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Changes for page ThingsBoard

Last modified by Dilisi S on 2025/04/23 19:23
From version 163.1
edited by Dilisi S
on 2025/03/18 04:59
Change comment: Uploaded new attachment "Screenshot 2025-03-16 at 18.39.12.png", version {1}
To version 182.1
edited by Dilisi S
on 2025/03/27 02:50
Change comment: Mar 26 - heavy edits

Summary

Details

Page properties
Content
... ... @@ -164,240 +164,138 @@
164 164  [[image:ins1.png||height="310" width="500"]]
165 165  
166 166  
167 -= 3. Data Converters =
167 += 3. Creating Devices =
168 168  
169 169  
170 -In **ThingsBoard**, **Data Converters** are components used to transform incoming or outgoing data between different formats, typically to convert raw telemetry data from devices into a structured format that ThingsBoard can understand, or vice versa.
170 +First, you need to create devices in ThingsBoard to represent your physical devices. For example, you can name it **Device A**, and the second device could be **Device B** or any name you prefer. The device name should be unique within the **Devices** space.
171 171  
172 172  
173 -== 3.1 Uplink ==
173 +In the left navigation, click Entities -> Devices.
174 174  
175 +Click the **Add Device** button (the button with the **+** sign), and from the dropdown menu, click **Add new device**.
175 175  
176 -In the left navigation, click **Integrations center**, and then click **Data converters**.
177 +In the **Add new device** dialog box, enter the device name in the **Name** text box. For example, we will us**Device A**.
177 177  
179 +Click the **Add** button.
178 178  
179 -[[image:data-converters-list-empty.png]]
181 +Skip the **connectivity testing** by clicking the **Close** button.
180 180  
183 +The device is created and listed on the **Devices** page. Note that its initial state is **Inactive** because it has not received any data yet.
181 181  
182 -On the **Data converters** page, click on the ‘**+**’ button, and then click on the **Create new converter** from the dropdown menu.
183 183  
186 += 4. Data Converters =
184 184  
185 185  
186 -[[image:create-new-converter-menu.png||height="259" width="500"]]
189 +In **ThingsBoard**, **Data Converters** are components used to transform incoming or outgoing data between different formats, typically to convert raw telemetry data from devices into a structured format that ThingsBoard can understand, or vice versa.
187 187  
188 188  
189 -The **Add data converter** window will appear. Name it ‘**MQTT Uplink Converter NB/CB**’ and select the Type as **Uplink**.
192 +== 4.1 Uplink ==
190 190  
191 -Click on the **JavaScript** button.
192 192  
193 -Delete the default decoder function in the code editor. Now copy and paste the following decoder function written in **JavaScript** in to the **code editor**. This decoder function is compatible for both NB and CB series devices.
195 +In the left navigation, click **Integrations center**, and then click **Data converters**.
194 194  
195 195  
196 -{{code language="JavaScript"}}
197 -//Version: 0.1
198 -// decode payload to string
199 -var payloadStr = decodeToString(payload);
198 +[[image:data-converters-list-empty.png]]
200 200  
201 -// decode payload to JSON
202 -var objdata = {};
203 -var obj1 = {};
204 -var data = decodeToJson(payload);
205 -var deviceName = data.IMEI;
206 -delete data.IMEI;
207 -var modelname = "Dragino " + data.Model;
208 -//var mod = data.mod
209 -delete data.Model;
210 -//delete data.mod
211 -var timestamp = new Date().getTime();
212 212  
213 -for (var key in data) {
214 -
215 - if (Number(key)) {
216 - obj1[key] = data[key];
217 - obj1[key][obj1[key].length - 1] = Number(new Date(
218 - obj1[key][obj1[key].length - 1]));
201 +On the **Data converters** page, click on the ‘**+**’ button, and then click on the **Create new converter** from the dropdown menu.
219 219  
220 - }
221 -//Alec submitted25/02/25
222 -//turn old key into new
223 - else if (key === "Reading") {
224 - objdata["reading"] = data[key];
225 - } else if (key === "work mode") {
226 - objdata["work_mode"] = data[key];
227 - } else if (key === "hum") {
228 - objdata["humidity"] = data[key];
229 - }else if (key === "hum2") {
230 - objdata["humidity2"] = data[key];
231 - } else if (key === "hum3") {
232 - objdata["humidity3"] = data[key];
233 - } else if (key === "tem") {
234 - objdata["temperature"] = data[key];
235 - } else if (key === "tem2") {
236 - objdata["temperature2"] = data[key];
237 - } else if (key === "tem3") {
238 - objdata["temperature3"] = data[key];
239 - } else if (key === "DS18B20_Temp") {
240 - objdata["temperature_pro"] = data[key];
241 - } else if (key === "ds18b20_temperature") {
242 - objdata["temperature_pro"] = data[key];
243 - } else if (key === "DS18B20_temperature_pro") {
244 - objdata["temperature_pro"] = data[key];
245 - } else if (key === "tdc send flag") {
246 - objdata["tdc_send_flag"] = data[key];
247 - } else if (key === "trigger mode") {
248 - objdata["trigger_mode"] = data[key];
249 - } else if (key === "soil dielectric constant") {
250 - objdata["soil_dielectric_constant"] = data[key];
251 - } else if (key === "door open num") {
252 - objdata["door_open_num"] = data[key];
253 - } else if (key === "door duration") {
254 - objdata["door_duration"] = data[key];
255 - } else if (key === "count time") {
256 - objdata["count_time"] = data[key];
257 - } else if (key === "last open time2") {
258 - objdata["last_open_time2"] = data[key];
259 - } else if (key === "last open time3") {
260 - objdata["last_open_time3"] = data[key];
261 - }
262 -//Alec submitted25/02/25
263 - else {
264 - objdata[key] = data[key]
265 - }
266 -}
267 -var listdata = [{
268 - "ts": timestamp,
269 - "values": objdata
270 -}]
271 -for (var key1 in obj1) {
272 - if (modelname == "Dragino RS485-NB") {
273 - listdata.push({
274 - "ts": obj1[key1][obj1[key1].length - 1],
275 - "values": {
276 - "Payload": obj1[key1][0],
277 - }
278 - })
279 - } else {
280 - listdata.push({
281 - "ts": obj1[key1][obj1[key1].length - 1],
282 - "values": {
283 - "values": obj1[key1]
284 - },
285 - })
286 - }
287 -}
288 -var result = {
289 289  
290 - deviceName: deviceName,
291 - deviceType: modelname,
292 - attributes: {
293 - model: modelname,
294 - //customerName: "NB-CB",
295 - //groupName: "NB-CB",
296 - //integrationName: metadata['integrationName']
297 297  
298 - },
299 - telemetry: listdata
300 -}
205 +[[image:create-new-converter-menu.png||height="259" width="500"]]
301 301  
302 -function decodeToString(payload) {
303 - return String.fromCharCode.apply(String, payload);
304 -}
305 305  
306 -function decodeToJson(payload) {
307 - // covert payload to string.
308 - var str = decodeToString(payload);
208 +The **Add data converter** window will appear. Name it ‘**MQTT Uplink Converter NB/CB**’ and select the Type as **Uplink**.
309 309  
310 - // parse string to JSON
311 - var data = JSON.parse(str);
312 - return data;
313 -}
210 +Click on the **TBEL** button if it has not been selected by default.
314 314  
315 -return result;
316 -{{/code}}
212 +Modify the default TBEL function to match with your device as described below:
317 317  
318 318  
319 -Click on the **Add** button.
215 +* Uncomment** line 11**:
320 320  
217 +//var data = decodeToJson(payload)//
321 321  
322 -[[image:mqtt-uplink.png||width="500"]]
323 323  
220 +* **Line 13**: Assign your device name to the **deviceName** field. - We used **Device A** as it is to match with our device, **Device A **in the Devices section.
221 +* From **line 38**: Modify the telemetry section to allow parsed data to be assigned to the fields.
324 324  
223 +//telemetry: {
224 + temperature: data.temperature,
225 + humidity: data.humidity,
226 + rawData: payloadStr
227 + }//
325 325  
326 -You should see that the newly added **MQTT Uplink converter **NB/CB is listed on the **Data Converters** page.
327 327  
230 +The modified uplink decoder function to match with **Device A** is shown below.
328 328  
329 -[[image:data-converter-list-showing-uplink-dc.png]]
330 -
331 -
332 -== 3.2 Downlink ==
333 -
334 -
335 -On the **Data converters** page, click on the ‘**+**’ button, and then click on the **Create new converter** from the dropdown menu.
336 -
337 -
338 -[[image:create-new-converter-menu.png||width="500"]]
339 -
340 -
341 -
342 -The **Add data converter** window will appear. Name it ‘**MQTT Downlink Converter NB/CB**’ and select the Type as **Downlink**.
343 -
344 -Click on the **TBEL** button if not selected it by default. Now copy and paste the following encoder function written in **TBEL (ThingsBoard Expression Language)** in to the **code editor**. This encoder function is compatible for both NB and CB series devices.
345 -
346 -
347 347  {{code language="JavaScript"}}
348 -// Encode downlink data from incoming Rule Engine message
233 +// Decode an uplink message from a buffer
234 +// payload - array of bytes
235 +// metadata - key/value object
349 349  
350 -// msg - JSON message payload downlink message json
351 -// msgType - type of message, for ex. 'ATTRIBUTES_UPDATED', 'POST_TELEMETRY_REQUEST', etc.
352 -// metadata - list of key-value pairs with additional data about the message
353 -// integrationMetadata - list of key-value pairs with additional data defined in Integration executing this converter
237 +/** Decoder **/
354 354  
355 -/** Encoder **/
239 +// decode payload to string
240 +var payloadStr = decodeToString(payload);
356 356  
357 -var data = {};
242 +// decode payload to JSON
243 +var data = decodeToJson(payload);
358 358  
359 -// Process data from incoming message and metadata
245 +var deviceName = 'Device A';
246 +var deviceType = 'thermostat';
247 +var customerName = 'Customer C';
248 +var groupName = 'thermostat devices';
249 +var manufacturer = 'Example corporation';
250 +// use assetName and assetType instead of deviceName and deviceType
251 +// to automatically create assets instead of devices.
252 +// var assetName = 'Asset A';
253 +// var assetType = 'building';
360 360  
361 -data.tempFreq = msg.temperatureUploadFrequency;
362 -data.humFreq = msg.humidityUploadFrequency;
363 -
364 -data.devSerialNumber = metadata['ss_serialNumber'];
365 -
366 -// Result object with encoded downlink payload
255 +// Result object with device/asset attributes/telemetry data
367 367  var result = {
368 -
369 - // downlink data content type: JSON, TEXT or BINARY (base64 format)
370 - contentType: "JSON",
371 -
372 - // downlink data
373 - data: JSON.stringify(data),
374 -
375 - // Optional metadata object presented in key/value format
376 - metadata: {
377 - topic: metadata['deviceType']+'/'+metadata['deviceName']+'/upload'
378 - }
379 -
257 +// Use deviceName and deviceType or assetName and assetType, but not both.
258 + deviceName: deviceName,
259 + deviceType: deviceType,
260 +// assetName: assetName,
261 +// assetType: assetType,
262 +// customerName: customerName,
263 + groupName: groupName,
264 + attributes: {
265 + model: 'Model A',
266 + serialNumber: 'SN111',
267 + integrationName: metadata['integrationName'],
268 + manufacturer: manufacturer
269 + },
270 + telemetry: {
271 + temperature: data.temperature,
272 + humidity: data.humidity,
273 + rawData: payloadStr
274 + }
380 380  };
381 381  
277 +/** Helper functions 'decodeToString' and 'decodeToJson' are already built-in **/
278 +
382 382  return result;
383 383  {{/code}}
384 384  
385 385  
386 -Click on the **Add** button.
283 +Once you modify the decoder function, click on the **Add** button.
387 387  
388 388  
389 -[[image:add-downlink-data-converter.png||height="529" width="500"]]
286 +[[image:mqtt-uplink.png||width="500"]]
390 390  
391 391  
392 -You should see that the newly added **MQTT Downlink** Converter NB/CB is listed on the **Data Converters** page.
393 393  
290 +You should see that the newly added **MQTT Uplink converter **NB/CB is listed on the **Data Converters** page.
394 394  
395 -[[image:data-converters-list.png]]
396 396  
293 +[[image:data-converter-list-showing-uplink-dc.png]]
397 397  
398 -= 4. Add Integration =
399 399  
296 += 5. Add Integration =
400 400  
298 +
401 401  In the left navigation, click **Integrations center**, and then click **Integrations**.
402 402  
403 403  
... ... @@ -438,27 +438,28 @@
438 438  
439 439  **Downlink data converter:**
440 440  
441 -* Click on the **Select existing** button.
442 -* **Downlink data converter**: Select **MQTT Downlink Converter NB/CB **from the dropdown list.
339 +Dragino NB/CB devices don't require a downlink data converter to decode their payloads, so you can skip this step.
443 443  
444 -Click **Next** button.
341 +* Click on the **Skip **button in the Downlink data converter section.
445 445  
343 +Click **Skip** button.
446 446  
447 -[[image:add-integration-downlink-data-converter.png||height="511" width="500"]]
448 448  
346 +[[image:integration-dl-skip.png||height="511" width="500"]]
449 449  
348 +
349 +
450 450  **Connection:**
451 451  
452 -* **Host**: Cluster URL (Eg. 011731f7xxxxxxxxxxxfbbedfc63f4.s1.eu.hivemq.cloud)
352 +* **Host**: Host URL (Eg. **//011731f7xxxxxxxxxxxfbbedfc63f4.s1.eu.hivemq.cloud//**)
453 453  * **Port**: 8883
454 -* **Credentials**: Basic
455 -* **Enable SSL**: YES
354 +* **Credentials type**: Basic
456 456  * **Username**: Username (from your HiveMQ Cloud Cluster with your credentials)
457 457  * **Password:** Password (from your HiveMQ Cloud Cluster with your credentials)
458 -* **Topic: v1/devices/+/telemetry** (the + replaces any 'device name' will create a device in the Entities -> Devices)
357 +* **Enable SSL**: YES
358 +* **Topic: device/a** (The topic can be anything; you can even use just the device name.)
459 459  * **QoS:** 0-At most once
460 460  
461 -
462 462  [[image:add-integration-connection.png||height="511" width="500"]]
463 463  
464 464  
... ... @@ -489,27 +489,26 @@
489 489  Since we haven't received data from a device yet, the integration **Status** is shown as **Pending.**
490 490  
491 491  
492 -
493 493  [[image:new-integration-pending.png]]
494 494  
495 495  
496 -= 5. Verifying the receipt of data from virtual devices =
394 += 6. Verifying the receipt of data from virtual devices =
497 497  
498 498  
499 -== 5.1 How does it work? ==
397 +== 6.1 How does it work? ==
500 500  
501 501  
502 502  We use the Mosquitto MQTT client to simulate MQTT messages, acting as a virtual device. First, install the Mosquitto client on your computer from [[this link>>url:https://mosquitto.org/download/]]. The Mosquitto client publishes messages to the MQTT broker (HiveMQ) on a specified MQTT topic. ThingsBoard subscribes to these messages using the same topic.
503 503  
504 -The Mosquitto client publishes messages (payloads) on the topic **v1/devices/me/telemetry**. Of course, you can use any topic for testing.
402 +The Mosquitto client publishes messages (payloads) on the topic **/device/a**. Of course, you can use any topic for testing.
505 505  
506 -(% id="cke_bm_37386S" style="display:none" %) (%%)The MQTT payload format is as follows, which is common for all **~-~-NB** and **~-~-CB** series devices. The **IMEI** field is mandatory and is used to provision a new device with the name assigned to it in ThingsBoard.
404 +(% id="cke_bm_37386S" style="display:none" %) (%%)The MQTT payload format is as follows:
507 507  
508 508  {{code language="none"}}
509 -{"IMEI": "S31B-NB", "temperature": 27, ......}
407 +{"IMEI": "350693903995577", "temperature":25, "humidity":80, "pressure":1005}
510 510  {{/code}}
511 511  
512 -Once ThingsBoard receives this message, it automatically creates (provisions) the device mentioned in the **IMEI**, for example, S31B-NB.
410 +Once ThingsBoard receives this message, it forwards this payload to the matching device through the integration.
513 513  
514 514  
515 515  == 5.2 Sending messages ==
... ... @@ -518,7 +518,7 @@
518 518  On the terminal, issue the following MQTT command which simulates the device S31B-NB. The message payload contains the fields temperature and humidity, which hold the values S31B-NB and 27, respectively. This payload is also (technically) known as telemetry.
519 519  
520 520  {{code language="none"}}
521 -mosquitto_pub -d -q 1 -h 011731f7928xxxxx.s1.eu.hivemq.cloud -p 8883 -t "v1/devices/me/telemetry" -u "xxxxx" -P "xxxxx" -m '{"IMEI": "S31B-NB", "temperature": 27}'
419 +mosquitto_pub -d -q 1 -h 011731f7928xxxxx.s1.eu.hivemq.cloud -p 8883 -u "xxxxx" -P "xxxxx" -t "device/a" -m '{"IMEI":"350693903995577", "temperature":30, "humidity":80, "pressure":1005}'
522 522  {{/code}}
523 523  
524 524  If the integration was performed without errors, the status of the integration changes to 'Active' after the first telemetry transmission.
... ... @@ -527,44 +527,54 @@
527 527  [[image:integration-active.png]]
528 528  
529 529  
530 -Also, a new device named **S31B-NB** will appear under **//Entities -> Devices -> All//**. This means the first MQTT message triggers ThingsBoard to provision a device named **S31B-NB**.
531 531  
532 532  
430 +== 6.3 Viewing messages ==
533 533  
534 -[[image:new-device.png]]
535 535  
433 +Go back to the **Integrations** page.
536 536  
537 -Click on the device S31B-NB on the devices list to see its details.
435 +Click on the **MQTT integration NB/CB** in the **Integrations** page to see its details.
538 538  
539 -Then go to the **Latest telemetry** tab.
437 +Click on the **Edit** button (//**pen icon**//).
540 540  
541 -You can see the fields temperature and humidity with the values you previously sent using the MQTT message.
439 +Click on the **Disabled** button in the upper-right corner.
542 542  
441 +Turn on the **All messages (15 min)** option. This will enable displaying all messages in the **Events** tab. This setting will expire in 15 minutes, and you will need to repeat the same steps if you want to view the messages in the Events tab later.
543 543  
544 -[[image:telemetry-1.png]]
443 +Click on the **Apply** button.
545 545  
445 +Then click on the **Apply changes** (//**tick icon**//) button.
546 546  
547 -Now, change the values of the fields and send the MQTT message again. For example, set temperature to 20 and humidity to 70. Observe how the values update in //Latest Telemetry//.
548 548  
448 +[[image:Screenshot 2025-03-18 at 09.23.10.png]]
549 549  
550 -[[image:telemetry-2.png]]
551 551  
451 +Now go to the **Events** tab.
552 552  
553 -Let's provision the second device named **LDS25-NB **with initial telemetry. Use the following MQTT message.
453 +Select the Event type as **Debug** from the dropdown list.
554 554  
455 +Now you can see all the Uplink messages you are simulating through the MQTT broker. The status should be **OK **if there is no errors in your integration.
555 555  
556 -{{code language="none"}}
557 -mosquitto_pub -d -q 1 -h 011731f7928541588a6cdfbbedfc63f4.s1.eu.hivemq.cloud -p 8883 -t "tb/mqtt-integration-tutorial/sensors/LDS25-NB/telemetry" -u "pradeeka" -P "Kalpani123@" -m '{"temperature":11, "humidity":87}'
558 -{{/code}}
559 559  
560 -Now, refresh the **Devices** page, and you will see the second device, **LDS25-NB**, which was recently provisioned.
458 +[[image:Screenshot 2025-03-26 at 19.49.31.png]]
561 561  
562 562  
563 -[[image:device-provision-2.png]]
564 564  
565 565  
566 -= 6. Creating a Dashboard =
463 +Then click on the **three dots (...)** in the **Message** column. You can see the uplink message's **payload** in the **Message** window.
567 567  
465 +
466 +[[image:Screenshot 2025-03-26 at 19.47.52.png]]
467 +
468 +
469 +
470 +
471 +Now, you have successfully tested your integration with a simulated uplink payload and verified that it is received by ThingsBoard, and the device is provisioned.
472 +
473 +
474 += 7. Creating a Dashboard =
475 +
568 568  ThingsBoard **Dashboards** provide a powerful way to visualize and monitor real-time and historical data from connected devices. They allow users to create interactive, customizable panels displaying telemetry data, device status, and other key metrics. With a variety of widgets, including charts, maps, and tables, dashboards help users gain insights, track trends, and manage IoT deployments efficiently.
569 569  
570 570  
... ... @@ -571,6 +571,11 @@
571 571  This section guides you on how to create a dashboard to display temperature and humidity data from the device on a time-series chart. You may also use other widgets in ThingsBoard to display data according to your requirements.
572 572  
573 573  
482 +First simulate a few messages using MQTT. This time, we have added the 'humidity' field to the payload. Eg:
483 +
484 +{{code language="none"}}mosquitto_pub -d -q 1 -h 011731f7928xxxxx.s1.eu.hivemq.cloud -p 8883 -t "v1/devices/me/telemetry" -u "xxxxx" -P "xxxxx" -m '{"IMEI": "S31B-NB", "temperature": 22, "humidity":80}'{{/code}}
485 +
486 +
574 574  In **ThingsBoard**, from the left navigation menu, click **Dashboards**. Then, click the **+** button and select **Create new dashboard** from the dropdown menu.
575 575  
576 576  
... ... @@ -627,11 +627,11 @@
627 627  
628 628  
629 629  {{code language="none"}}
630 -mosquitto_pub -d -q 1 -h 011731f7928xxxxx.s1.eu.hivemq.cloud -p 8883 -t "tb/mqtt-integration-tutorial/sensors/S31B-NB/telemetry" -u "xxxxx" -P "xxxxx" -m '{"temperature":20, "humidity":70}'
543 +mosquitto_pub -d -q 1 -h 011731f7928xxxxx.s1.eu.hivemq.cloud -p 8883 -t "v1/devices/me/telemetry" -u "xxxxx" -P "xxxxx" -m '{"IMEI": "S31B-NB", "temperature": 22, "humidity":70}'
631 631  
632 -mosquitto_pub -d -q 1 -h 011731f7928xxxxx.s1.eu.hivemq.cloud -p 8883 -t "tb/mqtt-integration-tutorial/sensors/S31B-NB/telemetry" -u "xxxxx" -P "xxxxx" -m '{"temperature":22, "humidity":71}'
545 +mosquitto_pub -d -q 1 -h 011731f7928xxxxx.s1.eu.hivemq.cloud -p 8883 -t "v1/devices/me/telemetry" -u "xxxxx" -P "xxxxx" -m '{"IMEI": "S31B-NB", "temperature": 27, "humidity":72}'
633 633  
634 -mosquitto_pub -d -q 1 -h 011731f7928xxxxx.s1.eu.hivemq.cloud -p 8883 -t "tb/mqtt-integration-tutorial/sensors/S31B-NB/telemetry" -u "xxxxx" -P "xxxxx" -m '{"temperature":18, "humidity":79}'
547 +mosquitto_pub -d -q 1 -h 011731f7928xxxxx.s1.eu.hivemq.cloud -p 8883 -t "v1/devices/me/telemetry" -u "xxxxx" -P "xxxxx" -m '{"IMEI": "S31B-NB", "temperature": 19, "humidity":80}'
635 635  
636 636  {{/code}}
637 637  
... ... @@ -641,10 +641,10 @@
641 641  [[image:timeseries-4.png||height="316" width="700"]]
642 642  
643 643  
644 -= 7. Configure NB-IoT Sensor =
557 += 8. Configure NB-IoT Sensor =
645 645  
646 646  
647 -Now, let's experiment with sending data to ThingsBoard using a real NB-IoT device. For example, we will use the **S31B-NB**.
560 +Now, let's experiment with sending data to ThingsBoard using a real NB-IoT device. For example, we will use the **TS01-NB**.
648 648  
649 649  First, configure the NB-IoT device with the necessary MQTT settings using AT commands. Below is a list of AT commands you can use.
650 650  
... ... @@ -652,8 +652,8 @@
652 652  **AT Commands**
653 653  
654 654  * **AT+PRO=3,3    **~/~/ Use MQTT to connect to ThingsBoard. Payload Type set to 3.
655 -* **AT+SUBTOPIC=<MQTT topic>**
656 -* **AT+PUBTOPIC=<MQTT topic>**
568 +* **AT+SUBTOPIC=<MQTT subscribe topic> Eg: TS01-NB**
569 +* **AT+PUBTOPIC=<MQTT publish topic> Eg: TS01-NB**
657 657  * **AT+CLIENT=null**
658 658  * **AT+UNAME=<MQTT Username>**
659 659  * **AT+PWD=<MQTT Password>**
... ... @@ -660,3 +660,16 @@
660 660  * **AT+SERVADDR=<Broker address, Port>**
661 661  
662 662  Test your uplink by pressing the ACT button for 1 second.
576 +
577 +
578 +
579 +The following image shows the uplink payload of a real Dragino device. The publish topic is **TS01-NB**, and the device name is **861275077962896**, which is represented by the **IMEI**.
580 +
581 +{{info}}
582 +The ThingsBoard uses the device's IMEI number included in the payload to create a device in the Devices section.
583 +{{/info}}
584 +
585 +[[image:image-4.png]]
586 +
587 +
588 +
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