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...	...	@@ -61,13 +61,13 @@
61	61	[[image:1656042136605-251.png]]
62	62
63	63
64		-(% style="color:red" %)**Notice 1:**
	64	+(% style="color:red" %) ** Notice 1:**
65	65
66	66	* All weather sensors and WSC1-L are powered by MPPT solar recharge controller. MPPT is connected to solar panel and storage battery.
67	67	* WSC1-L has an extra 1000mAh back up battery. So it can work even solar panel and storage battery Fails.
68	68	* Weather sensors won’t work if solar panel and storage battery fails.
69	69
70		-(% style="color:red" %)**Notice 2:**
	70	+(% style="color:red" %)** Notice 2:**
71	71
72	72	Due to shipment and importation limitation, user is better to purchase below parts locally:
73	73
...	...	@@ -78,9 +78,6 @@
78	78	* Cabinet.
79	79
80	80
81		-
82		-
83		-
84	84	== 2.2 How it works? ==
85	85
86	86	(((
...	...	@@ -88,9 +88,7 @@
88	88	)))
89	89
90	90
91		-(((
92	92	Open WSC1-L and put the yellow jumper as below position to power on WSC1-L.
93		-)))
94	94
95	95	[[image:1656042192857-709.png]]
96	96
...	...	@@ -101,9 +101,6 @@
101	101	1. User can send a downlink command to WSC1-L to do a re-scan on the available sensors.
102	102
103	103
104		-
105		-
106		-
107	107	== 2.3 Example to use for LoRaWAN network ==
108	108
109	109	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.
...	...	@@ -146,9 +146,7 @@
146	146
147	147
148	148
149		-(((
150	150	(% style="color:blue" %)**Step 2**(%%): Power on WSC1-L, it will start to join TTN server. After join success, it will start to upload sensor data to TTN V3 and user can see in the panel.
151		-)))
152	152
153	153
154	154	[[image:1656042745346-283.png]]
...	...	@@ -162,10 +162,6 @@
162	162	* Valid Sensor Value: Use FPORT=2
163	163	* Other control command: Use FPORT other than 2.
164	164
165		-
166		-
167		-
168		-
169	169	=== 2.4.1 Uplink FPORT~=5, Device Status ===
170	170
171	171	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
...	...	@@ -230,13 +230,9 @@
230	230
231	231	==== (% style="color:#037691" %)**BAT:**(%%) ====
232	232
233		-(((
234	234	shows the battery voltage for WSC1-L MCU.
235		-)))
236	236
237		-(((
238	238	Ex1: 0x0BD6/1000 = 3.03 V
239		-)))
240	240
241	241
242	242
...	...	@@ -304,50 +304,22 @@
304	304	[[image:image-20220624140352-2.png]]
305	305
306	306
307		-(((
308	308	Below is an example payload:  [[image:image-20220624140615-3.png]]
309		-)))
310	310
311		-(((
312		-
313		-)))
314	314
315		-(((
316	316	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.
317		-)))
318	318
319		-* (((
320		-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.
321		-)))
	294	+* 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.
322	322
323		-(((
324	324	Uplink 1:  [[image:image-20220624140735-4.png]]
325		-)))
326	326
327		-(((
328		-
329		-)))
330		-
331		-(((
332	332	Uplink 2:  [[image:image-20220624140842-5.png]]
333		-)))
334	334
335		-(((
336		-
337		-)))
338	338
339		-* (((
340		-When WSC1-L sending in EU868 frequency DR0 data rate. The payload will be split into below packets and uplink:
341		-)))
	301	+* When WSC1-L sending in EU868 frequency DR0 data rate. The payload will be split into below packets and uplink:
342	342
343		-(((
344	344	Uplink 1:  [[image:image-20220624141025-6.png]]
345		-)))
346	346
347		-(((
348		-
349		-)))
350		-
351	351	Uplink 2:  [[image:image-20220624141100-7.png]]
352	352
353	353
...	...	@@ -355,25 +355,14 @@
355	355
356	356	=== 2.4.3 Decoder in TTN V3 ===
357	357
358		-(((
359	359	In LoRaWAN platform, user only see HEX payload by default, user needs to use payload formatters to decode the payload to see human-readable value.
360		-)))
361	361
362		-(((
363		-
364		-)))
365	365
366		-(((
367	367	Download decoder for suitable platform from:
368		-)))
369	369
370		-(((
371	371	[[https:~~/~~/www.dragino.com/downloads/index.php?dir=LoRa_End_Node/Weather_Station/WSC1-L/>>url:https://www.dragino.com/downloads/index.php?dir=LoRa_End_Node/Weather_Station/WSC1-L/]]
372		-)))
373	373
374		-(((
375	375	and put as below:
376		-)))
377	377
378	378	[[image:1656051152438-578.png]]
379	379
...	...	@@ -381,21 +381,12 @@
381	381
382	382	== 2.5 Show data on Application Server ==
383	383
384		-(((
385	385	Application platform provides a human friendly interface to show the sensor data, once we have sensor data in TTN V3, we can use Datacake to connect to TTN V3 and see the data in Datacake. Below are the steps:
386		-)))
387	387
388		-(((
389		-
390		-)))
391	391
392		-(((
393	393	(% style="color:blue" %)**Step 1**(%%): Be sure that your device is programmed and properly connected to the LoRaWAN network.
394		-)))
395	395
396		-(((
397	397	(% style="color:blue" %)**Step 2**(%%): Configure your Application to forward data to Datacake you will need to add integration. Go to TTN V3 Console ~-~-> Applications ~-~-> Integrations ~-~-> Add Integrations.
398		-)))
399	399
400	400	[[image:1656051197172-131.png]]
401	401
...	...	@@ -443,6 +443,9 @@
443	443
444	444
445	445
	380	+
	381	+
	382	+
446	446	== 3.1 Set Transmit Interval Time ==
447	447
448	448	Feature: Change LoRaWAN End Node Transmit Interval.
...	...	@@ -462,9 +462,6 @@
462	462	* Example 2: Downlink Payload: 0100003C ~/~/ Set Transmit Interval (TDC) = 60 seconds
463	463
464	464
465		-
466		-
467		-
468	468	== 3.2 Set Emergency Mode ==
469	469
470	470	Feature: In emergency mode, WSC1-L will uplink data every 1 minute.
...	...	@@ -480,56 +480,27 @@
480	480	* 0xE100     Same as: AT+ALARMMOD=0
481	481
482	482
483		-
484		-
485		-
486	486	== 3.3 Add or Delete RS485 Sensor ==
487	487
488		-(((
489	489	Feature: User can add or delete 3^^rd^^ party sensor as long they are RS485/Modbus interface,baud rate support 9600.Maximum can add 4 sensors.
490		-)))
491	491
492		-(((
493	493	(% style="color:#037691" %)**AT Command: **
494		-)))
495	495
496		-(((
497	497	(% style="color:blue" %)**AT+DYSENSOR=Type_Code, Query_Length, Query_Command , Read_Length , Valid_Data ,has_CRC,timeout**
498		-)))
499	499
500		-* (((
501		-Type_Code range:  A1 ~~ A4
502		-)))
503		-* (((
504		-Query_Length:  RS485 Query frame length, Value cannot be greater than 10
505		-)))
506		-* (((
507		-Query_Command:  RS485 Query frame data to be sent to sensor, cannot be larger than 10 bytes
508		-)))
509		-* (((
510		-Read_Length:  RS485 response frame length supposed to receive. Max can receive
511		-)))
512		-* (((
513		-Valid_Data:  valid data from RS485 Response, Valid Data will be added to Payload and upload via LoRaWAN.
514		-)))
515		-* (((
516		-has_CRC:  RS485 Response crc check  (0: no verification required 1: verification required). If CRC=1 and CRC error, valid data will be set to 0.
517		-)))
518		-* (((
519		-timeout:  RS485 receive timeout (uint:ms). Device will close receive window after timeout
520		-)))
	425	+* Type_Code range:  A1 ~~ A4
	426	+* Query_Length:  RS485 Query frame length, Value cannot be greater than 10
	427	+* Query_Command:  RS485 Query frame data to be sent to sensor, cannot be larger than 10 bytes
	428	+* Read_Length:  RS485 response frame length supposed to receive. Max can receive
	429	+* Valid_Data:  valid data from RS485 Response, Valid Data will be added to Payload and upload via LoRaWAN.
	430	+* has_CRC:  RS485 Response crc check  (0: no verification required 1: verification required). If CRC=1 and CRC error, valid data will be set to 0.
	431	+* timeout:  RS485 receive timeout (uint:ms). Device will close receive window after timeout
521	521
522		-(((
523	523	**Example:**
524		-)))
525	525
526		-(((
527	527	User need to change external sensor use the type code as address code.
528		-)))
529	529
530		-(((
531	531	With a 485 sensor, after correctly changing the address code to A1, the RS485 query frame is shown in the following table:
532		-)))
533	533
534	534	[[image:image-20220624143553-10.png]]
535	535
...	...	@@ -579,9 +579,6 @@
579	579	* 0xE5FF
580	580
581	581
582		-
583		-
584		-
585	585	== 3.4 RS485 Test Command ==
586	586
587	587	(% style="color:#037691" %)**AT Command:**
...	...	@@ -603,6 +603,7 @@
603	603
604	604	* 0xE20103000001840A     Same as: AT+RSWRITE=0103000001840A
605	605
	508	+
606	606	== 3.5 RS485 response timeout ==
607	607
608	608	Feature: Set or get extended time to receive 485 sensor data.
...	...	@@ -626,15 +626,12 @@
626	626	* Example 1: Downlink Payload: E0000005 ~/~/ Set Transmit Interval (DTR) = 5 seconds
627	627	* Example 2: Downlink Payload: E000000A ~/~/ Set Transmit Interval (DTR) = 10 seconds
628	628
	532	+
629	629	== 3.6 Set Sensor Type ==
630	630
631		-(((
632	632	Feature: Set sensor in used. If there are 6 sensors, user can set to only send 5 sensors values.
633		-)))
634	634
635		-(((
636	636	See [[definition>>||anchor="HWeatherSensorTypes:"]] for the sensor type.
637		-)))
638	638
639	639	[[image:image-20220624144904-12.png]]
640	640
...	...	@@ -798,31 +798,19 @@
798	798
799	799	=== 6.1.5 Installation Notice ===
800	800
801		-(((
802	802	Do not power on while connect the cables. Double check the wiring before power on.
803		-)))
804	804
805		-(((
806	806	Installation Photo as reference:
807		-)))
808	808
809	809
810		-(((
811	811	(% style="color:#4472c4" %)** Install on Ground:**
812		-)))
813	813
814		-(((
815	815	WSS-01 Rain Gauge include screws so can install in ground directly .
816		-)))
817	817
818	818
819		-(((
820	820	(% style="color:#4472c4" %)** Install on pole:**
821		-)))
822	822
823		-(((
824	824	If user want to install on pole, they can purchase the (% style="color:#4472c4" %)** WS-K2 :  Bracket Kit for Pole installation**(%%), and install as below:
825		-)))
826	826
827	827	[[image:image-20220624152218-1.png||height="526" width="276"]]
828	828
...	...	@@ -886,13 +886,9 @@
886	886
887	887	=== 6.2.6  Installation Notice ===
888	888
889		-(((
890	890	Do not power on while connect the cables. Double check the wiring before power on.
891		-)))
892	892
893		-(((
894	894	The sensor must be installed with below direction, towards North.
895		-)))
896	896
897	897	[[image:image-20220624153901-3.png]]
898	898
...	...	@@ -950,6 +950,8 @@
950	950
951	951	Do not power on while connect the cables. Double check the wiring before power on.
952	952
	837	+[[image:1656057016033-551.png]]
	838	+
953	953	[[image:1656056751153-304.png]]
954	954
955	955	[[image:1656056766224-773.png]]
...	...	@@ -1004,9 +1004,7 @@
1004	1004	Do not power on while connect the cables. Double check the wiring before power on.
1005	1005
1006	1006
1007		-(((
1008	1008	Install with 15°degree.
1009		-)))
1010	1010
1011	1011	[[image:1656056873783-780.png]]
1012	1012
...	...	@@ -1037,10 +1037,6 @@
1037	1037
1038	1038	* RS485 Temperature, Humidity, Illuminance, Pressure sensor
1039	1039
1040		-
1041		-
1042		-
1043		-
1044	1044	=== 6.5.2 Specification ===
1045	1045
1046	1046	* Input Power: DC 12 ~~ 24v
...	...	@@ -1065,10 +1065,6 @@
1065	1065	* Working Humidity: 10～90%RH
1066	1066	* Power Consumption: 4mA @ 12v
1067	1067
1068		-
1069		-
1070		-
1071		-
1072	1072	=== 6.5.3 Dimension ===
1073	1073
1074	1074	[[image:1656057170639-522.png]]
...	...	@@ -1112,9 +1112,6 @@
1112	1112	* Measure Total Radiation between 0.3～3μm（300～3000nm）
1113	1113	* Measure Reflected Radiation if sense area towards ground.
1114	1114
1115		-
1116		-
1117		-
1118	1118	=== 6.6.2 Specification ===
1119	1119
1120	1120	* Input Power: DC 5 ~~ 24v
...	...	@@ -1130,10 +1130,6 @@
1130	1130	* Working Humidity: 10～90%RH
1131	1131	* Power Consumption: 4mA @ 12v
1132	1132
1133		-
1134		-
1135		-
1136		-
1137	1137	=== 6.6.3 Dimension ===
1138	1138
1139	1139	[[image:1656057348695-898.png]]
...	...	@@ -1172,13 +1172,9 @@
1172	1172
1173	1173	=== 6.7.1 Feature ===
1174	1174
1175		-(((
1176	1176	PAR (Photosynthetically Available Radiation) sensor measure 400 ~~ 700nm wavelength nature light's Photosynthetically Available Radiation.
1177		-)))
1178	1178
1179		-(((
1180	1180	When nature light shine on the sense area, it will generate a signal base on the incidence radiation strength.
1181		-)))
1182	1182
1183	1183
1184	1184	=== 6.7.2 Specification ===
...	...	@@ -1194,10 +1194,6 @@
1194	1194	* Working Humidity: 10～90%RH
1195	1195	* Power Consumption: 3mA @ 12v
1196	1196
1197		-
1198		-
1199		-
1200		-
1201	1201	=== 6.7.3 Dimension ===
1202	1202
1203	1203	[[image:1656057538793-888.png]]
...	...	@@ -1285,10 +1285,12 @@
1285	1285	* (% style="color:red" %)**CN470**(%%): LoRaWAN CN470 band
1286	1286
1287	1287
	1149	+
	1150	+
1288	1288	== 9.2 Sensors ==
1289	1289
1290		-(% border="1" cellspacing="10" style="background-color:#ffffcc; color:green; width:400px" %)
1291		-|=(% style="width: 300px;" %)**Sensor Model**|=(% style="width: 100px;" %)**Part Number**
	1153	+(% border="1" cellspacing="10" style="background-color:#ffffcc; color:green; width:510px" %)
	1154	+|=(% style="width: 462px;" %)**Sensor Model**|=(% style="width: 110px;" %)**Part Number**
1292	1292	|(% style="width:462px" %)**Rain Gauge**|(% style="width:110px" %)WSS-01
1293	1293	|(% style="width:462px" %)**Rain Gauge installation Bracket for Pole**|(% style="width:110px" %)WS-K2
1294	1294	|(% style="width:462px" %)**Wind Speed Direction 2 in 1 Sensor**|(% style="width:110px" %)WSS-02
...	...	@@ -1305,6 +1305,9 @@
1305	1305	* Provide as much information as possible regarding your enquiry (product models, accurately describe your problem and steps to replicate it etc) and send a mail to [[support@dragino.com>>url:file:///D:/市场资料/说明书/LoRa/LT系列/support@dragino.com]]
1306	1306
1307	1307
	1171	+
	1172	+
	1173	+
1308	1308	= 11. Appendix I: Field Installation Photo =
1309	1309
1310	1310