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...	...	@@ -4,7 +4,7 @@
4	4
5	5
6	6
7		-= 1. Join process page check =
	7	+= 1.(% style="display:none" %) (%%) OTAA Join Process Debug =
8	8
9	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.
...	...	@@ -26,11 +26,12 @@
26	26
27	27	* What frequency the device is sending?
28	28
29		-[[image:image-20240129142147-2.png||height="736" width="964"]]
	29	+[[image:image-20220526164956-15.png||height="591" width="1153"]]
30	30
31		-Console Output from End device to see the transmit frequency.
	31	+Console Output from End device to see the transmit frequency
32	32
33	33
	34	+
34	34	(% style="color:blue" %)**2. Gateway packet traffic in gateway web or ssh. we can check:**
35	35
36	36	* If the gateway receive the Join request packet from sensor? (If this fail, check if the gateway and sensor works on the match frequency)
...	...	@@ -37,36 +37,38 @@
37	37
38	38	* If the gateway gets the Join Accept message from server and transmit it via LoRa?
39	39
40		-[[image:image-20240129151608-6.jpeg||height="725" width="1256"]]
	41	+[[image:image-20220526163608-2.png]]
41	41
42	42	Console Output from Gateway to see packets between end node and server.
43	43
44	44
45		-(% style="color:blue" %)**3. Gateway Live data in LoRaWAN Server**
46	46
47		-* Does the gateway real-time data contain information about Join Request? If not, check the internet connection and gateway LoRaWAN server Settings.
	47	+(% style="color:blue" %)**3. Gateway Traffic Page in LoRaWAN Server**
48	48
49		-* Does the server send back a Join Accept for the Join Request? If not, check that the key from the device matches the key you put into the server, or try to choose a different server route for that end device.
	49	+* If the Join Request packet arrive the gateway traffic in server? If not, check the internet connection and gateway LoRaWAN server settings.
50	50
	51	+* 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.
	52	+
51	51	* 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.
52	52
53		-[[image:image-20240129150821-5.jpeg||height="522" width="1264"]]
	55	+[[image:image-20220526163633-3.png]]
54	54
55		-The Traffic for the End node in the server, use TTN as example.
	57	+The Traffic for the End node in the server, use TTN as example
56	56
57	57
	60	+
58	58	(% style="color:blue" %)**4. Data Page in LoRaWAN server**
59	59
60	60	* 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.
61	61
62		-[[image:image-20240129142557-3.png||height="488" width="1267"]]
	65	+[[image:image-20220526163704-4.png]]
63	63
64	64	The data for the end device set in server
65	65
66	66
67		-[[image:image-20240129142631-4.png||height="637" width="1256"]]
	70	+[[image:image-20220526163732-5.png]]
68	68
69		-Check if OTAA Keys match the keys in device.
	72	+Check if OTAA Keys match the keys in device
70	70
71	71
72	72	= 2. Notice of US915/CN470/AU915 Frequency band =
...	...	@@ -73,17 +73,17 @@
73	73
74	74
75	75	(((
76		-If user has problem to work with LoRaWAN server in band US915/AU915/CN470, he can check:
	79	+If user has problem to work with lorawan server in band US915/AU915/CN470, he can check:
77	77	)))
78	78
79	79	* (((
80		-What **sub-band** the server support?
	83	+What **sub-band** the server support ?
81	81	)))
82	82	* (((
83		-What is the **sub-band** the gateway support?
	86	+What is the **sub-band** the gateway support ?
84	84	)))
85	85	* (((
86		-What is the **sub-band** the end node is using?
	89	+What is the **sub-band** the end node is using ?
87	87	)))
88	88
89	89	(((
...	...	@@ -95,7 +95,7 @@
95	95	)))
96	96
97	97	(((
98		-In LoRaWAN protocol, the frequency bands US915, AU915, CN470 each includes at least 72 frequencies. Many gateways support only 8 or 16 frequencies, and server might support 8 frequency only. In this case, the OTAA join time and uplink schedule is long and unpredictable while the end node is hopping in 72 frequencies, because the end node will send data in many frequency that the gateway or server doesn't support.
	101	+In LoRaWAN protocol, the frequency bands US915, AU915, CN470 each includes at least 72 frequencies. Many gateways support only 8 or 16 frequencies, and server might support 8 frequency only. In this case, the OTAA join time and uplink schedule is long and unpredictable while the end node is hopping in 72 frequencies, because the end node will send data in many frequency that the gateway or server doesn,t support.
99	99	)))
100	100
101	101	(((
...	...	@@ -103,7 +103,7 @@
103	103	)))
104	104
105	105	(((
106		-Here are the frequency tables for these bands as reference:
	109	+Here are the freuqency tables for these bands as reference:
107	107	)))
108	108
109	109	[[image:image-20220526163801-6.png]]
...	...	@@ -128,7 +128,7 @@
128	128	If we look at the [[TTN network server frequency plan>>url:https://www.thethingsnetwork.org/docs/lorawan/frequency-plans.html]], we can see the US915 frequency band use the channel 8~~15.So the End Node must work at the same frequency in US915 8~~15 channels for TTN server.
129	129	)))
130	130
131		-[[image:image-20240123151225-3.png||height="434" width="902"]]
	134	+[[image:image-20220526164052-9.png]]
132	132
133	133	(((
134	134	TTN FREQUENCY PLAN
...	...	@@ -142,7 +142,7 @@
142	142
143	143	(% style="display:none" %) (%%)
144	144
145		-= 3. Why I see data lost/ is not periodically uplink？ Even the signal strength is good =
	148	+= 3. Why i see data lost/unperiocially uplink data? Even the signal strength is good =
146	146
147	147
148	148	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:
...	...	@@ -176,11 +176,9 @@
176	176
177	177	(((
178	178	To solve this, disable the Frame Counter Check will solve this issue , or reset the frame counter in the device page.
179		-
180		-[[image:image-20240123161737-4.png||height="395" width="763"]]
181	181	)))
182	182
183		-[[image:image-20240123161853-6.png||height="599" width="771"]]
	184	+[[image:image-20220526164508-10.png]]
184	184
185	185	Disable Frame Counter Check in ABP Mode
186	186
...	...	@@ -193,7 +193,7 @@
193	193	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.
194	194
195	195	(((
196		-Depends on Class A or Class C, the receive windows will be a little difference.
	197	+Depends on Class A or Class C, the receive windows will be a little difference,
197	197	)))
198	198
199	199	[[image:image-20220531161828-1.png]]
...	...	@@ -225,27 +225,24 @@
225	225	)))
226	226
227	227	(((
228		-Configure a downlink to the end device
229		-
230		-[[image:image-20240129152412-8.png||height="486" width="1206"]]
	229	+Configure a downstream to the end device
231	231	)))
232	232
	232	+[[image:image-20220526164623-12.png]]
233	233
234	234	(((
235	235	Set a downstream in TTN and see it is sent
236	236	)))
237	237
238		-(% style="color:red" %)**Note: After the downlink command is successfully sent from the platform to the node, the downlink command is executed only after the platform receives the next uplink package from the node.**
239	239
240		-
241	241	(((
242		-This downlink info will then pass to the gateway downlink list. and the DR which is used (SF7BW500) in US915 is DR5.
	240	+This downstream info will then pass to the gateway downstream list. and include the DR which is used (SF9BW125) in EU868 is DR3
243	243	)))
244	244
245		-[[image:image-20240129152049-7.png||height="463" width="1166"]]
	243	+[[image:image-20220526164650-13.png]]
246	246
247	247	(((
248		-Gateway Traffic can see this downlink info
	246	+Gateway Traffic can see this downstream info
249	249	)))
250	250
251	251
...	...	@@ -255,10 +255,10 @@
255	255	)))
256	256
257	257	(((
258		-When the downlink packet appear on the traffic of Gateway page. The LoRaWAN gateway can get it from LoRaWAN server and transmit it. In Dragino Gateway, this can be checked by running "logread -f" in the SSH console. and see below:
	256	+When the downstream packet appear on the traffic of Gateway page. The LoRaWAN gateway can get it from LoRaWAN server and transmit it. In Dragion Gateway, this can be checked by runinng "logread -f" in the SSH console. and see below:
259	259	)))
260	260
261		-[[image:image-20240129154321-9.png]]
	259	+[[image:image-20220526164734-14.png]]
262	262
263	263	(((
264	264	Gateway Sent out this packet
...	...	@@ -335,7 +335,7 @@
335	335
336	336
337	337	(((
338		-In LoRaWAN, the gateway 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.
	336	+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.
339	339	)))
340	340
341	341	(((
...	...	@@ -406,7 +406,7 @@
406	406	)))
407	407
408	408
409		-= 8. Why I see uplink 0x00 periodically on the LHT65 v1.8 firmware =
	407	+= 8. Why i see uplink 0x00 periodcally on the LHT65 v1.8 firmware =
410	410
411	411
412	412	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.
...	...	@@ -450,7 +450,7 @@
450	450	4）We have had cases where it was automatically fixed the next day despite no manual changes, probably a server side issue
451	451
452	452
453		-= 10. Why I got the payload only with "0x00" or "AA~=~="? =
	451	+= 10. Why i got the payload only with "0x00" or "AA~=~="? =
454	454
455	455
456	456	(% style="color:blue" %)**Why sensor sends 0x00?**
...	...	@@ -545,7 +545,7 @@
545	545	(Any combination of 16 bit codes can be used）
546	546
547	547
548		-= 12. I set my device is LoRaWAN Class C mode, why I still see Class A after boot? =
	546	+= 12. I set my device is LoRaWAN Class C mode, why i still see Class A after boot? =
549	549	)))
550	550
551	551
...	...	@@ -555,25 +555,27 @@
555	555	= 13. Why it takes longer time for OTAA joined in US915/CN470/AU915 band? =
556	556
557	557
558		-In US915, AU915 or CN470 frequency band, there are 8 sub-bands, totally 72 channels. and LoRaWAN server normally use only one sub-band, for example Sub-band 2 in TTN. The gateway also configured to Sub-band 2 and cover eight channels in this sub-band. If the end node transfer data in Sub-band 2, it will reach to gateway and to the LoRaWAN server. If the end node transfer packets in other sub-bands, for example sub-band 1, the packet won't arrive both gateway or LoRaWAN server.
	556	+In US915, AU915 or CN470 frequency band, there are 8 subbands, totally 72 channels. and LoRaWAN server normally use only one sub-band, for example Subband 2 in TTN. The gateway also configured to Subband 2 and cover eight channels in this subband. If the end node transfer data in Subband 2, it will reach to gateway and to the LoRaWAN server. If the end node transfer packets in other subbands, for example subband 1, the packet won't arrive both gateway or LoRaWAN server.
559	559
560	560
561		-In Dragino Sensors old version firmware (before early 2022), the sub-band is fixed the sub-band to 2 , but this cause a problem, the end node is hard to use in other subband and need program. So the new logic is as below:
	559	+In Dragino Sensors old version firmware (before early 2022), the subband is fixed the subband to 2 , but this cause a problem, the end node is hard to use in other subband and need program. So the new logic is as below:
562	562
563		-We have improved this, the end node will use frequency 1 from sub-band1, then frequency 1 from sub-band2, then frequency 1 from sub-band3, etc to process the OTAA join, in this case, in this case, the end node can support LoRaWAN servers with different sub-bands. To make sure the end node will only transmit the proper sub-band after OTAA Joined successfully, the end node will:
	561	+We have improved this, the end node will use frequency 1 from sub-band1, then frequency 1 from sub-band2, then frequency 1 from sub-band3, etc to process the OTAA join, In this case, In this case, the end node can support LoRaWAN servers with different subbands. To make sure the end node will only transmit the proper sub-band after OTAA Joined successfully, the end node will:
564	564
565	565	* (((
566		-Check what sub-band the LoRaWAN server ask from the OTAA Join Accept message and switch to that sub-band.
	564	+Check what sub-band the LoRaWAN server ask from the OTAA Join Accept message and switch to that subband
567	567	)))
568	568	* (((
569		-Use the Join successful sub-band if the server doesn't include sub-band info in the OTAA Join Accept message (TTN v2 doesn't include).
	567	+Use the Join successful sub-band if the server doesn't include subband info in the OTAA Join Accept message ( TTN v2 doesn't include)
570	570	)))
571	571
572		-This change will make the activation time a little longer but make sure the device can be used in any sub-band.
	570	+This change will make the activation time a littler longer but make sure the device can be used in any subband.
573	573
574	574
575		-Below is a photo to show why it takes longer time for OTAA Join. We can see in 72 channels mode, why it takes more time to join success. If users want to have faster OTAA Join success, he can change default CHE to the sub-band he uses.
	573	+Below is a photo to show why it takes longer time for OTAA Join. We can see in 72 channels mode, why it takes more time to join success. If users want to have faster OTAA Join success, he can change default CHE to the subband he use.
576	576
577	577
578	578	[[image:image-20221215223215-1.png||height="584" width="1280"]]
579	579
	578	+(% class="wikigeneratedid" %)
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