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76	76	* Automatic RF Sense and CAD with ultra-fast AFC.
77	77	* Packet engine up to 256 bytes with CRC.
78	78
	79	+
	80	+
79	79	== 1.3 Features ==
80	80
81	81	* LoRaWAN Class A & Class C protocol (default Class C)
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87	87	* Support Modbus protocol
88	88	* Support Interrupt uplink (Since hardware version v1.2)
89	89
	92	+
	93	+
90	90	== 1.4 Applications ==
91	91
92	92	* Smart Buildings & Home Automation
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96	96	* Smart Cities
97	97	* Smart Factory
98	98
	103	+
	104	+
99	99	== 1.5 Firmware Change log ==
100	100
101	101	[[RS485-LN Image files – Download link and Change log>>url:http://www.dragino.com/downloads/index.php?dir=RS485-LN/]]
...	...	@@ -283,6 +283,8 @@
283	283	)))
284	284	)))
285	285
	292	+
	293	+
286	286	=== 3.3.2 Configure sensors ===
287	287
288	288	(((
...	...	@@ -301,6 +301,8 @@
301	301	mm: 0: no CRC, 1: add CRC-16/MODBUS in the end of this command
302	302	)))|(% style="width:256px" %)AT+CFGDEV=xx xx xx xx xx xx xx xx xx xx xx xx,m
303	303
	312	+
	313	+
304	304	=== 3.3.3 Configure read commands for each sampling ===
305	305
306	306	(((
...	...	@@ -319,9 +319,11 @@
319	319
320	320	2. How to get wanted value the from RS485 sensors returns from by 1). There are total 15 AT Commands to handle the return, commands are **AT+DATACUT1**,**AT+DATACUT2**,…, **AT+DATACUTF** corresponding to the commands from 1). All commands are of same grammar.
321	321
322		-3. Some RS485 device might has longer delay on reply, so user can use AT+CMDDL to set the timeout for getting reply after the RS485 command is sent. For example **AT+CMDDL1=1000** to send the open time to 1000ms
	332	+3. Some RS485 device might has longer delay on reply, so user can use AT+CMDDL to set the timeout for getting reply after the RS485 command is sent. For example
323	323
	334	+**AT+CMDDL1=1000** to send the open time to 1000ms
324	324
	336	+
325	325	After we got the valid value from each RS485 commands, we need to combine them together with the command **AT+DATAUP**.
326	326
327	327
...	...	@@ -352,9 +352,10 @@
352	352
353	353	* **a: length for the return of AT+COMMAND**
354	354	* **b:1: grab valid value by byte, max 6 bytes. 2: grab valid value by bytes section, max 3 sections.**
355		-* **c: define the position for valid value.  **
	367	+* **c: define the position for valid value. **
356	356	)))
357	357
	370	+
358	358	**Examples:**
359	359
360	360	* Grab bytes:
...	...	@@ -378,14 +378,10 @@
378	378
379	379	(((
380	380	Through AT+COMMANDx and AT+DATACUTx we got valid value from each RS485 commands, Assume these valid value are RETURN1, RETURN2, .., to RETURNx. The next step is how to compose the LoRa Uplink Payload by these RETURNs. The command is **AT+DATAUP.**
381		-
382		-
383	383	)))
384	384
385	385	(((
386		-(% style="color:#037691" %)**Examples: AT+DATAUP=0**
387		-
388		-
	397	+(% style="color:#4f81bd" %)**Examples: AT+DATAUP=0**
389	389	)))
390	390
391	391	(((
...	...	@@ -406,10 +406,8 @@
406	406
407	407	[[image:1653269759169-150.png||height="513" width="716"]]
408	408
	418	+(% style="color:#4f81bd" %)**Examples: AT+DATAUP=1**
409	409
410		-(% style="color:#037691" %)**Examples: AT+DATAUP=1**
411		-
412		-
413	413	Compose the uplink payload with value returns in sequence and send with (% style="color:red" %)**Multiply UPLINKs**.
414	414
415	415	Final Payload is
...	...	@@ -416,61 +416,66 @@
416	416
417	417	(% style="color:#4f81bd" %)**Battery Info+PAYVER + PAYLOAD COUNT + PAYLOAD# + DATA**
418	418
419		-1. PAYVER: Defined by AT+PAYVER
420		-1. PAYLOAD COUNT: Total how many uplinks of this sampling.
421		-1. PAYLOAD#: Number of this uplink. (from 0,1,2,3…,to PAYLOAD COUNT)
422		-1. DATA: Valid value: max 8 bytes for each uplink so each uplink <= 11 bytes. For the last uplink, DATA will might less than 8 bytes
	426	+1. Battery Info (2 bytes): Battery voltage
	427	+1. PAYVER (1 byte): Defined by AT+PAYVER
	428	+1. PAYLOAD COUNT (1 byte): Total how many uplinks of this sampling.
	429	+1. PAYLOAD# (1 byte): Number of this uplink. (from 0,1,2,3…,to PAYLOAD COUNT)
	430	+1. DATA: Valid value: max 6 bytes(US915 version here, Notice*!) for each uplink so each uplink <= 11 bytes. For the last uplink, DATA will might less than 6 bytes
423	423
424		-[[image:image-20220602155039-4.png]]
	432	+[[image:1653269916228-732.png||height="433" width="711"]]
425	425
426	426
427		-So totally there will be 3 uplinks for this sampling, each uplink include 8 bytes DATA
	435	+So totally there will be 3 uplinks for this sampling, each uplink includes 6 bytes DATA
428	428
429		-DATA1=RETURN1 Valid Value + the first two of Valid value of RETURN10= **20 20 0a 33 90 41 02 aa**
	437	+DATA1=RETURN1 Valid Value = (% style="background-color:green; color:white" %)20 20 0a 33 90 41
430	430
431		-DATA2=3^^rd^^ ~~ 10^^th^^ byte of Valid value of RETURN10= **05 81 0a 20 20 20 20 2d**
	439	+DATA2=1^^st^^ ~~ 6^^th^^ byte of Valid value of RETURN10=(% style="background-color:green; color:white" %) 02 aa 05 81 0a 20
432	432
433		-DATA3=the rest of Valid value of RETURN10= **30**
	441	+DATA3=7^^th^^ ~~ 11^^th^^ bytes of Valid value of RETURN10 = (% style="background-color:green; color:white" %)20 20 20 2d 30
434	434
	443	+Below are the uplink payloads:
435	435
436		-(% style="color:red" %)Notice: In firmware v1.3, the Max bytes has been changed according to the max bytes in different Frequency Bands for lowest SF. As below:
	445	+[[image:1653270130359-810.png]]
437	437
438		- ~* For AU915/AS923 bands, if UplinkDwell time=0, max 51 bytes for each uplink.
439	439
440		- * For AU915/AS923 bands, if UplinkDwell time=0, max 11 bytes for each uplink.
	448	+(% style="color:red" %)**Notice: the Max bytes is according to the max support bytes in different Frequency Bands for lowest SF. As below:**
441	441
442		- * For US915 band, max 11 bytes for each uplink.
	450	+ ~* For AU915/AS923 bands, if UplinkDwell time=0, max 51 bytes for each uplink ( so 51 -5 = 46 max valid date)
443	443
444		- ~* For all other bands: max 51 bytes for each uplink.
	452	+ * For AU915/AS923 bands, if UplinkDwell time=1, max 11 bytes for each uplink ( so 11 -5 = 6 max valid date).
445	445
	454	+ * For US915 band, max 11 bytes for each uplink ( so 11 -5 = 6 max valid date).
446	446
447		-Below are the uplink payloads:
	456	+ ~* For all other bands: max 51 bytes for each uplink  ( so 51 -5 = 46 max valid date).
448	448
449		-[[image:1654157178836-407.png]]
450		-
451		-
452	452	=== 3.3.5 Uplink on demand ===
453	453
454		-Except uplink periodically, RS485-LN is able to uplink on demand. The server send downlink command to RS485-LN and RS485 will uplink data base on the command.
	460	+Except uplink periodically, RS485-BL is able to uplink on demand. The server sends downlink command to RS485-BL and RS485 will uplink data base on the command.
455	455
456	456	Downlink control command:
457	457
458		-**0x08 command**: Poll an uplink with current command set in RS485-LN.
	464	+[[0x08 command>>path:#downlink_08]]: Poll an uplink with current command set in RS485-BL.
459	459
460		-**0xA8 command**: Send a command to RS485-LN and uplink the output from sensors.
	466	+[[0xA8 command>>path:#downlink_A8]]: Send a command to RS485-BL and uplink the output from sensors.
461	461
462	462
463	463
464		-=== 3.3.6 Uplink on Interrupt ===
	470	+1.
	471	+11.
	472	+111. Uplink on Interrupt
465	465
466		-RS485-LN support external Interrupt uplink since hardware v1.2 release.
	474	+Put the interrupt sensor between 3.3v_out and GPIO ext.[[image:file:///C:/Users/93456/AppData/Local/Temp/msohtmlclip1/01/clip_image022.png]]
467	467
468		-[[image:1654157342174-798.png]]
	476	+AT+INTMOD=0  Disable Interrupt
469	469
470		-Connect the Interrupt pin to RS485-LN INT port and connect the GND pin to V- port. When there is a high voltage (Max 24v) on INT pin. Device will send an uplink packet.
	478	+AT+INTMOD=1  Interrupt trigger by rising or falling edge.
471	471
	480	+AT+INTMOD=2  Interrupt trigger by falling edge. ( Default Value)
472	472
473		-1.
	482	+AT+INTMOD=3  Interrupt trigger by rising edge.
	483	+
	484	+
	485	+1.
474	474	11. Uplink Payload
475	475
476	476	|**Size(bytes)**|**2**|**1**|**Length depends on the return from the commands**
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532	532
533	533	* **Sensor Related Commands**: These commands are special designed for RS485-BL.  User can see these commands below:
534	534
535		-1.
536		-11.
	547	+1.
	548	+11.
537	537	111. Common Commands:
538	538
539	539	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]]
540	540
541	541
542		-1.
543		-11.
	554	+1.
	555	+11.
544	544	111. Sensor related commands:
545	545
546	546	==== Choose Device Type (RS485 or TTL) ====
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846	846
847	847
848	848
849		-1.
	861	+1.
850	850	11. Buttons
851	851
852	852	|**Button**|**Feature**
853	853	|**RST**|Reboot RS485-BL
854	854
855		-1.
	867	+1.
856	856	11. +3V3 Output
857	857
858	858	RS485-BL has a Controllable +3V3 output, user can use this output to power external sensor.
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870	870	By default, the AT+3V3T=0. This is a special case, means the +3V3 output is always on at any time
871	871
872	872
873		-1.
	885	+1.
874	874	11. +5V Output
875	875
876	876	RS485-BL has a Controllable +5V output, user can use this output to power external sensor.
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890	890
891	891
892	892
893		-1.
	905	+1.
894	894	11. LEDs
895	895
896	896	|**LEDs**|**Feature**
897	897	|**LED1**|Blink when device transmit a packet.
898	898
899		-1.
	911	+1.
900	900	11. Switch Jumper
901	901
902	902	|**Switch Jumper**|**Feature**
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942	942
943	943
944	944
945		-1.
	957	+1.
946	946	11. Common AT Command Sequence
947	947	111. Multi-channel ABP mode (Use with SX1301/LG308)
948	948
...	...	@@ -961,8 +961,8 @@
961	961
962	962	ATZ
963	963
964		-1.
965		-11.
	976	+1.
	977	+11.
966	966	111. Single-channel ABP mode (Use with LG01/LG02)
967	967
968	968	AT+FDR   Reset Parameters to Factory Default, Keys Reserve
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1037	1037	[[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]]
1038	1038
1039	1039
1040		-1.
	1052	+1.
1041	1041	11. How to change the LoRa Frequency Bands/Region?
1042	1042
1043	1043	User can follow the introduction for [[how to upgrade image>>path:#upgrade_image]]. When download the images, choose the required image file for download.
...	...	@@ -1044,7 +1044,7 @@
1044	1044
1045	1045
1046	1046
1047		-1.
	1059	+1.
1048	1048	11. How many RS485-Slave can RS485-BL connects?
1049	1049
1050	1050	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]].
...	...	@@ -1061,7 +1061,7 @@
1061	1061
1062	1062
1063	1063
1064		-1.
	1076	+1.
1065	1065	11. Why I can’t join TTN V3 in US915 /AU915 bands?
1066	1066
1067	1067	It might about the channels mapping. Please see for detail.

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