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...	...	@@ -43,7 +43,6 @@
43	43	[[image:1675071321348-194.png]]
44	44
45	45
46		-
47	47	== 1.2 ​Features ==
48	48
49	49
...	...	@@ -60,6 +60,8 @@
60	60	* Downlink to change configure
61	61	* 8500mAh Battery for long term use
62	62
	62	+
	63	+
63	63	== 1.3 Specification ==
64	64
65	65
...	...	@@ -106,6 +106,8 @@
106	106	* Sleep Mode: 5uA @ 3.3v
107	107	* LoRa Transmit Mode: 125mA @ 20dBm, 82mA @ 14dBm
108	108
	110	+
	111	+
109	109	== 1.4 Probe Types ==
110	110
111	111	=== 1.4.1 Thread Installation Type ===
...	...	@@ -124,6 +124,8 @@
124	124	* Operating temperature: -20℃~~60℃
125	125	* Connector Type: Various Types, see order info
126	126
	130	+
	131	+
127	127	=== 1.4.2 Immersion Type ===
128	128
129	129
...	...	@@ -140,11 +140,12 @@
140	140	* Operating temperature: -40℃~~85℃
141	141	* Material: 316 stainless steels
142	142
143		-== 1.5 Probe Dimension ==
144	144
145	145
	150	+== 1.5 Probe Dimension ==
146	146
147	147
	153	+
148	148	== 1.6 Application and Installation ==
149	149
150	150	=== 1.6.1 Thread Installation Type ===
...	...	@@ -199,18 +199,20 @@
199	199
200	200
201	201	(% border="1" cellspacing="4" style="background-color:#f7faff; color:black; width:510px" %)
202		-|=(% style="width: 150px;" %)**Behavior on ACT**|=(% style="width: 90px;" %)**Function**|=**Action**
203		-|(% style="width:260px" %)Pressing ACT between 1s < time < 3s|(% style="width:100px" %)Send an uplink|(((
	208	+|=(% style="width: 167px;" %)**Behavior on ACT**|=(% style="width: 117px;" %)**Function**|=(% style="width: 225px;" %)**Action**
	209	+|(% style="width:167px" %)Pressing ACT between 1s < time < 3s|(% style="width:117px" %)Send an uplink|(% style="width:225px" %)(((
204	204	If sensor is already Joined to LoRaWAN network, sensor will send an uplink packet, (% style="color:blue" %)**blue led** (%%)will blink once.
205	205	Meanwhile, BLE module will be active and user can connect via BLE to configure device.
206	206	)))
207		-|(% style="width:138px" %)Pressing ACT for more than 3s|(% style="width:100px" %)Active Device|(((
	213	+|(% style="width:167px" %)Pressing ACT for more than 3s|(% style="width:117px" %)Active Device|(% style="width:225px" %)(((
208	208	(% style="color:green" %)**Green led**(%%) will fast blink 5 times, device will enter (% style="color:#037691" %)**OTA mode**(%%) for 3 seconds. And then start to JOIN LoRaWAN network.
209	209	(% style="color:green" %)**Green led**(%%) will solidly turn on for 5 seconds after joined in network.
210	210	Once sensor is active, BLE module will be active and user can connect via BLE to configure device, no matter if device join or not join LoRaWAN network.
211	211	)))
212		-|(% style="width:138px" %)Fast press ACT 5 times.|(% style="width:100px" %)Deactivate Device|red led will solid on for 5 seconds. Means PS-LB is in Deep Sleep Mode.
	218	+|(% style="width:167px" %)Fast press ACT 5 times.|(% style="width:117px" %)Deactivate Device|(% style="width:225px" %)(% style="color:red" %)**Red led**(%%) will solid on for 5 seconds. Means PS-LB is in Deep Sleep Mode.
213	213
	220	+
	221	+
214	214	== 1.9 Pin Mapping ==
215	215
216	216
...	...	@@ -235,8 +235,6 @@
235	235	== 1.11 Mechanical ==
236	236
237	237
238		-
239		-
240	240	[[image:1675143884058-338.png]]
241	241
242	242
...	...	@@ -254,7 +254,6 @@
254	254	The PS-LB is configured as (% style="color:#037691" %)**LoRaWAN OTAA Class A**(%%) mode by default. It has OTAA keys to join LoRaWAN network. To connect a local LoRaWAN network, you need to input the OTAA keys in the LoRaWAN IoT server and activate the PS-LB. It will automatically join the network via OTAA and start to send the sensor value. The default uplink interval is 20 minutes.
255	255
256	256
257		-
258	258	== 2.2 ​Quick guide to connect to LoRaWAN server (OTAA) ==
259	259
260	260
...	...	@@ -308,7 +308,6 @@
308	308	After join success, it will start to upload messages to TTN and you can see the messages in the panel.
309	309
310	310
311		-
312	312	== 2.3 ​Uplink Payload ==
313	313
314	314
...	...	@@ -330,8 +330,8 @@
330	330
331	331	(% border="1" cellspacing="4" style="background-color:#f7faff; color:black; width:510px" %)
332	332	|(% colspan="6" %)**Device Status (FPORT=5)**
333		-|(% style="width:103px" %)**Size (bytes)**|(% style="width:72px" %)**1**|**2**|**1**|**1**|**2**
334		-|(% style="width:103px" %)**Value**|(% style="width:72px" %)Sensor Model|Firmware Version|Frequency Band|Sub-band|BAT
	337	+|(% style="width:103px" %)**Size (bytes)**|(% style="width:72px" %)**1**|**2**|(% style="width:91px" %)**1**|(% style="width:86px" %)**1**|(% style="width:44px" %)**2**
	338	+|(% style="width:103px" %)**Value**|(% style="width:72px" %)Sensor Model|Firmware Version|(% style="width:91px" %)Frequency Band|(% style="width:86px" %)Sub-band|(% style="width:44px" %)BAT
335	335
336	336	Example parse in TTNv3
337	337
...	...	@@ -401,15 +401,28 @@
401	401	|(% style="width:97px" %)(((
402	402	**Size(bytes)**
403	403	)))|(% style="width:48px" %)**2**|(% style="width:71px" %)**2**|(% style="width:98px" %)**2**|(% style="width:73px" %)**2**|(% style="width:122px" %)**1**
404		-|(% 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"]]
	408	+|(% style="width:97px" %)Value|(% style="width:48px" %)[[BAT>>||anchor="H2.3.4BatteryInfo"]]|(% style="width:71px" %)[[Probe Model>>||anchor="H2.3.5ProbeModel"]]|(% style="width:98px" %)[[0 ~~~~ 20mA value>>||anchor="H2.3.607E20mAvalue28IDC_IN29"]]|(% style="width:73px" %)[[0 ~~~~ 30v value>>||anchor="H2.3.707E30Vvalue28pinVDC_IN29"]]|(% style="width:122px" %)[[IN1 &IN2 Interrupt  flag>>||anchor="H2.3.8IN126IN226INTpin"]]
405	405
406	406	[[image:1675144608950-310.png]]
407	407
408	408
	413	+=== 2.3.3 Sensor value, FPORT~=7 ===
409	409
410		-=== 2.3.3 Battery Info ===
411	411
	416	+(% border="1" cellspacing="4" style="background-color:#f7faff; color:black; width:508.222px" %)
	417	+|(% style="width:94px" %)(((
	418	+**Size(bytes)**
	419	+)))|(% style="width:43px" %)2|(% style="width:367px" %)n
	420	+|(% style="width:94px" %)**Value**|(% style="width:43px" %)[[BAT>>||anchor="H2.3.4BatteryInfo"]]|(% style="width:367px" %)(((
	421	+Voltage value, each 2 bytes is a set of voltage values.
	422	+)))
412	412
	424	+[[image:image-20230220171300-1.png||height="207" width="863"]]
	425	+
	426	+
	427	+=== 2.3.4 Battery Info ===
	428	+
	429	+
413	413	Check the battery voltage for PS-LB.
414	414
415	415	Ex1: 0x0B45 = 2885mV
...	...	@@ -417,7 +417,7 @@
417	417	Ex2: 0x0B49 = 2889mV
418	418
419	419
420		-=== 2.3.4 Probe Model ===
	437	+=== 2.3.5 Probe Model ===
421	421
422	422
423	423	PS-LB has different kind of probe, 0~~20mA represent the full scale of the measuring range. So a 15mA output means different meaning for different probe.
...	...	@@ -433,7 +433,7 @@
433	433	The probe model field provides the convenient for server to identical how it should parse the 0~~20mA sensor value and get the correct value.
434	434
435	435
436		-=== 2.3.5 0~~20mA value (IDC_IN) ===
	453	+=== 2.3.6 0~~20mA value (IDC_IN) ===
437	437
438	438
439	439	The output value from Pressure Probe, use together with Probe Model to get the pressure value or water level.
...	...	@@ -443,7 +443,7 @@
443	443	27AE(H) = 10158 (D)/1000 = 10.158mA.
444	444
445	445
446		-=== 2.3.6 0~~30V value ( pin VDC_IN) ===
	463	+=== 2.3.7 0~~30V value ( pin VDC_IN) ===
447	447
448	448
449	449	Measure the voltage value. The range is 0 to 30V.
...	...	@@ -453,7 +453,7 @@
453	453	138E(H) = 5006(D)/1000= 5.006V
454	454
455	455
456		-=== 2.3.7 IN1&IN2&INT pin ===
	473	+=== 2.3.8 IN1&IN2&INT pin ===
457	457
458	458
459	459	IN1 and IN2 are used as digital input pins.
...	...	@@ -476,7 +476,7 @@
476	476	0x01: Interrupt Uplink Packet.
477	477
478	478
479		-=== 2.3.8 ​Decode payload in The Things Network ===
	496	+=== 2.3.9 ​Decode payload in The Things Network ===
480	480
481	481
482	482	While using TTN network, you can add the payload format to decode the payload.
...	...	@@ -534,7 +534,6 @@
534	534	[[image:1675145060812-420.png]]
535	535
536	536
537		-
538	538	After added, the sensor data arrive TTN, it will also arrive and show in Datacake.
539	539
540	540
...	...	@@ -557,7 +557,6 @@
557	557	[[https:~~/~~/www.dropbox.com/sh/gf1glloczbzz19h/AABbuYI4WY6VdAmpXo6o1V2Ka?dl=0>>url:https://www.dropbox.com/sh/gf1glloczbzz19h/AABbuYI4WY6VdAmpXo6o1V2Ka?dl=0]]
558	558
559	559
560		-
561	561	= 3. Configure PS-LB via AT Command or LoRaWAN Downlink =
562	562
563	563
...	...	@@ -568,7 +568,7 @@
568	568
569	569	There are two kinds of commands to configure PS-LB, they are:
570	570
571		-* (% style="color:#037691" %)**General Commands**.
	586	+* (% style="color:#037691" %)**General Commands**
572	572
573	573	These commands are to configure:
574	574
...	...	@@ -608,11 +608,13 @@
608	608
609	609	Format: Command Code (0x01) followed by 3 bytes time value.
610	610
611		-If the downlink payload=0100003C, it means set the END Node’s Transmit Interval to 0x00003C=60(S), while type code is 01.
	626	+If the downlink payload=0100003C, it means set the END Node's Transmit Interval to 0x00003C=60(S), while type code is 01.
612	612
613		-* Example 1: Downlink Payload: 0100001E ~/~/ Set Transmit Interval (TDC) = 30 seconds
614		-* Example 2: Downlink Payload: 0100003C ~/~/ Set Transmit Interval (TDC) = 60 seconds
	628	+* Example 1: Downlink Payload: 0100001E  ~/~/  Set Transmit Interval (TDC) = 30 seconds
	629	+* Example 2: Downlink Payload: 0100003C  ~/~/  Set Transmit Interval (TDC) = 60 seconds
615	615
	631	+
	632	+
616	616	== 3.2 Set Interrupt Mode ==
617	617
618	618
...	...	@@ -621,19 +621,19 @@
621	621	(% style="color:blue" %)**AT Command: AT+INTMOD**
622	622
623	623	(% border="1" cellspacing="4" style="background-color:#f7faff; color:black; width:510px" %)
624		-|=**Command Example**|=**Function**|=**Response**
625		-|AT+INTMOD=?|Show current interrupt mode|(((
	641	+|=(% style="width: 154px;" %)**Command Example**|=(% style="width: 196px;" %)**Function**|=(% style="width: 157px;" %)**Response**
	642	+|(% style="width:154px" %)AT+INTMOD=?|(% style="width:196px" %)Show current interrupt mode|(% style="width:157px" %)(((
626	626	0
627	627	OK
628	628	the mode is 0 = No interruption
629	629	)))
630		-|AT+INTMOD=2|(((
	647	+|(% style="width:154px" %)AT+INTMOD=2|(% style="width:196px" %)(((
631	631	Set Transmit Interval
632	632	~1. (Disable Interrupt),
633	633	2. (Trigger by rising and falling edge)
634	634	3. (Trigger by falling edge)
635	635	4. (Trigger by rising edge)
636		-)))|OK
	653	+)))|(% style="width:157px" %)OK
637	637
638	638	(% style="color:blue" %)**Downlink Command: 0x06**
639	639
...	...	@@ -641,9 +641,11 @@
641	641
642	642	This means that the interrupt mode of the end node is set to 0x000003=3 (rising edge trigger), and the type code is 06.
643	643
644		-* Example 1: Downlink Payload: 06000000 ~/~/ Turn off interrupt mode
645		-* Example 2: Downlink Payload: 06000003 ~/~/ Set the interrupt mode to rising edge trigger
	661	+* Example 1: Downlink Payload: 06000000  ~/~/  Turn off interrupt mode
	662	+* Example 2: Downlink Payload: 06000003  ~/~/  Set the interrupt mode to rising edge trigger
646	646
	664	+
	665	+
647	647	== 3.3 Set the output time ==
648	648
649	649
...	...	@@ -706,13 +706,15 @@
706	706
707	707	The first byte is which power, the second and third bytes are the time to turn on.
708	708
709		-* Example 1: Downlink Payload: 070101F4  -> AT+3V3T=500
710		-* Example 2: Downlink Payload: 0701FFFF   -> AT+3V3T=65535
711		-* Example 3: Downlink Payload: 070203E8  -> AT+5VT=1000
712		-* Example 4: Downlink Payload: 07020000  -> AT+5VT=0
713		-* Example 5: Downlink Payload: 070301F4  -> AT+12VT=500
714		-* Example 6: Downlink Payload: 07030000  -> AT+12VT=0
	728	+* Example 1: Downlink Payload: 070101F4  **~-~-->**  AT+3V3T=500
	729	+* Example 2: Downlink Payload: 0701FFFF   **~-~-->**  AT+3V3T=65535
	730	+* Example 3: Downlink Payload: 070203E8  **~-~-->**  AT+5VT=1000
	731	+* Example 4: Downlink Payload: 07020000  **~-~-->**  AT+5VT=0
	732	+* Example 5: Downlink Payload: 070301F4  **~-~-->**  AT+12VT=500
	733	+* Example 6: Downlink Payload: 07030000  **~-~-->**  AT+12VT=0
715	715
	735	+
	736	+
716	716	== 3.4 Set the Probe Model ==
717	717
718	718
...	...	@@ -736,9 +736,43 @@
736	736
737	737	Format: Command Code (0x08) followed by 2 bytes.
738	738
739		-* Example 1: Downlink Payload: 080003  -> AT+PROBE=0003
740		-* Example 2: Downlink Payload: 080101  -> AT+PROBE=0101
	760	+* Example 1: Downlink Payload: 080003  **~-~-->**  AT+PROBE=0003
	761	+* Example 2: Downlink Payload: 080101  **~-~-->**  AT+PROBE=0101
741	741
	763	+
	764	+
	765	+== 3.5 Multiple collections are one uplink（Since firmware V1.1） ==
	766	+
	767	+
	768	+Added AT+STDC command to collect the voltage of VDC_INPUT multiple times and upload it at one time.
	769	+
	770	+(% style="color:blue" %)**AT Command: AT** **+STDC**
	771	+
	772	+(% border="1" cellspacing="4" style="background-color:#f7faff; color:black; width:510px" %)
	773	+|=(% style="width: 156px;" %)**Command Example**|=(% style="width: 137px;" %)**Function**|=**Response**
	774	+|(% style="width:156px" %)AT+STDC=?|(% style="width:137px" %)(((
	775	+Get the mode of multiple acquisitions and one uplink
	776	+)))|(((
	777	+1,10,18
	778	+OK
	779	+)))
	780	+|(% style="width:156px" %)AT+STDC=1,10,18|(% style="width:137px" %)Set the mode of multiple acquisitions and one uplink|(((
	781	+OK
	782	+(% style="color:#037691" %)**aa:**(%%)
	783	+**0:** means disable this function and use TDC to send packets.
	784	+**1:** means enable this function, use the method of multiple acquisitions to send packets.
	785	+(% style="color:#037691" %)**bb:**(%%) Each collection interval (s), the value is 1~~65535
	786	+(% style="color:#037691" %)**cc: **(%%)the number of collection times, the value is 1~~120
	787	+)))
	788	+
	789	+(% style="color:blue" %)**Downlink Command: 0xAE**
	790	+
	791	+Format: Command Code (0x08) followed by 5 bytes.
	792	+
	793	+* Example 1: Downlink Payload: AE 01 02 58 12** ~-~-->**  AT+STDC=1,600,18
	794	+
	795	+
	796	+
742	742	= 4. Battery & how to replace =
743	743
744	744	== 4.1 Battery Type ==
...	...	@@ -746,7 +746,6 @@
746	746
747	747	PS-LB is equipped with a [[8500mAH ER26500 Li-SOCI2 battery>>https://www.dropbox.com/sh/w9l2oa3ytpculph/AAAPtt-apH4lYfCj-2Y6lHvQa?dl=0]]. The battery is un-rechargeable battery with low discharge rate targeting for 8~~10 years use. This type of battery is commonly used in IoT target for long-term running, such as water meter.
748	748
749		-
750	750	The discharge curve is not linear so can’t simply use percentage to show the battery level. Below is the battery performance.
751	751
752	752	[[image:1675146710956-626.png]]
...	...	@@ -770,15 +770,10 @@
770	770
771	771	Dragino Battery powered product are all runs in Low Power mode. We have an update battery calculator which base on the measurement of the real device. User can use this calculator to check the battery life and calculate the battery life if want to use different transmit interval.
772	772
773		-
774	774	Instruction to use as below:
775	775
	829	+(% style="color:blue" %)**Step 1:**(%%) Downlink the up-to-date DRAGINO_Battery_Life_Prediction_Table.xlsx from: [[https:~~/~~/www.dropbox.com/sh/zwex6i331j5oeq2/AACIMf9f_v2qsJ39CuMQ5Py_a?dl=0>>https://www.dropbox.com/sh/zwex6i331j5oeq2/AACIMf9f_v2qsJ39CuMQ5Py_a?dl=0]]
776	776
777		-(% style="color:blue" %)**Step 1:**(%%) Downlink the up-to-date DRAGINO_Battery_Life_Prediction_Table.xlsx from:
778		-
779		-[[https:~~/~~/www.dropbox.com/sh/zwex6i331j5oeq2/AACIMf9f_v2qsJ39CuMQ5Py_a?dl=0>>https://www.dropbox.com/sh/zwex6i331j5oeq2/AACIMf9f_v2qsJ39CuMQ5Py_a?dl=0]]
780		-
781		-
782	782	(% style="color:blue" %)**Step 2:**(%%) Open it and choose
783	783
784	784	* Product Model
...	...	@@ -872,6 +872,8 @@
872	872	* Package Size / pcs : cm
873	873	* Weight / pcs : g
874	874
	924	+
	925	+
875	875	= 10. Support =
876	876
877	877

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