrlEncoded(payload) {
    var data = {};
    var bodyStr = decodeToString(payload).trim();
    if (bodyStr.indexOf('=') !== -1) {
        var pairs = bodyStr.split("&");
        var i = 0;
        while (i < pairs.length) {
            var parts = pairs[i].split("=");
            if (parts.length === 2) {
                var key = decodeURIComponent(parts[0].trim());
                var value = decodeURIComponent((parts[1] || "").trim());
                data[key] = value;
            }
            i++;
        }
    }
    return data;
}

// --- Main ThingsBoard Decode Function ---
function decodePayload(payload, metadata) {
    var deviceName = "Unknown_Device";
    var attributes = {};
    var telemetry = {};
    var telemetryTimestamp = null;
    var data = null;
    var detectedModel = null;

    // --- Model Lookup Table ---
    const ua_models_js = {
        "UA58-KFG": ["CO", "O2", "H2S", "CO2"],
        "UA58-CO2": ["CO2", "TEMP", "RH"],
        "UA58-DFG": ["CO", "CH2O", "C6H6"],
        "UA58-LEL": ["LEL", "TEMP", "RH", "CLAS"],
        "UA58-APC": ["CO2", "O3", "TEMP", "RH"],
        "UA50": ["TVOC", "ECO2"],
        "UA52-CO2": ["CO2", "TEMP"],
        "UA52-O2": ["O2", "TEMP"],
        "UA53-CO": ["CO", "TEMP", "RH"],
        "UA53-H2S": ["H2S", "TEMP", "RH"],
        "UA53-O3": ["O3", "TEMP", "RH"],
        "UA53-SO2": ["SO2", "TEMP", "RH"],
        "UA53-NO2": ["NO2", "TEMP", "RH"],
        "UA54-NH3": ["NH3", "TEMP", "RH"],
        "UA54-H2S": ["H2S", "TEMP", "RH"],
        "UA54-C2H4": ["C2H4", "TEMP", "RH"],
        "UA54-EO": ["EO", "TEMP", "RH"],
        "UA54-H2": ["H2", "TEMP", "RH"],
        "UA54-HCL": ["HCL", "TEMP", "RH"],
        "UA54-NO": ["NO", "TEMP", "RH"],
        "UA54-CL2": ["CL2", "TEMP", "RH"],
        "UA54-O2": ["O2", "TEMP", "RH"],
        "UA54-VOC": ["VOC", "TEMP", "RH"],
        "UA10": ["TEMP", "RH"],
        "UA11": ["TEMP", "TEMP"],
        "UA12": ["TEMP", "TEMP"],
        "UA13": ["TEMP"],
        "UA20A": ["mA", "mA"],
        "UA20B": ["mA"],
        "UA20C": ["mV", "mV"],
        "UA20D": ["Puls"],
        "UA20E": ["CH1", "CH2", "CH3", "CH4", "CH5", "CH6"],
        "UA59-CO2": ["CO2", "TEMP"],
        "UA60-PMVT": ["PM25", "PM10", "PM01", "TVOC", "TEMP", "RH"],
        "UA-DEVICE": ["TEMP", "RH"],
        "RN400-PG": [],
        "RN172WC": []
    };

    // --- Step 1: Payload Parsing ---
    var inputString = decodeToString(payload).trim();
    var atcqMatch = inputString.match(/ATCQ\s+([^,]+),([^,]+),([^,]+),([^,]+)/);
    
    if (atcqMatch) {
        // ATCQ payload format
        data = {};
        data.co2 = parseFloat(atcqMatch[1]);
        data.o3 = parseFloat(atcqMatch[2]);
        data.temperature = parseFloat(atcqMatch[3]);
        data.humidity = parseFloat(atcqMatch[4]);
        detectedModel = 'UA58-APC';
    } else {
        // Other payload formats (JSON, URL-encoded)
        data = decodeToJson(payload);
        if (!data) {
            data = parseUrlEncoded(payload);
        }
    }

    if (!data || Object.keys(data).length === 0) {
        return null;
    }

    // --- Step 2: Model Identification and Override ---
    var originalSModel = data.model || data.SMODEL;
    detectedModel = detectedModel || originalSModel;

    // Override the model if the payload structure matches UA58-APC.
    if (detectedModel === 'UA-DEVICE' && data.C000) {
        var channelData = data.C000.split('|').filter(x => x.trim() !== '');
        if (channelData.length === 5) {
            detectedModel = 'UA58-APC';
        }
    }

    var modelVars = ua_models_js[detectedModel];

    // --- Step 3: Process Telemetry and Attributes ---
    if (data.mac) {
        deviceName = data.mac;
        attributes.mac = data.mac;
    }
    if (data.ver) attributes.firmware = data.ver;
    if (originalSModel) attributes.SMODEL = originalSModel;
    if (data.model) attributes.model = data.model;
    if (detectedModel) attributes.detected_model = detectedModel;
    if (data.ip) attributes.ip = data.ip;
    if (data.splrate) attributes.samplingRate = parseFloat(data.splrate);
    if (data.rsti) attributes.rsti = parseFloat(data.rsti);
    if (data.interval) attributes.transmitInterval = parseFloat(data.interval);
    if (data.tags) attributes.tags = data.tags;

    // Process dynamic channels based on the detected model
    if (detectedModel && modelVars) {
        var dynamicKey;
        for (dynamicKey in data) {
            if (dynamicKey.match(/^(C|P|CH)\d+/)) {
                var channelData = data[dynamicKey].split('|').filter(x => x.trim() !== '');
                if (channelData.length > 1) {
                    telemetryTimestamp = parseInt(channelData[0]) * 1000;
                    var i = 0;
                    while (i < modelVars.length) {
                        var varName = modelVars[i];
                        if (varName !== '----') {
                            var value = parseFloat(channelData[i + 1]);
                            if (!isNaN(value)) {
                                telemetry[varName.toLowerCase()] = value;
                            }
                        }
                        i++;
                    }
                }
            }
        }
    }

    // Process static keys
    if (data.co2 !== undefined) telemetry.co2 = parseFloat(data.co2);
    if (data.o3 !== undefined) telemetry.o3 = parseFloat(data.o3);
    if (data.temperature !== undefined) telemetry.temperature = parseFloat(data.temperature);
    if (data.humidity !== undefined) telemetry.humidity = parseFloat(data.humidity);
    if (data.sig !== undefined) telemetry.signal = parseFloat(data.sig);
    if (data.bat !== undefined) telemetry.battery = parseFloat(data.bat);
    if (data.analog_1 !== undefined) telemetry.analog_1 = parseFloat(data.analog_1);
    if (data.analog_2 !== undefined) telemetry.analog_2 = parseFloat(data.analog_2);

    // Process RN172WC 'tags' payload separately
    if (detectedModel === "RN172WC" && data.tags) {
        var tagValues = data.tags.split('|').filter(s => s.trim() !== '');
        if (tagValues.length >= 2) {
            telemetry.temperature = parseFloat(tagValues[0].trim());
            telemetry.humidity = parseFloat(tagValues[1].trim());
        }
    }

    // If no telemetry values are found, add a heartbeat to ensure a valid payload
    if (Object.keys(telemetry).length === 0) {
        telemetry.heartbeat = Date.now();
    }
    
    // --- Step 4: Construct the final output object in the correct format ---
    var result = {
        deviceName: deviceName,
        telemetry: {}
    };

    var finalTelemetryTs = telemetryTimestamp || Date.now();
    for (var key in telemetry) {
        result.telemetry[key] = telemetry[key];
    }

    for (var key in attributes) {
        result.telemetry[key] = attributes[key];
    }
    
    // Return the formatted result for ThingsBoard.
    return result;
}

return decodePayload(payload, metadata);

然后完成集成配置。

连接设备到ThingsBoard

下载 RadioNode终端程序
运行RadioNode终端程序
输入密码radionode114并进入控制台菜单。

在网络设置中可以添加Wi-Fi SSID和密码。

)

进入“2. System Setup”菜单，选择“B. Set Destination of HTTP”。
在三个目标地址中选择“2:CUSTOMER_V2”。

这表示数据将发送到自定义服务器V2。

从ThingsBoard的集成选项卡中复制HTTP端点URL，用于在Radionode终端程序中设置。

进入“4. HTTP Destination Setup”菜单，选择“A. Set Host URL:thingsboard.cloud”，然后分别设置“D.Set HTTP DATAIN”、“E.Set HTTP TIMESTAMP”、“F.Set HTTP BACKUPIN”为集成中的端点地址。