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1		-**~ Table of Contents:**
	1	+**~ Contents:**
2	2
	3	+(((
	4	+
	5	+)))
	6	+
3	3	{{toc/}}
4	4
5	5
6		-
7	7	= 1. OTAA Join Process Debug =
8	8
9		-
10	10	These pages are useful to check what is wrong on the Join process. Below shows the four steps that we can check the Join Process.
11	11	\\**If user has checked below steps and still can't solve the problem, please send us (support @ dragino.com) the sceenshots for each step to check. They include:**
12	12
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62	62
63	63	= 2. Notice of US915/CN470/AU915 Frequency band =
64	64
65		-
66	66	(((
67	67	If user has problem to work with lorawan server in band US915/AU915/CN470, he can check:
68	68	)))
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105	105
106	106	AU915 Channels
107	107
108		-
109	109	[[image:image-20220526163941-8.png]]
110	110
111	111	(((
112	112	CN470 Channels
113		-
114		-
115	115	)))
116	116
117	117	(((
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122	122
123	123	(((
124	124	TTN FREQUENCY PLAN
125		-
126		-
127	127	)))
128	128
129	129	(((
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133	133
134	134	= 3. Why i see data lost/unperiocially uplink data? Even the signal strength is good =
135	135
136		-
137	137	In this case, we can check if the frequency band matches in End Node, Gateway and LoRaWAN server. A typical case is using US915 in ChirpStack server as below:
138	138
139	139	* **End node** ~-~-> Use Sub-band2 (Channel 8,9,10,11,12,13,14,15) for Dragino Sensor. ADR is also enable, this is the default settings for dragino sensors.
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155	155
156	156	= 4. Transmision on ABP Mode =
157	157
158		-
159	159	(((
160	160	In ABP mode, there is a Frame Counter Checks. With this check enabled, the server will only accept the frame with a higher counter. If you reboot the device in ABP mode, the device will start from count 0, so you won't be able to see the frame update in server.
161	161	)))
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185	185
186	186	== 5.1 How it work ==
187	187
188		-
189	189	LoRaWAN End node will open two receive windows to receive the downstream data. If the downstream packets arrive the end node at these receive windows, the end node will be able to get this packet and process it.
190	190
191	191	(((
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192	192	Depends on Class A or Class C, the receive windows will be a little difference,
193	193	)))
194	194
195		-[[image:image-20220531161828-1.png]]
	188	+[[image:image-20220526164547-11.png]]
196	196
197	197	receive windows for Class A and Class C
198	198
199		-
200	200	Below are the requirement for the End Device to receive the packets.
201	201
202	202	* The End Device must open the receive windows: RX1 or RX2
...	...	@@ -203,13 +203,12 @@
203	203	* The LoRaWAN server must send a downstream packet, and the gateway forward this downstream packet for this end node.
204	204	* This downstream packet must arrive to the end node while RX1 or RX2 is open.
205	205	* This packet must match the frequency of the RX1 or RX2 window.
206		-* This packet must match the DataRate of RX1(RX1DR) or RX2 (RX2DR). (% style="color:red" %)**This is the common fail point, because different lorawan server might use different RX2DR and they don't info End Node via ADR message so cause the mismatch. If this happen, user need to change the RX2DR to the right value in end node. In OTAA, LoRaWAN Server will send the RX2DR setting in Join Accept message so the end node will auto adjust. but ABP uplink doesn't support this auto change.**
	198	+* This packet must match the DataRate of RX1(RX1DR) or RX2 (RX2DR). **This is the common fail point, because different lorawan server might use different RX2DR and they don't info End Node via ADR message so cause the mismatch. If this happen, user need to change the RX2DR to the right value in end node. In OTAA, LoRaWAN Server will send the RX2DR setting in Join Accept message so the end node will auto adjust. but ABP uplink doesn't support this auto change.**
207	207
208	208	== 5.2 See Debug Info ==
209	209
210		-
211	211	(((
212		-(% style="color:blue" %)**For LoRaWAN Server**
	203	+**For LoRaWAN Server**
213	213	)))
214	214
215	215	(((
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239	239
240	240
241	241	(((
242		-(% style="color:blue" %)**For LoRaWAN Gateway**
	233	+**For LoRaWAN Gateway**
243	243	)))
244	244
245	245	(((
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254	254
255	255
256	256	(((
257		-(% style="color:blue" %)**For End Node**
	248	+**For End Node**
258	258	)))
259	259
260	260	(((
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262	262	)))
263	263
264	264	(((
265		-(% style="color:#037691" %)**AT+RX2FQ=869525000**  (%%) **~-~-->**  The RX2 Window frequency
266		-(% style="color:#037691" %)**AT+RX2DR=3**          (%%) **~-~-->**  The RX2 DataRate
267		-(% style="color:#037691" %)**AT+RX1DL=1000**       (%%) ** ~-~-->**  Receive Delay 1
268		-(% style="color:#037691" %)**AT+RX2DL=2000**       (%%) **~-~--> ** Receive Delay 2
269		-
270	270
271	271	)))
272	272
273	273	(((
274		-(% style="color:blue" %)**when the device running, we can see below info:**
	260	+(% class="box infomessage" %)
	261	+(((
	262	+AT+RX2FQ=869525000     ~-~--> The RX2 Window frequency
	263	+AT+RX2DR=3      ~-~--> The RX2 DataRate
	264	+AT+RX1DL=1000   ~-~--> Receive Delay 1
	265	+AT+RX2DL=2000   ~-~--> Receive Delay 2
275	275	)))
	267	+)))
276	276
	269	+(((
	270	+**when the device running, we can see below info:**
	271	+)))
	272	+
277	277	{{{ [12502]***** UpLinkCounter= 0 *****
278	278	[12503]TX on freq 868500000 Hz at DR 0
279	279	[13992]txDone
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287	287	)))
288	288
289	289	(((
290		-(% style="color:blue" %)**Another message:**
	286	+**Another message:**
291	291	)))
292	292
293	293	{{{ [12502]***** UpLinkCounter= 0 *****
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302	302	1:0012345678}}}
303	303
304	304
305		-== 5.3 If problem doesn't solve ==
	301	+== 5.3 If problem doesn’t solve ==
306	306
307		-
308	308	(% style="color:red" %)**If user has checked below steps and still can't solve the problem, please send us (support @ dragino.com) the sceenshots for each step to check. They include:**
309	309
310	310	* End node console to show the transmit freuqency and DR.
...	...	@@ -312,12 +312,8 @@
312	312	* Gateway traffic (from server UI) to shows the data exchange between gateway and server.
313	313	* End Node traffic (from server UI) to shows end node activity in server.
314	314
315		-
316		-
317		-
318	318	= 6. Downlink Issue ~-~- Packet REJECTED, unsupported frequency =
319	319
320		-
321	321	(((
322	322	In LoRaWAN, the gatewat will use the frequency specify by the server to transmit a packet as downlink purpose. Each Frequency band has different downlink frequency. and the gateway has a frequency range limited to transmit downlink.
323	323	)))
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343	343
344	344	= 7. Decrypt a LoRaWAN Packet =
345	345
	337	+~1. LHT65 End device configure:
346	346
347		-(% style="color:blue" %)**1. LHT65 End device configure:**
	339	+(% class="box infomessage" %)
	340	+(((
	341	+Change to ABP Mode: AT+NJM=0
	342	+)))
348	348
349		-**Change to ABP Mode:  AT+NJM=0**
350		-**Change to fix frequency:  AT+CHS=904900000**
351		-**Change to fix DR:  AT+DR=0**
	344	+(% class="box infomessage" %)
	345	+(((
	346	+Change to fix frequency: AT+CHS=904900000
	347	+)))
352	352
353		-[[image:image-20220526165525-16.png]]
	349	+(% class="box infomessage" %)
	350	+(((
	351	+Change to fix DR: AT+DR=0
	352	+)))
354	354
	354	+[[image:https://wiki.dragino.com/images/e/e6/Decrypt_a_LoRaWAN_Packet1.jpg||alt="Decrypt a LoRaWAN Packet1.jpg" height="607" width="558"]]
355	355
356		-(% style="color:blue" %)**2. In LG02 , configure to receive above message**
	356	+2. In LG02 , configure to receive above message
357	357
358		-[[image:image-20220526165612-17.png]]
	358	+[[image:https://wiki.dragino.com/images/c/c3/Decrypt_a_LoRaWAN_Packet2.jpg||alt="Decrypt a LoRaWAN Packet2.jpg" height="337" width="558"]]
359	359
360		-
361	361	In LG02 console, we can see the hex receive are:
362	362
363		-[[image:image-20220526171112-21.png]]
	362	+[[image:https://wiki.dragino.com/images/f/f1/Decrypt_a_LoRaWAN_Packet3.jpg||alt="Decrypt a LoRaWAN Packet3.jpg" height="179" width="558"]]
364	364
	364	+3. Decode the info in web
365	365
366		-(% style="color:blue" %)**3. Decode the info in web**
367		-
368	368	[[https:~~/~~/lorawan-packet-decoder-0ta6puiniaut.runkit.sh>>url:https://lorawan-packet-decoder-0ta6puiniaut.runkit.sh/]]
369	369
370	370	Need these three fields:
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375	375
376	376	AT+APPSKEY=00 00 00 00 00 00 00 00 00 00 00 00 00 00 01 11 (End Node App Session Key)
377	377
378		-
379	379	[[https:~~/~~/lorawan-packet-decoder-0ta6puiniaut.runkit.sh/?data=40c1190126800100024926272bf18bbb6341584e27e23245&nwkskey=00000000000000000000000000000111&appskey=00000000000000000000000000000111>>url:https://lorawan-packet-decoder-0ta6puiniaut.runkit.sh/?data=40c1190126800100024926272bf18bbb6341584e27e23245&nwkskey=00000000000000000000000000000111&appskey=00000000000000000000000000000111]]
380	380
381		-[[image:image-20220526171029-20.png]]
	378	+[[image:https://wiki.dragino.com/images/7/77/Decrypt_a_LoRaWAN_Packet4.png||alt="Decrypt a LoRaWAN Packet4.png" height="390" width="558"]]
382	382
383	383	(((
384	384	The FRMPayload is the device payload.
...	...	@@ -387,15 +387,12 @@
387	387
388	388	= 8. Why i see uplink 0x00 periodcally on the LHT65 v1.8 firmware =
389	389
390		-
391	391	Since firmware v1.8, LHT65 will send MAC command to request time, in the case if DR only support max 11 bytes, this MAC command will be bundled to a separate uplink payload with 0x00.
392	392
393		-
394	394	= 9. Why do I see a "MIC Mismatch" error message from the server? =
395	395
396		-
397	397	(((
398		-1)  If the user receives a "MIC Mismatch" message after registering the node on the server.
	392	+1)If the user receives a "MIC Mismatch" message after registering the node on the server.
399	399	)))
400	400
401	401	(((
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417	417	* (((
418	418	If a node is registered with multiple servers, it may also cause the "mic mismatch" error.
419	419
420		-
421		-
422	422
423	423	)))
424	424
425	425	= 10. Why i got the payload only with "0x00" or "AA~=~="? =
426	426
427		-
428	428	* If you are using US915, AU915 and AS923 frequencies.This is normal phenomenon.
429	429
430	430	(((
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442	442	Some node decoders may not have filtering function, or you need decoders of other servers and formats. Please send an email to [[david.huang@dragino.cc>>mailto:david.huang@dragino.cc]]
443	443
444	444
445		-
446	446
447	447	)))
448	448
449	449	= 11. Why my Dev EUI and APP EUI is 0x000000000000, how to solve? =
450	450
451		-
452		-(((
453	453	It is possible the keys is erased during upgrading of firmware. and the console output shows below after AT+CFG
454		-)))
455	455
456		-(((
457	457	AT+APPKEY=00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00
458		-)))
459	459
460		-(((
461	461	AT+NWKSKEY=00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00
462		-)))
463	463
464		-(((
465	465	AT+APPSKEY=00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00
466		-)))
467	467
468		-(((
469	469	AT+APPEUI=00 00 00 00 00 00 00 00
470		-)))
471	471
472		-(((
473		-
474		-)))
475	475
476		-(((
477	477	You can get the keys from the box sticker or send mail to Dragino Support to check keys with the provided SN number.
478		-)))
479	479
480		-(((
481	481	You can rewrites the keys by running commands in AT Console
482	482
483		-
484		-)))
	456	+For example：
485	485
486		-(((
487		-**For example：**
488		-)))
489		-
490		-(((
491	491	AT+APPKEY=85 41 47 20 45 58 28 14 16 82 A0 F0 80 0D DD EE
492		-)))
493	493
494		-(((
495	495	AT+NWKSKEY=AA CC B0 20 30 45 37 32 14 1E 14 93 E2 3B 20 11
496		-)))
497	497
498		-(((
499	499	AT+APPSKEY=11 23 02 20 30 20 30 60 80 20 20 30 30 20 10 10
500		-)))
501	501
502		-(((
503	503	AT+APPEUI=2C 45 47 E3 24 12 23 24
504		-)))
505	505
506		-(((
507	507	(Any combination of 16 bit codes can be used）
508	508
509	509
510		-= 12. I set my device is LoRaWAN Class C mode, why i still see Class A after boot? =
511		-)))
512		-
513		-
514		-Class C only refers to status after OTAA Join successfully. The OTAA Join Process will use Class A mode.
515		-
516		-
517		-
518		-(% class="wikigeneratedid" %)
519		-

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