Changes for page PG1302 -- LoRaWAN Concentrator User Manual

Last modified by Kilight Cao on 2024/06/22 10:43

From version < 90.1 >

edited by Xiaoling
on 2022/05/06 16:17

To version < 87.1 >

edited by Xiaoling
on 2022/05/06 15:56

Change comment: There is no comment for this version

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@@ -31,55 +31,45 @@
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--   The PG1302 is a multi-channel high performance transmitter/receiver designed to simultaneously receive several
++   The PG1302 is a multi-channel high performance transmitter/receiver designed to simultaneously receive several LoRa packets using random spreading factors on
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--   LoRa packets using random spreading factors on random channels. Its goal is to enable robust connection between
++   random channels. Its goal is to enable robust connection between a central wireless data concentrator and a massive amount of wireless end-points spread over a
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--   a central wireless data concentrator and a massive amount of wireless end-points spread over a very wide range of distances.
++   very wide range of distances.
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--   The PG1302 is design to use with Raspberry Pi to build smart metering fixed networks and Internet of Things
++   The PG1302 is design to use with Raspberry Pi to build smart metering fixed networks and Internet of Things applications with up to 5000 nodes per km2 in moderately
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--   applications with up to 5000 nodes per km2 in moderately interfered environment.
++   interfered environment.
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--   PG1302 is fully compatible with RPi3/4, users can use the pre-build OS from Dragino to set up and easy to use the
++   PG1302 is fully compatible with RPi3/4, users can use the pre-build OS from Dragino to set up and easy to use the module by Web UI. Or install the raw lorawan driver
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--   module by Web UI. Or install the raw lorawan driver in the exist OS.
++   in the exist OS.
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@@ -110,17 +110,11 @@
  ==== 1.5 LEDs ====
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     TX: Blink when transmit a packet
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     RX: Blink when receive a packet
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     Config: Always ON
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  ==== 1.6 Power Consumption ====
@@ -191,17 +191,15 @@
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--   Connect the RPI Ethernet port to your router,  RPi will obtain an IP address from your router. In the router’s
--
--   management portal, you should be able to find what IP address the router has assigned to the RPI. You can
--
--   use this IP to connect the WEB UI or SSH access of RPI.
++   Connect the RPI Ethernet port to your router,  RPi will obtain an IP address from your router. In the router’s management portal, you should be
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--   Make sure your PC and the RPI is in the same network, then use a SSH tool (such as [[putty>>url:http://www.chiark.greenend.org.uk/~~sgtatham/putty/download.html]]) to access it.
++   able to find what IP address the router has assigned to the RPI. You can use this IP to connect the WEB UI or SSH access of RPI.
++)))
--   Below are screenshots
++(((
++   Make sure your PC and the RPI is in the same network, then use a SSH tool (such as [[putty>>url:http://www.chiark.greenend.org.uk/~~sgtatham/putty/download.html]]) to access it. Below are screenshots
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@@ -250,13 +250,12 @@
  ===== 4.4.2 LoRa Page =====
--   This page shows the LoRa Radio Settings. There are a set of default frequency band according to LoRaWAN
++    This page shows the LoRa Radio Settings. There are a set of default frequency band according to LoRaWAN protocol, and user can customize the band* as well.
--   protocol, and user can customize the band* as well.
--
  (% style="text-align:center" %)
  [[image:1651744554845-970.png||height="328" width="621"]]
++
       Different PG1302 hardware version can support different frequency range:
       ➢ 868: valid frequency: 863Mhz ~~ 870Mhz. for bands EU868, RU864, IN865 or KZ865.
@@ -263,6 +263,7 @@
       ➢ 915: valid frequency: 902Mhz ~~ 928Mhz. for bands US915, AU915, AS923 or KR920
++
       After user choose the frequency plan, he can see the actually frequency in used by checking the
       page LogRead ~-~-> LoRa Log
@@ -358,10 +358,11 @@
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--   We got the ether (eth0 MAC) address is b8:27:eb:49:62:bc). Add ffff at the end and remove “:” to get the gateway ID: b827ebxxxxbcffff.
--   Input this to TTN v3. Make sure to select legacy packet forwarder.
++   We got the ether (eth0 MAC) address is b8:27:eb:49:62:bc). Add ffff at the end and remove “:” to get the gateway ID: b827ebxxxxbcffff. Input this to TTN v3.
++   Make sure to select legacy packet forwarder.
++
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@@ -425,22 +425,10 @@
  ===== 5.2.2 Config Gateway ID, Frequency Band and Server address =====
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--   After installation, user can find the configuration file in** /etc/lora/ **Replace the gateway ID we got above to the
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++   After installation, user can find the configuration file in** /etc/lora/ **Replace the gateway ID we got above to the **gateway_ID** in file **local_conf.json**
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--**~   gateway_ID** in file **local_conf.json**
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++   The default LoRaWAN server points to localhost, user need to put the correct server address to the server_address field in file **local_conf.json**, like below.
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--   The default LoRaWAN server points to localhost, user need to put the correct server address to the
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--
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--   server_address field in file **local_conf.json**, like below.
--)))
--
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