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From version < 13.3 >
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... ... @@ -54,64 +54,50 @@
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
92 92  
93 -**LSE01 v1.0:**
70 +(% class="wikigeneratedid" id="H200B1.5FirmwareChangelog" %)
71 +​
94 94  
95 -* Release
73 +(% class="wikigeneratedid" %)
74 +== 1.5 Firmware Change log ==
96 96  
97 -1. Configure LSE01 to connect to LoRaWAN network
98 -11. How it works
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
77 +**LSE01 v1.0 :**  Release
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.
104 104  
81 += 2. Configure LSE01 to connect to LoRaWAN network =
105 105  
83 +== 2.1 How it works ==
106 106  
85 +(((
86 +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
87 +)))
107 107  
108 -1.
109 -11. ​Quick guide to connect to LoRaWAN server (OTAA)
89 +(((
90 +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"]].
91 +)))
110 110  
93 +
94 +
95 +== 2.2 ​Quick guide to connect to LoRaWAN server (OTAA) ==
96 +
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]]
100 +[[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  
110 +[[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]]
117 +[[image:1654504596150-405.png]]
134 134  
135 135  
136 136  
137 137  **Add APP KEY and DEV EUI**
138 138  
123 +[[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  
132 +[[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]]
137 +[[image:1654504778294-788.png]]
166 166  
167 167  
168 168  
141 +== 2.3 Uplink Payload ==
169 169  
170 -1.
171 -11. ​Uplink Payload
172 -111. MOD=0(Default Mode)
143 +=== 2.3.1 MOD~=0(Default Mode) ===
173 173  
174 174  LSE01 will uplink payload via LoRaWAN with below payload format: 
175 175  
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192 192  (Optional)
193 193  )))
194 194  
195 -[[image:file:///C:/Users/93456/AppData/Local/Temp/msohtmlclip1/01/clip_image007.png]]
166 +[[image:1654504881641-514.png]]
196 196  
197 197  
198 -1.
199 -11.
200 -111. MOD=1(Original value)
201 201  
170 +=== 2.3.2 MOD~=1(Original value) ===
171 +
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]]
189 +[[image:1654504907647-967.png]]
220 220  
221 -1.
222 -11.
223 -111. Battery Info
224 224  
192 +
193 +=== 2.3.3 Battery Info ===
194 +
225 225  Check the battery voltage for LSE01.
226 226  
227 227  Ex1: 0x0B45 = 2885mV
... ... @@ -230,9 +230,7 @@
230 230  
231 231  
232 232  
233 -1.
234 -11.
235 -111. Soil Moisture
203 +=== 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  
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