Changes for page RS485-BL – Waterproof RS485 to LoRaWAN Converter

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...	...	@@ -7,15 +7,12 @@
7	7	**RS485-BL – Waterproof RS485 to LoRaWAN Converter User Manual**
8	8
9	9
10		-
11	11	**Table of Contents:**
12	12
13		-{{toc/}}
14	14
15	15
16	16
17	17
18		-
19	19	= 1.Introduction =
20	20
21	21	== 1.1 What is RS485-BL RS485 to LoRaWAN Converter ==
...	...	@@ -25,19 +25,19 @@
25	25	)))
26	26
27	27	(((
28		-The Dragino RS485-BL is a (% style="color:blue" %)**RS485 / UART to LoRaWAN Converter**(%%) for Internet of Things solutions. User can connect RS485 or UART sensor to RS485-BL converter, and configure RS485-BL to periodically read sensor data and upload via LoRaWAN network to IoT server.
	25	+The Dragino RS485-BL is a **RS485 / UART to LoRaWAN Converter** for Internet of Things solutions. User can connect RS485 or UART sensor to RS485-BL converter, and configure RS485-BL to periodically read sensor data and upload via LoRaWAN network to IoT server.
29	29	)))
30	30
31	31	(((
32		-RS485-BL can interface to RS485 sensor, 3.3v/5v UART sensor or interrupt sensor. RS485-BL provides (% style="color:blue" %)**a 3.3v output**(%%) and** (% style="color:blue" %)a 5v output(%%)** to power external sensors. Both output voltages are controllable to minimize the total system power consumption.
	29	+RS485-BL can interface to RS485 sensor, 3.3v/5v UART sensor or interrupt sensor. RS485-BL provides **a 3.3v output** and** a 5v output** to power external sensors. Both output voltages are controllable to minimize the total system power consumption.
33	33	)))
34	34
35	35	(((
36		-RS485-BL is IP67 (% style="color:blue" %)**waterproof**(%%) and powered by (% style="color:blue" %)**8500mAh Li-SOCI2 battery**(%%), it is designed for long term use for several years.
	33	+RS485-BL is IP67 **waterproof** and powered by **8500mAh Li-SOCI2 battery**, it is designed for long term use for several years.
37	37	)))
38	38
39	39	(((
40		-RS485-BL runs standard (% style="color:blue" %)**LoRaWAN 1.0.3 in Class A**(%%). It can reach long transfer range and easy to integrate with LoRaWAN compatible gateway and IoT server.
	37	+RS485-BL runs standard **LoRaWAN 1.0.3 in Class A**. It can reach long transfer range and easy to integrate with LoRaWAN compatible gateway and IoT server.
41	41	)))
42	42
43	43	(((
...	...	@@ -54,11 +54,8 @@
54	54
55	55	[[image:1652953304999-717.png||height="424" width="733"]]
56	56
57		-
58		-
59	59	== 1.2 Specifications ==
60	60
61		-
62	62	**Hardware System:**
63	63
64	64	* STM32L072CZT6 MCU
...	...	@@ -65,6 +65,8 @@
65	65	* SX1276/78 Wireless Chip
66	66	* Power Consumption (exclude RS485 device):
67	67	** Idle: 6uA@3.3v
	62	+
	63	+*
68	68	** 20dB Transmit: 130mA@3.3v
69	69
70	70	**Interface for Model:**
...	...	@@ -118,12 +118,9 @@
118	118
119	119	[[RS485-BL Image files – Download link and Change log>>url:http://www.dragino.com/downloads/index.php?dir=LoRa_End_Node/RS485-BL/Firmware/||style="background-color: rgb(255, 255, 255);"]]
120	120
121		-
122	122	== 1.6 Hardware Change log ==
123	123
124	124	(((
125		-
126		-
127	127	v1.4
128	128	)))
129	129
...	...	@@ -147,8 +147,6 @@
147	147
148	148	(((
149	149	Release version ​​​​​
150		-
151		-
152	152	)))
153	153
154	154	= 2. Pin mapping and Power ON Device =
...	...	@@ -162,7 +162,6 @@
162	162
163	163	The Left TXD and RXD are TTL interface for external sensor. TTL level is controlled by 3.3/5v Jumper.
164	164
165		-
166	166	= 3. Operation Mode =
167	167
168	168	== 3.1 How it works? ==
...	...	@@ -169,8 +169,6 @@
169	169
170	170	(((
171	171	The RS485-BL is configured as LoRaWAN OTAA Class A mode by default. It has OTAA keys to join network. To connect a local LoRaWAN network, user just need to input the OTAA keys in the network server and power on the RS485-BL. It will auto join the network via OTAA.
172		-
173		-
174	174	)))
175	175
176	176	== 3.2 Example to join LoRaWAN network ==
...	...	@@ -206,6 +206,8 @@
206	206	)))
207	207
208	208
	197	+
	198	+
209	209	[[image:image-20220519174512-1.png]]
210	210
211	211	[[image:image-20220519174512-2.png||height="328" width="731"]]
...	...	@@ -229,13 +229,10 @@
229	229
230	230	[[image:1652953568895-172.png||height="232" width="724"]]
231	231
232		-
233	233	== 3.3 Configure Commands to read data ==
234	234
235	235	(((
236		-There are plenty of RS485 and TTL level devices in the market and each device has different command to read the valid data. To support these devices in flexible, RS485-BL supports flexible command set. User can use [[AT Commands or LoRaWAN Downlink>>||anchor="H3.5ConfigureRS485-BLviaATorDownlink"]] Command to configure how RS485-BL should read the sensor and how to handle the return from RS485 or TTL sensors.
237		-
238		-
	225	+There are plenty of RS485 and TTL level devices in the market and each device has different command to read the valid data. To support these devices in flexible, RS485-BL supports flexible command set. User can use [[AT Commands or LoRaWAN Downlink>>path:#AT_COMMAND]] Command to configure how RS485-BL should read the sensor and how to handle the return from RS485 or TTL sensors.
239	239	)))
240	240
241	241	=== 3.3.1 onfigure UART settings for RS485 or TTL communication ===
...	...	@@ -316,7 +316,6 @@
316	316	)))
317	317	)))
318	318
319		-
320	320	=== 3.3.2 Configure sensors ===
321	321
322	322	(((
...	...	@@ -337,9 +337,8 @@
337	337	mm: 0: no CRC, 1: add CRC-16/MODBUS in the end of this command
338	338	)))|(% style="width:256px" %)AT+CFGDEV=xx xx xx xx xx xx xx xx xx xx xx xx,m
339	339
340		-Detail of AT+CFGDEV command see [[AT+CFGDEV detail>>||anchor="HRS485DebugCommand28AT2BCFGDEV29"]].
	326	+Detail of AT+CFGDEV command see [[AT+CFGDEV detail>>path:#AT_CFGDEV]].
341	341
342		-
343	343	=== 3.3.3 Configure read commands for each sampling ===
344	344
345	345	(((
...	...	@@ -437,7 +437,7 @@
437	437
438	438	**Examples:**
439	439
440		-1）For a return string from AT+COMMAND1: 16 0c 1e 56 34 2e 30 58 5f 36 41 30 31 00 49
	425	+1. For a return string from AT+COMMAND1: 16 0c 1e 56 34 2e 30 58 5f 36 41 30 31 00 49
441	441
442	442	If we set AT+SEARCH1=1,1E 56 34.      (max 5 bytes for prefix)
443	443
...	...	@@ -445,7 +445,7 @@
445	445
446	446	[[image:1653271044481-711.png]]
447	447
448		-2）For a return string from AT+COMMAND1:  16 0c 1e 56 34 2e 30 58 5f 36 41 30 31 00 49
	433	+1. For a return string from AT+COMMAND1:  16 0c 1e 56 34 2e 30 58 5f 36 41 30 31 00 49
449	449
450	450	If we set AT+SEARCH1=2, 1E 56 34+31 00 49
451	451
...	...	@@ -464,18 +464,16 @@
464	464	* **c: define the position for valid value.  **
465	465	)))
466	466
467		-**Examples:**
	452	+Examples:
468	468
469	469	* Grab bytes:
470	470
471	471	[[image:1653271581490-837.png||height="313" width="722"]]
472	472
473		-
474	474	* Grab a section.
475	475
476	476	[[image:1653271648378-342.png||height="326" width="720"]]
477	477
478		-
479	479	* Grab different sections.
480	480
481	481	[[image:1653271657255-576.png||height="305" width="730"]]
...	...	@@ -518,7 +518,6 @@
518	518
519	519	[[image:1653271763403-806.png]]
520	520
521		-
522	522	=== 3.3.4 Compose the uplink payload ===
523	523
524	524	(((
...	...	@@ -526,7 +526,7 @@
526	526	)))
527	527
528	528	(((
529		-(% style="color:#037691" %)**Examples: AT+DATAUP=0**
	511	+(% style="color:#4f81bd" %)**Examples: AT+DATAUP=0**
530	530	)))
531	531
532	532	(((
...	...	@@ -538,7 +538,7 @@
538	538	)))
539	539
540	540	(((
541		-(% style="color:#4f81bd" %)**Battery Info+PAYVER + VALID Value from RETURN1 + Valid Value from RETURN2 + … + RETURNx**
	523	+(% style="color:#4f81bd" %)Battery Info+PAYVER + VALID Value from RETURN1 + Valid Value from RETURN2 + … + RETURNx
542	542	)))
543	543
544	544	(((
...	...	@@ -547,12 +547,8 @@
547	547
548	548	[[image:1653272787040-634.png||height="515" width="719"]]
549	549
550		-
551		-
552	552	(((
553		-(% style="color:#037691" %)**Examples: AT+DATAUP=1**
554		-
555		-
	533	+(% style="color:#4f81bd" %)**Examples: AT+DATAUP=1**
556	556	)))
557	557
558	558	(((
...	...	@@ -564,7 +564,7 @@
564	564	)))
565	565
566	566	(((
567		-(% style="color:#4f81bd" %)**Battery Info+PAYVER + PAYLOAD COUNT + PAYLOAD# + DATA**
	545	+(% style="color:#4f81bd" %)Battery Info+PAYVER + PAYLOAD COUNT + PAYLOAD# + DATA
568	568	)))
569	569
570	570	1. (((
...	...	@@ -587,7 +587,6 @@
587	587
588	588	So totally there will be 3 uplinks for this sampling, each uplink includes 6 bytes DATA
589	589
590		-
591	591	DATA1=RETURN1 Valid Value = (% style="background-color:#4f81bd; color:white" %) 20 20 0a 33 90 41
592	592
593	593	DATA2=1^^st^^ ~~ 6^^th^^ byte of Valid value of RETURN10= (% style="background-color:#4f81bd; color:white" %)02 aa 05 81 0a 20
...	...	@@ -594,12 +594,10 @@
594	594
595	595	DATA3=7^^th^^ ~~ 11^^th^^ bytes of Valid value of RETURN10 =(% style="background-color:#4f81bd; color:white" %) 20 20 20 2d 30
596	596
597		-
598	598	Below are the uplink payloads:
599	599
600	600	[[image:1653272901032-107.png]]
601	601
602		-
603	603	(% style="color:red" %)Notice: the Max bytes is according to the max support bytes in different Frequency Bands for lowest SF. As below:
604	604
605	605	~* For AU915/AS923 bands, if UplinkDwell time=0, max 51 bytes for each uplink ( so 51 -5 = 46 max valid date)
...	...	@@ -610,8 +610,6 @@
610	610
611	611	~* For all other bands: max 51 bytes for each uplink  ( so 51 -5 = 46 max valid date).
612	612
613		-
614		-
615	615	=== 3.3.5 Uplink on demand ===
616	616
617	617	(((
...	...	@@ -628,8 +628,6 @@
628	628
629	629	(((
630	630	**0xA8 command**: Send a command to RS485-BL and uplink the output from sensors.
631		-
632		-
633	633	)))
634	634
635	635	=== 3.3.6 Uplink on Interrupt ===
...	...	@@ -638,104 +638,67 @@
638	638
639	639	[[image:1653273818896-432.png]]
640	640
641		-
642		-(((
643	643	AT+INTMOD=0  Disable Interrupt
644		-)))
645	645
646		-(((
647	647	AT+INTMOD=1  Interrupt trigger by rising or falling edge.
648		-)))
649	649
650		-(((
651	651	AT+INTMOD=2  Interrupt trigger by falling edge. ( Default Value)
652		-)))
653	653
654		-(((
655	655	AT+INTMOD=3  Interrupt trigger by rising edge.
656	656
657		-
658		-)))
659		-
660	660	== 3.4 Uplink Payload ==
661	661
662		-(% border="1" style="background-color:#4f81bd; color:white; width:850px" %)
663		-|**Size(bytes)**|(% style="width:130px" %)**2**|(% style="width:93px" %)**1**|(% style="width:509px" %)**Length depends on the return from the commands**
664		-|Value|(% style="width:130px" %)(((
665		-(((
	622	+|**Size(bytes)**|**2**|**1**|**Length depends on the return from the commands**
	623	+|Value|(((
666	666	Battery(mV)
667		-)))
668	668
669		-(((
670	670	&
671		-)))
672	672
673		-(((
674	674	Interrupt _Flag
675		-)))
676		-)))|(% style="width:93px" %)(((
	629	+)))|(((
677	677	PAYLOAD_VER
678	678
679	679
680		-)))|(% style="width:509px" %)If the valid payload is too long and exceed the maximum support payload length in server, server will show payload not provided in the LoRaWAN server.
	633	+)))|If the valid payload is too long and exceed the maximum support payload length in server, server will show payload not provided in the LoRaWAN server.
681	681
682	682	Below is the decoder for the first 3 bytes. The rest bytes are dynamic depends on different RS485 sensors.
683	683
684		-(((
685		-{{{function Decoder(bytes, port) {}}}
686		-)))
687	687
688		-(((
689		-{{{//Payload Formats of RS485-BL Deceive}}}
690		-)))
	638	+function Decoder(bytes, port) {
691	691
692		-(((
693		-{{{return {}}}
694		-)))
	640	+~/~/Payload Formats of RS485-BL Deceive
695	695
696		-(((
697		-{{{ //Battery,units:V}}}
698		-)))
	642	+return {
699	699
700		-(((
701		-{{{ BatV:((bytes[0]<<8 | bytes[1])&0x7fff)/1000,}}}
702		-)))
	644	+ ~/~/Battery,units:V
703	703
704		-(((
705		-{{{ //GPIO_EXTI }}}
706		-)))
	646	+ BatV:((bytes[0]<<8 | bytes[1])&0x7fff)/1000,
707	707
708		-(((
709		-{{{ EXTI_Trigger:(bytes[0] & 0x80)? "TRUE":"FALSE",}}}
710		-)))
	648	+ ~/~/GPIO_EXTI
711	711
712		-(((
713		-{{{ //payload of version}}}
714		-)))
	650	+ EXTI_Trigger:(bytes[0] & 0x80)? "TRUE":"FALSE",
715	715
716		-(((
717		-{{{ Pay_ver:bytes[2],}}}
718		-)))
	652	+ ~/~/payload of version
719	719
720		-(((
721		-{{{ }; }}}
722		-)))
	654	+ Pay_ver:bytes[2],
723	723
724		-(((
725		-{{{ }}}}
	656	+ };
726	726
727		-
728		-)))
	658	+ }
729	729
730		-(((
731		-TTN V3 uplink screen shot.
732		-)))
733	733
734		-[[image:1653274001211-372.png||height="192" width="732"]]
735	735
736	736
737		-== 3.5 Configure RS485-BL via AT or Downlink ==
738	738
	664	+
	665	+
	666	+TTN V3 uplink screen shot.
	667	+
	668	+[[image:file:///C:/Users/93456/AppData/Local/Temp/msohtmlclip1/01/clip_image023.png]]
	669	+
	670	+1.
	671	+11. Configure RS485-BL via AT or Downlink
	672	+
739	739	User can configure RS485-BL via [[AT Commands >>path:#_​Using_the_AT]]or LoRaWAN Downlink Commands
740	740
741	741	There are two kinds of Commands:
...	...	@@ -744,15 +744,15 @@
744	744
745	745	* **Sensor Related Commands**: These commands are special designed for RS485-BL.  User can see these commands below:
746	746
747		-1.
748		-11.
	681	+1.
	682	+11.
749	749	111. Common Commands:
750	750
751	751	They should be available for each of Dragino Sensors, such as: change uplink interval, reset device. For firmware v1.3, user can find what common commands it supports: [[http:~~/~~/wiki.dragino.com/index.php?title=End_Device_AT_Commands_and_Downlink_Commands>>url:http://wiki.dragino.com/index.php?title=End_Device_AT_Commands_and_Downlink_Commands]]
752	752
753	753
754		-1.
755		-11.
	688	+1.
	689	+11.
756	756	111. Sensor related commands:
757	757
758	758	==== Choose Device Type (RS485 or TTL) ====
...	...	@@ -1058,13 +1058,13 @@
1058	1058
1059	1059
1060	1060
1061		-1.
	995	+1.
1062	1062	11. Buttons
1063	1063
1064	1064	|**Button**|**Feature**
1065	1065	|**RST**|Reboot RS485-BL
1066	1066
1067		-1.
	1001	+1.
1068	1068	11. +3V3 Output
1069	1069
1070	1070	RS485-BL has a Controllable +3V3 output, user can use this output to power external sensor.
...	...	@@ -1082,7 +1082,7 @@
1082	1082	By default, the AT+3V3T=0. This is a special case, means the +3V3 output is always on at any time
1083	1083
1084	1084
1085		-1.
	1019	+1.
1086	1086	11. +5V Output
1087	1087
1088	1088	RS485-BL has a Controllable +5V output, user can use this output to power external sensor.
...	...	@@ -1102,13 +1102,13 @@
1102	1102
1103	1103
1104	1104
1105		-1.
	1039	+1.
1106	1106	11. LEDs
1107	1107
1108	1108	|**LEDs**|**Feature**
1109	1109	|**LED1**|Blink when device transmit a packet.
1110	1110
1111		-1.
	1045	+1.
1112	1112	11. Switch Jumper
1113	1113
1114	1114	|**Switch Jumper**|**Feature**
...	...	@@ -1154,7 +1154,7 @@
1154	1154
1155	1155
1156	1156
1157		-1.
	1091	+1.
1158	1158	11. Common AT Command Sequence
1159	1159	111. Multi-channel ABP mode (Use with SX1301/LG308)
1160	1160
...	...	@@ -1173,8 +1173,8 @@
1173	1173
1174	1174	ATZ
1175	1175
1176		-1.
1177		-11.
	1110	+1.
	1111	+11.
1178	1178	111. Single-channel ABP mode (Use with LG01/LG02)
1179	1179
1180	1180	AT+FDR   Reset Parameters to Factory Default, Keys Reserve
...	...	@@ -1249,7 +1249,7 @@
1249	1249	[[image:file:///C:/Users/93456/AppData/Local/Temp/msohtmlclip1/01/clip_image035.png]] [[image:file:///C:/Users/93456/AppData/Local/Temp/msohtmlclip1/01/clip_image036.png]]
1250	1250
1251	1251
1252		-1.
	1186	+1.
1253	1253	11. How to change the LoRa Frequency Bands/Region?
1254	1254
1255	1255	User can follow the introduction for [[how to upgrade image>>path:#upgrade_image]]. When download the images, choose the required image file for download.
...	...	@@ -1256,7 +1256,7 @@
1256	1256
1257	1257
1258	1258
1259		-1.
	1193	+1.
1260	1260	11. How many RS485-Slave can RS485-BL connects?
1261	1261
1262	1262	The RS485-BL can support max 32 RS485 devices. Each uplink command of RS485-BL can support max 16 different RS485 command. So RS485-BL can support max 16 RS485 devices pre-program in the device for uplink. For other devices no pre-program, user can use the [[downlink message (type code 0xA8) to poll their info>>path:#downlink_A8]].
...	...	@@ -1273,7 +1273,7 @@
1273	1273
1274	1274
1275	1275
1276		-1.
	1210	+1.
1277	1277	11. Why I can’t join TTN V3 in US915 /AU915 bands?
1278	1278
1279	1279	It might about the channels mapping. Please see for detail.

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