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1		-XWiki.Edwin
	1	+XWiki.Xiaoling

Content

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7		-= 1. OTAA Join Process Debug =
	7	+= 1.(% style="display:none" %) (%%) OTAA Join Process Debug =
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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.
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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
19		-
20	20	(% style="color:blue" %)**1. End Device Join Screen shot, we can check:**
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22	22	* If the device is sending join request to server?
23	23	* What frequency the device is sending?
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25		-[[image:image-20220526164956-15.png]]
	24	+[[image:image-20220526164956-15.png||height="591" width="1153"]]
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27	27	Console Output from End device to see the transmit frequency
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65	65	Check if OTAA Keys match the keys in device
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67	67
68		-
69	69	= 2. Notice of US915/CN470/AU915 Frequency band =
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71	71
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130	130	(((
131	131	TTN FREQUENCY PLAN
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133		-
	131	+(% style="display:none" %) (%%)
134	134	)))
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136	136	(((
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137	137	In dragino end node, user can use AT+CHE command to set what frequencies set the end node will use. The default settings for Dragino end node are preconfigure for TTN server, so use 8~~15 channels, which is **AT+CHE=2**. (AT+CHE=1 for first 8 channels, AT+CHE=2 for second 8 channels.. etc, and AT+CHE=0 for all 72 channels. )
138	138	)))
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	138	+(% style="display:none" %) (%%)
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141		-
142	142	= 3. Why i see data lost/unperiocially uplink data? Even the signal strength is good =
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145	145	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:
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147		-* **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.
148		-* **Gateway** ~-~-> Use Sub-band2 (Channel 8,9,10,11,12,13,14,15) for Dragino Gateway. this is the default settings for dragino sensors.
149		-* **LoRaWAN server** ~-~-> ChirpStack default installation and use Sub-band1, **enabled_uplink_channels=[0, 1, 2, 3, 4, 5, 6, 7]** in the file chirpstack-network-server.toml.
	145	+* (% style="color:blue" %)**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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	147	+* (% style="color:blue" %)**Gateway** (%%) ~-~-> Use Sub-band2 (Channel 8,9,10,11,12,13,14,15) for Dragino Gateway. this is the default settings for dragino sensors.
	148	+
	149	+* (% style="color:blue" %)**LoRaWAN server**  (%%) ~-~-> ChirpStack default installation and use Sub-band1, **enabled_uplink_channels=[0, 1, 2, 3, 4, 5, 6, 7]** in the file chirpstack-network-server.toml.
	150	+
151	151	(((
152	152	When Sensor power on, it will use sub-band2 to join the network, the frequency matches the settings in gateway so all Join Request will be passed to the server for Join. Server will ask the sensor to change to Sub-band1 in the Join Accept downlink message. Sensor will change to sub-band1 for data upload. This cause the sensor and gateway have different frequencies so user see lost of most data or even no data.
153	153	)))
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155		-(((
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157		-)))
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159	159	(((
160	160	Use Subband2 as a default subband cause the sensor to have problem to work with the LoRaWAN server which use other subband, and use need to access to the end node to change the subband by console. that is not user frendily,. So since Dragino LoRaWAN Stack version DLS-005(release on end of 2020), we have changed the device to use All Subbands for OTAA join, for example, device will use the first frequency in Sub-Band1 as firt OTAA join packet, then use the first frequency in Sub-Band 2 , then first frequency in sub-band 3, and so on. LoRaWAN server will normally provide the required subband in the OTAA accept process, so end node will know what subband it use after join. If LoRaWAN server doesn't provide subband info in OTAA join, end node will use the subband which join success as the working subband. So the new method cause a longer OTAA Join time but will be compatible with all LoRaWAN server. And new method won't affect the normal uplink after Join Success.
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161	161	)))
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163	163
164		-
165	165	= 4. Transmision on ABP Mode =
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170	170	)))
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172	172	(((
173		-
174		-)))
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176		-(((
177	177	So in ABP mode, first check if the packet already arrive your gateway, if the packet arrive gatewat but didn't arrive server. Please check if this is the issue.
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180	180	(((
181		-
182		-)))
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184		-(((
185	185	To solve this, disable the Frame Counter Check will solve this issue , or reset the frame counter in the device page.
186	186	)))
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190	190	Disable Frame Counter Check in ABP Mode
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192	192
193		-
194	194	= 5. Downstream Debug =
195	195
196	196	== 5.1 How it work ==
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210	210	Below are the requirement for the End Device to receive the packets.
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212	212	* The End Device must open the receive windows: RX1 or RX2
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213	213	* The LoRaWAN server must send a downstream packet, and the gateway forward this downstream packet for this end node.
	202	+
214	214	* This downstream packet must arrive to the end node while RX1 or RX2 is open.
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215	215	* This packet must match the frequency of the RX1 or RX2 window.
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216	216	* 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.**
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	210	+
219	219	== 5.2 See Debug Info ==
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318	318	1:0012345678}}}
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321		-
322	322	== 5.3 If problem doesn't solve ==
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330	330	* End Node traffic (from server UI) to shows end node activity in server.
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	324	+
333	333	= 6. Downlink Issue ~-~- Packet REJECTED, unsupported frequency =
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356	356	)))
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358	358
359		-
360	360	= 7. Decrypt a LoRaWAN Packet =
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404	404	)))
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407		-
408	408	= 8. Why i see uplink 0x00 periodcally on the LHT65 v1.8 firmware =
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411	411	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.
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414		-
415	415	= 9. Why do I see a "MIC Mismatch" error message from the server? =
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439	439	If a node is registered with multiple servers, it may also cause the "mic mismatch" error.
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442		-
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444	444	)))
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462	462	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]]
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465		-
466	466	= 11. Why my Dev EUI and APP EUI is 0x000000000000, how to solve? =
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524	524	(Any combination of 16 bit codes can be used）
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527		-
528	528	= 12. I set my device is LoRaWAN Class C mode, why i still see Class A after boot? =
529	529	)))
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