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30	30	==== 1.1 What is PG1302 LoRaWAN Concentrator? ====
31	31
32	32	(((
33		-(((
34		-(((
35		- The PG1302 is a multi-channel high performance transmitter/receiver designed to simultaneously receive several
	33	+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.
36	36	)))
37	37
38	38	(((
39		- LoRa packets using random spreading factors on random channels. Its goal is to enable robust connection between
	37	+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.
40	40	)))
41	41
42	42	(((
43		- a central wireless data concentrator and a massive amount of wireless end-points spread over a very wide range of distances.
	41	+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.
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45		-)))
46	46
47	47	(((
48	48	(((
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49	49
50	50	)))
51	51	)))
52		-)))
53	53
54		-(((
55		-(((
56		-(((
57		- The PG1302 is design to use with Raspberry Pi to build smart metering fixed networks and Internet of Things
58		-)))
59		-
60		-(((
61		- applications with up to 5000 nodes per km2 in moderately interfered environment.
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63		-)))
64		-
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67		-
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69		-)))
70		-)))
71		-
72		-(((
73		-(((
74		-(((
75		- PG1302 is fully compatible with RPi3/4, users can use the pre-build OS from Dragino to set up and easy to use the
76		-)))
77		-
78		-(((
79		- module by Web UI. Or install the raw lorawan driver in the exist OS.
80		-)))
81		-)))
82		-)))
83		-
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88		-)))
89		-
90	90	==== 1.2 Features ====
91	91
92	92	* Base on Semtech SX1302 solution
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110	110
111	111	==== 1.5 LEDs ====
112	112
113		-(((
114		- TX: Blink when transmit a packet
115		-)))
	73	+ TX: Blink when transmit a packet
116	116
117		-(((
118		- RX: Blink when receive a packet
119		-)))
	75	+ RX: Blink when receive a packet
120	120
121		-(((
122		- Config: Always ON
123		-)))
	77	+ Config: Always ON
124	124
125	125
126	126	==== 1.6 Power Consumption ====
127	127
128		- TBD
	82	+ TBD
129	129
130	130
131	131	==== 1.7 Applications ====
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141	141
142	142	==== 2.1 System structure ====
143	143
144		- 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.
	98	+ 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.
145	145
146		- Set up method for other server are similar.
	100	+ Set up method for other server are similar.
147	147
148	148	(% style="text-align:center" %)
149	149	[[image:1651743698677-436.png||height="457" width="686"]]
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190	190	==== 4.3 Access the Linux console ====
191	191
192	192	(((
193		-(((
194		- Connect the RPI Ethernet port to your router, RPi will obtain an IP address from your router. In the router’s
195		-
196		- management portal, you should be able to find what IP address the router has assigned to the RPI. You can
197		-
198		- use this IP to connect the WEB UI or SSH access of RPI.
	147	+ 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
199	199	)))
200	200
201	201	(((
202		- 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.
	151	+ 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.
	152	+)))
203	203
204		- Below are screenshots
	154	+(((
	155	+ 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
205	205	)))
206		-)))
207	207
208	208
209	209	(% style="text-align:center" %)
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250	250
251	251	===== 4.4.2 LoRa Page =====
252	252
253		- This page shows the LoRa Radio Settings. There are a set of default frequency band according to LoRaWAN
	203	+ 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.
254	254
255		- protocol, and user can customize the band* as well.
256		-
257	257	(% style="text-align:center" %)
258	258	[[image:1651744554845-970.png||height="328" width="621"]]
259	259
	208	+
260	260	Different PG1302 hardware version can support different frequency range:
261	261
262	262	➢ 868: valid frequency: 863Mhz ~~ 870Mhz. for bands EU868, RU864, IN865 or KZ865.
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263	263
264	264	➢ 915: valid frequency: 902Mhz ~~ 928Mhz. for bands US915, AU915, AS923 or KR920
265	265
	215	+
266	266	After user choose the frequency plan, he can see the actually frequency in used by checking the
267	267
268	268	page LogRead ~-~-> LoRa Log
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358	358	(% style="text-align:center" %)
359	359	[[image:1651745210205-512.png||height="130" width="621"]]
360	360
361		- 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.
362	362
363		- Input this to TTN v3. Make sure to select legacy packet forwarder.
	312	+ 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.
364	364
	314	+ Make sure to select legacy packet forwarder.
	315	+
365	365	(% style="text-align:center" %)
366	366	[[image:1651745267862-321.png||height="526" width="621"]]
367	367
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425	425
426	426	===== 5.2.2 Config Gateway ID, Frequency Band and Server address =====
427	427
428		-(((
429		- After installation, user can find the configuration file in** /etc/lora/ **Replace the gateway ID we got above to the
430		-)))
	379	+ 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**
431	431
432		-(((
433		-**~ gateway_ID** in file **local_conf.json**
434		-)))
	381	+ 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.
435	435
436		-(((
437		- The default LoRaWAN server points to localhost, user need to put the correct server address to the
438		-)))
439		-
440		-(((
441		- server_address field in file **local_conf.json**, like below.
442		-)))
443		-
444	444	(% style="text-align:center" %)
445	445	[[image:1651745709709-887.png||height="820" width="621"]]
446	446
447	447
448		- User can find the TTN v3 server address from:
	387	+ User can find the TTN v3 server address from:
449	449
450		- [[Server Addresses ~| The Things Stack for LoRaWAN (thethingsindustries.com)>>url:https://www.thethingsindustries.com/docs/getting-started/server-addresses/#deployments]]
	389	+ [[Server Addresses ~| The Things Stack for LoRaWAN (thethingsindustries.com)>>url:https://www.thethingsindustries.com/docs/getting-started/server-addresses/#deployments]]
451	451
452	452
453		- And the default frequency band is US915 in **global_conf.json** file.
	392	+ And the default frequency band is US915 in **global_conf.json** file.
454	454
455	455	(% style="text-align:center" %)
456	456	[[image:1651745838008-820.png||height="650" width="621"]]
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481	481
482	482	===== 5.2.3 Check result =====
483	483
484		- Run below command to restart the dragino_fwd:
	423	+ Run below command to restart the dragino_fwd:
485	485
486	486	sudo systemctl stop draginofwd
487	487
488	488	sudo systemctl start draginofwd
489	489
490		- debug check the ruing status of fwd:
	429	+ debug check the ruing status of fwd:
491	491
492		- sudo systemctl status draginofwd
	431	+ sudo systemctl status draginofwd
493	493
494	494	(% style="text-align:center" %)
495	495	[[image:1651746045057-414.png]]
496	496
497	497
498		- The dragino_fwd will start with the new gateway ID and TTN v3 should show the connection ok:
	437	+ The dragino_fwd will start with the new gateway ID and TTN v3 should show the connection ok:
499	499
500	500	(% style="text-align:center" %)
501	501	[[image:1651746078253-168.png||height="372" width="621"]]
502	502
503	503
504		- We can check dragino_fwd running states in RPi by running:
505	505
506		- //**sudo journalctl -u draginofwd -f**//
	444	+ We can check dragino_fwd running states in RPi by running:
507	507
	446	+ //**sudo journalctl -u draginofwd -f**//
	447	+
508	508	(% style="text-align:center" %)
509	509	[[image:1651746111963-838.png]]
510	510
511		- If there are LoRaWAN nodes transmits nearby, we can see the traffic in TTN v3 –> Gateway ~-~-> Live data
512	512
	452	+
	453	+ If there are LoRaWAN nodes transmits nearby, we can see the traffic in TTN v3 –> Gateway ~-~-> Live data
	454	+
513	513	(% style="text-align:center" %)
514	514	[[image:1651746139304-966.png||height="326" width="621"]]
515	515
516	516
	459	+
517	517	===== 5.2.4 Commands to handle service =====
518	518
519	519	* **Stop** dragino_fwd service:  sudo systemctl stop draginofwd
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524	524
525	525	=== 6. Order Info ===
526	526
527		- Part Number: **PG1302-XX**  Or  Part Number: **PG1302-PI-XX   **(Include RPi converter board for RPI 3/4)
	470	+ Part Number: **PG1302-XX**  Or Part Number: **PG1302-PI-XX   **(Include RPi converter board for RPI 3/4)
528	528
529	529	**~ XX:**
530	530