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...	...	@@ -54,64 +54,48 @@
54	54	* IP66 Waterproof Enclosure
55	55	* 4000mAh or 8500mAh Battery for long term use
56	56
57		-
58		-
59	59	== 1.3 Specification ==
60	60
61	61	Measure Volume: Base on the centra pin of the probe, a cylinder with 7cm diameter and 10cm height.
62	62
63		-|**Parameter**|**Soil Moisture**|**Soil Conductivity**|**Soil Temperature**
64		-|**Range**|**0-100.00%**|(((
65		-**0-20000uS/cm**
	61	+[[image:image-20220606162220-5.png]]
66	66
67		-**(25℃)(0-20.0EC)**
68		-)))|**-40.00℃～85.00℃**
69		-|**Unit**|**V/V %,**|**uS/cm,**|**℃**
70		-|**Resolution**|**0.01%**|**1 uS/cm**|**0.01℃**
71		-|**Accuracy**|(((
72		-**±3% (0-53%)**
73	73
74		-**±5% (>53%)**
75		-)))|**2%FS,**|(((
76		-**-10℃～50℃:<0.3℃**
77	77
78		-**All other: <0.6℃**
79		-)))
80		-|(((
81		-**Measure**
	65	+== ​1.4 Applications ==
82	82
83		-**Method**
84		-)))|**FDR , with temperature &EC compensate**|**Conductivity , with temperature compensate**|**RTD, and calibrate**
85		-
86		-*
87		-*1. ​Applications
88	88	* Smart Agriculture
89	89
90		-1.
91		-11. ​Firmware Change log
	69	+(% class="wikigeneratedid" id="H200B1.5FirmwareChangelog" %)
	70	+​
92	92
93		-**LSE01 v1.0:**
	72	+== 1.5 Firmware Change log ==
94	94
95		-* Release
96	96
97		-1. Configure LSE01 to connect to LoRaWAN network
98		-11. How it works
	75	+**LSE01 v1.0 :**  Release
99	99
100		-The LSE01 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 LSE0150. It will automatically join the network via OTAA and start to send the sensor value
101	101
102	102
103		-In case you can’t set the OTAA keys in the LoRaWAN OTAA server, and you have to use the keys from the server, you can [[use AT Commands >>path:#_​Using_the_AT]]to set the keys in the LSE01.
	79	+= 2. Configure LSE01 to connect to LoRaWAN network =
104	104
	81	+== 2.1 How it works ==
105	105
	83	+(((
	84	+The LSE01 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 LSE0150. It will automatically join the network via OTAA and start to send the sensor value
	85	+)))
106	106
	87	+(((
	88	+In case you can’t set the OTAA keys in the LoRaWAN OTAA server, and you have to use the keys from the server, you can [[use AT Commands >>||anchor="H3.​UsingtheATCommands"]].
	89	+)))
107	107
108		-1.
109		-11. ​Quick guide to connect to LoRaWAN server (OTAA)
110	110
	92	+
	93	+== 2.2 ​Quick guide to connect to LoRaWAN server (OTAA) ==
	94	+
111	111	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.
112	112
113	113
114		-[[image:file:///C:/Users/93456/AppData/Local/Temp/msohtmlclip1/01/clip_image003.png]]
	98	+[[image:1654503992078-669.png]]
115	115
116	116
117	117	The LG308 is already set to connected to [[TTN network >>url:https://console.cloud.thethings.network/]], so what we need to now is configure the TTN server.
...	...	@@ -121,27 +121,22 @@
121	121
122	122	Each LSE01 is shipped with a sticker with the default device EUI as below:
123	123
	108	+[[image:image-20220606163732-6.jpeg]]
124	124
125		-
126		-
127	127	You can enter this key in the LoRaWAN Server portal. Below is TTN screen shot:
128	128
129		-
130	130	**Add APP EUI in the application**
131	131
132	132
133		-[[image:file:///C:/Users/93456/AppData/Local/Temp/msohtmlclip1/01/clip_image004.png]]
	115	+[[image:1654504596150-405.png]]
134	134
135	135
136	136
137	137	**Add APP KEY and DEV EUI**
138	138
	121	+[[image:1654504683289-357.png]]
139	139
140		-[[image:file:///C:/Users/93456/AppData/Local/Temp/msohtmlclip1/01/clip_image005.png]]
141	141
142		-|(((
143		-
144		-)))
145	145
146	146	**Step 2**: Power on LSE01
147	147
...	...	@@ -148,28 +148,18 @@
148	148
149	149	Put a Jumper on JP2 to power on the device. ( The Jumper must be in FLASH position).
150	150
	130	+[[image:image-20220606163915-7.png]]
151	151
152	152
153		-|(((
154		-
155		-)))
156		-
157		-[[image:file:///C:/Users/93456/AppData/Local/Temp/msohtmlclip1/01/clip_image006.png]]
158		-
159		-
160		-
161		-
162		-
163	163	**Step 3:** The LSE01 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.
164	164
165		-[[image:file:///C:/Users/93456/AppData/Local/Temp/msohtmlclip1/01/clip_image007.png]]
	135	+[[image:1654504778294-788.png]]
166	166
167	167
168	168
	139	+== 2.3 Uplink Payload ==
169	169
170		-1.
171		-11. ​Uplink Payload
172		-111. MOD=0(Default Mode)
	141	+=== 2.3.1 MOD~=0(Default Mode) ===
173	173
174	174	LSE01 will uplink payload via LoRaWAN with below payload format:
175	175
...	...	@@ -192,13 +192,12 @@
192	192	(Optional)
193	193	)))
194	194
195		-[[image:file:///C:/Users/93456/AppData/Local/Temp/msohtmlclip1/01/clip_image007.png]]
	164	+[[image:1654504881641-514.png]]
196	196
197	197
198		-1.
199		-11.
200		-111. MOD=1(Original value)
201	201
	168	+=== 2.3.2 MOD~=1(Original value) ===
	169	+
202	202	This mode can get the original AD value of moisture and original conductivity (with temperature drift compensation).
203	203
204	204	|(((
...	...	@@ -216,12 +216,12 @@
216	216	(Optional)
217	217	)))
218	218
219		-[[image:file:///C:/Users/93456/AppData/Local/Temp/msohtmlclip1/01/clip_image008.png]]
	187	+[[image:1654504907647-967.png]]
220	220
221		-1.
222		-11.
223		-111. Battery Info
224	224
	190	+
	191	+=== 2.3.3 Battery Info ===
	192	+
225	225	Check the battery voltage for LSE01.
226	226
227	227	Ex1: 0x0B45 = 2885mV
...	...	@@ -230,21 +230,19 @@
230	230
231	231
232	232
233		-1.
234		-11.
235		-111. Soil Moisture
	201	+=== 2.3.4 Soil Moisture ===
236	236
237	237	Get the moisture content of the soil. The value range of the register is 0-10000(Decimal), divide this value by 100 to get the percentage of moisture in the soil.
238	238
239		-For example, if the data you get from the register is 0x05 0xDC, the moisture content in the soil is
	205	+For example, if the data you get from the register is __0x05 0xDC__, the moisture content in the soil is
240	240
241		-**05DC(H) = 1500(D) /100 = 15%.**
242	242
	208	+(% style="color:#4f81bd" %)**05DC(H) = 1500(D) /100 = 15%.**
243	243
244		-1.
245		-11.
246		-111. Soil Temperature
247	247
	211	+
	212	+=== 2.3.5 Soil Temperature ===
	213	+
248	248	Get the temperature in the soil. The value range of the register is -4000 - +800(Decimal), divide this value by 100 to get the temperature in the soil. For example, if the data you get from the register is 0x09 0xEC, the temperature content in the soil is
249	249
250	250	**Example**:
...	...	@@ -254,21 +254,31 @@
254	254	If payload is FF7EH: ((FF7E & 0x8000)>>15 ===1),temp = (FF7E(H)-FFFF(H))/100 = -1.29 °C
255	255
256	256
257		-1.
258		-11.
259		-111. Soil Conductivity (EC)
260	260
261		-Obtain soluble salt concentration in soil or soluble ion concentration in liquid fertilizer or planting medium,. The value range of the register is 0 - 20000(Decimal)( Can be greater than 20000).
	224	+=== 2.3.6 Soil Conductivity (EC) ===
262	262
	226	+(((
	227	+Obtain (% style="color:#4f81bd" %)**__soluble salt concentration__**(%%) in soil or (% style="color:#4f81bd" %)**__soluble ion concentration in liquid fertilizer__**(%%) or (% style="color:#4f81bd" %)**__planting medium__**(%%). The value range of the register is 0 - 20000(Decimal)( Can be greater than 20000).
	228	+)))
	229	+
	230	+(((
263	263	For example, if the data you get from the register is 0x00 0xC8, the soil conductivity is 00C8(H) = 200(D) = 200 uS/cm.
	232	+)))
264	264
265		-
	234	+(((
266	266	Generally, the EC value of irrigation water is less than 800uS / cm.
	236	+)))
267	267
268		-1.
269		-11.
270		-111. MOD
	238	+(((
	239	+
	240	+)))
271	271
	242	+(((
	243	+
	244	+)))
	245	+
	246	+=== 2.3.7 MOD ===
	247	+
272	272	Firmware version at least v2.1 supports changing mode.
273	273
274	274	For example, bytes[10]=90
...	...	@@ -283,14 +283,13 @@
283	283	If** **payload =** **0x0A01, workmode=1
284	284
285	285
286		-1.
287		-11.
288		-111. ​Decode payload in The Things Network
289	289
	263	+=== 2.3.8 ​Decode payload in The Things Network ===
	264	+
290	290	While using TTN network, you can add the payload format to decode the payload.
291	291
292	292
293		-[[image:file:///C:/Users/93456/AppData/Local/Temp/msohtmlclip1/01/clip_image009.png]]
	268	+[[image:1654505570700-128.png]]
294	294
295	295	The payload decoder function for TTN is here:
296	296
...	...	@@ -297,8 +297,7 @@
297	297	LSE01 TTN Payload Decoder: [[http:~~/~~/www.dragino.com/downloads/index.php?dir=LoRa_End_Node/LSE01/Payload_Decoder/>>url:http://www.dragino.com/downloads/index.php?dir=LoRa_End_Node/LSE01/Payload_Decoder/]]
298	298
299	299
300		-1.
301		-11. Uplink Interval
	275	+== 2.4 Uplink Interval ==
302	302
303	303	The LSE01 by default uplink the sensor data every 20 minutes. User can change this interval by AT Command or LoRaWAN Downlink Command. See this link:
304	304

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