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Wiki source code of LX3V-8EY/16EY

Last modified by Devin Chen on 2024/02/13 17:17
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1 This manual is applied to LX3V-8EY and LX3V-16EY digital output expansion modules.
2
3 = **1 Naming rule** =
4
5 Naming rule of LX3V I/O output expansion module:
6
7 (% style="text-align:center" %)
8 [[image:image-20220704141604-1.png||height="82" width="300" class="img-thumbnail"]]
9
10
11 1. WECON PLC;
12 1. Main model;
13 1. The number of output points;
14 1. Product type: E means expansion;
15 1. Expansion output(Y);
16 1. T: transistor, R: relay.
17
18 = **2 Dimensions** =
19
20 [[image:image-20220704141653-8.jpeg||class="img-thumbnail"]] [[image:image-20220704141658-9.jpeg||class="img-thumbnail"]]
21
22 (% style="text-align:center" %)
23 [[image:image-20220704141707-10.jpeg||height="838" width="986" class="img-thumbnail"]]
24
25 1. Extension cable
26 1. Input indicator light of each channel
27 1. LINK: Communication indicator between PLC and expansion module
28 1. Expansion module name
29 1. Digital signal output terminal
30 1. Extension module interface
31 1. DIN rail mounting slot
32 1. DIN rail hook
33 1. Mounting holes (φ4.5)
34
35 |=(% scope="row" style="width: 75px;" %)Name|=(% style="width: 460px;" %)Description|=(% style="width: 147px;" %)Status|=(% style="width: 417px;" %)Event status
36 |=(% rowspan="3" style="width: 75px;" %)LINK|(% rowspan="3" style="width:460px" %)Communication indicator between PLC and expansion module|(% style="width:147px" %)Flashes|(% style="width:417px" %)Normal data transmission(normal communication)
37 |=(% style="width: 147px;" %)OFF|(% style="width:417px" %)Data transmission is abnormal, stopped, or failed
38 |=(% style="width: 147px;" %)ON|(% style="width:417px" %)Software is abnormal or hardware is faulty
39
40 (% class="box infomessage" %)
41 (((
42 **✎Note:** Except different I/O input points, LX3V-8EY and LX3V-16EY have the same dimensions and the same other functions.
43 )))
44
45 == Crimp terminations ==
46
47 (% style="text-align:center" %)
48 [[image:image-20220704141604-3.png||class="img-thumbnail"]]
49
50 1. Please use crimp terminals as indicated on the graph.
51 1. The tightening torque should be applied 5 to 8 Kg.cm.
52 1. Other terminals should be empty but only wiring terminals mention in this manual.
53
54 = **3 Output specification** =
55
56 (% style="width:1125px" %)
57 |=(% colspan="2" scope="row" style="width: 253px;" %)**Item**|=(% style="width: 416px;" %)**Relay output**|=**Transistor output**
58 |=(% colspan="2" style="width: 253px;" %)Model|(% style="width:416px" %)LX3V-8EYR/16EYR|LX3V-8EYT/16EYT
59 |=(% colspan="2" style="width: 253px;" %)Output circuit|(% style="width:416px" %)[[image:image-20230106164619-1.png||height="235" width="225"]]|[[image:image-20230106164627-2.png||height="238" width="229"]]
60 |=(% colspan="2" style="width: 253px;" %)Power supply|(% style="width:416px" %)Less than AC250V or DC 30V|DC 5V to 30V
61 |=(% colspan="2" style="width: 253px;" %)Circuit insulation|(% style="width:416px" %)Mechanical|Optocoupler insulation
62 |=(% colspan="2" style="width: 253px;" %)LED|(% style="width:416px" %)Light when relay is energized|Light when optocoupler is energized
63 |=(% rowspan="3" style="width: 113px;" %)(((
64 Max load
65 )))|(% style="width:140px" %)Resistance|(% style="width:416px" %)(((
66 2A/one point
67
68 8A/four points
69
70 8A/eight points
71 )))|(((
72 0.5A/one point
73
74 0.8A/ four points
75
76 1.6A/eight points
77 )))
78 |=(% style="width: 140px;" %)Inductance|(% style="width:416px" %)80VA|12W/DC24V
79 |=(% style="width: 140px;" %)Lamp|(% style="width:416px" %)100W|1.5W/DC24V
80 |=(% colspan="2" style="width: 253px;" %)Leakage current|(% style="width:416px" %)-|0.1mA/ DC 30V
81 |=(% colspan="2" style="width: 253px;" %)Minimum load|(% style="width:416px" %)-|DC 5V 2mA
82 |=(% colspan="2" style="width: 253px;" %)OFF->ON|(% style="width:416px" %)About 10ms|Less than 0.2ms
83 |=(% colspan="2" style="width: 253px;" %)ON-> OFF|(% style="width:416px" %)About 10ms|Less than 0.2ms
84
85 = **4 Instructions** =
86
87 The I/O output points on the module are named from the next Y point, using the points on the host as endpoints. For example:
88
89 1. If the host is LX3V-1212MR-A and there are 12 output points (Y0 to Y7, Y10 to Y13).
90 1. If you expand an LX3V-16EY module on the host , the Y points defined in the module on the host computer are X20 to X27 and X30 to X37.
91 1. If you expand multiple I/O output point modules on the host, the I/Os on the module will be named in the same order.
92
93 (% class="box infomessage" %)
94 (((
95 **✎Note: **When adding IO expansion modules to the host, in principle, the number of all output points Y must not exceed 256 points. When adding IO expansion modules to the host, if the host needs to connect multiple IO modules, it is recommended to add a separate power supply board to the module for power supply.
96 )))
97
98 = **5 Program** =
99
100 [[image:image-20220704141847-12.jpeg||class="img-thumbnail"]]
101
102 As shown in the example above, it is LX3V-3624MT with two LX3V-16EY modules and one LX3V-4DA module. The host has 24 output points Y: Y0 to Y7, Y10 to Y17, Y20 to Y27. The output point in the module ① called by host are Y30 to Y37 and Y40 to Y47, and the output points in the module ③ called by host are Y50 to Y57 and Y60 to Y67.
103
104 [[image:image-20220704141840-11.jpeg||class="img-thumbnail"]]
105
106 As shown in the example above, it is the LX3V-3624MT with one LX3V-16EYR and two LX3V-4DA modules. The host has24 output points Y: Y0 to YX7, Y10 to Y17, Y20 to Y27. The output point in the module ③ called by host are Y30 to Y37 and Y40 to Y47.