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8447050000 Datasheet, PDF (16/58 Pages) Weidmuller – Mini Coupler / Mini Conditioner
Remark:
The module is programmed according to customers specifications.
Up to 5 inputs can be linked with various logic and timer functions,
e.g.: AND, OR, EXOR, NAND, NOR, EXNOR, delay elements, etc.
The output is either low or high active.
824834 0001 DKPL
A = (E1 OR E2) AND (E3 OR E4) AND E5
State
Input
54 32 1
1
00 00 0
2
00 00 1
3
00 01 0
4
00 01 1
5
00 10 0
6
00 10 1
7
00 11 0
8
00 11 1
9
01 00 0
10
01 00 1
11
01 01 0
12
01 01 1
13
01 10 0
14
01 10 1
15
01 11 0
16
01 11 1
17
10 00 0
18
10 00 1
19
10 01 0
20
10 01 1
21
10 10 0
22
10 10 1
23
10 11 0
24
10 11 1
25
11 00 0
26
11 00 1
27
11 01 0
28
11 01 1
29
11 10 0
30
11 10 1
31
11 11 0
32
11 11 1
Input
Output
6
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
1
1
1
0
1
1
1
0
1
1
1
IOnuptuptut
824834 0003 DKPL - Frequency divider
Inputs 1 - 5 determine the divider factor
Input 1 = divider factor 1: FOUT = FIN 1
Input 2 = divider factor 2: FOUT = FIN 2
Input 5 = divider factor 5: FOUT = FIN 5; FIN max. = 12 kHz
Input
Output
6
1
fout = fin
2
fout = fin / 2
3
fout = fin / 3
4
fout = fin / 4
5
fout = fin / 5
Note: An new divider factor can only be
used if operating voltage is switched off.
fin max. = 12 kHz
Input
824834 0006 DKPL
Input 1: FOUT = FIN
Input 2: FOUT = FIN 10
Input
1
2
3
4
5
Input
Output
6
fout = fin
fout = fin / 10
fout = fin / 50
fout = fin / 100
fout = fin / 1000
Note: A new divider factor can only be
used if the operating voltage is switched
off. fin max. = 3 kHz
IOnuptuptut
IOnuptuptut
824834 0004 DKPL
Input 1: Signal A of an incremental generator
Input 2: Signal B 90 is shifted
Input 3: Enable High Active
Input 4: Output signal inverts High Active
Input 5: No function
Output: For each slope of signal A or B, the output is set to
20 - 30 Us.
(I.e.: FOUT = 4xFIN)
FIN max. 1 kHz
Connection
1
A
2
B
3 Enable
4 Invert
5
6
Description
Signal A 90 ° leading Fmax = 1 kHz
Signal B 90 ° following Fmax = 1 kHz
Output is released
Output signal invert
No function
fout = 4 x fA/B (max. 4 kHz)
824834 007 DKPL
Input
Output
123 4 5
Out
LLX X X
No function
HLX X X
f = 1 Hz
LH X X X
f = 10 Hz
HH X X X
f = 1 Hz
L -> 0 V or connection open
H -> +24 …30 Vdc
X -> no effect on output function, L or H
824834 0008 DKPL
Input
12
HH
LH
Output
H
L
Input
824834 0002 DKPL
Inputs 1 and 2 have the function of a RS FLIP-FLOP
Inputs 3, 4 and 5 have no function
Input
Output
21
6
00
0 (is stored)
01
No change of stored state
10
No change of stored state
11
1 (is stored)
Inputs 3,
No change of stored state
4 and 5 no
function
Input
IOnuptuptut
IOnuptuptut
INnopufut nction
Outp.
824834 0010 DKPL
RS FLIP-FLOP with superior S - input (connection 2)
Input connections 3, 4 and 5 must have 0 V or remain open!
Connection 1 Logic Connection 2 Logic Connection 6 Logic
R-Input
S-Input
Output
0 V or open L 0 V or open
L previous
state
is stored
+24 Vdc
H 0 V or open
L 0V
L
0 V or open L +24 Vdc
H +24 Vdc
H
+24 Vdc
H +24 Vdc
H +24 Vdc
H
824834 0005 DKPL
Length of input signal between 80 and 100 ms.
Length of output signal 100 ms, only 2 pulses,
Relation pulse-interruption 1:1.
The positive slope of the input signal has to be analysed. Only
input E1 is used.
824834 0501 DKPL
The module allows the input frequency at connection 1
(0...max. 50 kHz) to be divided with 2 fixed divider factors.
Depending on connection 2, the output frequency is transmit-
ted from output connection 6.
Connections 3, 4 and 5 have no function.
Connect. 2 Logic Factor Inp. frequency Outp. frequency
Connection 1 Connection 2
0 V or open L
75 0…30 kHz
0…400 Hz
24 Vdc
H 27 0…10.8 kHz
0…400 Hz
171