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18	18
19	19	(((
20	20	(((
21		-The Dragino RS485-LN is a (% style="color:blue" %)**RS485 to LoRaWAN Converter**(%%). It converts the RS485 signal into LoRaWAN wireless signal which simplify the IoT installation and reduce the installation/maintaining cost.
	21	+The Dragino RS485-LN is a RS485 to LoRaWAN Converter. It converts the RS485 signal into LoRaWAN wireless signal which simplify the IoT installation and reduce the installation/maintaining cost.
22	22	)))
23	23
24	24	(((
25		-RS485-LN allows user to (% style="color:blue" %)**monitor / control RS485 devices**(%%) and reach extremely long ranges. It provides ultra-long range spread spectrum communication and high interference immunity whilst minimizing current consumption. It targets professional wireless sensor network applications such as irrigation systems, smart metering, smart cities, smartphone detection, building automation, and so on.
	25	+RS485-LN allows user to monitor / control RS485 devices and reach extremely long ranges. It provides ultra-long range spread spectrum communication and high interference immunity whilst minimizing current consumption. It targets professional wireless sensor network applications such as irrigation systems, smart metering, smart cities, smartphone detection, building automation, and so on.
26	26	)))
27	27
28	28	(((
29		-(% style="color:blue" %)**For data uplink**(%%), RS485-LN sends user-defined commands to RS485 devices and gets the return from the RS485 devices. RS485-LN will process these returns according to user-define rules to get the final payload and upload to LoRaWAN server.
	29	+For data uplink, RS485-LN sends user-defined commands to RS485 devices and gets the return from the RS485 devices. RS485-LN will process these returns according to user-define rules to get the final payload and upload to LoRaWAN server.
30	30	)))
31	31
32	32	(((
33		-(% style="color:blue" %)**For data downlink**(%%), RS485-LN runs in LoRaWAN Class C. When there downlink commands from LoRaWAN server, RS485-LN will forward the commands from LoRaWAN server to RS485 devices.
34		-
35		-(% style="color:blue" %)**Demo Dashboard for RS485-LN**(%%) connect to two energy meters: [[https:~~/~~/app.datacake.de/dashboard/d/58844a26-378d-4c5a-aaf5-b5b5b153447a>>url:https://app.datacake.de/dashboard/d/58844a26-378d-4c5a-aaf5-b5b5b153447a]]
	33	+For data downlink, RS485-LN runs in LoRaWAN Class C. When there downlink commands from LoRaWAN server, RS485-LN will forward the commands from LoRaWAN server to RS485 devices.
36	36	)))
37	37	)))
38	38
39	39	[[image:1653267211009-519.png||height="419" width="724"]]
40	40
41		-
42	42	== 1.2 Specifications ==
43	43
44		-
45	45	**Hardware System:**
46	46
47	47	* STM32L072CZT6 MCU
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48	48	* SX1276/78 Wireless Chip
49	49	* Power Consumption (exclude RS485 device):
50	50	** Idle: 32mA@12v
	47	+
	48	+*
51	51	** 20dB Transmit: 65mA@12v
52	52
53	53	**Interface for Model:**
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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		-
81	81	== 1.3 Features ==
82	82
83	83	* LoRaWAN Class A & Class C protocol (default Class C)
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89	89	* Support Modbus protocol
90	90	* Support Interrupt uplink (Since hardware version v1.2)
91	91
92		-
93		-
94	94	== 1.4 Applications ==
95	95
96	96	* Smart Buildings & Home Automation
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100	100	* Smart Cities
101	101	* Smart Factory
102	102
103		-
104		-
105	105	== 1.5 Firmware Change log ==
106	106
107	107	[[RS485-LN Image files – Download link and Change log>>url:http://www.dragino.com/downloads/index.php?dir=RS485-LN/]]
108	108
109		-
110	110	== 1.6 Hardware Change log ==
111	111
112	112	(((
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114	114	v1.2: Add External Interrupt Pin.
115	115
116	116	v1.0: Release
117		-
118		-
119	119	)))
120	120	)))
121	121
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132	132	)))
133	133
134	134	[[image:1653268091319-405.png]]
135		-
136		-
137	137	)))
138	138
139	139	= 3. Operation Mode =
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142	142
143	143	(((
144	144	The RS485-LN is configured as LoRaWAN OTAA Class C 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-LN. It will auto join the network via OTAA.
145		-
146		-
147	147	)))
148	148
149	149	== 3.2 Example to join LoRaWAN network ==
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152	152
153	153	[[image:1653268155545-638.png||height="334" width="724"]]
154	154
155		-
156	156	(((
157		-(((
158	158	The RS485-LN in this example connected to two RS485 devices for demonstration, user can connect to other RS485 devices via the same method. The connection is as below:
159		-)))
160	160
161		-(((
162	162	485A+ and 485B- of the sensor are connected to RS485A and RA485B of RS485-LN respectively.
163		-)))
164	164
165	165	[[image:1653268227651-549.png||height="592" width="720"]]
166	166
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497	497
498	498	[[image:1653269759169-150.png||height="513" width="716"]]
499	499
500		-(% style="color:#4f81bd" %)**Examples: AT+DATAUP=1**
501	501
502		-Compose the uplink payload with value returns in sequence and send with (% style="color:red" %)**Multiply UPLINKs**.
503	503
	482	+**Examples: AT+DATAUP=1**
	483	+
	484	+Compose the uplink payload with value returns in sequence and send with **Multiply UPLINKs**.
	485	+
504	504	Final Payload is
505	505
506		-(% style="color:#4f81bd" %)**Battery Info+PAYVER + PAYLOAD COUNT + PAYLOAD# + DATA**
	488	+Battery Info+PAYVER + PAYLOAD COUNT + PAYLOAD# + DATA
507	507
508	508	1. Battery Info (2 bytes): Battery voltage
509	509	1. PAYVER (1 byte): Defined by AT+PAYVER
510	510	1. PAYLOAD COUNT (1 byte): Total how many uplinks of this sampling.
511	511	1. PAYLOAD# (1 byte): Number of this uplink. (from 0,1,2,3…,to PAYLOAD COUNT)
512		-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
	494	+1. DATA: Valid value: max 6 bytes(US915 version here, [[Notice*!>>path:#max_byte]]) for each uplink so each uplink <= 11 bytes. For the last uplink, DATA will might less than 6 bytes
513	513
514		-[[image:1653269916228-732.png||height="433" width="711"]]
	496	+[[image:file:///C:/Users/93456/AppData/Local/Temp/msohtmlclip1/01/clip_image020.png]]
515	515
516	516
517	517	So totally there will be 3 uplinks for this sampling, each uplink includes 6 bytes DATA
518	518
519		-DATA1=RETURN1 Valid Value = (% style="background-color:green; color:white" %)20 20 0a 33 90 41
	501	+DATA1=RETURN1 Valid Value = 20 20 0a 33 90 41
520	520
521		-DATA2=1^^st^^ ~~ 6^^th^^ byte of Valid value of RETURN10=(% style="background-color:green; color:white" %) 02 aa 05 81 0a 20
	503	+DATA2=1^^st^^ ~~ 6^^th^^ byte of Valid value of RETURN10= 02 aa 05 81 0a 20
522	522
523		-DATA3=7^^th^^ ~~ 11^^th^^ bytes of Valid value of RETURN10 = (% style="background-color:green; color:white" %)20 20 20 2d 30
	505	+DATA3=7^^th^^ ~~ 11^^th^^ bytes of Valid value of RETURN10 = 20 20 20 2d 30
524	524
	507	+
	508	+
525	525	Below are the uplink payloads:
526	526
527		-[[image:1653270130359-810.png]]
	511	+[[image:file:///C:/Users/93456/AppData/Local/Temp/msohtmlclip1/01/clip_image021.png]]
528	528
529	529
530		-(% style="color:red" %)**Notice: the Max bytes is according to the max support bytes in different Frequency Bands for lowest SF. As below:**
	514	+Notice: the Max bytes is according to the max support bytes in different Frequency Bands for lowest SF. As below:
531	531
532	532	~* For AU915/AS923 bands, if UplinkDwell time=0, max 51 bytes for each uplink ( so 51 -5 = 46 max valid date)
533	533
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537	537
538	538	~* For all other bands: max 51 bytes for each uplink  ( so 51 -5 = 46 max valid date).
539	539
540		-=== 3.3.5 Uplink on demand ===
541	541
	525	+
	526	+1.
	527	+11.
	528	+111. Uplink on demand
	529	+
542	542	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.
543	543
544	544	Downlink control command:

1653270130359-810.png

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