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3	3
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5	5
6		-**Contents:**
	6	+**Table of Contents:**
7	7
8	8	{{toc/}}
9	9
...	...	@@ -17,6 +17,8 @@
17	17	== 1.1 ​What is LoRaWAN Soil Moisture & EC Sensor ==
18	18
19	19	(((
	20	+
	21	+
20	20	The Dragino LSE01 is a (% style="color:#4f81bd" %)**LoRaWAN Soil Moisture & EC Sensor**(%%) for IoT of Agriculture. It is designed to measure the soil moisture of saline-alkali soil and loamy soil. The soil sensor uses FDR method to calculate the soil moisture with the compensation from soil temperature and conductivity. It also has been calibrated in factory for Mineral soil type.
21	21	)))
22	22
...	...	@@ -89,7 +89,7 @@
89	89	)))
90	90
91	91	(((
92		-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"]].
	94	+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="H3.200BUsingtheATCommands"]].
93	93	)))
94	94
95	95
...	...	@@ -105,7 +105,7 @@
105	105	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.
106	106
107	107
108		-**Step 1**: Create a device in TTN with the OTAA keys from LSE01.
	110	+(% style="color:blue" %)**Step 1**(%%):  Create a device in TTN with the OTAA keys from LSE01.
109	109
110	110	Each LSE01 is shipped with a sticker with the default device EUI as below:
111	111
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126	126
127	127
128	128
129		-**Step 2**: Power on LSE01
	131	+(% style="color:blue" %)**Step 2**(%%): Power on LSE01
130	130
131	131
132	132	Put a Jumper on JP2 to power on the device. ( The Jumper must be in FLASH position).
...	...	@@ -134,7 +134,7 @@
134	134	[[image:image-20220606163915-7.png]]
135	135
136	136
137		-**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.
	139	+(% style="color:blue" %)**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.
138	138
139	139	[[image:1654504778294-788.png]]
140	140
...	...	@@ -142,88 +142,108 @@
142	142
143	143	== 2.3 Uplink Payload ==
144	144
	147	+
145	145	=== 2.3.1 MOD~=0(Default Mode) ===
146	146
147	147	LSE01 will uplink payload via LoRaWAN with below payload format:
148	148
149		-
	152	+(((
150	150	Uplink payload includes in total 11 bytes.
151		-
	154	+)))
152	152
153		-(% border="1" cellspacing="10" style="background-color:#f7faff; width:510px" %)
154		-|=(((
	156	+(% border="1" cellspacing="10" style="background-color:#ffffcc; width:500px" %)
	157	+|(((
155	155	**Size**
156	156
157	157	**(bytes)**
158		-)))|=(% style="width: 46px;" %)**2**|=(% style="width: 160px;" %)**2**|=(% style="width: 104px;" %)**2**|=(% style="width: 126px;" %)**2**|=(% style="width: 159px;" %)**2**|=(% style="width: 114px;" %)**1**
159		-|**Value**|(% style="width:46px" %)[[BAT>>||anchor="H2.3.3BatteryInfo"]]|(% style="width:160px" %)(((
	161	+)))|**2**|**2**|**2**|**2**|**2**|**1**
	162	+|**Value**|[[BAT>>||anchor="H2.3.3BatteryInfo"]]|(((
160	160	Temperature
161	161
162	162	(Reserve, Ignore now)
163		-)))|(% style="width:104px" %)[[Soil Moisture>>||anchor="H2.3.4SoilMoisture"]]|(% style="width:126px" %)[[Soil Temperature>>||anchor="H2.3.5SoilTemperature"]]|(% style="width:159px" %)[[Soil Conductivity (EC)>>||anchor="H2.3.6SoilConductivity28EC29"]]|(% style="width:114px" %)(((
	166	+)))|[[Soil Moisture>>||anchor="H2.3.4SoilMoisture"]]|[[Soil Temperature>>||anchor="H2.3.5SoilTemperature"]]|[[Soil Conductivity (EC)>>||anchor="H2.3.6SoilConductivity28EC29"]]|(((
164	164	MOD & Digital Interrupt
165	165
166	166	(Optional)
167	167	)))
168	168
169		-[[image:1654504881641-514.png]]
170	170
171	171
172		-
173	173	=== 2.3.2 MOD~=1(Original value) ===
174	174
175	175	This mode can get the original AD value of moisture and original conductivity (with temperature drift compensation).
176	176
177		-(% border="1" cellspacing="10" style="background-color:#f7faff; width:510px" %)
178		-|=(((
	178	+(% border="1" cellspacing="10" style="background-color:#ffffcc; width:500px" %)
	179	+|(((
179	179	**Size**
180	180
181	181	**(bytes)**
182		-)))|=**2**|=**2**|=**2**|=**2**|=**2**|=**1**
	183	+)))|**2**|**2**|**2**|**2**|**2**|**1**
183	183	|**Value**|[[BAT>>||anchor="H2.3.3BatteryInfo"]]|(((
184	184	Temperature
185	185
186	186	(Reserve, Ignore now)
187		-)))|[[Soil Moisture>>||anchor="H2.3.4SoilMoisture"]]|[[Soil Temperature>>||anchor="H2.3.5SoilTemperature"]]|[[Soil Conductivity (EC)>>||anchor="H2.3.6SoilConductivity28EC29"]](raw)|(((
	188	+)))|[[Soil Moisture>>||anchor="H2.3.4SoilMoisture"]](raw)|[[Soil Temperature>>||anchor="H2.3.5SoilTemperature"]]|[[Soil Conductivity (EC)>>||anchor="H2.3.6SoilConductivity28EC29"]](raw)|(((
188	188	MOD & Digital Interrupt
189	189
190	190	(Optional)
191	191	)))
192	192
193		-[[image:1654504907647-967.png]]
194	194
195	195
196		-
197	197	=== 2.3.3 Battery Info ===
198	198
	198	+(((
199	199	Check the battery voltage for LSE01.
	200	+)))
200	200
	202	+(((
201	201	Ex1: 0x0B45 = 2885mV
	204	+)))
202	202
	206	+(((
203	203	Ex2: 0x0B49 = 2889mV
	208	+)))
204	204
205	205
206	206
207	207	=== 2.3.4 Soil Moisture ===
208	208
	214	+(((
209	209	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.
	216	+)))
210	210
	218	+(((
211	211	For example, if the data you get from the register is __0x05 0xDC__, the moisture content in the soil is
	220	+)))
212	212
	222	+(((
	223	+
	224	+)))
213	213
	226	+(((
214	214	(% style="color:#4f81bd" %)**05DC(H) = 1500(D) /100 = 15%.**
	228	+)))
215	215
216	216
217	217
218	218	=== 2.3.5 Soil Temperature ===
219	219
	234	+(((
220	220	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
	236	+)))
221	221
	238	+(((
222	222	**Example**:
	240	+)))
223	223
	242	+(((
224	224	If payload is 0105H: ((0x0105 & 0x8000)>>15 === 0),temp = 0105(H)/100 = 2.61 °C
	244	+)))
225	225
	246	+(((
226	226	If payload is FF7EH: ((FF7E & 0x8000)>>15 ===1),temp = (FF7E(H)-FFFF(H))/100 = -1.29 °C
	248	+)))
227	227
228	228
229	229
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273	273
274	274	[[image:1654505570700-128.png]]
275	275
	298	+(((
276	276	The payload decoder function for TTN is here:
	300	+)))
277	277
278		-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/]]
	302	+(((
	303	+LSE01 TTN Payload Decoder: [[https:~~/~~/www.dropbox.com/sh/si8icbrjlamxqdb/AAACYwjsxxr5fj_vpqRtrETAa?dl=0>>https://www.dropbox.com/sh/si8icbrjlamxqdb/AAACYwjsxxr5fj_vpqRtrETAa?dl=0]]
	304	+)))
279	279
280	280
281		-
282	282	== 2.4 Uplink Interval ==
283	283
284	284	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: [[Change Uplink Interval>>doc:Main.End Device AT Commands and Downlink Command.WebHome||anchor="H4.1ChangeUplinkInterval"]]
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292	292	[[image:image-20220606165544-8.png]]
293	293
294	294
	320	+(((
295	295	**Examples:**
	322	+)))
296	296
	324	+(((
	325	+
	326	+)))
297	297
298		-* **Set TDC**
	328	+* (((
	329	+**Set TDC**
	330	+)))
299	299
	332	+(((
300	300	If the payload=0100003C, it means set the END Node’s TDC to 0x00003C=60(S), while type code is 01.
	334	+)))
301	301
	336	+(((
302	302	Payload:    01 00 00 1E    TDC=30S
	338	+)))
303	303
	340	+(((
304	304	Payload:    01 00 00 3C    TDC=60S
	342	+)))
305	305
	344	+(((
	345	+
	346	+)))
306	306
307		-* **Reset**
	348	+* (((
	349	+**Reset**
	350	+)))
308	308
	352	+(((
309	309	If payload = 0x04FF, it will reset the LSE01
	354	+)))
310	310
311	311
312	312	* **CFM**
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317	317
318	318	== 2.6 ​Show Data in DataCake IoT Server ==
319	319
	365	+(((
320	320	[[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:
	367	+)))
321	321
	369	+(((
	370	+
	371	+)))
322	322
323		-**Step 1**: Be sure that your device is programmed and properly connected to the network at this time.
	373	+(((
	374	+(% style="color:blue" %)**Step 1**(%%):  Be sure that your device is programmed and properly connected to the network at this time.
	375	+)))
324	324
325		-**Step 2**: To configure the Application to forward data to DATACAKE you will need to add integration. To add the DATACAKE integration, perform the following steps:
	377	+(((
	378	+(% style="color:blue" %)**Step 2**(%%):  To configure the Application to forward data to DATACAKE you will need to add integration. To add the DATACAKE integration, perform the following steps:
	379	+)))
326	326
327	327
328	328	[[image:1654505857935-743.png]]
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330	330
331	331	[[image:1654505874829-548.png]]
332	332
333		-Step 3: Create an account or log in Datacake.
334	334
335		-Step 4: Search the LSE01 and add DevEUI.
	388	+(% style="color:blue" %)**Step 3**(%%)**:**  Create an account or log in Datacake.
336	336
	390	+(% style="color:blue" %)**Step 4**(%%)**:**  Search the LSE01 and add DevEUI.
337	337
	392	+
338	338	[[image:1654505905236-553.png]]
339	339
340	340
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630	630	* Solid ON for 5 seconds once device successful Join the network.
631	631	* Blink once when device transmit a packet.
632	632
	688	+
	689	+
	690	+
633	633	== 2.9 Installation in Soil ==
634	634
635	635	**Measurement the soil surface**
...	...	@@ -644,6 +644,7 @@
644	644	)))
645	645
646	646
	705	+
647	647	[[image:1654506665940-119.png]]
648	648
649	649	(((
...	...	@@ -714,7 +714,7 @@
714	714	[[Lithium-ion Battery-Capacitor datasheet>>url:http://www.dragino.com/downloads/downloads/datasheet/Battery/SPC_1520_datasheet.jpg]], [[Tech Spec>>url:http://www.dragino.com/downloads/downloads/datasheet/Battery/SPC1520%20Technical%20Specification20171123.pdf]]
715	715	)))
716	716
717		- [[image:image-20220606171726-9.png]]
	776	+ [[image:image-20220610172436-1.png]]
718	718
719	719
720	720
...	...	@@ -749,13 +749,13 @@
749	749
750	750	LSE01 supports AT Command set in the stock firmware. You can use a USB to TTL adapter to connect to LSE01 for using AT command, as below.
751	751
752		-[[image:1654501986557-872.png]]
	811	+[[image:1654501986557-872.png||height="391" width="800"]]
753	753
754	754
755	755	Or if you have below board, use below connection:
756	756
757	757
758		-[[image:1654502005655-729.png]]
	817	+[[image:1654502005655-729.png||height="503" width="801"]]
759	759
760	760
761	761
...	...	@@ -762,7 +762,7 @@
762	762	In the PC, you need to set the serial baud rate to (% style="color:green" %)**9600**(%%) to access the serial console for LSE01. LSE01 will output system info once power on as below:
763	763
764	764
765		- [[image:1654502050864-459.png]]
	824	+ [[image:1654502050864-459.png||height="564" width="806"]]
766	766
767	767
768	768	Below are the available commands, a more detailed AT Command manual can be found at [[AT Command Manual>>url:http://www.dragino.com/downloads/index.php?dir=LoRa_End_Node/LSE01/]]: [[http:~~/~~/www.dragino.com/downloads/index.php?dir=LoRa_End_Node/LSE01/>>url:http://www.dragino.com/downloads/index.php?dir=LoRa_End_Node/LSE01/]]
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877	877
878	878	== 4.1 ​How to change the LoRa Frequency Bands/Region? ==
879	879
	939	+(((
880	880	You can follow the instructions for [[how to upgrade image>>||anchor="H2.10200BFirmwareChangeLog"]].
881	881	When downloading the images, choose the required image file for download. ​
	942	+)))
882	882
	944	+(((
	945	+
	946	+)))
883	883
	948	+(((
884	884	How to set up LSE01 to work in 8 channel mode By default, the frequency bands US915, AU915, CN470 work in 72 frequencies. Many gateways are 8 channel gateways, and in this case, the OTAA join time and uplink schedule is long and unpredictable while the end node is hopping in 72 frequencies.
	950	+)))
885	885
	952	+(((
	953	+
	954	+)))
886	886
	956	+(((
887	887	You can configure the end node to work in 8 channel mode by using the AT+CHE command. The 500kHz channels are always included for OTAA.
	958	+)))
888	888
	960	+(((
	961	+
	962	+)))
889	889
	964	+(((
890	890	For example, in **US915** band, the frequency table is as below. By default, the end node will use all channels (0~~71) for OTAA Join process. After the OTAA Join, the end node will use these all channels (0~~71) to send uplink packets.
	966	+)))
891	891
892	892	[[image:image-20220606154726-3.png]]
893	893
	970	+
894	894	When you use the TTN network, the US915 frequency bands use are:
895	895
896	896	* 903.9 - SF7BW125 to SF10BW125
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903	903	* 905.3 - SF7BW125 to SF10BW125
904	904	* 904.6 - SF8BW500
905	905
	983	+(((
906	906	Because the end node is now hopping in 72 frequency, it makes it difficult for the devices to Join the TTN network and uplink data. To solve this issue, you can access the device via the AT commands and run:
	985	+)))
907	907
908	908	(% class="box infomessage" %)
909	909	(((
...	...	@@ -915,10 +915,17 @@
915	915	**ATZ**
916	916	)))
917	917
	997	+(((
918	918	to set the end node to work in 8 channel mode. The device will work in Channel 8-15 & 64-71 for OTAA, and channel 8-15 for Uplink.
	999	+)))
919	919
	1001	+(((
	1002	+
	1003	+)))
920	920
	1005	+(((
921	921	The **AU915** band is similar. Below are the AU915 Uplink Channels.
	1007	+)))
922	922
923	923	[[image:image-20220606154825-4.png]]
924	924
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933	933
934	934	== 5.2 AT Command input doesn’t work ==
935	935
	1022	+(((
936	936	In the case if user can see the console output but can’t type input to the device. Please check if you already include the (% style="color:green" %)**ENTER**(%%) while sending out the command. Some serial tool doesn’t send (% style="color:green" %)**ENTER**(%%) while press the send key, user need to add ENTER in their string.
	1024	+)))
937	937
938	938
939	939	== 5.3 Device rejoin in at the second uplink packet ==
...	...	@@ -945,7 +945,9 @@
945	945
946	946	(% style="color:#4f81bd" %)**Cause for this issue:**
947	947
	1036	+(((
948	948	The fuse on LSE01 is not large enough, some of the soil probe require large current up to 5v 800mA, in a short pulse. When this happen, it cause the device reboot so user see rejoin.
	1038	+)))
949	949
950	950
951	951	(% style="color:#4f81bd" %)**Solution: **
...	...	@@ -952,7 +952,7 @@
952	952
953	953	All new shipped LSE01 after 2020-May-30 will have this to fix. For the customer who see this issue, please bypass the fuse as below:
954	954
955		-[[image:1654500929571-736.png]]
	1045	+[[image:1654500929571-736.png||height="458" width="832"]]
956	956
957	957
958	958	= 6. ​Order Info =
...	...	@@ -985,7 +985,9 @@
985	985	= 7. Packing Info =
986	986
987	987	(((
988		-**Package Includes**:
	1078	+
	1079	+
	1080	+(% style="color:#037691" %)**Package Includes**:
989	989	)))
990	990
991	991	* (((
...	...	@@ -994,10 +994,8 @@
994	994
995	995	(((
996	996
997		-)))
998	998
999		-(((
1000		-**Dimension and weight**:
	1090	+(% style="color:#037691" %)**Dimension and weight**:
1001	1001	)))
1002	1002
1003	1003	* (((
...	...	@@ -1012,7 +1012,6 @@
1012	1012	* (((
1013	1013	Weight / pcs : g
1014	1014
1015		-
1016	1016
1017	1017	)))
1018	1018
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1020	1020
1021	1021	* 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.
1022	1022	* 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]]
1023		-
1024		-

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