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1		-**~ Table of Contents:**
	1	+**~ Contents:**
2	2
3	3	{{toc/}}
4	4
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6	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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16	16	* End Node traffic (from server UI) to shows end node activity in server. (Normaly possible)
17	17	* End Node Keys screen shot shows in end node and server. so we can check if the keys are correct. (In most case, we found keys doesn't match, especially APP EUI)
18	18
	18	+**~1. End Device Join Screen shot, we can check:**
19	19
20		-
21		-(% style="color:blue" %)**1. End Device Join Screen shot, we can check:**
22		-
23	23	* If the device is sending join request to server?
24	24	* What frequency the device is sending?
25	25
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28	28	Console Output from End device to see the transmit frequency
29	29
30	30
	28	+**2. Gateway packet traffic in gateway web or ssh. we can check:**
31	31
32		-(% style="color:blue" %)**2. Gateway packet traffic in gateway web or ssh. we can check:**
33		-
34	34	* If the gateway receive the Join request packet from sensor? (If this fail, check if the gateway and sensor works on the match frequency)
35	35	* If the gateway gets the Join Accept message from server and transmit it via LoRa?
36	36
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39	39	Console Output from Gateway to see packets between end node and server.
40	40
41	41
	38	+**3. Gateway Traffic Page in LoRaWAN Server**
42	42
43		-(% style="color:blue" %)**3. Gateway Traffic Page in LoRaWAN Server**
44		-
45	45	* If the Join Request packet arrive the gateway traffic in server? If not, check the internet connection and gateway LoRaWAN server settings.
46	46	* If the server send back a Join Accept for the Join Request? if not, check if the keys from the device match the keys you put in the server, or try to choose a different server route for this end device.
47	47	* If the Join Accept message are in correct frequency? If you set the server to use US915 band, and your end node and gateway is EU868, you will see the Join Accept message are in US915 band so no possible to Join success.
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51	51	The Traffic for the End node in the server, use TTN as example
52	52
53	53
	49	+**4. Data Page in LoRaWAN server**
54	54
55		-(% style="color:blue" %)**4. Data Page in LoRaWAN server**
56		-
57	57	* If this data page shows the Join Request message from the end node? If not, most properly you have wrong settings in the keys. Keys in the server doesn't match the keys in End Node.
58	58
59	59	[[image:image-20220526163704-4.png]]
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60	60
61	61	The data for the end device set in server
62	62
63		-
64	64	[[image:image-20220526163732-5.png]]
65	65
66	66	Check if OTAA Keys match the keys in device
67	67
68	68
69		-
70	70	= 2. Notice of US915/CN470/AU915 Frequency band =
71	71
72		-
73	73	(((
74	74	If user has problem to work with lorawan server in band US915/AU915/CN470, he can check:
75	75	)))
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108	108
109	109	US915 Channels
110	110
111		-
112	112	[[image:image-20220526163926-7.png]]
113	113
114	114	AU915 Channels
115	115
116		-
117	117	[[image:image-20220526163941-8.png]]
118	118
119	119	(((
120	120	CN470 Channels
121		-
122		-
123	123	)))
124	124
125	125	(((
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130	130
131	131	(((
132	132	TTN FREQUENCY PLAN
133		-
134		-
135	135	)))
136	136
137	137	(((
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139	139	)))
140	140
141	141
142		-
143	143	= 3. Why i see data lost/unperiocially uplink data? Even the signal strength is good =
144	144
145		-
146	146	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:
147	147
148	148	* **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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162	162	)))
163	163
164	164
165		-
166	166	= 4. Transmision on ABP Mode =
167	167
168		-
169	169	(((
170	170	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.
171	171	)))
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191	191	Disable Frame Counter Check in ABP Mode
192	192
193	193
194		-
195	195	= 5. Downstream Debug =
196	196
197	197	== 5.1 How it work ==
198	198
199		-
200	200	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.
201	201
202	202	(((
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203	203	Depends on Class A or Class C, the receive windows will be a little difference,
204	204	)))
205	205
206		-[[image:image-20220531161828-1.png]]
	185	+[[image:image-20220526164547-11.png]]
207	207
208	208	receive windows for Class A and Class C
209	209
210		-
211	211	Below are the requirement for the End Device to receive the packets.
212	212
213	213	* The End Device must open the receive windows: RX1 or RX2
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214	214	* The LoRaWAN server must send a downstream packet, and the gateway forward this downstream packet for this end node.
215	215	* This downstream packet must arrive to the end node while RX1 or RX2 is open.
216	216	* This packet must match the frequency of the RX1 or RX2 window.
217		-* 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.**
	195	+* 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.**
218	218
219	219
220	220
221	221	== 5.2 See Debug Info ==
222	222
223		-
224	224	(((
225		-(% style="color:blue" %)**For LoRaWAN Server**
	202	+**For LoRaWAN Server**
226	226	)))
227	227
228	228	(((
...	...	@@ -251,9 +251,8 @@
251	251	)))
252	252
253	253
254		-
255	255	(((
256		-(% style="color:blue" %)**For LoRaWAN Gateway**
	232	+**For LoRaWAN Gateway**
257	257	)))
258	258
259	259	(((
...	...	@@ -267,9 +267,8 @@
267	267	)))
268	268
269	269
270		-
271	271	(((
272		-(% style="color:blue" %)**For End Node**
	247	+**For End Node**
273	273	)))
274	274
275	275	(((
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277	277	)))
278	278
279	279	(((
280		-(% style="color:#037691" %)**AT+RX2FQ=869525000**  (%%) **~-~-->**  The RX2 Window frequency
281		-(% style="color:#037691" %)**AT+RX2DR=3**          (%%) **~-~-->**  The RX2 DataRate
282		-(% style="color:#037691" %)**AT+RX1DL=1000**       (%%) ** ~-~-->**  Receive Delay 1
283		-(% style="color:#037691" %)**AT+RX2DL=2000**       (%%) **~-~--> ** Receive Delay 2
284		-
285		-
286	286
287	287	)))
288	288
289	289	(((
290		-(% style="color:blue" %)**when the device running, we can see below info:**
	259	+(% class="box infomessage" %)
	260	+(((
	261	+AT+RX2FQ=869525000     ~-~--> The RX2 Window frequency
	262	+AT+RX2DR=3      ~-~--> The RX2 DataRate
	263	+AT+RX1DL=1000   ~-~--> Receive Delay 1
	264	+AT+RX2DL=2000   ~-~--> Receive Delay 2
291	291	)))
	266	+)))
292	292
	268	+(((
	269	+**when the device running, we can see below info:**
	270	+)))
	271	+
293	293	{{{ [12502]***** UpLinkCounter= 0 *****
294	294	[12503]TX on freq 868500000 Hz at DR 0
295	295	[13992]txDone
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300	300
301	301	(((
302	302
303		-
304		-
305	305	)))
306	306
307	307	(((
308		-(% style="color:blue" %)**Another message:**
	285	+**Another message:**
309	309	)))
310	310
311	311	{{{ [12502]***** UpLinkCounter= 0 *****
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320	320	1:0012345678}}}
321	321
322	322
	300	+== 5.3 If problem doesn’t solve ==
323	323
324		-== 5.3 If problem doesn't solve ==
325		-
326		-
327	327	(% 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:**
328	328
329	329	* End node console to show the transmit freuqency and DR.
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335	335
336	336	= 6. Downlink Issue ~-~- Packet REJECTED, unsupported frequency =
337	337
338		-
339	339	(((
340	340	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.
341	341	)))
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359	359	)))
360	360
361	361
362		-
363	363	= 7. Decrypt a LoRaWAN Packet =
364	364
	338	+~1. LHT65 End device configure:
365	365
366		-(% style="color:blue" %)**1. LHT65 End device configure:**
	340	+(% class="box infomessage" %)
	341	+(((
	342	+**Change to ABP Mode: AT+NJM=0**
	343	+)))
367	367
368		-**Change to ABP Mode:  AT+NJM=0**
369		-**Change to fix frequency:  AT+CHS=904900000**
370		-**Change to fix DR:  AT+DR=0**
	345	+(% class="box infomessage" %)
	346	+(((
	347	+**Change to fix frequency: AT+CHS=904900000**
	348	+)))
371	371
	350	+(% class="box infomessage" %)
	351	+(((
	352	+**Change to fix DR: AT+DR=0**
	353	+)))
372	372
373	373	[[image:image-20220526165525-16.png]]
374	374
375	375
	358	+2. In LG02 , configure to receive above message
376	376
377		-(% style="color:blue" %)**2. In LG02 , configure to receive above message**
378		-
379	379	[[image:image-20220526165612-17.png]]
380	380
381	381
...	...	@@ -384,9 +384,8 @@
384	384	[[image:image-20220526171112-21.png]]
385	385
386	386
	368	+3. Decode the info in web
387	387
388		-(% style="color:blue" %)**3. Decode the info in web**
389		-
390	390	[[https:~~/~~/lorawan-packet-decoder-0ta6puiniaut.runkit.sh>>url:https://lorawan-packet-decoder-0ta6puiniaut.runkit.sh/]]
391	391
392	392	Need these three fields:
...	...	@@ -397,7 +397,6 @@
397	397
398	398	AT+APPSKEY=00 00 00 00 00 00 00 00 00 00 00 00 00 00 01 11 (End Node App Session Key)
399	399
400		-
401	401	[[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]]
402	402
403	403	[[image:image-20220526171029-20.png]]
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407	407	)))
408	408
409	409
410		-
411	411	= 8. Why i see uplink 0x00 periodcally on the LHT65 v1.8 firmware =
412	412
413		-
414	414	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.
415	415
416	416
417		-
418	418	= 9. Why do I see a "MIC Mismatch" error message from the server? =
419	419
420		-
421	421	(((
422		-1)  If the user receives a "MIC Mismatch" message after registering the node on the server.
	397	+1)If the user receives a "MIC Mismatch" message after registering the node on the server.
423	423	)))
424	424
425	425	(((
...	...	@@ -441,34 +441,33 @@
441	441	* (((
442	442	If a node is registered with multiple servers, it may also cause the "mic mismatch" error.
443	443
444		-
445		-
446	446
447	447	)))
448	448
449	449	= 10. Why i got the payload only with "0x00" or "AA~=~="? =
450	450
	424	+* If you are using US915, AU915 and AS923 frequencies.This is normal phenomenon.
451	451
452		-**Why this happen:**
	426	+(((
	427	+When using the frequency mentioned above, the server sometimes adjusts the rate of the node, because the node defaults to the adaptive rate.
	428	+)))
453	453
454		-For US915, AU915 or AS923 frequencies.It is possible because: .
	430	+(((
	431	+When the server adjusts your node rate to 0, the maximum payload length is 11 bytes. The server sometimes sends an ADR packet to the node,and the node will reply to the server after receiving the ADR packet, but the number of payload bytes exceeds the limit,so it will send a normal uplink packet, and an additional 00 data packet.
	432	+)))
455	455
456		-When using the frequency mentioned above, the server sometimes adjusts the Data Rate (DR) of the node, because the end node has Adaptive Data Rate (ADR) Enabled.
	434	+* (((
	435	+Solution: Use the decoder to filter out this 00 packet.
	436	+)))
	437	+* (((
	438	+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]]
457	457
458		-When the server adjusts end node data rate to 0, the maximum payload length is 11 bytes. The server sometimes sends an ADR packet to the end node, and the node will reply to the server after receiving the ADR packet, but the number of payload bytes exceeds the limit, so it will send a normal uplink packet, and following an additional 00 data packet to handle this MAC command response.
459	459
	441	+
	442	+)))
460	460
461		-**How to solve:**
462		-
463		-Solution: Use the decoder to filter out this 0x00 packet.
464		-
465		-Some node decoders may not have the filter function, or you need decoders of other servers and formats. Please send an email to [[support@dragino.com>>mailto:support@dragino.com]]
466		-
467		-
468		-
469	469	= 11. Why my Dev EUI and APP EUI is 0x000000000000, how to solve? =
470	470
471		-
472	472	(((
473	473	It is possible the keys is erased during upgrading of firmware. and the console output shows below after AT+CFG
474	474	)))
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499	499
500	500	(((
501	501	You can rewrites the keys by running commands in AT Console
502		-
503		-
504	504	)))
505	505
506	506	(((
...	...	@@ -525,16 +525,8 @@
525	525
526	526	(((
527	527	(Any combination of 16 bit codes can be used）
528		-
529		-
530		-
531		-= 12. I set my device is LoRaWAN Class C mode, why i still see Class A after boot? =
532	532	)))
533	533
534	534
535		-Class C only refers to status after OTAA Join successfully. The OTAA Join Process will use Class A mode.
536		-
537		-
538		-
539	539	(% class="wikigeneratedid" %)
540	540

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