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Last modified by Mengting Qiu on 2025/06/04 18:42
From version 200.1
edited by Dilisi S
on 2024/11/18 04:06
Change comment: Nov 17 - AT Commands edit - part 3
To version 210.1
edited by Dilisi S
on 2024/11/24 00:36
Change comment: fix toc

Summary

Details

Page properties
Content
... ... @@ -27,7 +27,7 @@
27 27  **This manual is also applicable to the LT-33222-L.**
28 28  {{/info}}
29 29  
30 -The Dragino (% style="color:blue" %)**LT-22222-L I/O Controller**(%%) is an advanced LoRaWAN device designed to provide seamless wireless long-range connectivity with various I/O options, including analog current and voltage inputs, digital inputs and outputs, and relay outputs.
30 +The Dragino (% style="color:blue" %)**LT-22222-L I/O Controller**(%%) is an advanced LoRaWAN end device designed to provide seamless wireless long-range connectivity with various I/O options, including analog current and voltage inputs, digital inputs and outputs, and relay outputs.
31 31  
32 32  The LT-22222-L I/O Controller simplifies and enhances I/O monitoring and controlling. It is ideal for professional applications in wireless sensor networks, including irrigation systems, smart metering, smart cities, building automation, and more. These controllers are designed for easy, cost-effective deployment using LoRa wireless technology.
33 33  )))
... ... @@ -40,21 +40,20 @@
40 40  (((
41 41  You can connect the LT-22222-L I/O Controller to a LoRaWAN network service provider in several ways:
42 42  
43 -* If there is public LoRaWAN network coverage in the area where you plan to install the device (e.g., The Things Network), you can select a network and register the LT-22222-L I/O controller with it.
43 +* If there is public LoRaWAN network coverage in the area where you plan to install the device (e.g., The Things Stack Community Network), you can select a network and register the LT-22222-L I/O controller with it.
44 44  * If there is no public LoRaWAN coverage in your area, you can set up a LoRaWAN gateway, or multiple gateways, and connect them to a LoRaWAN network server to create adequate coverage. Then, register the LT-22222-L I/O controller with this network.
45 45  * Setup your own private LoRaWAN network.
46 -
47 -{{info}}
48 - You can use a LoRaWAN gateway, such as the [[Dragino LG308>>https://www.dragino.com/products/lora-lorawan-gateway/item/140-lg308.html]], to expand or create LoRaWAN coverage in your area.
49 -{{/info}}
50 50  )))
51 51  
52 52  (((
53 -[[image:1653295757274-912.png]]
54 -
55 55  
50 +
51 +The network diagram below illustrates how the LT-22222-L communicates with a typical LoRaWAN network.
56 56  )))
57 57  
54 +(% class="wikigeneratedid" %)
55 +[[image:lorawan-nw.jpg||height="354" width="900"]]
56 +
58 58  == 1.2 Specifications ==
59 59  
60 60  (% style="color:#037691" %)**Hardware System:**
... ... @@ -115,6 +115,21 @@
115 115  * Smart cities
116 116  * Smart factory
117 117  
117 +== 1.5 Hardware Variants ==
118 +
119 +(% style="width:524px" %)
120 +|(% style="width:94px" %)**Model**|(% style="width:98px" %)**Photo**|(% style="width:329px" %)**Description**
121 +|(% style="width:94px" %)**LT33222-L**|(% style="width:98px" %)(((
122 +
123 +)))|(% style="width:329px" %)(((
124 +* 2 x Digital Input (Bi-direction)
125 +* 2 x Digital Output
126 +* 2 x Relay Output (5A@250VAC / 30VDC)
127 +* 2 x 0~~20mA Analog Input (res:0.01mA)
128 +* 2 x 0~~30V Analog Input (res:0.01v)
129 +* 1 x Counting Port
130 +)))
131 +
118 118  == 2. Assembling the device ==
119 119  
120 120  == 2.1 Connecting the antenna ==
... ... @@ -122,17 +122,17 @@
122 122  Connect the LoRa antenna to the antenna connector, **ANT**,** **located on the top right side of the device, next to the upper screw terminal block. Secure the antenna by tightening it clockwise.
123 123  
124 124  {{warning}}
125 -Warning! Do not power on the device without connecting the antenna.
139 +**Warning! Do not power on the device without connecting the antenna.**
126 126  {{/warning}}
127 127  
128 128  == 2.2 Terminals ==
129 129  
130 -The  LT-22222-L has two screw terminal blocks. The upper screw treminal block has 6 terminals and the lower screw terminal block has 10 terminals.
144 +The  LT-22222-L has two screw terminal blocks. The upper screw treminal block has 6 screw terminals and the lower screw terminal block has 10 screw terminals.
131 131  
132 -Upper screw terminal block (from left to right):
146 +**Upper screw terminal block (from left to right):**
133 133  
134 134  (% style="width:634px" %)
135 -|=(% style="width: 295px;" %)Terminal|=(% style="width: 338px;" %)Function
149 +|=(% style="width: 295px;" %)Screw Terminal|=(% style="width: 338px;" %)Function
136 136  |(% style="width:295px" %)GND|(% style="width:338px" %)Ground
137 137  |(% style="width:295px" %)VIN|(% style="width:338px" %)Input Voltage
138 138  |(% style="width:295px" %)AVI2|(% style="width:338px" %)Analog Voltage Input Terminal 2
... ... @@ -140,10 +140,10 @@
140 140  |(% style="width:295px" %)ACI2|(% style="width:338px" %)Analog Current Input Terminal 2
141 141  |(% style="width:295px" %)ACI1|(% style="width:338px" %)Analog Current Input Terminal 1
142 142  
143 -Lower screw terminal block (from left to right):
157 +**Lower screw terminal block (from left to right):**
144 144  
145 145  (% style="width:633px" %)
146 -|=(% style="width: 296px;" %)Terminal|=(% style="width: 334px;" %)Function
160 +|=(% style="width: 296px;" %)Screw Terminal|=(% style="width: 334px;" %)Function
147 147  |(% style="width:296px" %)RO1-2|(% style="width:334px" %)Relay Output 1
148 148  |(% style="width:296px" %)RO1-1|(% style="width:334px" %)Relay Output 1
149 149  |(% style="width:296px" %)RO2-2|(% style="width:334px" %)Relay Output 2
... ... @@ -155,14 +155,12 @@
155 155  |(% style="width:296px" %)DO2|(% style="width:334px" %)Digital Output 2
156 156  |(% style="width:296px" %)DO1|(% style="width:334px" %)Digital Output 1
157 157  
158 -== 2.3 Powering the device ==
172 +== 2.3 Connecting LT-22222-L to a Power Source ==
159 159  
160 -The LT-22222-L I/O Controller can be powered by a **7–24V DC** power source. Connect your power supply’s positive wire to the VIN and the negative wire to the GND screw terminals. The power indicator **(PWR) LED** will turn on when the device is properly powered.
174 +The LT-22222-L I/O Controller can be powered by a **7–24V DC** power source. Connect your power supply’s **positive wire** to the **VIN** and the **negative wire** to the **GND** screw terminals. The power indicator **(PWR) LED** will turn on when the device is properly powered.
161 161  
162 -Once powered, the **TX LED** will **fast-blink 5 times** which means the LT-22222-L will enter the **work mode** and start to **join** The Things Stack. The **TX LED** will be on for **5 seconds** after joining the network. When there is a **downlink** message from the server, the **RX LED** will be on for **1 second**. When the device is sending an uplink message to the server, the **TX LED** will be on for **1 second**. See also LED status.
163 -
164 164  {{warning}}
165 -We recommend that you power on the LT-22222-L after configuring its registration information with a LoRaWAN network server. Otherwise, the device will continuously send join-request messages to attempt to join a LoRaWAN network but will fail.
177 +**We recommend that you power on the LT-22222-L after configuring its registration information with a LoRaWAN network server. Otherwise, the device will continuously send join-request messages to attempt to join a LoRaWAN network but will fail.**
166 166  {{/warning}}
167 167  
168 168  
... ... @@ -169,36 +169,51 @@
169 169  [[image:1653297104069-180.png]]
170 170  
171 171  
172 -= 3. Registering with a LoRaWAN Network Server =
184 += 3. Registering LT-22222-L with a LoRaWAN Network Server =
173 173  
174 -By default, the LT-22222-L is configured to operate in LoRaWAN Class C mode. It supports OTAA (Over-the-Air Activation), the most secure method for activating a device with a LoRaWAN network server. The LT-22222-L comes with device registration information that allows you to register it with a LoRaWAN network, enabling the device to perform OTAA activation with the network server upon initial power-up and after any subsequent reboots.
186 +The LT-22222-L supports both OTAA (Over-the-Air Activation) and ABP (Activation By Personalization) methods to activate with a LoRaWAN Network Server. However, OTAA is the most secure method for activating a device with a LoRaWAN Network Server. OTAA regenerates session keys upon initial registration and regenerates new session keys after any subsequent reboots. By default, the LT-22222-L is configured to operate in LoRaWAN Class C mode.
175 175  
176 -After powering on, the **TX LED** will **fast-blink 5 times** which means the LT-22222-L will enter the **work mode** and start to **join** the LoRaWAN network. The **TX LED** will be on for **5 seconds** after joining the network. When there is a **downlink** message from the server, the **RX LED** will be on for **1 second**. When the device is sending an uplink message to the server, the **TX LED** will be on for **1 second**. See also LED status.
177 177  
178 -In case you can't set the root key and other identifiers in the network server and must use them from the server, you can use [[AT Commands>>||anchor="H4.UseATCommand"]] to configure them on the device.
179 -
180 -The network diagram below shows how the LT-22222-L is connected to a typical LoRaWAN network.
181 -
182 -[[image:image-20220523172350-1.png||height="266" width="864"]]
183 -
184 184  === 3.2.1 Prerequisites ===
185 185  
186 -Make sure you have the device registration information such as DevEUI, AppEUI, and AppKey with you. The registration information can be found on a sticker that can be found inside the package. Please keep the **registration information** sticker in a safe place for future reference.
191 +The LT-22222-L comes with device registration information such as DevEUI, AppEUI, and AppKey that allows you to register it with a LoRaWAN network. These registration information can be found on a sticker that can be found inside the package. Please keep the **registration information** sticker in a safe place for future reference.
187 187  
188 188  [[image:image-20230425173427-2.png||height="246" width="530"]]
189 189  
195 +{{info}}
196 +In case you can't set the root key and other identifiers in the network server and must use them from the server, you can use [[AT Commands>>||anchor="H4.UseATCommand"]] to configure them on the device.
197 +{{/info}}
198 +
190 190  The following subsections explain how to register the LT-22222-L with different LoRaWAN network server providers.
191 191  
192 -=== 3.2.2 The Things Stack Sandbox (TTSS) ===
201 +=== 3.2.2 The Things Stack ===
193 193  
203 +This section guides you through how to register your LT-22222-L with The Things Stack Sandbox.
204 +
205 +{{info}}
194 194  The Things Stack Sandbox was formally called The Things Stack Community Edition.
207 +{{/info}}
195 195  
196 -* Log in to your [[The Things Stack Sandbox>>https://eu1.cloud.thethings.network]] account.
197 -* Create an application with The Things Stack if you do not have one yet.
198 -* Go to your application page and click on the **End devices** in the left menu.
209 +
210 +The network diagram below illustrates the connection between the LT-22222-L and The Things Stack, as well as how the data can be integrated with the ThingsEye IoT platform.
211 +
212 +
213 +[[image:dragino-lorawan-nw-lt-22222-n.jpg]]
214 +
215 +{{info}}
216 + You can use a LoRaWAN gateway, such as the [[Dragino LPS8N>>https://www.dragino.com/products/lora-lorawan-gateway/item/200-lps8n.html]], to expand or create LoRaWAN coverage in your area.
217 +{{/info}}
218 +
219 +
220 +==== 3.2.2.1 Setting up ====
221 +
222 +* Sign up for a free account with [[The Things Stack Sandbox>>https://eu1.cloud.thethings.network]] if you do not have one yet.
223 +* Log in to your The Things Stack Sandbox account.
224 +* Create an **application** with The Things Stack if you do not have one yet (E.g., dragino-docs).
225 +* Go to your application's page and click on the **End devices** in the left menu.
199 199  * On the End devices page, click on **+ Register end device**. Two registration options are available:
200 200  
201 -==== 3.2.2.1 Using the LoRaWAN Device Repository ====
228 +==== 3.2.2.2 Using the LoRaWAN Device Repository ====
202 202  
203 203  * On the **Register end device** page:
204 204  ** Select the option **Select the end device in the LoRaWAN Device Repository **under **Input method**.
... ... @@ -222,9 +222,8 @@
222 222  
223 223  [[image:lt-22222-l-dev-repo-reg-p2.png||height="625" width="1000"]]
224 224  
225 -==== ====
226 226  
227 -==== 3.2.2.2 Adding device manually ====
253 +==== 3.2.2.3 Adding device manually ====
228 228  
229 229  * On the **Register end device** page:
230 230  ** Select the option **Enter end device specifies manually** under **Input method**.
... ... @@ -239,7 +239,7 @@
239 239  
240 240  
241 241  * Register end device page continued...
242 -** Enter the **AppEUI** in the **JoinEUI** field and click the **Confirm** button. If The Things Stack accepts the JoinEUI you provided, it will display the message 'This end device can be registered on the network'
268 +** Enter the **AppEUI** in the **JoinEUI** field and click the **Confirm** button. If The Things Stack accepts the JoinEUI you provided, it will display the message '//**This end device can be registered on the network**//'
243 243  ** In the **DevEUI** field, enter the **DevEUI**.
244 244  ** In the **AppKey** field, enter the **AppKey**.
245 245  ** In the **End device ID** field, enter a unique name for your LT-22222-N within this application.
... ... @@ -255,24 +255,27 @@
255 255  [[image:lt-22222-device-overview.png||height="625" width="1000"]]
256 256  
257 257  
258 -==== 3.2.2.3 Joining ====
284 +==== 3.2.2.4 Joining ====
259 259  
260 -On the Device overview page, click on **Live data** tab. The Live data panel for your device will display.
286 +On the Device's page, click on **Live data** tab. The Live data panel for your device will display.
261 261  
262 -Now power on your LT-22222-L. It will begin joining The Things Stack. In the **Live data** panel, you can see the **join-request** and **join-accept** messages exchanged between the device and the network server. Once successfully joined, the device will send its first **uplink data message** to the application it belongs to (in this example, **dragino-docs**).
288 +Now power on your LT-22222-L. The **TX LED** will **fast-blink 5 times** which means the LT-22222-L will enter the **work mode** and start to **join** The Things Stack network server. The **TX LED** will be on for **5 seconds** after joining the network. In the **Live data** panel, you can see the **join-request** and **join-accept** messages exchanged between the device and the network server.
263 263  
264 264  
265 265  [[image:lt-22222-join-network.png||height="625" width="1000"]]
266 266  
267 267  
268 -By default, you will receive an uplink data message from the device every 10 minutes.
294 +==== 3.2.2.5 Uplinks ====
269 269  
296 +
297 +After successfully joining, the device will send its first **uplink data message** to the application it belongs to (in this example, **dragino-docs**). When the LT-22222-L sends an uplink message to the server, the **TX LED** turns on for **1 second**. By default, you will receive an uplink data message from the device every 10 minutes.
298 +
270 270  Click on one of a **Forward uplink data messages **to see its payload content. The payload content is encapsulated within the decode_payload {} JSON object.
271 271  
272 272  [[image:lt-22222-ul-payload-decoded.png]]
273 273  
274 274  
275 -If you can't see the decoded payload, it is because you haven't added the uplink formatter code. To add the uplink formatter code, select **End devices** > **LT-22222-L** > **Payload formatters** > **Uplink**. Then  select **Use Device repository formatters** for the **Formatter type** dropdown. Click the **Save changes** button to apply the changes.
304 +If you can't see the decoded payload, it is because you haven't added the uplink formatter code. To add the uplink formatter code, select **Applications > your application > End devices** > **your end device** > **Payload formatters** > **Uplink**. Then  select **Use Device repository formatters** for the **Formatter type** dropdown. Click the **Save changes** button to apply the changes.
276 276  
277 277  {{info}}
278 278  The Things Stack provides two levels of payload formatters: application level and device level. The device-level payload formatters **override **the application-level payload formatters.
... ... @@ -281,6 +281,11 @@
281 281  [[image:lt-22222-ul-payload-fmt.png||height="686" width="1000"]]
282 282  
283 283  
313 +==== 3.2.2.6 Downlinks ====
314 +
315 +When the LT-22222-L receives a downlink message from the server, the **RX LED** turns on for **1 second**.
316 +
317 +
284 284  == 3.3 Working Modes and Uplink Payload formats ==
285 285  
286 286  
... ... @@ -556,13 +556,13 @@
556 556  )))
557 557  
558 558  (((
559 -Other AT Commands for counting are similar to the [[MOD2 Counting Command>>||anchor="H3.3.2AT2BMOD3D22C28DoubleDICounting29"]]s.
593 +AT Commands for counting are similar to the [[MOD2 Counting Command>>||anchor="H3.3.2AT2BMOD3D22C28DoubleDICounting29"]]s.
560 560  )))
561 561  
562 562  (((
563 563  **In addition to that, below are the commands for AVI1 Counting:**
564 564  
565 -(% style="color:blue" %)**AT+SETCNT=3,60 **(%%)**(Sets AVI Count to 60)**
599 +(% style="color:blue" %)**AT+SETCNT=3,60 **(%%)**(Sets AVI1 Count to 60)**
566 566  
567 567  (% style="color:blue" %)**AT+VOLMAX=20000 **(%%)**(If AVI1 voltage higher than VOLMAX (20000mV =20v), counter increase 1)**
568 568  
... ... @@ -1133,9 +1133,8 @@
1133 1133  )))
1134 1134  |(% style="width:96px" %)**Example**|(% style="width:402px" %)09 02 **00 00 64**
1135 1135  
1136 -(% class="wikigeneratedid" %)
1137 -==== ====
1138 1138  
1171 +
1139 1139  ==== 3.4.2.9 Trigger – Set AC (current) as a trigger ====
1140 1140  
1141 1141  Sets the current trigger based on the AC port. See also [[trigger mode>>||anchor="H3.3.6AT2BADDMOD3D6.28TriggerMode2COptional29"]]
... ... @@ -1210,7 +1210,6 @@
1210 1210  )))
1211 1211  |(% style="width:104px" %)**Note**|(% style="width:387px" %)See also, [[trigger mode>>||anchor="H3.3.6AT2BADDMOD3D6.28TriggerMode2COptional29"]]
1212 1212  
1213 -
1214 1214  (% style="color:#037691" %)**Downlink Payload**
1215 1215  
1216 1216  (% border="2" style="width:500px" %)
... ... @@ -1233,7 +1233,6 @@
1233 1233  )))
1234 1234  |(% style="width:104px" %)**Note**|(% style="width:394px" %)See also, [[trigger mode>>||anchor="H3.3.6AT2BADDMOD3D6.28TriggerMode2COptional29"]]
1235 1235  
1236 -
1237 1237  ==== 3.4.2.11 Trigger – Set minimum interval ====
1238 1238  
1239 1239  Sets the AV and AC trigger minimum interval. The device won't respond to a second trigger within this set time after the first trigger.
... ... @@ -1269,7 +1269,6 @@
1269 1269  )))
1270 1270  |(% style="width:112px" %)Note|(% style="width:386px" %)(% style="color:red" %)**The time must be greater than 5 minutes.**
1271 1271  
1272 -
1273 1273  ==== 3.4.2.12 DO ~-~- Control Digital Output DO1/DO2/DO3 ====
1274 1274  
1275 1275  Controls the digital outputs DO1, DO2, and DO3
... ... @@ -1320,9 +1320,8 @@
1320 1320  )))
1321 1321  )))
1322 1322  
1323 -(% class="wikigeneratedid" %)
1324 -==== ====
1325 1325  
1354 +
1326 1326  ==== 3.4.2.13 DO ~-~- Control Digital Output DO1/DO2/DO3 with time control ====
1327 1327  
1328 1328  
... ... @@ -1512,10 +1512,70 @@
1512 1512  (% style="color:blue" %)**0xA5 aa bb cc   ** (%%)~/~/ Same as AT+VOLMAX=(aa bb),cc
1513 1513  
1514 1514  
1544 +(% style="color:#037691" %)**AT Command**
1515 1515  
1546 +(% border="2" style="width:500px" %)
1547 +|(% style="width:137px" %)**Command**|(% style="width:361px" %)AT+VOLMAX=<voltage><logic>
1548 +|(% style="width:137px" %)**Response**|(% style="width:361px" %)
1549 +|(% style="width:137px" %)**Parameters**|(% style="width:361px" %)(((
1550 +**voltage** : voltage threshold in mV
1551 +
1552 +**logic**:
1553 +
1554 +0 : lower than
1555 +
1556 +1: higher than
1557 +
1558 +if you leave logic parameter blank, it is considered 0
1559 +)))
1560 +|(% style="width:137px" %)**Examples**|(% style="width:361px" %)(((
1561 +AT+VOLMAX=20000
1562 +
1563 +If AVI1 voltage higher than VOLMAX (20000mV =20v), counter increase 1
1564 +
1565 +AT+VOLMAX=20000,0
1566 +
1567 +If AVI1 voltage lower than VOLMAX (20000mV =20v), counter increase 1
1568 +
1569 +AT+VOLMAX=20000,1
1570 +
1571 +If AVI1 voltage higher than VOLMAX (20000mV =20v), counter increase 1
1572 +)))
1573 +
1574 +(% style="color:#037691" %)**Downlink Payload**
1575 +
1576 +(% border="2" style="width:500px" %)
1577 +|(% style="width:140px" %)**Payload**|(% style="width:358px" %)<prefix><voltage><logic>
1578 +|(% style="width:140px" %)**Parameters**|(% style="width:358px" %)(((
1579 +**prefix** : A5 (hex)
1580 +
1581 +**voltage** : voltage threshold in mV (2 bytes in hex)
1582 +
1583 +**logic**: (1 byte in hexadecimal)
1584 +
1585 +0 : lower than
1586 +
1587 +1: higher than
1588 +
1589 +if you leave logic parameter blank, it is considered 1 (higher than)
1590 +)))
1591 +|(% style="width:140px" %)**Example**|(% style="width:358px" %)(((
1592 +A5 **4E 20**
1593 +
1594 +If AVI1 voltage higher than VOLMAX (20000mV =20v), counter increase 1
1595 +
1596 +A5 **4E 20 00**
1597 +
1598 +If AVI1 voltage lower than VOLMAX (20000mV =20v), counter increase 1
1599 +
1600 +A5 **4E 20 01**
1601 +
1602 +If AVI1 voltage higher than VOLMAX (20000mV =20v), counter increase 1
1603 +)))
1604 +
1516 1516  ==== 3.4.2.17 Counting ~-~- Pre-configure the Count Number ====
1517 1517  
1518 -This feature allows users to pre-configure specific count numbers for various counting parameters such as count1, count2, or AV1 count. Use the AT command to set the desired count number for each configuration.
1607 +This command allows users to pre-configure specific count numbers for various counting parameters such as Count1, Count2, or AVI1 Count. Use the AT command to set the desired count number for each configuration.
1519 1519  
1520 1520  * (% style="color:#037691" %)**AT Command:**(%%) (% style="color:blue" %)**AT+SETCNT=aa,(bb cc dd ee) **
1521 1521  
... ... @@ -1529,10 +1529,54 @@
1529 1529  (% style="color:blue" %)**0x A8 aa bb cc dd ee     ** (%%)~/~/ same as AT+SETCNT=aa,(bb cc dd ee)
1530 1530  
1531 1531  
1621 +(% style="color:#037691" %)**AT Command**
1532 1532  
1623 +(% border="2" style="width:500px" %)
1624 +|(% style="width:134px" %)**Command**|(% style="width:364px" %)AT+SETCNT=<counting_parameter><number>
1625 +|(% style="width:134px" %)**Response**|(% style="width:364px" %)
1626 +|(% style="width:134px" %)**Parameters**|(% style="width:364px" %)(((
1627 +**counting_parameter** :
1628 +
1629 +1: COUNT1
1630 +
1631 +2: COUNT2
1632 +
1633 +3: AVI1 Count
1634 +
1635 +**number** : Start number
1636 +)))
1637 +|(% style="width:134px" %)**Example**|(% style="width:364px" %)(((
1638 +AT+SETCNT=1,10
1639 +
1640 +Sets the COUNT1 to 10.
1641 +)))
1642 +
1643 +(% style="color:#037691" %)**Downlink Payload**
1644 +
1645 +(% border="2" style="width:500px" %)
1646 +|(% style="width:135px" %)**Payload**|(% style="width:363px" %)<prefix><counting_parameter><number>
1647 +|(% style="width:135px" %)**Parameters**|(% style="width:363px" %)(((
1648 +prefix : A8 (hex)
1649 +
1650 +**counting_parameter** : (1 byte in hexadecimal)
1651 +
1652 +1: COUNT1
1653 +
1654 +2: COUNT2
1655 +
1656 +3: AVI1 Count
1657 +
1658 +**number** : Start number, 4 bytes in hexadecimal
1659 +)))
1660 +|(% style="width:135px" %)**Example**|(% style="width:363px" %)(((
1661 +A8 **01 00 00 00 0A**
1662 +
1663 +Sets the COUNT1 to 10.
1664 +)))
1665 +
1533 1533  ==== 3.4.2.18 Counting ~-~- Clear Counting ====
1534 1534  
1535 -This feature clears the counting in counting mode.
1668 +This command clears the counting in counting mode.
1536 1536  
1537 1537  * (% style="color:#037691" %)**AT Command:**(%%) (% style="color:blue" %)**AT+CLRCOUNT         **(%%) ~/~/ clear all counting
1538 1538  
... ... @@ -1540,11 +1540,26 @@
1540 1540  
1541 1541  (% style="color:blue" %)**0x A6 01    ** (%%)~/~/ clear all counting
1542 1542  
1676 +(% style="color:#037691" %)**AT Command**
1543 1543  
1678 +(% border="2" style="width:500px" %)
1679 +|(% style="width:142px" %)**Command**|(% style="width:356px" %)AT+CLRCOUNT
1680 +|(% style="width:142px" %)**Response**|(% style="width:356px" %)-
1544 1544  
1682 +(% style="color:#037691" %)**Downlink Payload**
1683 +
1684 +(% border="2" style="width:500px" %)
1685 +|(% style="width:141px" %)**Payload**|(% style="width:357px" %)<prefix><clear?>
1686 +|(% style="width:141px" %)**Parameters**|(% style="width:357px" %)(((
1687 +prefix : A6 (hex)
1688 +
1689 +clear? : 01 (hex)
1690 +)))
1691 +|(% style="width:141px" %)**Example**|(% style="width:357px" %)A6 **01**
1692 +
1545 1545  ==== 3.4.2.19 Counting ~-~- Change counting mode to save time ====
1546 1546  
1547 -This feature allows you to configure the device to save its counting result to internal flash memory at specified intervals. By setting a save time, the device will periodically store the counting data to prevent loss in case of power failure. The save interval can be adjusted to suit your requirements, with a minimum value of 30 seconds.
1695 +This command allows you to configure the device to save its counting result to internal flash memory at specified intervals. By setting a save time, the device will periodically store the counting data to prevent loss in case of power failure. The save interval can be adjusted to suit your requirements, with a minimum value of 30 seconds.
1548 1548  
1549 1549  * (% style="color:#037691" %)**AT Command:**
1550 1550  
... ... @@ -1560,10 +1560,36 @@
1560 1560  )))
1561 1561  
1562 1562  
1711 +(% style="color:#037691" %)**AT Command**
1563 1563  
1713 +(% border="2" style="width:500px" %)
1714 +|(% style="width:124px" %)**Command**|(% style="width:374px" %)AT+COUTIME=<time>
1715 +|(% style="width:124px" %)**Response**|(% style="width:374px" %)
1716 +|(% style="width:124px" %)**Parameters**|(% style="width:374px" %)time : seconds (0 to 16777215)
1717 +|(% style="width:124px" %)**Example**|(% style="width:374px" %)(((
1718 +AT+COUTIME=60
1719 +
1720 +Sets the device to save its counting results to the memory every 60 seconds.
1721 +)))
1722 +
1723 +(% style="color:#037691" %)**Downlink Payload**
1724 +
1725 +(% border="2" style="width:500px" %)
1726 +|(% style="width:123px" %)**Payload**|(% style="width:375px" %)<prefix><time>
1727 +|(% style="width:123px" %)**Parameters**|(% style="width:375px" %)(((
1728 +prefix : A7
1729 +
1730 +time : seconds, 3 bytes in hexadecimal
1731 +)))
1732 +|(% style="width:123px" %)**Example**|(% style="width:375px" %)(((
1733 +A7 **00 00 3C**
1734 +
1735 +Sets the device to save its counting results to the memory every 60 seconds.
1736 +)))
1737 +
1564 1564  ==== 3.4.2.20 Reset save RO DO state ====
1565 1565  
1566 -This feature allows you to reset the saved relay output (RO) and digital output (DO) states when the device joins the network. By configuring this setting, you can control whether the device should retain or reset the relay states after a reset and rejoin to the network.
1740 +This command allows you to reset the saved relay output (RO) and digital output (DO) states when the device joins the network. By configuring this setting, you can control whether the device should retain or reset the relay states after a reset and rejoin to the network.
1567 1567  
1568 1568  * (% style="color:#037691" %)**AT Command:**
1569 1569  
... ... @@ -1577,10 +1577,50 @@
1577 1577  (% style="color:blue" %)**0x AD aa      ** (%%)~/~/ same as AT+RODORET =aa
1578 1578  
1579 1579  
1754 +(% border="2" style="width:500px" %)
1755 +|(% style="width:127px" %)**Command**|(% style="width:371px" %)AT+RODORESET=<state>
1756 +|(% style="width:127px" %)**Response**|(% style="width:371px" %)
1757 +|(% style="width:127px" %)**Parameters**|(% style="width:371px" %)(((
1758 +**state** :
1580 1580  
1760 +**0** : RODO will close when the device joins the network. (default)
1761 +
1762 +**1**: After the device is reset, the previously saved RODO state (limited to MOD2 to MOD5) is read, and it will not change when the device reconnects to the network.
1763 +)))
1764 +|(% style="width:127px" %)**Example**|(% style="width:371px" %)(((
1765 +(% style="color:blue" %)**AT+RODORESET=1 **
1766 +
1767 +RODO will close when the device joins the network. (default)
1768 +
1769 +(% style="color:blue" %)**AT+RODORESET=0 **
1770 +
1771 +After the device is reset, the previously saved RODO state (limited to MOD2 to MOD5) is read, and it will not change when the device reconnects to the network.
1772 +)))
1773 +
1774 +(% border="2" style="width:500px" %)
1775 +|(% style="width:127px" %)**Payload**|(% style="width:371px" %)<prefix><state>
1776 +|(% style="width:127px" %)**Parameters**|(% style="width:371px" %)(((
1777 +**prefix** : AD
1778 +
1779 +**state** :
1780 +
1781 +**0** : RODO will close when the device joins the network. (default), represents as 1 byte in hexadecimal.
1782 +
1783 +**1**: After the device is reset, the previously saved RODO state (limited to MOD2 to MOD5) is read, and it will not change when the device reconnects to the network. - represents as 1 byte in hexadecimal
1784 +)))
1785 +|(% style="width:127px" %)**Example**|(% style="width:371px" %)(((
1786 +AD **01**
1787 +
1788 +RODO will close when the device joins the network. (default)
1789 +
1790 +AD **00**
1791 +
1792 +After the device is reset, the previously saved RODO state (limited to MOD2 to MOD5) is read, and it will not change when the device reconnects to the network.
1793 +)))
1794 +
1581 1581  ==== 3.4.2.21 Encrypted payload ====
1582 1582  
1583 -This feature allows you to configure whether the device should upload data in an encrypted format or in plaintext. By default, the device encrypts the payload before uploading. You can toggle this setting to either upload encrypted data or transmit it without encryption.
1797 +This command allows you to configure whether the device should upload data in an encrypted format or in plaintext. By default, the device encrypts the payload before uploading. You can toggle this setting to either upload encrypted data or transmit it without encryption.
1584 1584  
1585 1585  * (% style="color:#037691" %)**AT Command:**
1586 1586  
... ... @@ -1589,9 +1589,32 @@
1589 1589  (% style="color:blue" %)**AT+DECRYPT=0    **(%%)~/~/  Encrypt when uploading payload (default)
1590 1590  
1591 1591  
1806 +(% border="2" style="width:500px" %)
1807 +|(% style="width:127px" %)**Command**|(% style="width:371px" %)AT+DECRYPT=<state>
1808 +|(% style="width:127px" %)**Response**|(% style="width:371px" %)
1809 +|(% style="width:127px" %)**Parameters**|(% style="width:371px" %)(((
1810 +state :
1592 1592  
1812 +1 : The payload is uploaded without encryption
1813 +
1814 +0 : The payload is encrypted when uploaded (default)
1815 +)))
1816 +|(% style="width:127px" %)**Example**|(% style="width:371px" %)(((
1817 +AT+DECRYPT=1
1818 +
1819 +The payload is uploaded without encryption
1820 +
1821 +AT+DECRYPT=0
1822 +
1823 +The payload is encrypted when uploaded (default)
1824 +)))
1825 +
1826 +There is no downlink payload for this configuration.
1827 +
1828 +
1593 1593  ==== 3.4.2.22 Get sensor value ====
1594 1594  
1831 +This command allows you to retrieve and optionally uplink sensor readings through the serial port.
1595 1595  
1596 1596  * (% style="color:#037691" %)**AT Command:**
1597 1597  
... ... @@ -1600,10 +1600,33 @@
1600 1600  (% style="color:blue" %)**AT+GETSENSORVALUE=1    **(%%)~/~/ The serial port retrieves the current sensor reading and uploads it.
1601 1601  
1602 1602  
1840 +(% border="2" style="width:500px" %)
1841 +|(% style="width:127px" %)**Command**|(% style="width:371px" %)AT+GETSENSORVALUE=<state>
1842 +|(% style="width:127px" %)**Response**|(% style="width:371px" %)
1843 +|(% style="width:127px" %)**Parameters**|(% style="width:371px" %)(((
1844 +**state** :
1603 1603  
1604 -==== 3.4.2.23 Resets the downlink packet count ====
1846 +**0 **: Retrieves the current sensor reading via the serial port.
1605 1605  
1848 +**1 **: Retrieves and uploads the current sensor reading via the serial port.
1849 +)))
1850 +|(% style="width:127px" %)**Example**|(% style="width:371px" %)(((
1851 +AT+GETSENSORVALUE=0
1606 1606  
1853 +Retrieves the current sensor reading via the serial port.
1854 +
1855 +AT+GETSENSORVALUE=1
1856 +
1857 +Retrieves and uplinks the current sensor reading via the serial port.
1858 +)))
1859 +
1860 +There is no downlink payload for this configuration.
1861 +
1862 +
1863 +==== 3.4.2.23 Resetting the downlink packet count ====
1864 +
1865 +This command manages how the node handles mismatched downlink packet counts. It offers two modes: one disables the reception of further downlink packets if discrepancies occur, while the other resets the downlink packet count to align with the server, ensuring continued communication.
1866 +
1607 1607  * (% style="color:#037691" %)**AT Command:**
1608 1608  
1609 1609  (% style="color:blue" %)**AT+DISFCNTCHECK=0   **(%%)~/~/ When the downlink packet count sent by the server is less than the node downlink packet count or exceeds 16384, the node will no longer receive downlink packets (default)
... ... @@ -1611,10 +1611,37 @@
1611 1611  (% style="color:blue" %)**AT+DISFCNTCHECK=1   **(%%)~/~/ When the downlink packet count sent by the server is less than the node downlink packet count or exceeds 16384, the node resets the downlink packet count and keeps it consistent with the server downlink packet count.
1612 1612  
1613 1613  
1874 +(% border="2" style="width:500px" %)
1875 +|(% style="width:130px" %)**Command**|(% style="width:368px" %)AT+DISFCNTCHECK=<state>
1876 +|(% style="width:130px" %)**Response**|(% style="width:368px" %)(((
1877 +
1878 +)))
1879 +|(% style="width:130px" %)**Parameters**|(% style="width:368px" %)(((
1880 +**state **:
1614 1614  
1882 +**0** : When the downlink packet count sent by the server is less than the node's downlink packet count or exceeds 16,384, the node stops receiving further downlink packets (default).
1883 +
1884 +
1885 +**1** : When the downlink packet count sent by the server is less than the node's downlink packet count or exceeds 16,384, the node resets its downlink packet count to match the server's, ensuring consistency.
1886 +)))
1887 +|(% style="width:130px" %)**Example**|(% style="width:368px" %)(((
1888 +AT+DISFCNTCHECK=0
1889 +
1890 +When the downlink packet count sent by the server is less than the node's downlink packet count or exceeds 16,384, the node stops receiving further downlink packets (default).
1891 +
1892 +AT+DISFCNTCHECK=1
1893 +
1894 +When the downlink packet count sent by the server is less than the node's downlink packet count or exceeds 16,384, the node resets its downlink packet count to match the server's, ensuring consistency.
1895 +)))
1896 +
1897 +There is no downlink payload for this configuration.
1898 +
1899 +
1615 1615  ==== 3.4.2.24 When the limit bytes are exceeded, upload in batches ====
1616 1616  
1617 1617  
1903 +This command controls the behavior of the node when the combined size of the MAC commands (MACANS) from the server and the payload exceeds the allowed byte limit for the current data rate (DR). The command provides two modes: one enables splitting the data into batches to ensure compliance with the byte limit, while the other prioritizes the payload and ignores the MACANS in cases of overflow.
1904 +
1618 1618  * (% style="color:#037691" %)**AT Command:**
1619 1619  
1620 1620  (% style="color:blue" %)**AT+DISMACANS=0**   (%%) ~/~/ When the MACANS of the reply server plus the payload exceeds the maximum number of bytes of 11 bytes (DR0 of US915, DR2 of AS923, DR2 of AU195), the node will send a packet with a payload of 00 and a port of 4. (default)
... ... @@ -1626,10 +1626,50 @@
1626 1626  
1627 1627  (% style="color:blue" %)**0x21 00 01 ** (%%) ~/~/ Set  the DISMACANS=1
1628 1628  
1916 +(% style="color:#037691" %)**AT Command**
1629 1629  
1918 +(% border="2" style="width:500px" %)
1919 +|(% style="width:127px" %)**Command**|(% style="width:371px" %)AT+DISMACANS=<state>
1920 +|(% style="width:127px" %)**Response**|(% style="width:371px" %)
1921 +|(% style="width:127px" %)**Parameters**|(% style="width:371px" %)(((
1922 +**state** :
1630 1630  
1924 +**0** : When the combined size of the MACANS from the server and the payload exceeds the byte limit (11 bytes for DR0 of US915, DR2 of AS923, DR2 of AU915), the node sends a packet with a payload of 00 and a port of 4. (default)
1925 +
1926 +**1** : When the combined size of the MACANS from the server and the payload exceeds the byte limit for the current DR, the node ignores the MACANS and only uploads the payload.
1927 +)))
1928 +|(% style="width:127px" %)**Example**|(% style="width:371px" %)(((
1929 +AT+DISMACANS=0
1930 +
1931 +When the combined size of the MACANS from the server and the payload exceeds the byte limit (11 bytes for DR0 of US915, DR2 of AS923, DR2 of AU915), the node sends a packet with a payload of 00 and a port of 4. (default)
1932 +
1933 +AT+DISMACANS=1
1934 +
1935 +When the combined size of the MACANS from the server and the payload exceeds the byte limit for the current DR, the node ignores the MACANS and only uploads the payload.
1936 +)))
1937 +
1938 +(% style="color:#037691" %)**Downlink Payload**
1939 +
1940 +(% border="2" style="width:500px" %)
1941 +|(% style="width:126px" %)**Payload**|(% style="width:372px" %)<prefix><state>
1942 +|(% style="width:126px" %)**Parameters**|(% style="width:372px" %)(((
1943 +**prefix** : 21
1944 +
1945 +**state** : (2 bytes in hexadecimal)
1946 +
1947 +**0** : When the combined size of the MACANS from the server and the payload exceeds the byte limit (11 bytes for DR0 of US915, DR2 of AS923, DR2 of AU915), the node sends a packet with a payload of 00 and a port of 4. (default)
1948 +
1949 +**1 **: When the combined size of the MACANS from the server and the payload exceeds the byte limit for the current DR, the node ignores the MACANS and only uploads the payload.
1950 +)))
1951 +|(% style="width:126px" %)**Example**|(% style="width:372px" %)(((
1952 +21 **00 01**
1953 +
1954 +Set DISMACANS=1
1955 +)))
1956 +
1631 1631  ==== 3.4.2.25 Copy downlink to uplink ====
1632 1632  
1959 +This command enables the device to immediately uplink the content of a received downlink packet back to the server. The command allows for quick data replication from downlink to uplink, with a fixed port number of 100.
1633 1633  
1634 1634  * (% style="color:#037691" %)**AT Command**(%%)**:**
1635 1635  
... ... @@ -1642,8 +1642,22 @@
1642 1642  
1643 1643  For example, sending 11 22 33 44 55 66 77 will return invalid configuration 00 11 22 33 44 55 66 77.
1644 1644  
1972 +(% border="2" style="width:500px" %)
1973 +|(% style="width:122px" %)**Command**|(% style="width:376px" %)(((
1974 +AT+RPL=5
1645 1645  
1976 +After receiving a downlink packet from the server, the node immediately uplinks the content of the packet back to the server using port number 100.
1977 +)))
1978 +|(% style="width:122px" %)**Example**|(% style="width:376px" %)(((
1979 +Downlink:
1646 1646  
1981 +01 00 02 58
1982 +
1983 +Uplink:
1984 +
1985 +01 01 00 02 58
1986 +)))
1987 +
1647 1647  [[image:http://wiki.dragino.com/xwiki/bin/download/Main/User%20Manual%20for%20LoRaWAN%20End%20Nodes/LSN50%20%26%20LSN50-V2%20-%20LoRaWAN%20Sensor%20Node%20User%20Manual/WebHome/image-20220823173833-7.png?width=1124&height=149&rev=1.1||alt="image-20220823173833-7.png"]]
1648 1648  
1649 1649  For example, if 01 00 02 58 is issued, a valid configuration of 01 01 00 02 58 will be returned.
... ... @@ -1650,14 +1650,16 @@
1650 1650  
1651 1651  
1652 1652  
1653 -==== 3.4.2.26 Query version number and frequency band TDC ====
1994 +==== 3.4.2.26 Query firmware version, frequency band, sub band, and TDC time ====
1654 1654  
1996 +This command is used to query key information about the device, including its firmware version, frequency band, sub band, and TDC time. By sending the specified payload as a downlink, the server can retrieve this essential data from the device.
1655 1655  
1656 1656  * (((
1657 1657  (% style="color:#037691" %)**Downlink Payload**(%%)**:**
1658 1658  
1659 -(% style="color:blue" %)**26 01  ** (%%) ~/~/  Downlink 26 01 can query device upload frequency, frequency band, software version number, TDC time.
2001 +(% style="color:blue" %)**26 01  ** (%%) ~/~/  The downlink payload 26 01 is used to query the device's firmware version, frequency band, sub band, and TDC time.
1660 1660  
2003 +
1661 1661  
1662 1662  )))
1663 1663  
... ... @@ -1687,6 +1687,8 @@
1687 1687  
1688 1688  === 3.5.2 Configuring ThingsEye.io ===
1689 1689  
2033 +The ThingsEye.io IoT platform is not open for self-registration at the moment. If you are interested in testing the platform, please send your project information to admin@thingseye.io, and we will create an account for you.
2034 +
1690 1690  * Login to your [[ThingsEye.io >>https://thingseye.io]]account.
1691 1691  * Under the **Integrations center**, click **Integrations**.
1692 1692  * Click the **Add integration** button (the button with the **+** symbol).
... ... @@ -1735,7 +1735,7 @@
1735 1735  
1736 1736  * Choose **Region** from the **Host type**.
1737 1737  * Enter the **cluster** of your **The Things Stack** in the **Region** textbox. You can find the cluster in the url (e.g., https:~/~/**eu1**.cloud.thethings.network/...).
1738 -* Enter the **Username** and **Password** of the MQTT integration in the **Credentials** section. The **username **and **password **can be found on the MQTT integration page of your The Things Stack account (see Configuring The Things Stack).
2083 +* Enter the **Username** and **Password** of the MQTT integration in the **Credentials** section. The **username **and **password **can be found on the MQTT integration page of your The Things Stack account (see **3.5.1 Configuring The Things Stack**).
1739 1739  * Click the **Check connection** button to test the connection. If the connection is successful, you will see the message saying **Connected**.
1740 1740  
1741 1741  [[image:message-1.png]]
... ... @@ -1746,7 +1746,7 @@
1746 1746  [[image:thingseye-io-step-5.png||height="625" width="1000"]]
1747 1747  
1748 1748  
1749 -Your integration has been added to the** Integrations** list and will be displayed on the **Integrations** page. Check whether the status is shown as **Active**. If not, review your configuration settings.
2094 +Your integration has been added to the** Integrations** list and will be displayed on the **Integrations** page. Check whether the status is shown as **Active**. If not, review your configuration settings and correct any errors.
1750 1750  
1751 1751  
1752 1752  [[image:thingseye.io_integrationsCenter_integrations.png||height="686" width="1000"]]
... ... @@ -1762,7 +1762,7 @@
1762 1762  If you want to edit the settings you have provided, click on the **Toggle edit mode** button. Once you have done click on the **Apply changes **button.
1763 1763  
1764 1764  {{info}}
1765 -See also ThingsEye documentation.
2110 +See also [[ThingsEye documentation>>https://wiki.thingseye.io/xwiki/bin/view/Main/]].
1766 1766  {{/info}}
1767 1767  
1768 1768  ==== **3.5.2.2 Viewing events** ====
... ... @@ -1775,7 +1775,7 @@
1775 1775  [[image:thingseye-events.png||height="686" width="1000"]]
1776 1776  
1777 1777  
1778 -* To view the JSON payload of a message, click on the three dots (...) in the Message column of the desired message.
2123 +* To view the **JSON payload** of a message, click on the **three dots (...)** in the Message column of the desired message.
1779 1779  
1780 1780  [[image:thingseye-json.png||width="1000"]]
1781 1781  
... ... @@ -1785,6 +1785,11 @@
1785 1785  If you want to delete an integration, click the **Delete integratio**n button on the Integrations page.
1786 1786  
1787 1787  
2133 +==== 3.5.2.4 Creating a Dashboard to Display and Analyze LT-22222-L Data ====
2134 +
2135 +This will be added soon.
2136 +
2137 +
1788 1788  == 3.6 Interface Details ==
1789 1789  
1790 1790  === 3.6.1 Digital Input Ports: DI1/DI2/DI3 (For LT-33222-L, Low Active) ===
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