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54	54	* IP66 Waterproof Enclosure
55	55	* 4000mAh or 8500mAh Battery for long term use
56	56
	57	+
	58	+
57	57	== 1.3 Specification ==
58	58
59	59	Measure Volume: Base on the centra pin of the probe, a cylinder with 7cm diameter and 10cm height.
60	60
61		-[[image:image-20220606162220-5.png]]
	63	+|**Parameter**|**Soil Moisture**|**Soil Conductivity**|**Soil Temperature**
	64	+|**Range**|**0-100.00%**|(((
	65	+**0-20000uS/cm**
62	62
	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%)**
63	63
	74	+**±5% (>53%)**
	75	+)))|**2%FS,**|(((
	76	+**-10℃～50℃:<0.3℃**
64	64
65		-== ​1.4 Applications ==
	78	+**All other: <0.6℃**
	79	+)))
	80	+|(((
	81	+**Measure**
66	66
	83	+**Method**
	84	+)))|**FDR , with temperature &EC compensate**|**Conductivity , with temperature compensate**|**RTD, and calibrate**
	85	+
	86	+*
	87	+*1. ​Applications
67	67	* Smart Agriculture
68	68
69		-(% class="wikigeneratedid" id="H200B1.5FirmwareChangelog" %)
70		-​
	90	+1.
	91	+11. ​Firmware Change log
71	71
72		-== 1.5 Firmware Change log ==
	93	+**LSE01 v1.0:**
73	73
	95	+* Release
74	74
75		-**LSE01 v1.0 :**  Release
	97	+1. Configure LSE01 to connect to LoRaWAN network
	98	+11. How it works
76	76
	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
77	77
78	78
79		-= 2. Configure LSE01 to connect to LoRaWAN network =
	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.
80	80
81		-== 2.1 How it works ==
82	82
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		-)))
86	86
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		-)))
90	90
	108	+1.
	109	+11. ​Quick guide to connect to LoRaWAN server (OTAA)
91	91
92		-
93		-== 2.2 ​Quick guide to connect to LoRaWAN server (OTAA) ==
94		-
95	95	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.
96	96
97	97
98		-[[image:1654503992078-669.png]]
	114	+[[image:file:///C:/Users/93456/AppData/Local/Temp/msohtmlclip1/01/clip_image003.png]]
99	99
100	100
101	101	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.
...	...	@@ -105,22 +105,27 @@
105	105
106	106	Each LSE01 is shipped with a sticker with the default device EUI as below:
107	107
108		-[[image:image-20220606163732-6.jpeg]]
109	109
	125	+
	126	+
110	110	You can enter this key in the LoRaWAN Server portal. Below is TTN screen shot:
111	111
	129	+
112	112	**Add APP EUI in the application**
113	113
114	114
115		-[[image:1654504596150-405.png]]
	133	+[[image:file:///C:/Users/93456/AppData/Local/Temp/msohtmlclip1/01/clip_image004.png]]
116	116
117	117
118	118
119	119	**Add APP KEY and DEV EUI**
120	120
121		-[[image:1654504683289-357.png]]
122	122
	140	+[[image:file:///C:/Users/93456/AppData/Local/Temp/msohtmlclip1/01/clip_image005.png]]
123	123
	142	+|(((
	143	+
	144	+)))
124	124
125	125	**Step 2**: Power on LSE01
126	126
...	...	@@ -127,18 +127,28 @@
127	127
128	128	Put a Jumper on JP2 to power on the device. ( The Jumper must be in FLASH position).
129	129
130		-[[image:image-20220606163915-7.png]]
131	131
132	132
	153	+|(((
	154	+
	155	+)))
	156	+
	157	+[[image:file:///C:/Users/93456/AppData/Local/Temp/msohtmlclip1/01/clip_image006.png]]
	158	+
	159	+
	160	+
	161	+
	162	+
133	133	**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.
134	134
135		-[[image:1654504778294-788.png]]
	165	+[[image:file:///C:/Users/93456/AppData/Local/Temp/msohtmlclip1/01/clip_image007.png]]
136	136
137	137
138	138
139		-== 2.3 Uplink Payload ==
140	140
141		-=== 2.3.1 MOD~=0(Default Mode) ===
	170	+1.
	171	+11. ​Uplink Payload
	172	+111. MOD=0(Default Mode)
142	142
143	143	LSE01 will uplink payload via LoRaWAN with below payload format:
144	144
...	...	@@ -161,12 +161,13 @@
161	161	(Optional)
162	162	)))
163	163
164		-[[image:1654504881641-514.png]]
	195	+[[image:file:///C:/Users/93456/AppData/Local/Temp/msohtmlclip1/01/clip_image007.png]]
165	165
166	166
	198	+1.
	199	+11.
	200	+111. MOD=1(Original value)
167	167
168		-=== 2.3.2 MOD~=1(Original value) ===
169		-
170	170	This mode can get the original AD value of moisture and original conductivity (with temperature drift compensation).
171	171
172	172	|(((
...	...	@@ -184,12 +184,12 @@
184	184	(Optional)
185	185	)))
186	186
187		-[[image:1654504907647-967.png]]
	219	+[[image:file:///C:/Users/93456/AppData/Local/Temp/msohtmlclip1/01/clip_image008.png]]
188	188
	221	+1.
	222	+11.
	223	+111. Battery Info
189	189
190		-
191		-=== 2.3.3 Battery Info ===
192		-
193	193	Check the battery voltage for LSE01.
194	194
195	195	Ex1: 0x0B45 = 2885mV
...	...	@@ -198,19 +198,21 @@
198	198
199	199
200	200
201		-=== 2.3.4 Soil Moisture ===
	233	+1.
	234	+11.
	235	+111. Soil Moisture
202	202
203	203	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.
204	204
205		-For example, if the data you get from the register is __0x05 0xDC__, the moisture content in the soil is
	239	+For example, if the data you get from the register is 0x05 0xDC, the moisture content in the soil is
206	206
	241	+**05DC(H) = 1500(D) /100 = 15%.**
207	207
208		-(% style="color:#4f81bd" %)**05DC(H) = 1500(D) /100 = 15%.**
209	209
	244	+1.
	245	+11.
	246	+111. Soil Temperature
210	210
211		-
212		-=== 2.3.5 Soil Temperature ===
213		-
214	214	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
215	215
216	216	**Example**:
...	...	@@ -220,8 +220,8 @@
220	220	If payload is FF7EH: ((FF7E & 0x8000)>>15 ===1),temp = (FF7E(H)-FFFF(H))/100 = -1.29 °C
221	221
222	222
223		-1.
224		-11.
	257	+1.
	258	+11.
225	225	111. Soil Conductivity (EC)
226	226
227	227	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).
...	...	@@ -231,8 +231,8 @@
231	231
232	232	Generally, the EC value of irrigation water is less than 800uS / cm.
233	233
234		-1.
235		-11.
	268	+1.
	269	+11.
236	236	111. MOD
237	237
238	238	Firmware version at least v2.1 supports changing mode.
...	...	@@ -249,8 +249,8 @@
249	249	If** **payload =** **0x0A01, workmode=1
250	250
251	251
252		-1.
253		-11.
	286	+1.
	287	+11.
254	254	111. ​Decode payload in The Things Network
255	255
256	256	While using TTN network, you can add the payload format to decode the payload.
...	...	@@ -263,7 +263,7 @@
263	263	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/]]
264	264
265	265
266		-1.
	300	+1.
267	267	11. Uplink Interval
268	268
269	269	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:
...	...	@@ -270,7 +270,7 @@
270	270
271	271	[[http:~~/~~/wiki.dragino.com/index.php?title=End_Device_AT_Commands_and_Downlink_Commands#Change_Uplink_Interval>>url:http://wiki.dragino.com/index.php?title=End_Device_AT_Commands_and_Downlink_Commands#Change_Uplink_Interval]]
272	272
273		-1.
	307	+1.
274	274	11. ​Downlink Payload
275	275
276	276	By default, LSE50 prints the downlink payload to console port.
...	...	@@ -303,7 +303,7 @@
303	303
304	304	Downlink Payload: 05000001, Set AT+CFM=1 or 05000000 , set AT+CFM=0
305	305
306		-1.
	340	+1.
307	307	11. ​Show Data in DataCake IoT Server
308	308
309	309	[[DATACAKE>>url:https://datacake.co/]] provides a human friendly interface to show the sensor data, once we have data in TTN, we can use [[DATACAKE>>url:https://datacake.co/]] to connect to TTN and see the data in DATACAKE. Below are the steps:
...	...	@@ -344,8 +344,8 @@
344	344
345	345	The LSE01 uses OTAA mode and below frequency plans by default. If user want to use it with different frequency plan, please refer the AT command sets.
346	346
347		-1.
348		-11.
	381	+1.
	382	+11.
349	349	111. EU863-870 (EU868)
350	350
351	351	Uplink:
...	...	@@ -376,8 +376,8 @@
376	376	869.525 - SF9BW125 (RX2 downlink only)
377	377
378	378
379		-1.
380		-11.
	413	+1.
	414	+11.
381	381	111. US902-928(US915)
382	382
383	383	Used in USA, Canada and South America. Default use CHE=2
...	...	@@ -422,8 +422,8 @@
422	422	923.3 - SF12BW500(RX2 downlink only)
423	423
424	424
425		-1.
426		-11.
	459	+1.
	460	+11.
427	427	111. CN470-510 (CN470)
428	428
429	429	Used in China, Default use CHE=1
...	...	@@ -468,8 +468,8 @@
468	468	505.3 - SF12BW125 (RX2 downlink only)
469	469
470	470
471		-1.
472		-11.
	505	+1.
	506	+11.
473	473	111. AU915-928(AU915)
474	474
475	475	Default use CHE=2
...	...	@@ -513,8 +513,8 @@
513	513
514	514	923.3 - SF12BW500(RX2 downlink only)
515	515
516		-1.
517		-11.
	550	+1.
	551	+11.
518	518	111. AS920-923 & AS923-925 (AS923)
519	519
520	520	**Default Uplink channel:**
...	...	@@ -566,8 +566,8 @@
566	566	923.2 - SF10BW125 (RX2)
567	567
568	568
569		-1.
570		-11.
	603	+1.
	604	+11.
571	571	111. KR920-923 (KR920)
572	572
573	573	Default channel:
...	...	@@ -603,8 +603,8 @@
603	603	921.9 - SF12BW125 (RX2 downlink only; SF12BW125 might be changed to SF9BW125)
604	604
605	605
606		-1.
607		-11.
	640	+1.
	641	+11.
608	608	111. IN865-867 (IN865)
609	609
610	610	Uplink:
...	...	@@ -623,7 +623,7 @@
623	623	866.550 - SF10BW125 (RX2)
624	624
625	625
626		-1.
	660	+1.
627	627	11. LED Indicator
628	628
629	629	The LSE01 has an internal LED which is to show the status of different state.
...	...	@@ -633,7 +633,7 @@
633	633	* Solid ON for 5 seconds once device successful Join the network.
634	634	* Blink once when device transmit a packet.
635	635
636		-1.
	670	+1.
637	637	11. Installation in Soil
638	638
639	639	**Measurement the soil surface**
...	...	@@ -660,7 +660,7 @@
660	660
661	661
662	662
663		-1.
	697	+1.
664	664	11. ​Firmware Change Log
665	665
666	666	**Firmware download link:**
...	...	@@ -679,7 +679,7 @@
679	679
680	680
681	681
682		-1.
	716	+1.
683	683	11. ​Battery Analysis
684	684	111. ​Battery Type
685	685
...	...	@@ -703,15 +703,15 @@
703	703
704	704
705	705
706		-1.
707		-11.
	740	+1.
	741	+11.
708	708	111. ​Battery Note
709	709
710	710	The Li-SICO battery is designed for small current / long period application. It is not good to use a high current, short period transmit method. The recommended minimum period for use of this battery is 5 minutes. If you use a shorter period time to transmit LoRa, then the battery life may be decreased.
711	711
712	712
713		-1.
714		-11.
	747	+1.
	748	+11.
715	715	111. ​Replace the battery
716	716
717	717	If Battery is lower than 2.7v, user should replace the battery of LSE01.

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