Wiki source code of General Configure/Commands to Connect to IoT server for -NB & -NS NB-IoT models

Version 101.1 by Edwin Chen on 2023/08/16 20:20

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83.3	1	(% class="wikigeneratedid" id="HTableofContents:" %)
	2	Table of Contents:
53.3	3
	4	{{toc/}}
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100.2	7
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	10
1.1	11	= 1. The use of this guideline =
	12
1.2	13
1.1	14	This configure instruction is for Dragino NB-IoT models with -NB or -NS suffix, for example DDS75-NB. These models use the same NB-IoT Module [[BC660K-GL>>https://www.quectel.com/product/lpwa-bc660k-gl-nb2]] and has the same software structure. The have the same configure instruction to different IoT servers. Use can follow the instruction here to see how to configure to connect to those servers.
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	16
55.1	17	= 2. Attach Network =
1.1	18
	19
54.1	20	To attache NB-IoT sensors to NB-IoT Network, You need to:
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	22	1. Get a NB-IoT SIM card from Service Provider. (Not the same as the SIM card we use in mobile phone)
	23	1. Insert the SIM card to Sensor
99.1	24	1. [[Configure APN>>http://wiki.dragino.com/xwiki/bin/view/Main/How%20to%20configure%20APN%20in%20the%20node/]] in the sensor (AT+APN=<APN>)
54.1	25
83.1	26	[[image:image-20230808205045-1.png\|\|height="293" width="438"]]
60.1	27
54.1	28	After doing above, the NB-IoT Sensors should be able to attach to NB-IoT network .
	29
1.3	30	The -NB and -NS models support (% style="color:blue" %)LTE Cat NB2(%%), with below frequency band: multiple frequency bands of (% style="color:blue" %)B1/B2/B3/B4/B5/B8/B12/B13/B14/B17/B18/B19/B20/B25/B28/B66/B70/B85(%%) . Make sure you use a the NB-IoT SIM card.
1.1	31
54.1	32	(% border="1" cellspacing="4" style="background-color:#f2f2f2; width:878px" %)
99.1	33	\|(% style="background-color:#4f81bd; color:white; width:117px" %)SIM Provider\|(% style="background-color:#4f81bd; color:white; width:151px" %)AT+APN=\|(% style="background-color:#4f81bd; color:white; width:474px" %)NB-IoT Coverage\|(% style="background-color:#4f81bd; color:white; width:135px" %)Comments
56.2	34	\|(% style="width:117px" %)[[1NCE>>https://1nce.com]]\|(% style="width:151px" %)iot.1nce.net\|(% style="width:474px" %)(((
54.1	35	[[Coverage Reference Link>>https://1nce.com/en-ap/1nce-connect]]
1.1	36
54.1	37	Austria, Belgium, Bulgaria, Croatia, Czech Republic, Denmark, Finland, Germany, Great Britain, Greece, Hungary, Ireland, Italy, Latvia, Malta, Netherlands, Norway, Puerto Rico, Russia, Slovak , Republic, Slovenia, Spain, Sweden, Switzerland, Taiwan, USA, US Virgin Islands
	38	)))\|(% style="width:135px" %)
57.1	39	\|(% style="width:117px" %)China Mobile\|(% style="width:151px" %)No need configure\|(% style="width:474px" %)China Mainland, HongKong\|(% style="width:135px" %)
66.1	40	\|(% style="width:117px" %)China Telecom\|(% style="width:151px" %)ctnb\|(% style="width:474px" %)China Mainland\|(% style="width:135px" %)
53.27	41
99.3	42
100.2	43
1.1	44	= 3. Configure to connect to different servers =
	45
53.3	46	== 3.1 General UDP Connection ==
53.2	47
	48
	49	The NB-IoT Sensor can send packet to server use UDP protocol.
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	51
53.3	52	=== 3.1.1 Simulate UDP Connection by PC tool ===
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	54
53.2	55	We can use PC tool to simulate UDP connection to make sure server works ok.
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	57	[[image:image-20230802112413-1.png]]
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	59
53.3	60	=== 3.1.2 Configure NB-IoT Sensor ===
53.2	61
53.3	62	==== 3.1.2.1 AT Commands ====
53.2	63
53.3	64
53.4	65	(% style="color:blue" %)AT Commands:
53.3	66
53.5	67	* (% style="color:#037691" %)AT+PRO=2,0 (%%) ~/~/ Set to use UDP protocol to uplink ,Payload Type select Hex payload
53.8	68
53.5	69	* (% style="color:#037691" %)AT+SERVADDR=120.24.4.116,5601 (%%) ~/~/ Set UDP server address and port
53.8	70
53.5	71	* (% style="color:#037691" %)AT+CFM=1 (%%) ~/~/ If the server does not respond, this command is unnecessary
53.2	72
	73	[[image:image-20230802112413-2.png]]
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	75
53.3	76	==== 3.1.2.2 Uplink Example ====
53.2	77
53.3	78
53.2	79	[[image:image-20230802112413-3.png]]
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	81
53.7	82	== 3.2 General MQTT Connection ==
53.2	83
53.6	84
53.2	85	The NB-IoT Sensor can send packet to server use MQTT protocol.
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53.6	87	Below are the commands.
53.2	88
53.8	89	(% style="color:blue" %)AT Commands:
53.2	90
53.9	91	* (% style="color:#037691" %)AT+PRO=3,0 (%%) ~/~/ Set to use MQTT protocol to uplink, Payload Type select Hex payload.
53.2	92
53.9	93	* (% style="color:#037691" %)AT+SERVADDR=120.24.4.116,1883 (%%) ~/~/ Set MQTT server address and port
53.8	94
53.9	95	* (% style="color:#037691" %)AT+CLIENT=CLIENT (%%) ~/~/ Set up the CLIENT of MQTT
53.8	96
53.9	97	* (% style="color:#037691" %)AT+UNAME=UNAME (%%) ~/~/ Set the username of MQTT
53.8	98
53.9	99	* (% style="color:#037691" %)AT+PWD=PWD (%%) ~/~/ Set the password of MQTT
53.8	100
	101	* (% style="color:#037691" %)AT+PUBTOPIC=NSE01_PUB (%%) ~/~/ Set the sending topic of MQTT
	102
	103	* (% style="color:#037691" %)AT+SUBTOPIC=NSE01_SUB (%%) ~/~/ Set the subscription topic of MQTT
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53.2	105	[[image:image-20230802112413-4.png]]
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	107	[[image:image-20230802112413-5.png]]
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53.9	109	(% style="color:red" %)Notice: MQTT protocol has a much higher power consumption compare with UDP/CoAP protocol. Please check the power analyze document and adjust the uplink period to a suitable interval.
53.2	110
	111
53.7	112	== 3.3 [[ThingSpeak>>url:https://thingspeak.com/]] (via MQTT) ==
53.2	113
53.9	114	=== 3.3.1 Get MQTT Credentials ===
53.2	115
53.9	116
53.2	117	[[ThingSpeak>>url:https://thingspeak.com/]] connection uses MQTT Connection. So we need to get MQTT Credentials first. You need to point MQTT Devices to ThingSpeak Channel as well.
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	119	[[image:image-20230802112413-6.png]]
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	121	[[image:image-20230802112413-7.png]]
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	123
53.27	124	=== 3.3.2 Simulate with MQTT.fx ===
53.2	125
53.27	126	==== 3.3.2.1 Establish MQTT Connection ====
53.2	127
53.9	128
53.2	129	After we got MQTT Credentials, we can first simulate with PC tool MQTT.fx tool to see if the Credentials and settings are fine.
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	131	[[image:image-20230802112413-8.png]]
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53.9	133	* (% style="color:#037691" %)Broker Address:(%%) mqtt3.thingspeak.com
53.2	134
53.9	135	* (% style="color:#037691" %)Broker Port:(%%) 1883
53.10	136
53.9	137	* (% style="color:#037691" %)Client ID:(%%) <Your ThingSpeak MQTT ClientID>
53.10	138
53.9	139	* (% style="color:#037691" %)User Name:(%%) <Your ThingSpeak MQTT User Name>
53.10	140
53.9	141	* (% style="color:#037691" %)Password:(%%) <Your ThingSpeak MQTT Password>
53.2	142
99.3	143
100.2	144
53.28	145	==== 3.3.2.2 Publish Data to ThingSpeak Channel ====
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53.2	148	[[image:image-20230802112413-9.png]]
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	150	[[image:image-20230802112413-10.png]]
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53.43	152
53.10	153	(% style="color:blue" %)In MQTT.fx, we can publish below info:
53.2	154
53.10	155	* (% style="color:#037691" %)Topic:(%%) channels/YOUR_CHANNEL_ID/publish
53.2	156
53.10	157	* (% style="color:#037691" %)Payload:(%%) field1=63&field2=67&status=MQTTPUBLISH
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53.2	159	Where 63 and 67 are the value to be published to field1 & field2.
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53.10	162	(% style="color:blue" %)Result:
53.2	163
	164	[[image:image-20230802112413-11.png]]
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	166
53.28	167	=== 3.3.3 Configure NB-IoT Sensor for connection ===
53.2	168
53.28	169	==== 3.3.3.1 AT Commands: ====
53.2	170
53.10	171
53.2	172	In the NB-IoT, we can run below commands so to publish the channels like MQTT.fx
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99.3	174	* (% style="color:blue" %)AT+PRO=3,1 (%%) ~/~/ Set to use ThingSpeak Server and Related Payload
53.9	175
53.26	176	* (% style="color:blue" %)AT+CLIENT=<Your ThingSpeak MQTT ClientID>
53.9	177
53.26	178	* (% style="color:blue" %)AT+UNAME=<Your ThingSpeak MQTT User Name>
53.9	179
53.26	180	* (% style="color:blue" %)AT+PWD=<Your ThingSpeak MQTT Password>
53.9	181
53.26	182	* (% style="color:blue" %)AT+PUBTOPIC=<YOUR_CHANNEL_ID>
53.9	183
53.26	184	* (% style="color:blue" %)AT+SUBTOPIC=<YOUR_CHANNEL_ID>
53.2	185
99.3	186
100.2	187
53.28	188	==== 3.3.3.2 Uplink Examples ====
53.10	189
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53.2	191	For S31-NB
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	193	For SE01-NB
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	195	For DDS20-NB
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	197	For DDS45-NB
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	199	For DDS75-NB
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	201	For NMDS120-NB
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	203	For SPH01-NB
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	205	For NLM01-NB
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	207	For NMDS200-NB
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	209	For CPN01-NB
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	211	For DS03A-NB
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	213	For SN50V3-NB
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53.28	216	==== 3.3.3.3 Map fields to sensor value ====
53.2	217
53.10	218
53.2	219	When NB-IoT sensor upload to ThingSpeak. The payload already specify which fileds related to which sensor value. Use need to create fileds in Channels Settings. with name so to see the value correctly.
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	222	[[image:image-20230802112413-12.png]]
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	224	[[image:image-20230802112413-13.png]]
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	226
	227	Below is the NB-IoT Product Table show the mapping.
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83.4	229	(% border="1" cellspacing="4" style="background-color:#f2f2f2; width:1424px" %)
	230	\|(% style="background-color:#4f81bd; width:143px" %) \|(% style="background-color:#4f81bd; color:white; width:103px" %)Field1\|(% style="background-color:#4f81bd; color:white; width:102px" %)Field2\|(% style="background-color:#4f81bd; color:white; width:157px" %)Field3\|(% style="background-color:#4f81bd; color:white; width:154px" %)Field4\|(% style="background-color:#4f81bd; color:white; width:153px" %)Field5\|(% style="background-color:#4f81bd; color:white; width:151px" %)Field6\|(% style="background-color:#4f81bd; color:white; width:160px" %)Field7\|(% style="background-color:#4f81bd; color:white; width:152px" %)Field8\|(% style="background-color:#4f81bd; color:white; width:67px" %)Field9\|(% style="background-color:#4f81bd; color:white; width:69px" %)Field10
	231	\|(% style="background-color:#4f81bd; color:white; width:143px" %)S31x-NB\|(% style="width:103px" %)Temperature \|(% style="width:102px" %)Humidity\|(% style="width:157px" %)Battery\|(% style="width:154px" %)RSSI\|(% style="width:153px" %) \|(% style="width:151px" %) \|(% style="width:160px" %) \|(% style="width:152px" %) \|(% style="width:67px" %) \|(% style="width:69px" %)
	232	\|(% style="background-color:#4f81bd; color:white; width:143px" %)SE01-NB\|(% style="width:103px" %)Temperature \|(% style="width:102px" %)Humidity\|(% style="width:157px" %)conduct\|(% style="width:154px" %)dielectric_constant\|(% style="width:153px" %)Battery\|(% style="width:151px" %)RSSI\|(% style="width:160px" %) \|(% style="width:152px" %) \|(% style="width:67px" %) \|(% style="width:69px" %)
	233	\|(% style="background-color:#4f81bd; color:white; width:143px" %)DDS20-NB\|(% style="width:103px" %)distance\|(% style="width:102px" %)Battery\|(% style="width:157px" %)RSSI\|(% style="width:154px" %) \|(% style="width:153px" %) \|(% style="width:151px" %) \|(% style="width:160px" %) \|(% style="width:152px" %) \|(% style="width:67px" %) \|(% style="width:69px" %)
	234	\|(% style="background-color:#4f81bd; color:white; width:143px" %)DDS45-NB\|(% style="width:103px" %)distance\|(% style="width:102px" %)Battery\|(% style="width:157px" %)RSSI\|(% style="width:154px" %) \|(% style="width:153px" %) \|(% style="width:151px" %) \|(% style="width:160px" %) \|(% style="width:152px" %) \|(% style="width:67px" %) \|(% style="width:69px" %)
	235	\|(% style="background-color:#4f81bd; color:white; width:143px" %)DDS75-NB\|(% style="width:103px" %)distance\|(% style="width:102px" %)Battery\|(% style="width:157px" %)RSSI\|(% style="width:154px" %) \|(% style="width:153px" %) \|(% style="width:151px" %) \|(% style="width:160px" %) \|(% style="width:152px" %) \|(% style="width:67px" %) \|(% style="width:69px" %)
	236	\|(% style="background-color:#4f81bd; color:white; width:143px" %)NMDS120-NB\|(% style="width:103px" %)distance\|(% style="width:102px" %)Battery\|(% style="width:157px" %)RSSI\|(% style="width:154px" %) \|(% style="width:153px" %) \|(% style="width:151px" %) \|(% style="width:160px" %) \|(% style="width:152px" %) \|(% style="width:67px" %) \|(% style="width:69px" %)
	237	\|(% rowspan="1" style="background-color:#4f81bd; color:white; width:143px" %)SPH01-NB\|(% style="width:103px" %)ph\|(% style="width:102px" %)Temperature\|(% style="width:157px" %)Battery\|(% style="width:154px" %)RSSI\|(% style="width:153px" %) \|(% style="width:151px" %) \|(% style="width:160px" %) \|(% style="width:152px" %) \|(% style="width:67px" %) \|(% colspan="1" rowspan="1" style="width:69px" %)
	238	\|(% style="background-color:#4f81bd; color:white; width:143px" %)NLM01-NB\|(% style="width:103px" %)Humidity\|(% style="width:102px" %)Temperature\|(% style="width:157px" %)Battery\|(% style="width:154px" %)RSSI\|(% style="width:153px" %) \|(% style="width:151px" %) \|(% style="width:160px" %) \|(% style="width:152px" %) \|(% style="width:67px" %) \|(% style="width:69px" %)
	239	\|(% style="background-color:#4f81bd; color:white; width:143px" %)NMDS200-NB\|(% style="width:103px" %)distance1\|(% style="width:102px" %)distance2\|(% style="width:157px" %)Battery\|(% style="width:154px" %)RSSI\|(% style="width:153px" %) \|(% style="width:151px" %) \|(% style="width:160px" %) \|(% style="width:152px" %) \|(% style="width:67px" %) \|(% style="width:69px" %)
	240	\|(% style="background-color:#4f81bd; color:white; width:143px" %)CPN01-NB\|(% style="width:103px" %)alarm\|(% style="width:102px" %)count\|(% style="width:157px" %)door open duration\|(% style="width:154px" %)calc flag\|(% style="width:153px" %)Battery\|(% style="width:151px" %)RSSI\|(% style="width:160px" %) \|(% style="width:152px" %) \|(% style="width:67px" %) \|(% style="width:69px" %)
	241	\|(% colspan="1" rowspan="1" style="background-color:#4f81bd; color:white; width:143px" %)DS03A-NB\|(% colspan="1" rowspan="1" style="width:103px" %)level\|(% colspan="1" rowspan="1" style="width:102px" %)alarm\|(% colspan="1" rowspan="1" style="width:157px" %)pb14door open num\|(% colspan="1" rowspan="1" style="width:154px" %)pb14 last open time\|(% colspan="1" rowspan="1" style="width:153px" %)pb15 level status\|(% colspan="1" rowspan="1" style="width:151px" %)pb15 alarm status\|(% colspan="1" rowspan="1" style="width:160px" %)pb15 door open num\|(% colspan="1" rowspan="1" style="width:152px" %)pb15 last open time\|(% colspan="1" rowspan="1" style="width:67px" %)Battery\|(% colspan="1" rowspan="1" style="width:69px" %)RSSI
	242	\|(% colspan="1" rowspan="1" style="background-color:#4f81bd; color:white; width:143px" %)SN50V3-NB mod1\|(% colspan="1" rowspan="1" style="width:103px" %)mod\|(% colspan="1" rowspan="1" style="width:102px" %)Battery\|(% colspan="1" rowspan="1" style="width:157px" %)RSSI\|(% colspan="1" rowspan="1" style="width:154px" %)DS18B20 Temp\|(% colspan="1" rowspan="1" style="width:153px" %)exit_state/input PA4\|(% colspan="1" rowspan="1" style="width:151px" %)adc0\|(% colspan="1" rowspan="1" style="width:160px" %)Temperature \|(% colspan="1" rowspan="1" style="width:152px" %)Humidity\|(% colspan="1" rowspan="1" style="width:67px" %) \|(% colspan="1" rowspan="1" style="width:69px" %)
	243	\|(% colspan="1" style="background-color:#4f81bd; color:white; width:143px" %)SN50V3-NB mod2\|(% colspan="1" style="width:103px" %)mod\|(% colspan="1" style="width:102px" %)Battery\|(% colspan="1" style="width:157px" %)RSSI\|(% colspan="1" style="width:154px" %)DS18B20 Temp\|(% colspan="1" style="width:153px" %)exit_state/input PA4\|(% colspan="1" style="width:151px" %)adc0\|(% colspan="1" style="width:160px" %)distance\|(% colspan="1" style="width:152px" %) \|(% colspan="1" style="width:67px" %) \|(% colspan="1" style="width:69px" %)
	244	\|(% colspan="1" style="background-color:#4f81bd; color:white; width:143px" %)SN50V3-NB mod3\|(% colspan="1" style="width:103px" %)mod\|(% colspan="1" style="width:102px" %)Battery\|(% colspan="1" style="width:157px" %)RSSI\|(% colspan="1" style="width:154px" %)adc0\|(% colspan="1" style="width:153px" %)exit_state/input PA4\|(% colspan="1" style="width:151px" %)adc1\|(% colspan="1" style="width:160px" %)Temperature\|(% colspan="1" style="width:152px" %)Humidity\|(% colspan="1" style="width:67px" %)adc4\|(% colspan="1" style="width:69px" %)
	245	\|(% colspan="1" style="background-color:#4f81bd; color:white; width:143px" %)SN50V3-NB mod4\|(% colspan="1" style="width:103px" %)mod\|(% colspan="1" style="width:102px" %)Battery\|(% colspan="1" style="width:157px" %)RSSI\|(% colspan="1" style="width:154px" %)DS18B20 Temp\|(% colspan="1" style="width:153px" %)adc0\|(% colspan="1" style="width:151px" %)exit_state/input PA4\|(% colspan="1" style="width:160px" %)DS18B20 Temp2\|(% colspan="1" style="width:152px" %)DS18B20 Temp3\|(% colspan="1" style="width:67px" %) \|(% colspan="1" style="width:69px" %)
	246	\|(% colspan="1" style="background-color:#4f81bd; color:white; width:143px" %)SN50V3-NB mod5\|(% colspan="1" style="width:103px" %)mod\|(% colspan="1" style="width:102px" %)Battery\|(% colspan="1" style="width:157px" %)RSSI\|(% colspan="1" style="width:154px" %)DS18B20 Temp\|(% colspan="1" style="width:153px" %)adc0\|(% colspan="1" style="width:151px" %)exit_state/input PA4\|(% colspan="1" style="width:160px" %)Weight\|(% colspan="1" style="width:152px" %) \|(% colspan="1" style="width:67px" %) \|(% colspan="1" style="width:69px" %)
	247	\|(% colspan="1" style="background-color:#4f81bd; color:white; width:143px" %)SN50V3-NB mod6\|(% colspan="1" style="width:103px" %)mod\|(% colspan="1" style="width:102px" %)Battery\|(% colspan="1" style="width:157px" %)RSSI\|(% colspan="1" style="width:154px" %)count\|(% colspan="1" style="width:153px" %) \|(% colspan="1" style="width:151px" %) \|(% colspan="1" style="width:160px" %) \|(% colspan="1" style="width:152px" %) \|(% colspan="1" style="width:67px" %) \|(% colspan="1" style="width:69px" %)
53.2	248
99.3	249
100.2	250
100.1	251	== 3.4 [[Datacake>>https://datacake.co/]] ==
99.3	252
53.2	253
100.1	254	(% class="wikigeneratedid" %)
	255	Dragino NB-IoT sensors has its template in [[Datacake>>https://datacake.co/]] Platform. There are two version for NB Sensor,
	256
	257
	258	(% class="wikigeneratedid" %)
100.5	259	As example for S31B-NB. there are two versions: S31B-NB-1D and S31B-NB-GE.
100.1	260
100.2	261	* (% style="color:blue" %)S31B-NB-1D(%%): This version have pre-configure DataCake connection. User just need to Power on this device, it will auto connect send data to DataCake Server.
100.1	262
100.2	263	* (% style="color:blue" %)S31B-NB-GE(%%): This verson doesn't have pre-configure Datacake connection. User need to enter the AT Commands to connect to Datacake. See below for instruction.
100.1	264
100.2	265
	266
81.1	267	=== 3.4.1 Create device ===
53.2	268
83.4	269
100.4	270	(% style="color:blue" %)Add Device(%%) in DataCake.
100.1	271
78.1	272	[[image:image-20230808162301-1.png]]
53.11	273
	274
78.1	275	[[image:image-20230808162342-2.png]]
	276
	277
100.3	278	(% style="color:blue" %)Choose the correct model(%%) from template.
100.1	279
78.1	280	[[image:image-20230808162421-3.png]]
	281
83.4	282
100.3	283	(% style="color:blue" %)Fill Device ID(%%). The device ID needs to be filled in with IMEI, and a prefix of(% style="color:blue" %) 'f' (%%)needs to be added.
78.1	284
	285	[[image:image-20230808163612-7.png]]
	286
	287	[[image:image-20230808163035-5.png]]
	288
	289	[[image:image-20230808163049-6.png]]
	290
83.4	291
81.1	292	=== 3.4.2 Scan QR code to obtain data ===
	293
83.4	294
81.1	295	Users can use their phones or computers to scan QR codes to obtain device data information.
	296
100.1	297	[[image:image-20230808170051-8.png\|\|height="255" width="259"]]
81.1	298
	299	[[image:image-20230808170548-9.png]]
	300
83.4	301
81.1	302	=== 3.4.2 AT command for connecting to DataCake ===
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	304
83.4	305	(% style="color:blue" %)AT+PRO=2,0
81.1	306
83.4	307	(% style="color:blue" %)AT+SERVADDR=67.207.76.90,4445
81.1	308
83.4	309
53.21	310	== 3.5 Node-Red (via MQTT) ==
53.2	311
53.48	312	=== 3.5.1 Configure [[Node-Red>>http://wiki.dragino.com/xwiki/bin/view/Main/Node-RED/]] ===
53.2	313
53.32	314
93.1	315	Take S31-NB UDP protocol as an example.
53.2	316
93.1	317	Dragino provides input flow examples for the sensors.
53.32	318
93.1	319	User can download the required JSON file through Dragino Node-RED input flow template.
53.2	320
93.1	321	Download sample JSON file link: [[https:~~/~~/www.dropbox.com/sh/mduw85jcuwsua22/AAAvwPhg9z6dLjJhmZjqBf_ma?dl=0>>url:https://www.dropbox.com/sh/mduw85jcuwsua22/AAAvwPhg9z6dLjJhmZjqBf_ma?dl=0]]
53.24	322
93.1	323	We can directly import the template.
53.2	324
93.1	325	The templates for S31-NB and NB95S31B are the same.
53.21	326
53.2	327
93.1	328	[[image:image-20230809173127-4.png]]
53.2	329
99.3	330
93.1	331	Please select the NB95S31B template.
53.2	332
93.1	333	[[image:image-20230809173310-5.png]]
53.2	334
93.1	335	[[image:image-20230809173438-6.png]]
53.2	336
93.1	337	[[image:image-20230809173800-7.png]]
53.21	338
99.3	339
93.1	340	Successfully imported template.
53.21	341
93.1	342	[[image:image-20230809173835-8.png]]
53.21	343
	344
93.1	345	Users can set UDP port.
53.21	346
93.1	347	[[image:image-20230809174053-9.png]]
83.8	348
99.3	349
93.1	350	=== 3.5.2 Simulate Connection ===
83.8	351
99.3	352
93.1	353	We have completed the configuration of UDP. We can try sending packets to node red.
	354
98.1	355	[[image:image-20230810083934-1.png]]
93.1	356
98.1	357	[[image:image-20230810084048-2.png]]
93.1	358
	359	=== 3.5.3 Configure NB-IoT Sensors ===
	360
	361
99.3	362	* (% style="color:blue" %)AT+PRO=2,0(hex format) or 2,1(json format) (%%) ~/~/ Set to UDP Server and Payload
93.1	363
99.3	364	* (% style="color:blue" %)AT+SERVADDR=xx.xx.xx.xx,port (%%) ~/~/ Set Server IP and port
93.1	365
100.5	366
	367
53.21	368	== 3.6 ThingsBoard.Cloud (via MQTT) ==
	369
	370	=== 3.6.1 Configure ThingsBoard ===
	371
53.22	372	==== 3.6.1.1 Create Device ====
53.2	373
53.32	374
59.1	375	Create a New Device in [[ThingsBoard>>url:https://thingsboard.cloud/]]. Record Device Name which is used for MQTT connection.
53.2	376
	377	[[image:image-20230802112413-32.png]]
	378
	379
53.23	380	==== 3.6.1.2 Create Uplink & Downlink Converter ====
	381
53.32	382
53.22	383	(% style="color:blue" %)Uplink Converter
53.2	384
	385	The purpose of the decoder function is to parse the incoming data and metadata to a format that ThingsBoard can consume. deviceName and deviceType are required, while attributes and telemetry are optional. Attributes and telemetry are flat key-value objects. Nested objects are not supported.
	386
53.42	387	To create an uplink converter go to the (% style="color:blue" %)Integrations center(%%) -> (% style="color:blue" %)Data converters(%%) page and click (% style="color:blue" %)“plus” (%%)button. Name it (% style="color:blue" %)“MQTT Uplink Converter”(%%) and select type (% style="color:blue" %)"Uplink"(%%). Use debug mode for now.
53.2	388
53.32	389	[[image:image-20230802112413-33.png\|\|height="732" width="1302"]]
53.2	390
	391
53.22	392	(% style="color:blue" %)Downlink Converter
53.2	393
	394	The Downlink converter transforming outgoing RPC message and then the Integration sends it to external MQTT broke
	395
53.32	396	[[image:image-20230802112413-34.png\|\|height="734" width="1305"]]
53.2	397
83.8	398	(% style="color:red" %)Note: Our device payload is already human readable data. Therefore, users do not need to write decoders. Simply create by default.
53.2	399
53.22	400
53.23	401	==== 3.6.1.3 MQTT Integration Setup ====
53.2	402
	403
53.44	404	Go to the (% style="color:blue" %)Integrations center(%%) -> (% style="color:blue" %)Integrations page(%%) and click “(% style="color:blue" %)plus(%%)” icon to add a new integration. Name it (% style="color:blue" %)“MQTT Integration”(%%), select type (% style="color:blue" %)MQTT;
53.24	405
53.32	406	[[image:image-20230802112413-35.png\|\|height="738" width="1312"]]
53.2	407
53.32	408
53.2	409	* The next steps is to add the recently created uplink and downlink converters;
	410
53.32	411	[[image:image-20230802112413-36.png\|\|height="736" width="1308"]]
53.2	412
53.32	413	[[image:image-20230802112413-37.png\|\|height="735" width="1307"]]
53.2	414
53.33	415
53.24	416	(% style="color:blue" %)Add a topic filter:
53.2	417
53.44	418	tb/mqtt-integration-tutorial/sensors~/~/temperature ~-~-> Temperature 固定的? 对的。
53.2	419
	420	You can also select an MQTT QoS level. We use MQTT QoS level 0 (At most once) by default;
	421
53.32	422	[[image:image-20230802112413-38.png\|\|height="731" width="1300"]]
53.2	423
	424
53.23	425	=== 3.6.2 Simulate with MQTT.fx ===
	426
53.32	427
53.2	428	[[image:image-20230802112413-39.png]]
	429
	430	[[image:image-20230802112413-40.png]]
	431
	432
53.23	433	=== 3.6.3 Configure NB-IoT Sensor ===
53.2	434
53.25	435
53.23	436	(% style="color:blue" %)AT Commands
53.2	437
59.1	438	* (% style="color:#037691" %)AT+PRO=3,3 (%%) ~/~/ Use MQTT to connect to ThingsBoard. Payload Type set to 3.
53.2	439
83.4	440	* (% style="color:#037691" %)AT+SUBTOPIC=<device name>
	441
59.1	442	* (% style="color:#037691" %)AT+PUBTOPIC=<device name>
83.4	443
59.1	444	* (% style="color:#037691" %)AT+CLIENT=<device name> or User Defined
83.4	445
59.1	446	* (% style="color:#037691" %)AT+UNAME=<device name> or User Defined
83.4	447
59.1	448	* (% style="color:#037691" %)AT+PWD=<device name> or User Defined
53.2	449
	450	Test Uplink by click the button for 1 second
	451
	452	[[image:image-20230802112413-41.png]]
	453
	454	[[image:image-20230802112413-42.png]]
	455
	456	[[image:image-20230802112413-43.png]]
	457
	458
53.23	459	== 3.7 [[Tago.io>>url:https://admin.tago.io/]] (via MQTT) ==
53.2	460
53.23	461	=== 3.7.1 Create device & Get Credentials ===
53.2	462
53.23	463
53.2	464	We use MQTT Connection to send data to [[Tago.io>>url:https://admin.tago.io/]]. We need to Create Device and Get MQTT Credentials first.
	465
	466	[[image:image-20230802112413-44.png]]
	467
	468	[[image:image-20230802112413-45.png]]
	469
	470
	471	Go to the Device section and create a device. Then, go to the section tokens and copy your device-token.
	472
	473	[[image:image-20230802112413-46.png]]
	474
	475
70.1	476	The device needs to enable the TLS mode and set the (% style="color:blue" %)AT+TLSMOD=1,0(%%) command.
53.2	477
83.8	478	(% style="color:blue" %)On the Connection Profile window, set the following information:
70.1	479
83.8	480	* (% style="color:#037691" %)Profile Name: “Any name”
53.2	481
83.8	482	* (% style="color:#037691" %)Broker Address: mqtt.tago.io
53.23	483
83.8	484	* (% style="color:#037691" %)Broker Port: 8883
53.23	485
83.8	486	* (% style="color:#037691" %)Client ID: “Any value”
53.23	487
83.8	488	(% style="color:blue" %)On the section User credentials, set the following information:
53.2	489
83.8	490	* (% style="color:#037691" %)User Name: “Any value” (%%) ~/~/ Tago validates your user by the token only
53.2	491
83.8	492	* (% style="color:#037691" %)Password: “Your device token”
53.2	493
83.8	494	* (% style="color:#037691" %)PUBTOPIC: “Any value”
53.23	495
83.8	496	* (% style="color:#037691" %)SUBTOPIC: “Any value”
53.23	497
70.1	498	(% style="color:blue" %)AT command:
	499
83.8	500	* (% style="color:#037691" %)AT+PRO=3,0 or 3,5 (%%) ~/~/ hex format or json format
70.1	501
83.5	502	* (% style="color:#037691" %)AT+SUBTOPIC=<device name>or User Defined
70.1	503
83.5	504	* (% style="color:#037691" %)AT+PUBTOPIC=<device name>or User Defined
	505
	506	* (% style="color:#037691" %)AT+CLIENT=<device name> or User Defined
	507
	508	* (% style="color:#037691" %)AT+UNAME=<device name> or User Defined
	509
	510	* (% style="color:#037691" %)AT+PWD=“Your device token”
	511
100.5	512
	513
53.23	514	=== 3.7.2 Simulate with MQTT.fx ===
	515
99.3	516
70.1	517	[[image:image-20230802112413-52.png]]
53.23	518
53.2	519
70.1	520	[[image:image-20230808105300-2.png]]
53.2	521
99.3	522
53.38	523	Users can run the (% style="color:blue" %)AT+PRO=3,5(%%) command, and the payload will be converted to JSON format.
53.2	524
70.1	525	[[image:image-20230808105217-1.png]]
53.44	526
70.1	527	[[image:image-20230808105329-3.png]]
53.2	528
	529
53.23	530	=== 3.7.3 tago data ===
53.2	531
53.23	532
53.2	533	[[image:image-20230802112413-50.png]]
	534
59.1	535	[[image:image-20230802112413-51.png\|\|height="184" width="696"]]
53.2	536
	537
65.1	538	== 3.8 TCP Connection ==
63.1	539
83.6	540
83.5	541	(% style="color:blue" %)AT command:
63.1	542
83.5	543	* (% style="color:#037691" %)AT+PRO=4,0 (%%) ~/~/ Set to use TCP protocol to uplink(HEX format)
63.1	544
83.5	545	* (% style="color:#037691" %)AT+PRO=4,1 (%%) ~/~/ Set to use TCP protocol to uplink(JSON format)
63.1	546
83.8	547	* (% style="color:#037691" %)AT+SERVADDR=120.24.4.116,5600 (%%) ~/~/ to set TCP server address and port
83.5	548
83.6	549	(% style="color:blue" %)Sensor Console Output when Uplink:
83.5	550
63.1	551	[[image:image-20230807233631-1.png]]
	552
	553
83.6	554	(% style="color:blue" %)See result in TCP Server:
63.1	555
	556	[[image:image-20230807233631-2.png]]

Wiki source code of General Configure/Commands to Connect to IoT server for -NB & -NS NB-IoT models

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