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Details

Page properties

Author

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1		-XWiki.Xiaoling
	1	+XWiki.ting

Content

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146	146	* Operating temperature: 0℃~~50℃
147	147	* Material: 316 stainless steels
148	148
149		-
	149	+=== 1.4.3 Wireless Differential Air Pressure Sensor ===
150	150
151		-
	151	+[[image:image-20240511174954-1.png]]
152	152
	153	+* Measuring Range: -100KPa~~0~~100KPa(Optional measuring range).
	154	+* Accuracy: 0.5% F.S, resolution is 0.05%.
	155	+* Overload: 300% F.S
	156	+* Zero temperature drift: ±0.03%F.S/°C
	157	+* Operating temperature: -20℃~~60℃
	158	+* Storage temperature:  -20℃~~60℃
	159	+* Compensation temperature: 0~~50°C
	160	+
153	153	== 1.5 Application and Installation ==
154	154
155	155	=== 1.5.1 Thread Installation Type ===
...	...	@@ -180,9 +180,13 @@
180	180	[[image:1675071725288-579.png]]
181	181
182	182
183		-The Immersion Type pressure sensor is shipped with the probe and device separately. When user got the device, below is the wiring to for connect the probe to the device.
	191	+Below is the wiring to for connect the probe to the device.
184	184
	193	+The Immersion Type Sensor has different variant which defined by Ixx. For example, this means two points:
185	185
	195	+* Cable Length: 10 Meters
	196	+* Water Detect Range: 0 ~~ 10 Meters.
	197	+
186	186	[[image:1675071736646-450.png]]
187	187
188	188
...	...	@@ -189,6 +189,31 @@
189	189	[[image:1675071776102-240.png]]
190	190
191	191
	204	+
	205	+=== 1.5.3 Wireless Differential Air Pressure Sensor ===
	206	+
	207	+
	208	+(% style="color:blue" %)**Application:**
	209	+
	210	+Indoor Air Control & Filter clogging Detect.
	211	+
	212	+[[image:image-20240513100129-6.png]]
	213	+
	214	+[[image:image-20240513100135-7.png]]
	215	+
	216	+
	217	+Below is the wiring to for connect the probe to the device.
	218	+
	219	+[[image:image-20240513093957-1.png]]
	220	+
	221	+
	222	+Size of wind pressure transmitter:
	223	+
	224	+[[image:image-20240513094047-2.png]]
	225	+
	226	+Note: The above dimensions are measured by hand, and the numerical error of the shell is within ±0.2mm.
	227	+
	228	+
192	192	== 1.6 Sleep mode and working mode ==
193	193
194	194
...	...	@@ -203,7 +203,7 @@
203	203	[[image:http://wiki.dragino.com/xwiki/bin/download/Main/User%20Manual%20for%20LoRaWAN%20End%20Nodes/RS485-LB_Waterproof_RS485UART_to_LoRaWAN_Converter/WebHome/image-20240103160425-4.png?rev=1.1||alt="image-20240103160425-4.png"]](% style="display:none" %)
204	204
205	205	(% border="1" cellspacing="4" style="background-color:#f2f2f2; width:510px" %)
206		-|=(% style="width: 167px;background-color:#4F81BD;color:white" %)**Behavior on ACT**|=(% style="width: 117px;background-color:#4F81BD;color:white" %)**Function**|=(% style="width: 225px;background-color:#4F81BD;color:white" %)**Action**
	243	+|=(% style="width: 167px;background-color:#4F81BD;color:white" %)**Behavior on ACT**|=(% style="width: 117px;background-color:#4F81BD;color:white" %)**Function**|=(% style="width: 226px;background-color:#4F81BD;color:white" %)**Action**
207	207	|(% style="background-color:#f2f2f2; width:167px" %)Pressing ACT between 1s < time < 3s|(% style="background-color:#f2f2f2; width:117px" %)Send an uplink|(% style="background-color:#f2f2f2; width:225px" %)(((
208	208	If sensor is already Joined to LoRaWAN network, sensor will send an uplink packet, (% style="color:blue" %)**blue led** (%%)will blink once.
209	209	Meanwhile, BLE module will be active and user can connect via BLE to configure device.
...	...	@@ -244,7 +244,6 @@
244	244	[[image:image-20240109160800-6.png]]
245	245
246	246
247		-
248	248	=== 1.10.2 for LS version ===
249	249
250	250
...	...	@@ -322,7 +322,7 @@
322	322
323	323
324	324	(% border="1" cellspacing="4" style="background-color:#f2f2f2; width:510px" %)
325		-|(% colspan="6" style="background-color:#4F81BD;color:white" %)**Device Status (FPORT=5)**
	361	+|(% colspan="6" style="background-color:#4f81bd; color:white" %)**Device Status (FPORT=5)**
326	326	|(% style="background-color:#f2f2f2; width:103px" %)**Size (bytes)**|(% style="background-color:#f2f2f2; width:72px" %)**1**|(% style="background-color:#f2f2f2" %)**2**|(% style="background-color:#f2f2f2; width:91px" %)**1**|(% style="background-color:#f2f2f2; width:86px" %)**1**|(% style="background-color:#f2f2f2; width:44px" %)**2**
327	327	|(% style="background-color:#f2f2f2; width:103px" %)**Value**|(% style="background-color:#f2f2f2; width:72px" %)Sensor Model|(% style="background-color:#f2f2f2" %)Firmware Version|(% style="background-color:#f2f2f2; width:91px" %)Frequency Band|(% style="background-color:#f2f2f2; width:86px" %)Sub-band|(% style="background-color:#f2f2f2; width:44px" %)BAT
328	328
...	...	@@ -391,9 +391,9 @@
391	391
392	392
393	393	(% border="1" cellspacing="4" style="background-color:#f2f2f2; width:510px" %)
394		-|(% style="background-color:#4F81BD;color:white; width:97px" %)(((
	430	+|(% style="background-color:#4f81bd; color:white; width:97px" %)(((
395	395	**Size(bytes)**
396		-)))|(% style="background-color:#4F81BD;color:white; width:48px" %)**2**|(% style="background-color:#4F81BD;color:white; width:71px" %)**2**|(% style="background-color:#4F81BD;color:white; width:98px" %)**2**|(% style="background-color:#4F81BD;color:white; width:73px" %)**2**|(% style="background-color:#4F81BD;color:white; width:122px" %)**1**
	432	+)))|(% style="background-color:#4f81bd; color:white; width:48px" %)**2**|(% style="background-color:#4f81bd; color:white; width:71px" %)**2**|(% style="background-color:#4f81bd; color:white; width:98px" %)**2**|(% style="background-color:#4f81bd; color:white; width:73px" %)**2**|(% style="background-color:#4f81bd; color:white; width:122px" %)**1**
397	397	|(% style="width:97px" %)Value|(% style="width:48px" %)[[BAT>>||anchor="H2.3.3BatteryInfo"]]|(% style="width:71px" %)[[Probe Model>>||anchor="H2.3.4ProbeModel"]]|(% style="width:98px" %)[[0 ~~~~ 20mA value>>||anchor="H2.3.507E20mAvalue28IDC_IN29"]]|(% style="width:73px" %)[[0 ~~~~ 30v value>>||anchor="H2.3.607E30Vvalue28pinVDC_IN29"]]|(% style="width:122px" %)[[IN1 &IN2 Interrupt  flag>>||anchor="H2.3.7IN126IN226INTpin"]]
398	398
399	399	[[image:1675144608950-310.png]]
...	...	@@ -418,7 +418,7 @@
418	418	**For example.**
419	419
420	420	(% border="1" cellspacing="4" style="background-color:#f2f2f2; width:510px" %)
421		-|(% style="background-color:#4F81BD;color:white" %)**Part Number**|(% style="background-color:#4F81BD;color:white" %)**Probe Used**|(% style="background-color:#4F81BD;color:white" %)**4~~20mA scale**|(% style="background-color:#4F81BD;color:white" %)**Example: 12mA meaning**
	457	+|(% style="background-color:#4f81bd; color:white" %)**Part Number**|(% style="background-color:#4f81bd; color:white" %)**Probe Used**|(% style="background-color:#4f81bd; color:white" %)**4~~20mA scale**|(% style="background-color:#4f81bd; color:white" %)**Example: 12mA meaning**
422	422	|(% style="background-color:#f2f2f2" %)PS-LB/LS-I3|(% style="background-color:#f2f2f2" %)immersion type with 3 meters cable|(% style="background-color:#f2f2f2" %)0~~3 meters|(% style="background-color:#f2f2f2" %)1.5 meters pure water
423	423	|(% style="background-color:#f2f2f2" %)PS-LB/LS-I5|(% style="background-color:#f2f2f2" %)immersion type with 5 meters cable|(% style="background-color:#f2f2f2" %)0~~5 meters|(% style="background-color:#f2f2f2" %)2.5 meters pure water
424	424	|(% style="background-color:#f2f2f2" %)PS-LB/LS-T20-B|(% style="background-color:#f2f2f2" %)T20 threaded probe|(% style="background-color:#f2f2f2" %)0~~1MPa|(% style="background-color:#f2f2f2" %)0.5MPa air / gas or water pressure
...	...	@@ -478,9 +478,9 @@
478	478
479	479
480	480	(% border="1" cellspacing="4" style="background-color:#f2f2f2; width:500px" %)
481		-|(% style="background-color:#4F81BD;color:white; width:65px" %)(((
	517	+|(% style="background-color:#4f81bd; color:white; width:65px" %)(((
482	482	**Size(bytes)**
483		-)))|(% style="background-color:#4F81BD;color:white; width:35px" %)**2**|(% style="background-color:#4F81BD;color:white; width:400px" %)**n**
	519	+)))|(% style="background-color:#4f81bd; color:white; width:35px" %)**2**|(% style="background-color:#4f81bd; color:white; width:400px" %)**n**
484	484	|(% style="width:94px" %)Value|(% style="width:43px" %)[[BAT>>||anchor="H2.3.3BatteryInfo"]]|(% style="width:367px" %)(((
485	485	Voltage value, each 2 bytes is a set of voltage values.
486	486	)))
...	...	@@ -555,15 +555,89 @@
555	555	[[image:1675145081239-376.png]]
556	556
557	557
558		-== 2.6 Frequency Plans ==
	594	+== 2.6 Datalog Feature (Since V1.1) ==
559	559
	596	+When a user wants to retrieve sensor value, he can send a poll command from the IoT platform to ask the sensor to send value in the required time slot.
560	560
561		-The PS-LB/LS uses OTAA mode and below frequency plans by default. If user want to use it with different frequency plan, please refer the AT command sets.
562	562
	599	+
	600	+=== 2.6.1 Unix TimeStamp ===
	601	+
	602	+CPL01 uses Unix TimeStamp format based on
	603	+
	604	+[[image:http://wiki.dragino.com/xwiki/bin/download/Main/User%20Manual%20for%20LoRaWAN%20End%20Nodes/CPL01%20LoRaWAN%20Outdoor%20PulseContact%20%20Sensor%20Manual/WebHome/1652861618065-927.png?width=705&height=109&rev=1.1||alt="1652861618065-927.png" height="109" width="705"]]
	605	+
	606	+Users can get this time from the link:  [[https:~~/~~/www.epochconverter.com/>>url:https://www.epochconverter.com/]] :
	607	+
	608	+Below is the converter example:
	609	+
	610	+[[image:http://wiki.dragino.com/xwiki/bin/download/Main/User%20Manual%20for%20LoRaWAN%20End%20Nodes/CPL01%20LoRaWAN%20Outdoor%20PulseContact%20%20Sensor%20Manual/WebHome/1652861637105-371.png?width=732&height=428&rev=1.1||alt="1652861637105-371.png"]]
	611	+
	612	+
	613	+=== 2.6.2 Set Device Time ===
	614	+
	615	+There are two ways to set the device's time:
	616	+
	617	+
	618	+(% style="color:blue" %)**1. Through LoRaWAN MAC Command (Default settings)**
	619	+
	620	+Users need to set SYNCMOD=1 to enable sync time via the MAC command.
	621	+
	622	+Once CPL01 Joined the LoRaWAN network, it will send the MAC command (DeviceTimeReq) and the server will reply with (DeviceTimeAns) to send the current time to CPL01. If CPL01 fails to get the time from the server, CPL01 will use the internal time and wait for the next time request ~[[[via Device Status (FPORT=5)>>url:http://wiki.dragino.com/xwiki/bin/view/Main/User%20Manual%20for%20LoRaWAN%20End%20Nodes/CPL01%20LoRaWAN%20Outdoor%20PulseContact%20%20Sensor%20Manual/#H2.3.1DeviceStatus2CFPORT3D5]]].
	623	+
	624	+
	625	+(% style="color:red" %)**Note: LoRaWAN Server needs to support LoRaWAN v1.0.3(MAC v1.0.3) or higher to support this MAC command feature.**
	626	+
	627	+
	628	+(% style="color:blue" %)** 2. Manually Set Time**
	629	+
	630	+Users need to set SYNCMOD=0 to manual time, otherwise, the user set time will be overwritten by the time set by the server.
	631	+
	632	+
	633	+=== 2.6.3 Poll sensor value ===
	634	+
	635	+Users can poll sensor values based on timestamps. Below is the downlink command.
	636	+
	637	+(% border="1" cellspacing="4" style="background-color:#f2f2f2; width:470px" %)
	638	+|=(% colspan="4" style="width: 154px;background-color:#4F81BD;color:white" %)**Downlink Command to poll Open/Close status (0x31)**
	639	+|(% style="background-color:#f2f2f2; width:70px" %)**1byte**|(% style="background-color:#f2f2f2; width:140px" %)**4bytes**|(% style="background-color:#f2f2f2; width:140px" %)(((
	640	+(((
	641	+**4bytes**
	642	+)))
	643	+
	644	+(((
	645	+
	646	+)))
	647	+)))|(% style="background-color:#f2f2f2; width:150px" %)**1byte**
	648	+|(% style="background-color:#f2f2f2; width:70px" %)31|(% style="background-color:#f2f2f2; width:140px" %)Timestamp start|(% style="background-color:#f2f2f2; width:140px" %)Timestamp end|(% style="background-color:#f2f2f2; width:150px" %)Uplink Interval
	649	+
	650	+
	651	+Timestamp start and Timestamp end-use Unix TimeStamp format as mentioned above. Devices will reply with all data logs during this period, using the uplink interval.
	652	+
	653	+For example, downlink command[[image:http://wiki.dragino.com/xwiki/bin/download/Main/User%20Manual%20for%20LoRaWAN%20End%20Nodes/CPL01%20LoRaWAN%20Outdoor%20PulseContact%20%20Sensor%20Manual/WebHome/image-20220518162852-1.png?rev=1.1||alt="image-20220518162852-1.png"]]
	654	+
	655	+Is to check 2021/11/12 12:00:00 to 2021/11/12 15:00:00's data
	656	+
	657	+Uplink Internal =5s，means CPL01 will send one packet every 5s. range 5~~255s.
	658	+
	659	+
	660	+=== 2.6.4 Decoder in TTN V3 ===
	661	+
	662	+[[image:http://wiki.dragino.com/xwiki/bin/download/Main/User%20Manual%20for%20LoRaWAN%20End%20Nodes/CPL01%20LoRaWAN%20Outdoor%20PulseContact%20%20Sensor%20Manual/WebHome/1652862574387-195.png?width=722&height=359&rev=1.1||alt="1652862574387-195.png" height="359" width="722"]]
	663	+
	664	+Please check the decoder from this link: [[https:~~/~~/github.com/dragino/dragino-end-node-decoder>>url:https://github.com/dragino/dragino-end-node-decoder]]
	665	+
	666	+
	667	+
	668	+== 2.7 Frequency Plans ==
	669	+
	670	+
	671	+The PS-LB/LS uses OTAA mode and below frequency plans by default. Each frequency band use different firmware, user update the firmware to the corresponding band for their country.
	672	+
563	563	[[http:~~/~~/wiki.dragino.com/xwiki/bin/view/Main/End%20Device%20Frequency%20Band/>>http://wiki.dragino.com/xwiki/bin/view/Main/End%20Device%20Frequency%20Band/]]
564	564
565	565
566		-== 2.7 ​Firmware Change Log ==
	676	+== 2.8 ​Firmware Change Log ==
567	567
568	568
569	569	**Firmware download link:**
...	...	@@ -747,7 +747,7 @@
747	747	(A->01,B->02,C->03,D->04,E->05,F->06,G->07,H->08,I->09,J->0A,K->0B,L->0C)
748	748
749	749	(% border="1" cellspacing="4" style="background-color:#f2f2f2; width:510px" %)
750		-|(% style="background-color:#4F81BD;color:white; width:154px" %)**Command Example**|(% style="background-color:#4F81BD;color:white; width:269px" %)**Function**|(% style="background-color:#4F81BD;color:white" %)**Response**
	860	+|(% style="background-color:#4f81bd; color:white; width:154px" %)**Command Example**|(% style="background-color:#4f81bd; color:white; width:269px" %)**Function**|(% style="background-color:#4f81bd; color:white" %)**Response**
751	751	|(% style="background-color:#f2f2f2; width:154px" %)AT+PROBE=?|(% style="background-color:#f2f2f2; width:269px" %)Get or Set the probe model.|(% style="background-color:#f2f2f2" %)0
752	752	OK
753	753	|(% style="background-color:#f2f2f2; width:154px" %)AT+PROBE=0003|(% style="background-color:#f2f2f2; width:269px" %)Set water depth sensor mode, 3m type.|(% style="background-color:#f2f2f2" %)OK
...	...	@@ -765,7 +765,7 @@
765	765	* Example 1: Downlink Payload: 080003  **~-~-->**  AT+PROBE=0003
766	766	* Example 2: Downlink Payload: 080101  **~-~-->**  AT+PROBE=0101
767	767
768		-=== 3.3.5 Multiple collections are one uplink（Since firmware V1.1） ===
	878	+=== 3.3.5 Multiple collections are one uplink (Since firmware V1.1) ===
769	769
770	770
771	771	Added AT+STDC command to collect the voltage of VDC_INPUT multiple times and upload it at one time.
...	...	@@ -781,7 +781,7 @@
781	781	(% style="color:#037691" %)**cc:**(%%)** **the number of collection times, the value is 1~~120
782	782
783	783	(% border="1" cellspacing="4" style="background-color:#f2f2f2; width:510px" %)
784		-|(% style="background-color:#4F81BD;color:white; width:160px" %)**Command Example**|(% style="background-color:#4F81BD;color:white; width:215px" %)**Function**|(% style="background-color:#4F81BD;color:white" %)**Response**
	894	+|(% style="background-color:#4f81bd; color:white; width:160px" %)**Command Example**|(% style="background-color:#4f81bd; color:white; width:215px" %)**Function**|(% style="background-color:#4f81bd; color:white" %)**Response**
785	785	|(% style="background-color:#f2f2f2; width:160px" %)AT+STDC=?|(% style="background-color:#f2f2f2; width:215px" %)Get the mode of multiple acquisitions and one uplink.|(% style="background-color:#f2f2f2" %)1,10,18
786	786	OK
787	787	|(% style="background-color:#f2f2f2; width:160px" %)AT+STDC=1,10,18|(% style="background-color:#f2f2f2; width:215px" %)Set the mode of multiple acquisitions and one uplink, collect once every 10 seconds, and report after 18 times.|(% style="background-color:#f2f2f2" %)(((
...	...	@@ -840,6 +840,34 @@
840	840	When downloading the images, choose the required image file for download. ​
841	841
842	842
	953	+== 6.4 How to measure the depth of other liquids other than water? ==
	954	+
	955	+
	956	+Test the current values at the depth of different liquids and convert them to a linear scale.
	957	+Replace its ratio with the ratio of water to current in the decoder.
	958	+
	959	+**Example:**
	960	+
	961	+Measure the corresponding current of the sensor when the liquid depth is 2.04m and 0.51m.
	962	+
	963	+**Calculate scale factor：**
	964	+Use these two data to calculate the current and depth scaling factors：(7.888-5.035)/(2.04-0.51)=1.86470588235294
	965	+
	966	+**Calculation formula：**
	967	+
	968	+Use the calibration formula：(Current current - Minimum calibration current)/Scale factor + Minimum actual calibration height
	969	+
	970	+**Actual calculations：**
	971	+
	972	+Use this formula to calculate the value corresponding to the current at a depth of 1.5 meters: (6.918-5.035)/1.86470588235294+0.51=1.519810726
	973	+
	974	+**Error：**
	975	+
	976	+0.009810726
	977	+
	978	+
	979	+[[image:image-20240329175044-1.png]]
	980	+
843	843	= 7. Troubleshooting =
844	844
845	845	== 7.1 Water Depth Always shows 0 in payload ==
...	...	@@ -857,7 +857,7 @@
857	857	= 8. Order Info =
858	858
859	859
860		-[[image:image-20230131153105-4.png]]
	998	+[[image:image-20240109172423-7.png]](% style="display:none" %)
861	861
862	862
863	863	= 9. ​Packing Info =

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