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25	25	)))
26	26
27	27	(((
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29		-)))
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31		-(((
32	32	The sensors include various type such as: (% style="color:#4472c4" %)**Rain Gauge**, **Temperature/Humidity/Pressure sensor**, **Wind Speed/direction sensor**, **Illumination sensor**, **CO2 sensor**, **Rain/Snow sensor**,** PM2.5/10 sensor**, **PAR(Photosynthetically Available Radiation) sensor, Total Solar Radiation sensor**(%%) and so on.
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35	35	(((
36		-
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39		-(((
40	40	Main process device WSC1-L is an outdoor LoRaWAN RS485 end node. It is powered by external (% style="color:#4472c4" %)**12v solar power**(%%) and have a (% style="color:#4472c4" %)**built-in li-on backup battery**(%%). WSC1-L reads value from various sensors and upload these sensor data to IoT server via LoRaWAN wireless protocol.
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43	43	(((
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48	48	WSC1-L is full compatible with(% style="color:#4472c4" %)** LoRaWAN Class C protocol**(%%), it can work with standard LoRaWAN gateway.
49	49	)))
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80	80	* Weather sensors won’t work if solar panel and storage battery fails.
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82	82
	71	+
83	83	(% style="color:red" %)** Notice 2:**
84	84
85	85	Due to shipment and importation limitation, user is better to purchase below parts locally:
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90	90	* Mounting Kit includes pole and mast assembly. Each weather sensor has it’s own mounting assembly, user can check the sensor section in this manual.
91	91	* Cabinet.
92	92
	82	+
	83	+
93	93	== 2.2 How it works? ==
94	94
	86	+(((
95	95	Each WSC1-L is shipped with a worldwide unique set of OTAA keys. To use WSC1-L in a LoRaWAN network, user needs to input the OTAA keys in LoRaWAN network server. After finish installation as above. Create WSC1-L in your LoRaWAN server and Power on WSC1-L , it can join the LoRaWAN network and start to transmit sensor data. The default period for each uplink is 20 minutes.
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96	96
97	97
98	98	Open WSC1-L and put the yellow jumper as below position to power on WSC1-L.
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106	106	1. User can send a downlink command to WSC1-L to do a re-scan on the available sensors.
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108	108
	102	+
109	109	== 2.3 Example to use for LoRaWAN network ==
110	110
111	111	This section shows an example for how to join the TTN V3 LoRaWAN IoT server. Usages with other LoRaWAN IoT servers are of similar procedure.
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163	163	* Other control command: Use FPORT other than 2.
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165	165
	160	+
166	166	=== 2.4.1 Uplink FPORT~=5, Device Status ===
167	167
168	168	Uplink the device configures with FPORT=5. Once WSC1-L Joined the network, it will uplink this message to the server. After first uplink, WSC1-L will uplink Device Status every 12 hours
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170	170
	166	+(((
171	171	User can also use downlink command(0x2301) to ask WSC1-L to resend this uplink
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172	172
173	173	(% border="1" cellspacing="8" style="background-color:#ffffcc; color:green; width:500px" %)
174	174	|=(% style="width: 70px;" %)**Size (bytes)**|=(% style="width: 60px;" %)**1**|=(% style="width: 80px;" %)**2**|=(% style="width: 80px;" %)**1**|=(% style="width: 60px;" %)**1**|=(% style="width: 50px;" %)**2**|=(% style="width: 100px;" %)**3**
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233	233
234	234	==== (% style="color:#037691" %)**Weather Sensor Types:**(%%) ====
235	235
	233	+(% border="1" cellspacing="10" style="background-color:#ffffcc; color:green; width:100px" %)
236	236	|Byte3|Byte2|Byte1
237	237
238	238	Bit = 1 means this sensor is connected, Bit=0 means this sensor is not connected
239	239
	238	+[[image:image-20220624134713-1.png]]
240	240
241		-|(% rowspan="2" %)Byte3|Bit23|Bit22|Bit21|Bit20|Bit19|Bit18|Bit17|Bit16
242		-|N/A|Customize-A4|Customize-A3|Customize-A2|Customize-A1|N/A|N/A|N/A
243		-|(% rowspan="2" %)Byte2|Bit15|Bit14|Bit13|Bit12|Bit11|Bit10|Bit9|Bit8
244		-|N/A|N/A|N/A|N/A|N/A|N/A|N/A|N/A
245		-|(% rowspan="2" %)Byte1|Bit7|Bit6|Bit5|Bit4|Bit3|Bit2|Bit1|Bit0
246		-|WSS-07|WSS-06|WSS-05|WSS-04|WSS-03|WSS-02|WSS-01|N/A
247	247
248	248	Eg: 0x1000FE = 1 0000 0000 0000 1111 1110(b)
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260	260	Wind Speed/Direction (WSS-02)
261	261
262	262
263		-
264		-
265	265	User can also use downlink command(0x26 01) to ask WSC1-L to resend this uplink :
266	266
267	267	(% style="color:#037691" %)**Downlink:0x26 01**
268	268
269		-[[image:file:///C:/Users/93456/AppData/Local/Temp/msohtmlclip1/01/clip_image012.png||alt="1646898147(1)"]]
	260	+[[image:1656049673488-415.png]]
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271	271
272	272
273		-
274	274	=== 2.4.2 Uplink FPORT~=2, Real time sensor value ===
275	275
276		-WSC1-L will send this uplink after Device Config uplink once join LoRaWAN network successfully. And it will periodically send this uplink. Default interval is 20 minutes and [[can be changed>>||anchor="H"]].
	266	+(((
	267	+WSC1-L will send this uplink after Device Config uplink once join LoRaWAN network successfully. And it will periodically send this uplink. Default interval is 20 minutes and [[can be changed>>||anchor="H3.1SetTransmitIntervalTime"]].
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	270	+(((
278	278	Uplink uses FPORT=2 and every 20 minutes send one uplink by default.
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281	281	The upload length is dynamic, depends on what type of weather sensors are connected. The uplink payload is combined with sensor segments. As below:
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282	282
283		-|Sensor Segment 1|Sensor Segment 2|……|Sensor Segment n
284	284
285		-(% style="color:#4472c4" %)** Uplink Payload**:
	280	+(% style="color:#4472c4" %)** Uplink Payload**:
286	286
287		-|Type Code|Length (Bytes)|Measured Value
	282	+(% border="1" cellspacing="10" style="background-color:#ffffcc; color:green; width:464px" %)
	283	+|(% style="width:140px" %)Sensor Segment 1|(% style="width:139px" %)Sensor Segment 2|(% style="width:42px" %)……|(% style="width:140px" %)Sensor Segment n
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289	289	(% style="color:#4472c4" %)** Sensor Segment Define**:
290	290
	287	+(% border="1" cellspacing="10" style="background-color:#ffffcc; color:green; width:330px" %)
	288	+|(% style="width:89px" %)Type Code|(% style="width:114px" %)Length (Bytes)|(% style="width:124px" %)Measured Value
291	291
	290	+(% style="color:#4472c4" %)**Sensor Type Table:**
292	292
293		-Sensor Type Table:
	292	+[[image:image-20220624140352-2.png]]
294	294
295		-|**Sensor Type**|**Type Code**|**Range**|**Length ( Bytes)**|**Example**
296		-|**Wind Speed**|0x01|(((
297		-Speed: 0～60m/s
298	298
299		-Level: 0～17
300		-)))|0x03 |(((
301		-0x0024/10=3.6m/s
	295	+Below is an example payload:  [[image:image-20220624140615-3.png]]
302	302
303		-(0x02FE: No Sensor, 0x02FF: Value Error)
304	304
305		-0x02=2
306		-
307		-(0x14: No Sensor, 0x15: Value Error)
308		-)))
309		-|**Wind Direction**|0x02|(((
310		-Angel: 0～360°
311		-
312		-Direction: 16 positions
313		-)))|0x03|(((
314		-0x029A/10=66.6°
315		-
316		-(0x0EFE: No Sensor,0x0EFF: Value Error)
317		-
318		-0X03=3(ENE)
319		-
320		-(0x14: No Sensor,0x15: Value Error)
321		-)))
322		-|**Illumination**|0x03|0～200000Lux|0x02|(((
323		-0x04D2 *10=12340Lux
324		-
325		-(0x4EFE: No Sensor,0x4EFF: Value Error)
326		-)))
327		-|**Rain / Snow**|0x04|00: No, 01 Yes.|0x01|(((
328		-0x00 (00) No Rain or snow detected
329		-
330		-(0x02: No Sensor,0x03: Value Error)
331		-)))
332		-|**CO2**|0x05|0～5000ppm|0x02|(((
333		-0x0378=888ppm
334		-
335		- (0x14FE: No Sensor,0x14FF: Value Error)
336		-)))
337		-|**Temperature**|0x06|-30℃～70℃|0x02|(((
338		-0xFFDD/10=-3.5℃
339		-
340		-(0x02FE: No Sensor,0x02FF: Value Error)
341		-)))
342		-|**Humidity**|0x07|0～100%RH|0x02|0x0164/10=35.6%RH (0x03FE: No Sensor,0x03FF: Value Error)
343		-|**Pressure**|0x08|10～1100hPa|0x02|(((
344		-0x2748/10=1005.6hPa
345		-
346		-(0x00: No Sensor,0x01: Value Error)
347		-)))
348		-|**Rain Gauge**|0x09|0mm/min～100mm/min|0x02|(((
349		-0x0000/10=0mm /min
350		-
351		-(0x03FE: No Sensor,0x03FF: Value Error)
352		-)))
353		-|**PM2.5**|0x0A|0～1000μg/m^^3^^|0x02|(((
354		-0x0023=35μg/m^^3 ^^
355		-
356		-(0x03FE: No Sensor,0x03FF: Value Error)
357		-)))
358		-|**PM10**|0x0B|0～1000μg/m^^3^^|0x02|(((
359		-0x002D=45μg/m^^3 ^^
360		-
361		-(0x03FE: No Sensor,0x03FF: Value Error)
362		-)))
363		-|**PAR**|0x0C|0～2500μmol/m^^2^^•s|0x02|(((
364		-0x00B3=179μmol/m^^2^^•s
365		-
366		-(0x09FE: No Sensor,0x9FF: Value Error)
367		-)))
368		-|(((
369		-**Total Solar**
370		-
371		-**Radiation**
372		-)))|0x0D|0～2000W/m^^2^^|0x02|(((
373		-0x0073/10=11.5W/m^^2^^
374		-
375		-(0x4EFE: No Sensor,0x4EFF: Value Error)
376		-)))
377		-
378		-Below is an example payload:
379		-
380		-01 03 00 14 02 02 03 02 C9 03 03 02 11 90 04 02 00 0A 05 02 02 1C 06 02 00 FA 07 02 02 62 08 02 27 63 09 02 00 00 0A 02 00 23 0B 02 00 2D 0C 02 00 B3 0D 02 00 73
381		-
382		-
383	383	When sending this payload to LoRaWAN server. WSC1-L will send this in one uplink or several uplinks according to LoRaWAN spec requirement. For example, total length of Payload is 54 bytes.
384	384
385		-* When WSC1-L sending in US915 frequency DR0 data rate. Because this data rate has limitation of 11 bytes payload for each uplink. The payload will be split into below packets and uplink. Uplink 1: 01 03 00 14 02 02 03 02 C9 03
	300	+* When WSC1-L sending in US915 frequency DR0 data rate. Because this data rate has limitation of 11 bytes payload for each uplink. The payload will be split into below packets and uplink.
386	386
387		-Uplink 2: 03 02 11 90 04 02 00 0A 05 02 02 1C 06 02 00 FA 07 02 02 62 08 02 27 63 09 02 00 00 0A 02 00 23 0B 02 00 2D 0C 02 00 B3 0D 02 00 73
	302	+ Uplink 1:  [[image:image-20220624140735-4.png]]
388	388
	304	+ Uplink 2:  [[image:image-20220624140842-5.png]]
389	389
	306	+
390	390	* When WSC1-L sending in EU868 frequency DR0 data rate. The payload will be split into below packets and uplink:
391	391
392	392	Uplink 1: 01 03 00 14 02 02 03 02 C9 03 03 02 11 90 04 02 00 0A 05 02 02 1C 06 02 00 FA 07 02 02 62 08 02 27 63 09 02 00 00 0A 02 00 23 0B 02 00 2D 0C 02 00 B3

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