Changes for page PG1302 -- LoRaWAN Concentrator User Manual
Last modified by Kilight Cao on 2024/06/22 10:43
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... ... @@ -33,29 +33,15 @@ 33 33 ((( 34 34 ((( 35 35 ((( 36 - 36 +The PG1302 is a multi-channel high performance transmitter/receiver designed to simultaneously receive several LoRa packets using random spreading factors on 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 very wide range of distances. 37 37 ))) 38 38 ))) 39 - 40 -((( 41 -((( 42 - LoRa packets using random spreading factors on random channels. Its goal is to enable robust connection 43 43 ))) 44 44 45 45 ((( 46 - between a central wireless data concentrator and a massive amount of wireless end-points spread over 47 -))) 48 - 49 49 ((( 50 - a very wide range of distances. 51 -))) 52 -))) 53 -))) 54 - 55 55 ((( 56 -((( 57 -((( 58 - 44 +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 interfered environment. 59 59 ))) 60 60 ))) 61 61 ))) ... ... @@ -65,48 +65,18 @@ 65 65 ((( 66 66 ((( 67 67 ((( 68 - ThePG1302 isdesigntouse with RaspberryPitobuildsmartmeteringfixednetworksand InternetofThings54 +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 in the exist OS. 69 69 ))) 70 70 ))) 71 - 72 -((( 73 -((( 74 - applications with up to 5000 nodes per km2 in moderately interfered environment. 75 75 ))) 76 76 ))) 77 -))) 78 78 79 79 ((( 80 80 ((( 81 -((( 82 82 83 83 ))) 84 84 ))) 85 -))) 86 -))) 87 87 88 -((( 89 -((( 90 -((( 91 -((( 92 - PG1302 is fully compatible with RPi3/4, users can use the pre-build OS from Dragino to set up and easy to use the 93 -))) 94 -))) 95 - 96 -((( 97 -((( 98 - module by Web UI. Or install the raw lorawan driver in the exist OS. 99 -))) 100 -))) 101 -))) 102 -))) 103 - 104 -((( 105 -((( 106 - 107 -))) 108 -))) 109 - 110 110 ==== 1.2 Features ==== 111 111 112 112 * Base on Semtech SX1302 solution ... ... @@ -162,14 +162,9 @@ 162 162 ==== 2.1 System structure ==== 163 163 164 164 ((( 165 - 121 +This example is an example to show how to set up the PG1302 + RPi as a LoRaWAN gateway to use with [[TheThingsNetwork>>url:http://www.thethingsnetwork.org/]](TTN) LoRaWAN server. Set up method for other server are similar. 166 166 ))) 167 167 168 -((( 169 - [[TheThingsNetwork>>url:http://www.thethingsnetwork.org/]](TTN) LoRaWAN server. Set up method for other server are similar. 170 -))) 171 - 172 -(% style="text-align:center" %) 173 173 [[image:1651743698677-436.png||height="457" width="686"]] 174 174 175 175 ... ... @@ -176,9 +176,8 @@ 176 176 177 177 ==== 2.2 Hardware Installation ==== 178 178 179 -** ~Important Notice: **Please power the RPI with 5V,3A cable.130 +**Important Notice: **Please power the RPI with 5V,3A cable. 180 180 181 -(% style="text-align:center" %) 182 182 [[image:1651743803032-803.png]] 183 183 184 184 ... ... @@ -207,7 +207,6 @@ 207 207 208 208 Flash the image to SD card: 209 209 210 -(% style="text-align:center" %) 211 211 [[image:1651744119133-233.png||height="373" width="621"]] 212 212 213 213 Note: Download the flash tool following this link ... ... @@ -217,34 +217,10 @@ 217 217 218 218 ==== 4.3 Access the Linux console ==== 219 219 220 -((( 221 -((( 222 -((( 223 - Connect the RPI Ethernet port to your router, RPi will obtain an IP address from your router. In the router’s 224 -))) 169 +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. 225 225 226 -((( 227 - management portal, you should be able to find what IP address the router has assigned to the RPI. You can 228 -))) 171 +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 229 229 230 -((( 231 - use this IP to connect the WEB UI or SSH access of RPI. 232 -))) 233 -))) 234 - 235 -((( 236 -((( 237 - 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. 238 -))) 239 - 240 -((( 241 - Below are screenshots 242 -))) 243 -))) 244 -))) 245 - 246 - 247 -(% style="text-align:center" %) 248 248 [[image:1651744193675-591.png||height="450" width="466"]] 249 249 250 250 ... ... @@ -262,7 +262,6 @@ 262 262 263 263 After log in, you will be in the Linux console and type command here. 264 264 265 -(% style="text-align:center" %) 266 266 [[image:1651744358515-107.png||height="366" width="581"]] 267 267 268 268 ... ... @@ -271,7 +271,7 @@ 271 271 ===== 4.4.1 Home page ===== 272 272 273 273 ((( 274 - 198 +Open a browser on the PC and type the RPI ip address 275 275 ))) 276 276 277 277 ((( ... ... @@ -279,11 +279,11 @@ 279 279 ))) 280 280 281 281 ((( 282 - 206 +You will see the login interface of RPI as shown below. 283 283 ))) 284 284 285 285 ((( 286 - 210 +The account details for Web Login are: 287 287 ))) 288 288 289 289 ((( ... ... @@ -294,7 +294,6 @@ 294 294 **~ Password: dragino** 295 295 ))) 296 296 297 -(% style="text-align:center" %) 298 298 [[image:1651744457761-993.png||height="352" width="621"]] 299 299 300 300 ... ... @@ -301,29 +301,24 @@ 301 301 ===== 4.4.2 LoRa Page ===== 302 302 303 303 ((( 304 - 227 +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. 305 305 ))) 306 306 307 -((( 308 - protocol, and user can customize the band* as well. 309 -))) 310 - 311 -(% style="text-align:center" %) 312 312 [[image:1651744554845-970.png||height="328" width="621"]] 313 313 314 - 232 +Different PG1302 hardware version can support different frequency range: 315 315 316 - 234 +➢ 868: valid frequency: 863Mhz ~~ 870Mhz. for bands EU868, RU864, IN865 or KZ865. 317 317 318 - 236 +➢ 915: valid frequency: 902Mhz ~~ 928Mhz. for bands US915, AU915, AS923 or KR920 319 319 320 - 238 +After user choose the frequency plan, he can see the actually frequency in used by checking the 321 321 322 - 240 +page LogRead ~-~-> LoRa Log 323 323 324 - 242 +Note *: See this instruction for how to customize frequency band 325 325 326 - 244 +[[http:~~/~~/wiki.dragino.com/index.php?title=Customized_Frequency_Band_for_Gateway>>url:http://wiki.dragino.com/index.php?title=Customized_Frequency_Band_for_Gateway]] 327 327 328 328 329 329 ===== 4.4.3 LoRaWAN Page ===== ... ... @@ -330,8 +330,6 @@ 330 330 331 331 ====== 4.4.3.1 Semtech UDP ====== 332 332 333 - 334 -(% style="text-align:center" %) 335 335 [[image:1651744767914-283.png||height="352" width="621"]] 336 336 337 337 Note *: See this instruction for how to configure TTN. ... ... @@ -341,12 +341,11 @@ 341 341 342 342 ====== 4.4.3.2 Basic Station ====== 343 343 344 -(% style="text-align:center" %) 345 345 [[image:1651744890629-683.png||height="380" width="621"]] 346 346 347 - 262 +Note *: See this instruction for how to configure TTN. 348 348 349 - 264 +[[https:~~/~~/wiki.dragino.com/index.php?title=Notes_for_AWS-IoT-Core>>url:https://wiki.dragino.com/index.php?title=Notes_for_AWS-IoT-Core]] 350 350 351 351 352 352 ===== 4.4.4 LogRead ===== ... ... @@ -353,26 +353,22 @@ 353 353 354 354 ====== 4.4.4.1 LoRa Log ====== 355 355 356 -(% style="text-align:center" %) 357 357 [[image:1651744955955-452.png||height="571" width="621"]] 358 358 359 - 273 +Show the frequency for LoRa Radio and traffics. 360 360 361 361 362 362 ====== 4.4.4.2 System Log ====== 363 363 364 - 278 +Show system log. 365 365 366 -(% style="text-align:center" %) 367 367 [[image:1651745003470-264.png||height="477" width="621"]] 368 368 369 369 370 - 371 371 ====== 4.4.4.3 Record Log ====== 372 372 373 -** ~Record the system log.**285 +**Record the system log.** 374 374 375 -(% style="text-align:center" %) 376 376 [[image:1651745069814-662.png||height="144" width="621"]] 377 377 378 378 ... ... @@ -380,7 +380,7 @@ 380 380 381 381 ==== 5.1 OS requirement ==== 382 382 383 - 294 +RPI in this example is RPI model 4B with fresh Raspbian OS install. 384 384 385 385 pi@raspberrypi:~~$ cat /etc/os-release 386 386 ... ... @@ -405,21 +405,16 @@ 405 405 406 406 ==== 5.2 Get Gateway ID in Raspberry and input this in TTN v3. ==== 407 407 408 - 319 +In RPI, run below command to get a Gateway ID 409 409 410 410 (% class="mark" %)ifconfig eth0 411 411 412 -(% style="text-align:center" %) 413 413 [[image:1651745210205-512.png||height="130" width="621"]] 414 414 415 415 ((( 416 - 326 +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. 417 417 ))) 418 418 419 -((( 420 - gateway ID: b827ebxxxxbcffff. Input this to TTN v3. Make sure to select legacy packet forwarder. 421 -))) 422 - 423 423 (% style="text-align:center" %) 424 424 [[image:1651745267862-321.png||height="526" width="621"]] 425 425 ... ... @@ -631,5 +631,3 @@ 631 631 * ((( 632 632 Screws to hole converter PCB on RPI. 633 633 ))) 634 - 635 -