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4	4
5	5	**Contents:**
6	6
	7	+{{toc/}}
7	7
8	8
9	9
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10	10
11	11
12	12
	14	+
13	13	= 1.  Introduction =
14	14
15	15	== 1.1 ​ What is LoRaWAN LiDAR ToF Distance Sensor ==
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17	17	(((
18	18
19	19
	22	+(((
20	20	The Dragino LLDS12 is a (% style="color:blue" %)**LoRaWAN LiDAR ToF (Time of Flight) Distance Sensor**(%%) for Internet of Things solution. It is capable to measure the distance to an object as close as 10 centimeters (+/- 5cm up to 6m) and as far as 12 meters (+/-1% starting at 6m)!. The LiDAR probe uses laser induction technology for distance measurement.
	24	+)))
21	21
	26	+(((
22	22	The LLDS12 can be applied to scenarios such as horizontal distance measurement, parking management system, object proximity and presence detection, intelligent trash can management system, robot obstacle avoidance, automatic control, sewer, etc.
	28	+)))
23	23
	30	+(((
24	24	It detects the distance between the measured object and the sensor, and uploads the value via wireless to LoRaWAN IoT Server.
	32	+)))
25	25
	34	+(((
26	26	The LoRa wireless technology used in LLDS12 allows device to send data and reach extremely long ranges at low data-rates. It provides ultra-long range spread spectrum communication and high interference immunity whilst minimizing current consumption.
	36	+)))
27	27
	38	+(((
28	28	LLDS12 is powered by (% style="color:blue" %)**8500mAh Li-SOCI2 battery**(%%), it is designed for long term use up to 5 years.
	40	+)))
29	29
	42	+(((
30	30	Each LLDS12 is pre-load with a set of unique keys for LoRaWAN registrations, register these keys to local LoRaWAN server and it will auto connect after power on.
31	31	)))
	45	+)))
32	32
33	33
34	34	[[image:1654826306458-414.png]]
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70	70	[[image:1654827224480-952.png]]
71	71
72	72
73		-
74	74	== 1.5 ​ Applications ==
75	75
76	76	* Horizontal distance measurement
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81	81	* Automatic control
82	82	* Sewer
83	83
84		-== 1.6 Pin mapping and power on ==
	97	+== 1.6  Pin mapping and power on ==
85	85
86	86
87	87	[[image:1654827332142-133.png]]
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88	88
89	89
90	90
91		-= 2. Configure LLDS12 to connect to LoRaWAN network =
92	92
93		-== 2.1 How it works ==
	105	+= 2.  Configure LLDS12 to connect to LoRaWAN network =
94	94
	107	+== 2.1  How it works ==
	108	+
95	95	(((
96	96	The LLDS12 is configured as LoRaWAN OTAA Class A mode by default. It has OTAA keys to join LoRaWAN network. To connect a local LoRaWAN network, you need to input the OTAA keys in the LoRaWAN IoT server and power on the LLDS12. It will automatically join the network via OTAA and start to send the sensor value. The default uplink interval is 20 minutes.
97	97	)))
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101	101	)))
102	102
103	103
104		-== 2.2 ​Quick guide to connect to LoRaWAN server (OTAA) ==
	118	+== 2.2  ​Quick guide to connect to LoRaWAN server (OTAA) ==
105	105
106	106	(((
107	107	Following is an example for how to join the [[TTN v3 LoRaWAN Network>>url:https://console.cloud.thethings.network/]]. Below is the network structure; we use the [[LG308>>url:http://www.dragino.com/products/lora/item/140-lg308.html]] as a LoRaWAN gateway in this example.
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136	136	[[image:1654592600093-601.png]]
137	137
138	138
	153	+
139	139	**Add APP EUI and DEV EUI**
140	140
141	141	[[image:1654592619856-881.png]]
142	142
143	143
	159	+
144	144	**Add APP EUI in the application**
145	145
146	146	[[image:1654592632656-512.png]]
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152	152	[[image:1654592653453-934.png]]
153	153
154	154
155		-(% style="color:blue" %)**Step 2**(%%): Power on LSPH01
	171	+(% style="color:blue" %)**Step 2**(%%): Power on LLDS12
156	156
157	157
158	158	Put a Jumper on JP2 to power on the device. ( The Switch must be in FLASH position).
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161	161
162	162
163	163	(((
164		-(% style="color:blue" %)**Step 3**(%%)**:** The LSPH01 will auto join to the TTN network. After join success, it will start to upload messages to TTN and you can see the messages in the panel.
	180	+(% style="color:blue" %)**Step 3**(%%)**:** The LLDS12 will auto join to the TTN network. After join success, it will start to upload messages to TTN and you can see the messages in the panel.
165	165	)))
166	166
167		-[[image:1654592697690-910.png]]
	183	+[[image:1654833501679-968.png]]
168	168
169	169
170	170
171		-== 2.3 ​Uplink Payload ==
	187	+== 2.3  ​Uplink Payload ==
172	172
173	173	(((
174		-LSPH01 will uplink payload via LoRaWAN with below payload format:
	190	+LLDS12 will uplink payload via LoRaWAN with below payload format:
175	175	)))
176	176
177	177	(((
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179	179	)))
180	180
181	181	(((
182		-Normal uplink payload:
	198	+
183	183	)))
184	184
185	185	(% border="1" cellspacing="10" style="background-color:#ffffcc; width:510px" %)
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189	189	|(% style="width:62.5px" %)**Value**|(% style="width:62.5px" %)[[BAT>>||anchor="H2.3.1BatteryInfo"]]|(% style="width:62.5px" %)(((
190	190	[[Temperature>>||anchor="H2.3.2DS18B20Temperaturesensor"]]
191	191
192		-[[(Optional)>>||anchor="H2.3.2DS18B20Temperaturesensor"]]
193		-)))|[[Soil pH>>||anchor="H2.3.3SoilpH"]]|[[Soil Temperature>>||anchor="H2.3.4SoilTemperature"]]|(((
194		-[[Digital Interrupt (Optional)>>||anchor="H2.3.5InterruptPin"]]
195		-)))|Reserve|(((
	208	+[[DS18B20>>||anchor="H2.3.2DS18B20Temperaturesensor"]]
	209	+)))|[[Distance>>||anchor="H"]]|[[Distance signal strength>>||anchor="H2.3.4SoilTemperature"]]|(((
	210	+[[Interrupt flag>>||anchor="H2.3.5InterruptPin"]]
	211	+)))|[[LiDAR temp>>||anchor="H"]]|(((
196	196	[[Message Type>>||anchor="H2.3.6MessageType"]]
197	197	)))
198	198
199		-[[image:1654592721645-318.png]]
	215	+[[image:1654833689380-972.png]]
200	200
201	201
202	202
203		-=== 2.3.1 Battery Info ===
	219	+=== 2.3.1  Battery Info ===
204	204
205	205
206		-Check the battery voltage for LSPH01.
	222	+Check the battery voltage for LLDS12.
207	207
208	208	Ex1: 0x0B45 = 2885mV
209	209
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211	211
212	212
213	213
214		-=== 2.3.2 DS18B20 Temperature sensor ===
	230	+=== 2.3.2  DS18B20 Temperature sensor ===
215	215
216	216	This is optional, user can connect external DS18B20 sensor to the +3.3v, 1-wire and GND pin . and this field will report temperature.
217	217
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224	224
225	225
226	226
227		-=== 2.3.3 Soil pH ===
	243	+=== 2.3.3  Distance ===
228	228
229		-Range: 0 ~~ 14 pH
	245	+Represents the distance value of the measurement output, the default unit is cm, and the value range parsed as a decimal number is 0-1200. In actual use, when the signal strength value Strength.
230	230
231		-**Example:**
232	232
233		-(% style="color:#037691" %)** 0x02B7(H) = 695(D) = 6.95pH**
	248	+**Example**:
234	234
	250	+If the data you get from the register is 0x0B 0xEA, the distance between the sensor and the measured object is 0BEA(H) = 3050 (D)/10 = 305cm.
235	235
236	236
237		-=== 2.3.4 Soil Temperature ===
238	238
239		-Get Soil Temperature
	254	+=== 2.3.4  Distance signal strength ===
240	240
	256	+Refers to the signal strength, the default output value will be between 0-65535. When the distance measurement gear is fixed, the farther the distance measurement is, the lower the signal strength; the lower the target reflectivity, the lower the signal strength. When Strength is greater than 100 and not equal to 65535, the measured value of Dist is considered credible.
241	241
	258	+
242	242	**Example**:
243	243
244		-If payload is: **0105H**:  (0105 & FC00 == 0), temp = 0105H /10 = 26.1 degree
	261	+If payload is: 01D7(H)=471(D), distance signal strength=471, 471>100,471≠65535, the measured value of Dist is considered credible.
245	245
246		-If payload is: **FF3FH** :  (FF3F & FC00 == 1) , temp = (FF3FH - 65536)/10 = -19.3 degrees.
	263	+Customers can judge whether they need to adjust the environment based on the signal strength.
247	247
248	248
249	249
250		-=== 2.3.5 Interrupt Pin ===
	267	+=== 2.3.5  Interrupt Pin ===
251	251
252	252	This data field shows if this packet is generated by interrupt or not. [[Click here>>||anchor="H3.2SetInterruptMode"]] for the hardware and software set up.
253	253
	271	+Note: The Internet Pin is a separate pin in the screw terminal. See [[pin mapping>>path:#pins]].
254	254
255	255	**Example:**
256	256
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260	260
261	261
262	262
263		-=== 2.3.6 Message Type ===
	281	+=== 2.3.6  LiDAR temp ===
264	264
	283	+Characterize the internal temperature value of the sensor.
	284	+
	285	+**Example: **
	286	+If payload is: 1C(H) <<24>>24=28(D),LiDAR temp=28℃.
	287	+If payload is: F2(H) <<24>>24=-14(D),LiDAR temp=-14℃.
	288	+
	289	+
	290	+
	291	+=== 2.3.7  Message Type ===
	292	+
265	265	(((
266	266	For a normal uplink payload, the message type is always 0x01.
267	267	)))
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275	275	|=(% style="width: 160px;" %)**Message Type Code**|=(% style="width: 163px;" %)**Description**|=(% style="width: 173px;" %)**Payload**
276	276	|(% style="width:160px" %)0x01|(% style="width:163px" %)Normal Uplink|(% style="width:173px" %)[[Normal Uplink Payload>>||anchor="H2.3200BUplinkPayload"]]
277	277	|(% style="width:160px" %)0x02|(% style="width:163px" %)Reply configures info|(% style="width:173px" %)[[Configure Info Payload>>||anchor="H3.4GetFirmwareVersionInfo"]]
278		-|(% style="width:160px" %)0x03|(% style="width:163px" %)Reply Calibration Info|(% style="width:173px" %)[[Calibration Payload>>||anchor="H2.7Calibration"]]
279	279
280		-=== 2.3.7 Decode payload in The Things Network ===
281	281
	308	+=== 2.3.8  Decode payload in The Things Network ===
	309	+
282	282	While using TTN network, you can add the payload format to decode the payload.
283	283
284	284
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445	445	* Check what sub-band the LoRaWAN server ask from the OTAA Join Accept message and switch to that sub-band
446	446	* Use the Join successful sub-band if the server doesn’t include sub-band info in the OTAA Join Accept message ( TTN v2 doesn't include)
447	447
	476	+=== 2.6.3  CN470-510 (CN470) ===
448	448
449		-=== 2.6.3 CN470-510 (CN470) ===
450		-
451	451	(((
452	452	Used in China, Default use CHE=1
453	453	)))
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535	535
536	536
537	537
538		-=== 2.6.4 AU915-928(AU915) ===
	565	+=== 2.6.4  AU915-928(AU915) ===
539	539
540	540	(((
541	541	Frequency band as per definition in LoRaWAN 1.0.3 Regional document.
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556	556	* Check what sub-band the LoRaWAN server ask from the OTAA Join Accept message and switch to that sub-band
557	557	* Use the Join successful sub-band if the server doesn’t include sub-band info in the OTAA Join Accept message ( TTN v2 doesn't include)
558	558
559		-=== 2.6.5 AS920-923 & AS923-925 (AS923) ===
	586	+=== 2.6.5  AS920-923 & AS923-925 (AS923) ===
560	560
561	561	(((
562	562	(% style="color:blue" %)**Default Uplink channel:**
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665	665
666	666
667	667
668		-=== 2.6.6 KR920-923 (KR920) ===
	695	+=== 2.6.6  KR920-923 (KR920) ===
669	669
670	670	(((
671	671	(% style="color:blue" %)**Default channel:**
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738	738
739	739
740	740
741		-=== 2.6.7 IN865-867 (IN865) ===
	768	+=== 2.6.7  IN865-867 (IN865) ===
742	742
743	743	(((
744	744	(% style="color:blue" %)**Uplink:**
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782	782	* The sensor is detected when the device is turned on, and it will flash 4 times quickly when it is detected.
783	783	* Blink once when device transmit a packet.
784	784
785		-
786		-
787	787	== 2.8  ​Firmware Change Log ==
788	788
789	789
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1237	1237
1238	1238	* Support is provided Monday to Friday, from 09:00 to 18:00 GMT+8. Due to different timezones we cannot offer live support. However, your questions will be answered as soon as possible in the before-mentioned schedule.
1239	1239	* Provide as much information as possible regarding your enquiry (product models, accurately describe your problem and steps to replicate it etc) and send a mail to [[support@dragino.com>>url:http://../../../../../../D:%5C%E5%B8%82%E5%9C%BA%E8%B5%84%E6%96%99%5C%E8%AF%B4%E6%98%8E%E4%B9%A6%5CLoRa%5CLT%E7%B3%BB%E5%88%97%5Csupport@dragino.com]].
1240		-
1241		-

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