Changes for page LT-22222-L -- LoRa I/O Controller User Manual

Last modified by Mengting Qiu on 2025/06/04 18:42

From 230.13 to 230.12 From 245.1 to 244.1

From version 244.1

edited by Xiaoling
on 2025/03/20 15:59

Change comment: There is no comment for this version

To version 230.13

edited by Xiaoling
on 2024/12/09 10:18

Change comment: There is no comment for this version

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- lt-22222-l-dashboard.png

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@@ -98,6 +98,7 @@
  * Automatic RF Sense and CAD with ultra-fast AFC.
  * Packet engine up to 256 bytes with CRC.
++
  == 1.3 Features ==
@@ -109,6 +109,7 @@
  * Firmware upgradable via program port
  * Counting
++
  == 1.4 Applications ==
@@ -119,17 +119,18 @@
  * Smart cities
  * Smart factory
++
  == 1.5 Hardware Variants ==
  (% border="1" cellspacing="3" style="width:510px" %)
  |(% style="background-color:#4f81bd; color:white; width:94px" %)**Model**|(% style="background-color:#4f81bd; color:white; width:172px" %)**Photo**|(% style="background-color:#4f81bd; color:white; width:244px" %)**Description**
--|(% style="width:94px" %)**LT-33222-L**|(% style="width:172px" %)(((
++|(% style="width:94px" %)**LT-22222-L**|(% style="width:172px" %)(((
  (% style="text-align:center" %)
  [[image:lt33222-l.jpg||height="110" width="95"]]
  )))|(% style="width:256px" %)(((
--* 3 x Digital Input (Bi-direction)
--* 3 x Digital Output
++* 2 x Digital Input (Bi-direction)
++* 2 x Digital Output
  * 2 x Relay Output (5A@250VAC / 30VDC)
  * 2 x 0~~20mA Analog Input (res:0.01mA)
  * 2 x 0~~30V Analog Input (res:0.01v)
@@ -136,6 +136,7 @@
  * 1 x Counting Port
  )))
++
  = 2. Assembling the device =
  == 2.1 Connecting the antenna ==
@@ -151,12 +151,12 @@
  == 2.2 Terminals ==
--The  LT-22222-L has two screw terminal blocks. The upper screw terminal block has 6 screw terminals and the lower screw terminal block has 10 screw terminals.
++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.
  **Upper screw terminal block (from left to right):**
--(% border="1" cellspacing="3" style="background-color:#f2f2f2; width:381px" %)
--|=(% style="width: 139px;background-color:#4f81bd;color:white" %)Screw Terminal|=(% style="width: 242px;background-color:#4f81bd;color:white" %)Function
++(% style="width:385px" %)
++|=(% style="width: 139px;" %)Screw Terminal|=(% style="width: 242px;" %)Function
  |(% style="width:139px" %)GND|(% style="width:242px" %)Ground
  |(% style="width:139px" %)VIN|(% style="width:242px" %)Input Voltage
  |(% style="width:139px" %)AVI2|(% style="width:242px" %)Analog Voltage Input Terminal 2
@@ -166,8 +166,8 @@
  **Lower screw terminal block (from left to right):**
--(% border="1" cellspacing="3" style="background-color:#f2f2f2; width:253px" %)
--|=(% style="width: 125px;background-color:#4f81bd;color:white" %)Screw Terminal|=(% style="width: 128px;background-color:#4f81bd;color:white" %)Function
++(% style="width:257px" %)
++|=(% style="width: 125px;" %)Screw Terminal|=(% style="width: 128px;" %)Function
  |(% style="width:125px" %)RO1-2|(% style="width:128px" %)Relay Output 1
  |(% style="width:125px" %)RO1-1|(% style="width:128px" %)Relay Output 1
  |(% style="width:125px" %)RO2-2|(% style="width:128px" %)Relay Output 2
@@ -181,7 +181,6 @@
  == 2.3 Connecting LT-22222-L to a Power Source ==
--
  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.
  {{warning}}
@@ -194,27 +194,23 @@
  = 3. Registering LT-22222-L with a LoRaWAN Network Server =
--
  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.
--== 3.1 Prerequisites ==
++=== 3.2.1 Prerequisites ===
++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.
--The LT-22222-L comes with device registration information such as DevEUI, AppEUI, and AppKey which allows you to register it with a LoRaWAN network. This 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.
--
  [[image:image-20230425173427-2.png||height="246" width="530"]]
  {{info}}
--If you are unable to set the provided root key and other identifiers in the network server, you must generate new keys and identifiers with the network server and configure the device with them using AT commands.
++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.
  {{/info}}
  The following subsections explain how to register the LT-22222-L with different LoRaWAN network server providers.
++=== 3.2.2 The Things Stack ===
--== 3.2 The Things Stack ==
--
--
  This section guides you through how to register your LT-22222-L with The Things Stack Sandbox.
  {{info}}
@@ -225,7 +225,7 @@
  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.
--[[image:dragino-lorawan-nw-lt-22222-n.jpg||height="374" width="1400"]]
++[[image:dragino-lorawan-nw-lt-22222-n.jpg]]
  {{info}}
   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.
@@ -232,9 +232,8 @@
  {{/info}}
--=== 3.2.1 Setting up ===
++==== 3.2.2.1 Setting up ====
--
  * Sign up for a free account with [[The Things Stack Sandbox>>https://eu1.cloud.thethings.network]] if you do not have one yet.
  * Log in to your The Things Stack Sandbox account.
  * Create an **application** with The Things Stack if you do not have one yet (E.g., dragino-docs).
@@ -241,9 +241,8 @@
  * Go to your application's page and click on the **End devices** in the left menu.
  * On the End devices page, click on **+ Register end device**. Two registration options are available:
--==== 3.2.1.1 Using the LoRaWAN Device Repository ====
++==== 3.2.2.2 Using the LoRaWAN Device Repository ====
--
  * On the **Register end device** page:
  ** Select the option **Select the end device in the LoRaWAN Device Repository **under **Input method**.
  ** Select the **End device brand**, **Model**, **Hardware version**, **Firmware version**, and **Profile (Region)** from the respective dropdown lists.
@@ -261,21 +261,14 @@
  ** 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'.
  ** In the **DevEUI** field, enter the **DevEUI**.
  ** In the **AppKey** field, enter the **AppKey.**
--** In the **End device ID** field, enter a unique name for your LT-22222-L within this application.
++** In the **End device ID** field, enter a unique name for your LT-22222-N within this application.
  ** Under **After registration**, select the **View registered end device** option.
--** Click **Register end device** button.
  [[image:lt-22222-l-dev-repo-reg-p2.png]]
--* You will be navigated to the **Device overview** page.
++==== 3.2.2.3 Adding device manually ====
--[[image:lt-22222-device-overview.png]]
--
--
--==== 3.2.1.2 Adding device manually ====
--
--
  * On the **Register end device** page:
  ** Select the option **Enter end device specifies manually** under **Input method**.
  ** Select the **Frequency plan** that matches your device from the **Frequency plan** dropdown list.
@@ -305,11 +305,10 @@
  [[image:lt-22222-device-overview.png]]
--=== 3.2.2 Joining ===
++==== 3.2.2.4 Joining ====
++On the Device's page, click on **Live data** tab. The Live data panel for your device will display.
--On the end device's page (in this case, lt-22222-l), click on **Live data** tab. The Live data panel for your device will display. Initially, it is blank.
--
  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.
@@ -316,17 +316,18 @@
  [[image:lt-22222-l-joining.png]]
--=== 3.2.3 Uplinks ===
++==== 3.2.2.5 Uplinks ====
--After successfully joining, the device will send its first **uplink data message** to The Things Stack application it belongs to (in this example, it is **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.
--Click on one of the **Forward uplink data messages **to see its payload content. The payload content is encapsulated within the **decode_payload {}** JSON object.
++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.
++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.
++
  [[image:lt-22222-ul-payload-decoded.png]]
--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.
++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.
  {{info}}
  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.
@@ -335,18 +335,17 @@
  [[image:lt-22222-ul-payload-fmt.png]]
--We have written a payload formatter that resolves some decoding issues present in The Things Stack Device Repository payload formatter. You can add it under the **Custom JavaScript formatter**. It can be found [[here>>https://github.com/dragino/dragino-end-node-decoder/blob/main/LT22222-L/v1.6_decoder_ttn%20.txt]]:
++We also have a payload formatter that resolves some decoding issues present in the Device Repository formatter. You can add it under the Custom JavaScript formatter. It can be found [[here>>https://github.com/dragino/dragino-end-node-decoder/blob/main/LT22222-L/v1.6_decoder_ttn%20.txt]]:
  (% class="wikigeneratedid" %)
  [[image:lt-22222-l-js-custom-payload-formatter.png]]
--=== 3.2.4 Downlinks ===
++==== 3.2.2.6 Downlinks ====
++When the LT-22222-L receives a downlink message from the server, the **RX LED** turns on for **1 second**.
--When the LT-22222-L receives a downlink message from the LoRaWAN Network Server, the **RX LED** turns on for **1 second**.
--
  == 3.3 Working Modes and Uplink Payload formats ==
@@ -366,16 +366,17 @@
  The uplink messages are sent over LoRaWAN FPort=2. By default, an uplink message is sent every 10 minutes.
--
  === 3.3.1 AT+MOD~=1, 2ACI+2AVI ===
--
  (((
  This is the default mode.
  The uplink payload is 11 bytes long.
--(% style="display:none" wfd-invisible="true" %)
++(% style="color:red" %)**Note:The maximum count depends on the bytes number of bytes.
++The maximum count for four bytes is FFFFFFFF (hex) = 4294967295 (dec).
++It starts counting again when it reaches the maximum value.**(% style="display:none" wfd-invisible="true" %)
++
  (% border="1" cellspacing="4" style="background-color:#f2f2f2; width:510px" %)
  |(% style="background-color:#4f81bd; color:white" %)**Size(bytes)**|(% style="background-color:#4f81bd; color:white" %)**2**|(% style="background-color:#4f81bd; color:white" %)**2**|(% style="background-color:#4f81bd; color:white" %)**2**|(% style="background-color:#4f81bd; color:white" %)**2**|(% style="background-color:#4f81bd; color:white" %)**1**|(% style="background-color:#4f81bd; color:white" %)**1**|(% style="background-color:#4f81bd; color:white" %)**1**
  |Value|(((
@@ -439,7 +439,6 @@
  MOD = 1
--
  === 3.3.2 AT+MOD~=2, (Double DI Counting) ===
@@ -518,7 +518,6 @@
  === 3.3.3 AT+MOD~=3, Single DI Counting + 2 x ACI ===
--
  (% style="color:red" %)**Note: The maximum count depends on the bytes it is.
  The maximum count for four bytes is FFFFFFFF (hex) = 4294967295 (dec).
  It starts counting again when it reaches the maximum value.**
@@ -572,7 +572,6 @@
  === 3.3.4 AT+MOD~=4, Single DI Counting + 1 x Voltage Counting ===
--
  (% style="color:red" %)**Note:The maximum count depends on the bytes it is.
  The maximum count for four bytes is FFFFFFFF (hex) = 4294967295 (dec).
  It starts counting again when it reaches the maximum value.**
@@ -642,9 +642,8 @@
  === 3.3.5 AT+MOD~=5, Single DI Counting + 2 x AVI + 1 x ACI ===
--
  (% style="color:red" %)**Note:The maximum count depends on the bytes it is.
--The maximum count for four bytes is FFFF (hex) = 65535 (dec).
++The maximum count for four bytes is FFFFFFFF (hex) = 4294967295 (dec).
  It starts counting again when it reaches the maximum value.**
@@ -729,7 +729,7 @@
  AT+AVLIM=3000,6000,0,2000 (triggers an uplink if AVI1 voltage is lower than 3V or higher than 6V, or if AV2 voltage is higher than 2V)
--AT+AVLIM=5000,0,0,0 (triggers an uplink if AVI1 voltage is lower than 5V. Use 0 for parameters that are not in use)
++AT+AVLIM=5000,0,0,0 (triggers an uplink if AVI1 voltage lower than 5V. Use 0 for parameters that are not in use)
  (% style="color:#4f81bd" %)**Trigger based on current**:
@@ -785,7 +785,7 @@
  (% style="color:#4f81bd" %)**Trigger Settings Payload Explanation:**
--MOD6 Payload: a total of 11 bytes
++MOD6 Payload: total of 11 bytes
  (% border="1" cellspacing="3" style="background-color:#f2f2f2; width:515px" %)
  |(% style="background-color:#4f81bd; color:white; width:60px" %)**Size(bytes)**|(% style="background-color:#4f81bd; color:white; width:69px" %)**1**|(% style="background-color:#4f81bd; color:white; width:69px" %)**1**|(% style="background-color:#4f81bd; color:white; width:109px" %)**1**|(% style="background-color:#4f81bd; color:white; width:49px" %)**6**|(% style="background-color:#4f81bd; color:white; width:109px" %)**1**|(% style="background-color:#4f81bd; color:white; width:50px" %)**1**
@@ -799,7 +799,7 @@
  MOD(6)
  )))
--(% style="color:#4f81bd" %)**TRI FLAG1**(%%) is a combination to show if the trigger is set for this part. Total 1 byte as below.
++(% style="color:#4f81bd" %)**TRI FLAG1**(%%) is a combination to show if the trigger is set for this part. Totally 1 byte as below
  (% border="1" cellspacing="3" style="background-color:#f2f2f2; width:515px" %)
  |**bit 7**|**bit 6**|**bit 5**|**bit 4**|**bit 3**|**bit 2**|**bit 1**|**bit 0**
@@ -828,7 +828,7 @@
  10100000: This means the system is configured to use the triggers AV1_LOW and AV2_LOW.
--(% style="color:#4f81bd" %)**TRI Status1**(%%) is a combination to show which condition is triggered. Total 1 byte as below.
++(% style="color:#4f81bd" %)**TRI Status1**(%%) is a combination to show which condition is trigger. Totally 1 byte as below
  (% border="1" cellspacing="3" style="background-color:#f2f2f2; width:515px" %)
  |**bit 7**|**bit 6**|**bit 5**|**bit 4**|**bit 3**|**bit 2**|**bit 1**|**bit 0**
@@ -857,7 +857,7 @@
  10000000: The uplink is triggered by AV1_LOW, indicating that the voltage is too low.
--(% style="color:#4f81bd" %)**TRI_DI FLAG+STA **(%%)is a combination to show which condition is triggered. Total 1 byte as below.
++(% style="color:#4f81bd" %)**TRI_DI FLAG+STA **(%%)is a combination to show which condition is trigger. Totally 1byte as below
  (% border="1" cellspacing="3" style="background-color:#f2f2f2; width:515px" %)
  |(% style="width:50px" %)**bit 7**|(% style="width:50px" %)**bit 6**|(% style="width:50px" %)**bit 5**|(% style="width:50px" %)**bit 4**|(% style="width:90px" %)**bit 3**|(% style="width:80px" %)**bit 2**|(% style="width:90px" %)**bit 1**|(% style="width:95px" %)**bit 0**
@@ -867,7 +867,7 @@
  **Example:**
--00000111: This means both DI1 and DI2 triggers are enabled, and this packet is triggered by DI1.
++00000111: This means both DI1 and DI2 triggers are enabled, and this packet is trigger by DI1.
  00000101: This means both DI1 and DI2 triggers are enabled.
@@ -878,7 +878,7 @@
  **AB 06**
--When the device receives this command, it will send the MOD6 payload.
++When device receives this command, it will send the MOD6 payload.
  === 3.3.7 Payload Decoder ===
@@ -886,7 +886,7 @@
  (((
--**Decoder for TTN/loraserver/ChirpStack**:  [[https:~~/~~/github.com/dragino/dragino-end-node-decoder>>https://github.com/dragino/dragino-end-node-decoder/tree/main/LT22222-L]]
++**Decoder for TTN/loraserver/ChirpStack**:  [[https:~~/~~/github.com/dragino/dragino-end-node-decoder>>https://github.com/dragino/dragino-end-node-decoder]]
  )))
@@ -899,7 +899,7 @@
  (((
  (((
--There are two types of commands:
++There are two tytes of commands:
  )))
  )))
@@ -911,7 +911,7 @@
  (((
--These are available for each sensor and include actions such as changing the uplink interval or resetting the device. For firmware v1.5.4, you can find the supported common commands under: [[End Device AT Commands and Downlink Command>>doc:Main.End Device AT Commands and Downlink Command.WebHome]]s.
++These are available for each sensors and include actions such as changing the uplink interval or resetting the device. For firmware v1.5.4, you can find the supported common commands under: [[End Device AT Commands and Downlink Command>>doc:Main.End Device AT Commands and Downlink Command.WebHome]]s.
  )))
@@ -1050,7 +1050,7 @@
  ==== 3.4.2.4 Enable/Disable Trigger Mode ====
--Enable or disable the trigger mode for the current working mode (see also [[ADDMOD6>>||anchor="H3.3.6AT2BADDMOD3D628TriggerMode2COptional29"]]).
++Enable or disable the trigger mode for the current working mode (see also [[ADDMOD6>>||anchor="H3.3.6AT2BADDMOD3D6.28TriggerMode2COptional29"]]).
  (% style="color:#037691" %)**AT Command**
@@ -1102,7 +1102,7 @@
  |(% style="width:95px" %)**Example**|(% style="width:403px" %)(((
  AB 06
--Uplink the trigger settings.
++Uplinks the trigger settings.
  )))
  ==== 3.4.2.6 Enable/Disable DI1/DI2/DI3 as a trigger ====
@@ -1160,7 +1160,7 @@
  Enable DI1 trigger, disable DI2 trigger
  )))
--==== 3.4.2.7 Trigger1 – Set DI1 or DI3 as a trigger ====
++==== 3.4.2.7 Trigger1 – Set DI or DI3 as a trigger ====
  Sets DI1 or DI3 (for LT-33222-L) as a trigger.
@@ -1236,7 +1236,7 @@
  ==== 3.4.2.9 Trigger – Set AC (current) as a trigger ====
--Sets the current trigger based on the AC port. See also [[trigger mode>>||anchor="H3.3.6AT2BADDMOD3D628TriggerMode2COptional29"]]
++Sets the current trigger based on the AC port. See also [[trigger mode>>||anchor="H3.3.6AT2BADDMOD3D6.28TriggerMode2COptional29"]]
  (% style="color:#037691" %)**AT Command**
@@ -1259,7 +1259,7 @@
  Triggers an uplink if AC1 current is lower than 10mA or higher than 15mA
  )))
--|(% style="width:104px" %)Note|(% style="width:394px" %)See also, [[trigger mode>>||anchor="H3.3.6AT2BADDMOD3D628TriggerMode2COptional29"]]
++|(% style="width:104px" %)Note|(% style="width:394px" %)See also, [[trigger mode>>||anchor="H3.3.6AT2BADDMOD3D6.28TriggerMode2COptional29"]]
  (% style="color:#037691" %)**Downlink Payload**
@@ -1281,12 +1281,12 @@
  Triggers an uplink if AC1 current is lower than 10mA or higher than 15mA. Set all values to zero for AC2 limits because we are only checking AC1 limits.
  )))
--|(% style="width:104px" %)Note|(% style="width:394px" %)See also, [[trigger mode>>||anchor="H3.3.6AT2BADDMOD3D628TriggerMode2COptional29"]]
++|(% style="width:104px" %)Note|(% style="width:394px" %)See also, [[trigger mode>>||anchor="H3.3.6AT2BADDMOD3D6.28TriggerMode2COptional29"]]
  ==== 3.4.2.10 Trigger – Set AV (voltage) as trigger ====
--Sets the current trigger based on the AV port. See also [[trigger mode>>||anchor="H3.3.6AT2BADDMOD3D628TriggerMode2COptional29"]]
++Sets the current trigger based on the AV port. See also [[trigger mode>>||anchor="H3.3.6AT2BADDMOD3D6.28TriggerMode2COptional29"]]
  (% style="color:#037691" %)**AT Command**
@@ -1307,7 +1307,7 @@
  Triggers an uplink if AVI1 voltage is lower than 3V or higher than 6V, or if AV2 voltage is higher than 2V
  )))
--|(% style="width:104px" %)**Note**|(% style="width:387px" %)See also, [[trigger mode>>||anchor="H3.3.6AT2BADDMOD3D628TriggerMode2COptional29"]]
++|(% style="width:104px" %)**Note**|(% style="width:387px" %)See also, [[trigger mode>>||anchor="H3.3.6AT2BADDMOD3D6.28TriggerMode2COptional29"]]
  (% style="color:#037691" %)**Downlink Payload**
@@ -1329,9 +1329,9 @@
  Triggers an uplink if AVI1 voltage is lower than 3V or higher than 6V, or if AV2 voltage is higher than 2V.
  )))
--|(% style="width:104px" %)**Note**|(% style="width:394px" %)See also, [[trigger mode>>||anchor="H3.3.6AT2BADDMOD3D628TriggerMode2COptional29"]]
++|(% style="width:104px" %)**Note**|(% style="width:394px" %)See also, [[trigger mode>>||anchor="H3.3.6AT2BADDMOD3D6.28TriggerMode2COptional29"]]
--==== 3.4.2.11 Trigger – Set the minimum interval ====
++==== 3.4.2.11 Trigger – Set minimum interval ====
  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.
@@ -1349,7 +1349,7 @@
  The device won't respond to the second trigger within 5 minutes after the first trigger.
  )))
--|(% style="width:113px" %)**Note**|(% style="width:385px" %)(% style="color:red" %)**The time must be greater than 5 minutes.**
++|(% style="width:113px" %)Note|(% style="width:385px" %)(% style="color:red" %)**The time must be greater than 5 minutes.**
  (% style="color:#037691" %)**Downlink Payload**
@@ -1365,7 +1365,7 @@
  The device won't respond to the second trigger within 5 minutes after the first trigger.
  )))
--|(% style="width:112px" %)**Note**|(% style="width:386px" %)(% style="color:red" %)**The time must be greater than 5 minutes.**
++|(% style="width:112px" %)Note|(% style="width:386px" %)(% style="color:red" %)**The time must be greater than 5 minutes.**
  ==== 3.4.2.12 DO ~-~- Control Digital Output DO1/DO2/DO3 ====
@@ -1421,139 +1421,126 @@
  ==== 3.4.2.13 DO ~-~- Control Digital Output DO1/DO2/DO3 with time control ====
--(% style="color:#037691" %)**AT command**
++* (% style="color:#037691" %)**AT Command**
  There is no AT command to control the digital output.
--(% style="color:#037691" %)**Downlink payload**
++* (% style="color:#037691" %)**Downlink Payload (prefix 0xA9)**
--(% border="2" style="width:500px" %)
--|(% style="width:116px" %)**Prefix**|(% style="width:382px" %)0xA9
--|(% style="width:116px" %)**Parameters**|(% style="width:382px" %)(((
--**inverter_mode**: 1 byte in hex.
++(% style="color:blue" %)**0xA9 aa bb cc     **(%%) ~/~/ Sets DO1/DO2/DO3 outputs with time control
--**01:** DO pins revert to their original state after the timeout.
--**00:** DO pins switch to an inverted state after the timeout.
++This is to control the digital output time of DO pin. Include four bytes:
++(% style="color:#4f81bd" %)**First byte**(%%)**:** Type code (0xA9)
--**DO1_control_method_and_port_status **- 1 byte in hex
++(% style="color:#4f81bd" %)**Second byte**(%%): Inverter Mode
--0x01 :  DO1 set to low
++**01:** DO pins revert to their original state after the timeout.
++**00:** DO pins switch to an inverted state after the timeout.
--0x00 :  DO1 set to high
--0x11 :  DO1 NO action
++(% style="color:#4f81bd" %)**Third Byte**(%%): Control Method and Port status:
++(% border="1" cellspacing="4" style="background-color:#f2f2f2; width:300px" %)
++|(% style="background-color:#4f81bd; color:white" %)**Second Byte**|(% style="background-color:#4f81bd; color:white" %)**Status**
++|0x01|DO1 set to low
++|0x00|DO1 set to high
++|0x11|DO1 NO Action
--**DO2_control_method_and_port_status** - 1 byte in hex
++(% style="color:#4f81bd" %)**Fourth byte**(%%): Control Method and Port status:
--0x01 :  DO2 set to low
++(% border="1" cellspacing="4" style="background-color:#f2f2f2; width:300px" %)
++|(% style="background-color:#4f81bd; color:white" %)**Second Byte**|(% style="background-color:#4f81bd; color:white" %)**Status**
++|0x01|DO2 set to low
++|0x00|DO2 set to high
++|0x11|DO2 NO Action
--0x00 :  DO2 set to high
++(% style="color:#4f81bd" %)**Fifth byte**(%%): Control Method and Port status:
--0x11 :  DO2 NO action
++(% border="1" cellspacing="4" style="background-color:#f2f2f2; width:300px" %)
++|(% style="background-color:#4f81bd; color:white" %)**Second Byte**|(% style="background-color:#4f81bd; color:white" %)**Status**
++|0x01|DO3 set to low
++|0x00|DO3 set to high
++|0x11|DO3 NO Action
++(% style="color:#4f81bd" %)**Sixth, Seventh, Eighth, and Ninth bytes**:(%%) Latching time (Unit: ms)
--**DO3_control_method_and_port_status **- 1 byte in hex
--0x01 :  DO3 set to low
--
--0x00 :  DO3 set to high
--
--0x11 :  DO3 NO action
--
--
--**latching_time** : 4 bytes in hex
--
  (% style="color:red" %)**Note: **
--   Since firmware v1.6.0, the latch time supports 4 bytes or 2 bytes
++   Since firmware v1.6.0, the latch time support 4 bytes and 2 bytes
     Before firmware v1.6.0, the latch time only supported 2 bytes.
  (% style="color:red" %)**The device will uplink a packet if the downlink code executes successfully.**
--)))
--|(% style="width:116px" %)**Payload format**|(% style="width:382px" %)<prefix><inverter_mode><DO1_control_method_and_port_status><DO2_control_method_and_port_status><DO2_control_method_and_port_status><latching_time>
--|(% style="width:116px" %)**Example**|(% style="width:382px" %)(((
--**A9 01 01 01 01 07 D0**
--DO1 pin, DO2 pin, and DO3 pin will be set to low, last for 2 seconds, and then revert to their original state.
++**Example payload:**
--**A9 01 00 01 11 07 D0**
++**~1. A9 01 01 01 01 07 D0**
--DO1 pin is set to high, DO2 pin is set to low, and DO3 pin takes no action. This lasts for 2 seconds and then reverts to the original state.
++DO1 pin, DO2 pin, and DO3 pin will be set to low, last for 2 seconds, and then revert to their original state.
++**2. A9 01 00 01 11 07 D0**
--**A9 00 00 00 00 07 D0**
++DO1 pin is set to high, DO2 pin is set to low, and DO3 pin takes no action. This lasts for 2 seconds and then reverts to the original state.
++**3. A9 00 00 00 00 07 D0**
++
  DO1 pin, DO2 pin, and DO3 pin will be set to high, last for 2 seconds, and then all change to low.
++**4. A9 00 11 01 00 07 D0**
--**A9 00 11 01 00 07 D0**
++DO1 pin takes no action, DO2 pin is set to low, and DO3 pin is set to high. This lasts for 2 seconds, after which DO1 pin takes no action, DO2 pin is set to high, and DO3 pin is set to low.
--DO1 pin takes no action, DO2 pin is set to low, and DO3 pin is set to high. This lasts for 2 seconds, after which the DO1 pin takes no action, the DO2 pin is set to high, and the DO3 pin is set to low.
--)))
  ==== 3.4.2.14 Relay ~-~- Control Relay Output RO1/RO2 ====
--(% style="color:#037691" %)**AT Command:**
++* (% style="color:#037691" %)**AT Command:**
--There is no AT Command to control the Relay Output.
++There is no AT Command to control the Relay Output
--(% style="color:#037691" %)**Downlink Payload**
++* (% style="color:#037691" %)**Downlink Payload (prefix 0x03):**
--(% border="2" style="width:500px" %)
--|(% style="width:113px" %)**Prefix**|(% style="width:384px" %)0x03
--|(% style="width:113px" %)**Parameters**|(% style="width:384px" %)(((
--**RO1_status** : 1 byte in hex
++(% style="color:blue" %)**0x03 aa bb     ** (%%)~/~/ Sets RO1/RO2 output
--00: Close
--01: Open
++(((
++If the payload is 0x030100, it means setting RO1 to close and RO2 to open.
++)))
--11: No action
++(((
++00: Close ,  01: Open , 11: No action
--
--**RO2_status** : 1 byte in hex
--
--00: Close
--
--01: Open
--
--11: No action
++(% border="1" cellspacing="4" style="background-color:#f2f2f2; width:320px" %)
++|(% style="background-color:#4f81bd; color:white" %)**Downlink Code**|(% style="background-color:#4f81bd; color:white" %)**RO1**|(% style="background-color:#4f81bd; color:white" %)**RO2**
++|03  00  11|Open|No Action
++|03  01  11|Close|No Action
++|03  11  00|No Action|Open
++|03  11  01|No Action|Close
++|03  00  00|Open|Open
++|03  01  01|Close|Close
++|03  01  00|Close|Open
++|03  00  01|Open|Close
  )))
--|(% style="width:113px" %)**Payload format**|(% style="width:384px" %)<prefix><RO1_status><RO2_status>
--|(% style="width:113px" %)**Example**|(% style="width:384px" %)(((
--(% border="2" %)
--|=Payload|=RO1|=RO2
--|03  00  11|Open|No action
--|03  01  11|Close|No action
--|03  11  00|No action|Open
--|03  11  01|No action|Close
--|03  00  00|Open|Open
--|03  01  01|Close|Close
--|03  01  00|Close|Open
--|03  00  01|Open|Close
--(% style="color:red" %)**The device will transmit an uplink packet if the downlink payload is executed successfully.**
--)))
++(% style="color:red" %)**The device will uplink a packet if the downlink code executes successfully.**
++
  ==== 3.4.2.15 Relay ~-~- Control Relay Output RO1/RO2 with time control ====
  Controls the relay output time.
++* (% style="color:#037691" %)**AT Command:**
--(% style="color:#037691" %)**AT Command:**
--
  There is no AT Command to control the Relay Output
--(% style="color:#037691" %)**Downlink Payload (prefix 0x05):**
++* (% style="color:#037691" %)**Downlink Payload (prefix 0x05):**
  (% style="color:blue" %)**0x05 aa bb cc dd     ** (%%)~/~/ Sets RO1/RO2 relays with time control
@@ -1564,9 +1564,9 @@
  (% style="color:#4f81bd" %)**Second byte (aa)**(%%): Inverter Mode
--01: Relays will change back to their original state after a timeout.
++01: Relays will change back to their original state after timeout.
--00: Relays will change to the inverter state after a timeout.
++00: Relays will change to the inverter state after timeout.
  (% style="color:#4f81bd" %)**Third byte (bb)**(%%): Control Method and Ports status:
@@ -1595,7 +1595,7 @@
  **2. 05 01 10 07 D0**
--Relay1 will change to NC, Relay2 will change to NO, lasting 2 seconds, and then both will revert to their original state.
++Relay1 will change to NC, Relay2 will change to NO, lasting 2 seconds, then both will revert to their original state.
  **3. 05 00 01 07 D0**
@@ -1626,7 +1626,7 @@
  **1**: higher than
--if you leave the logic parameter blank, it is considered 0
++if you leave logic parameter blank, it is considered 0
  )))
  |(% style="width:137px" %)**Examples**|(% style="width:361px" %)(((
  AT+VOLMAX=20000
@@ -1657,7 +1657,7 @@
  **1**: higher than
--if you leave the logic parameter blank, it is considered 1 (higher than)
++if you leave logic parameter blank, it is considered 1 (higher than)
  )))
  |(% style="width:140px" %)**Example**|(% style="width:358px" %)(((
  A5 **4E 20**
@@ -1675,7 +1675,6 @@
  ==== 3.4.2.17 Counting ~-~- Pre-configure the Count Number ====
--
  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.
  (% style="color:#037691" %)**AT Command**
@@ -1725,7 +1725,6 @@
  ==== 3.4.2.18 Counting ~-~- Clear Counting ====
--
  This command clears the counting in counting mode.
  (% style="color:#037691" %)**AT Command**
@@ -1923,7 +1923,7 @@
  ==== 3.4.2.24 When the limit bytes are exceeded, upload in batches ====
--This command controls the behavior of the node when the combined size of the MAC commands (MACANS) from the server and the payload exceed 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.
++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.
  (% style="color:#037691" %)**AT Command**
@@ -1992,16 +1992,17 @@
  There is no downlink option available for this feature.
--==== 3.4.2.26 Query firmware version, frequency band, subband, and TDC time ====
++==== 3.4.2.26 Query firmware version, frequency band, sub band, and TDC time ====
--This command is used to query key information about the device, including its firmware version, frequency band, subband, and TDC time. By sending the specified payload as a downlink, the server can retrieve this essential data from the device.
++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.
  * (((
  (% style="color:#037691" %)**Downlink Payload**(%%)**:**
--(% style="color:blue" %)**26 01  ** (%%)  ~/~/  The downlink payload 26 01 is used to query the device's firmware version, frequency band, subband, and TDC time.
++(% 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.
++
  )))
@@ -2054,7 +2054,7 @@
  * Ensure the following options are turned on.
  ** Enable integration
  ** Debug mode
--** Allow creating devices or assets
++** Allow create devices or assets
  * Click the **Next** button. you will be navigated to the **Uplink data converter** tab.
  [[image:thingseye-io-step-2.png]]
@@ -2099,6 +2099,7 @@
  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.
++
  [[image:thingseye.io_integrationsCenter_integrations.png]]
@@ -2128,7 +2128,7 @@
  [[image:thingseye-events.png]]
--* To view the **JSON payload** of a message, click on the **three dots (...)** in the **Message** column of the desired message.
++* To view the **JSON payload** of a message, click on the **three dots (...)** in the Message column of the desired message.
  [[image:thingseye-json.png]]
@@ -2139,14 +2139,12 @@
  If you want to delete an integration, click the **Delete integratio**n button on the Integrations page.
--==== 3.5.2.4 Viewing sensor data on a dashboard ====
++==== 3.5.2.4 Creating a Dashboard to Display and Analyze LT-22222-L Data ====
--You can create a dashboard with ThingsEye to visualize the sensor data coming from the LT-22222-L. The following image shows a dashboard created for the LT-22222-L. See **Creating a dashboard** in ThingsEye documentation for more information.
++This will be added soon.
--[[image:lt-22222-l-dashboard.png]]
--
  == 3.6 Interface Details ==
  === 3.6.1 Digital Input Ports: DI1/DI2/DI3 (For LT-33222-L, Low Active) ===
@@ -2349,7 +2349,7 @@
  (((
  The LT-22222-L has two relay interfaces, RO1 and RO2, each using two pins of the screw terminal (ROx-1 and ROx-2 where x is the port number, 1 or 2). You can connect a device's power line in series with one of the relay interfaces (e.g., RO1-1 and RO1-2 screw terminals). See the example below:
--(% style="color:red" %)**Note:**(%%) The ROx pins will be in the Open (NO) state when the LT-22222-L is powered off.
++**Note**: The ROx pins will be in the Open (NO) state when the LT-22222-L is powered off.
  )))
  [[image:image-20220524100215-9.png]]
@@ -2361,7 +2361,7 @@
  == 3.7 LED Indicators ==
--The table below lists the behaviour of LED indicators for each port function.
++The table below lists the behavior of LED indicators for each port function.
  (% border="1" cellspacing="3" style="background-color:#f2f2f2; width:510px" %)
  |(% style="background-color:#4f81bd; color:white; width:50px" %)**LEDs**|(% style="background-color:#4f81bd; color:white; width:460px" %)**Feature**
@@ -2368,11 +2368,11 @@
  |**PWR**|Always on when there is power
  |**TX**|(((
  (((
--Device booting: TX blinks 5 times.
++Device boot: TX blinks 5 times.
  )))
  (((
--Successful network joins: TX remains ON for 5 seconds.
++Successful network join: TX remains ON for 5 seconds.
  )))
  (((
@@ -2408,6 +2408,7 @@
  )))
++
  (((
  On the PC, you need to set the (% style="color:#4f81bd" %)**serial tool **(%%)(such as [[PuTTY>>url:https://www.chiark.greenend.org.uk/~~sgtatham/putty/latest.html]] or [[SecureCRT>>https://www.vandyke.com/cgi-bin/releases.php?product=securecrt]]) to a baud rate of (% style="color:green" %)**9600**(%%) to access the serial console of LT-22222-L. Access to AT commands is disabled by default, and a password (default: (% style="color:green" %)**123456**)(%%) must be entered to enable AT command access, as shown below:
  )))
@@ -2416,6 +2416,9 @@
  (((
++You can find more details in the [[AT Command Manual>>url:http://www.dragino.com/downloads/index.php?dir=LT_LoRa_IO_Controller/LT33222-L/]]
++
++
  == 4.2 LT-22222-L related AT commands ==
@@ -2452,13 +2452,13 @@
  * ##**AT+FCU**##: Get or set the Frame Counter Uplink (FCntUp)
  * ##**AT+FCD**##: Get or set the Frame Counter Downlink (FCntDown)
  * ##**AT+CLASS**##: Get or set the Device Class
--* ##**AT+JOIN**##: Join Network
++* ##**AT+JOIN**##: Join network
  * ##**AT+NJS**##: Get OTAA Join Status
  * ##**AT+SENDB**##: Send hexadecimal data along with the application port
  * ##**AT+SEND**##: Send text data along with the application port
--* ##**AT+RECVB**##: Print the last received data in binary format (with hexadecimal values)
--* ##**AT+RECV**##: Print the last received data in raw format
--* ##**AT+VER**##: Get the current image version and Frequency Band
++* ##**AT+RECVB**##: Print last received data in binary format (with hexadecimal values)
++* ##**AT+RECV**##: Print last received data in raw format
++* ##**AT+VER**##: Get current image version and Frequency Band
  * ##**AT+CFM**##: Get or Set the confirmation mode (0-1)
  * ##**AT+CFS**##: Get confirmation status of the last AT+SEND (0-1)
  * ##**AT+SNR**##: Get the SNR of the last received packet
@@ -2486,7 +2486,7 @@
  )))
  (((
--(% style="background-color:#dcdcdc" %)##**123456 ~/~/Enter the password to enable AT command access**##
++(% style="background-color:#dcdcdc" %)##**123456 ~/~/Enter the password to enable AT commands access**##
  )))
  (((
@@ -2494,7 +2494,7 @@
  )))
  (((
--(% style="background-color:#dcdcdc" %)##**123456 ~/~/Enter the password to enable AT command access**##
++(% style="background-color:#dcdcdc" %)##**123456 ~/~/Enter the password to enable AT commands access**##
  )))
  (((
@@ -2525,7 +2525,7 @@
  (((
--(% style="background-color:#dcdcdc" %)**123456**(%%)        ~/~/ Enter the password to enable AT commands access
++(% style="background-color:#dcdcdc" %)**123456**(%%)        ~/~/ Enter password to enable AT commands access
  )))
  )))
@@ -2534,7 +2534,7 @@
  )))
  (((
--(% style="background-color:#dcdcdc" %)** 123456**(%%)       ~/~/ Enter the password to enable AT command access
++(% style="background-color:#dcdcdc" %)** 123456**(%%)       ~/~/ Enter password to enable AT commands access
  )))
  (((
@@ -2588,7 +2588,8 @@
  **2. Verify that the LG01/02 gateway RX frequency matches the AT+CHS setting exactly.**
--**3. Make sure the SF/bandwidth settings in the LG01/LG02 match the settings of AT+DR. Refer to [[this link>>url:https://www.dragino.com/downloads/index.php?dir=LoRa_Gateway/&file=LoRaWAN%201.0.3%20Regional%20Parameters.xlsx]] to see what DR means.**
++**3. Make sure the SF/bandwidth settings in the LG01/LG02 match the settings of AT+DR. Refer to [[this link>>url:http://www.dragino.com/downloads/index.php?
++dir=LoRa_Gateway/&file=LoRaWAN%201.0.3%20Regional%20Parameters.xlsx]] to see what DR means.**
  **4. The commands AT+RX2FQ and AT+RX2DR enable downlink functionality. To set the correct parameters, you can check the actual downlink parameters to be used as shown below. Here, RX2FQ should be set to 868400000 and RX2DR should be set to 5.**
  )))
@@ -2615,7 +2615,7 @@
  == 5.1 Counting how many objects pass through the flow line ==
--See [[How to set up to setup counting for objects passing through the flow line>>How to set up to count objects pass in flow line]].
++See [[How to set up to setup counting for objects passing through the flow line>>How to set up to count objects pass in flow line]]?
  = 6. FAQ =
@@ -2685,13 +2685,13 @@
  )))
  (((
--You can follow the introductions on [[how to upgrade the image>>||anchor="H6.1Howtoupdatethefirmware3F"]]. When downloading, select the required image file.
++You can follow the introductions on [[how to upgrade image>>||anchor="H5.1Howtoupgradetheimage3F"]]. When downloading, select the required image file.
  )))
  (((
--== 6.3 How to set up LT-22222-L to work with a Single Channel Gateway, such as LG01/LG02? ==
++== 6.3 How to setup LT-22222-L to work with a Single Channel Gateway, such as LG01/LG02? ==
  )))
@@ -2793,9 +2793,9 @@
  * If the device is not properly shut down and is directly powered off.
  * It will default to a power-off state.
  * In modes 2 to 5, the DO/RO status and pulse count are saved to flash memory.
--* After a restart, the status before the power failure will be read from Flash.
++* After a restart, the status before the power failure will be read from flash.
--== 6.8 Can I set up LT-22222-L as an NC (Normally Closed) relay? ==
++== 6.8 Can I setup LT-22222-L as a NC (Normally Closed) relay? ==
  The LT-22222-L's built-in relay is Normally Open (NO). You can use an external relay to achieve a Normally Closed (NC) configuration. The circuit diagram is shown below:
@@ -2865,7 +2865,7 @@
  The FCD count of the gateway is inconsistent with the FCD count of the node, causing the downlink to remain in the queue.
--Use this command to synchronize their counts: [[Resets the downlink packet count>>||anchor="H3.4.2.23Resettingthedownlinkpacketcount"]]
++Use this command to synchronize their counts: [[Resets the downlink packet count>>||anchor="H3.4.2.23Resetsthedownlinkpacketcount"]]
  = 8. Ordering information =
@@ -2885,6 +2885,7 @@
  * (% style="color:red" %)**IN865**(%%): LT with frequency bands IN865
  * (% style="color:red" %)**CN779**(%%): LT with frequency bands CN779
++
  = 9. Package information =
@@ -2902,6 +2902,7 @@
  * Package Size / pcs : 14.5 x 8 x 5 cm
  * Weight / pcs : 170 g
++
  = 10. Support =

lt-22222-l-dashboard.png

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