18, Bansong-ro 513Beon-gil, Haeundae-gu, Busan, Republic of Korea, 48002
www.autonics.com | +82-51-519-3232 | [email protected]
-|Transparent Guide|-
-|Transparent Guide|-
Functions
■
Hysteresis
Near the comparative setting value, the output may turn ON / OFF frequently and
unstably. To prevent this, hysteresis value is set based on the comparative setting value.
Comparative
value H,
Comparative
value L
A
A
Output L
Output H
•
A: hysteresis
•
The hysteresis value can be set to “0” but
the actual operation value is “1”
■
Del
ay monitoring: limit comparative output
After supplying power, the starting current of motors and other inputs are changeable.
This function allows stable control by limiting all outputs for a certain period of time,
until the target measurement unit stabilizes. It may also control L outputs until a specific
output is reached.
•
After supplying power, there is no initial L comparative outputs.
•
Each setting value of H, L is not related to their relative sizes.
• E.g.: S (Standard) output mode
L
H
L
H
Comparative output limit
function removal
Comp
ar
ative
value
Output
• E.g.: F (Deflection) output mode
The comparative output limiting function is removed at the set value (standard setting).
L
H
Comparative output limit
function removal
(
Max.)H deviation
SV
(
Min.) L deviation
Comp
ar
ative
value
Output
■
Del
ay monitoring
:
Start compensation timer
Output
L
comparative
value
No output
Del
ay monitoring time
Set monitoring delay time so that there is
no output during the delay time.
■
Auto-zero time
When there is no input signal during auto-zero setting time, the display value is
automatically set to 0 (zero). Please set the auto-zero setting time so that it is longer
than the interval of the slowest input signal. If the setting time is too long and there is
no input signal, the rate at which the display value falls to 0 (zero) decrease, and output
response rate may slow down.
■
Prescale
Displays values in required units or specific multiples by counting the number of input
pulses, then multiplying the number of pulses or the length of pulses by variables
(X×10y).
• E.g.: prescale
value (α = 15) setting
•
f: the number of input pulses per
second [Hz]
•
α: prescale
value
•
N: the number of pulses per revolution
MP5
Revolutions
(rpm)
= f × α
= f × 60 × (1 / N)
= f × 60 × (1 / 4)
= f × 60 × 0.25
= f × 15
Set mantissa (X) as 1.5000, and exponent (Y) as 1 for prescale value (α)=15.
The same display value can be obtained with α value set as X=0.1500, and Y=2
Segment Table
The segments displayed on the product indicate the following meanings. It may differ
depending on the product.
7 segment
11 segment
12 segment
16 segment
0
0
I
I
0
0
I
I
0
0
I
I
0
0
I
I
1
1
J
J
1
1
J
J
1
1
J
J
1
1
J
J
2
2
K
K
2
2
K
K
2
2
K
K
2
2
K
K
3
3
L
L
3
3
L
L
3
3
L
L
3
3
L
L
4
4
M
M
4
4
M
M
4
4
M
M
4
4
M
M
5
5
N
N
5
5
N
N
5
5
N
N
5
5
N
N
6
6
O
O
6
6
O
O
6
6
O
O
6
6
O
O
7
7
P
P
7
7
P
P
7
7
P
P
7
7
P
P
8
8
Q
Q
8
8
Q
Q
8
8
Q
Q
8
8
Q
Q
9
9
R
R
9
9
R
R
9
9
R
R
9
9
R
R
A
A
S
S
A
A
S
S
A
A
S
S
A
A
S
S
B
B
T
T
B
B
T
T
B
B
T
T
B
B
T
T
C
C
U
U
C
C
U
U
C
C
U
U
C
C
U
U
D
D
V
V
D
D
V
V
D
D
V
V
D
D
V
V
E
E
W
W
E
E
W
W
E
E
W
W
E
E
W
W
F
F
X
X
F
F
X
X
F
F
X
X
F
F
X
X
G
G
Y
Y
G
G
Y
Y
G
G
Y
Y
G
G
Y
Y
H
H
Z
Z
H
H
Z
Z
H
H
Z
Z
H
H
Z
Z
Example of Input Connection
NPN
input
Contact
Pulse meter
Sensor
Sensor
NPN voltage
output type
NPN open collector
output type
+ 12 V
IN
0 V
(COM)
3.9 kΩ
CIRC
UIT
SENSOR CIRC
UIT
SENSOR CIRC
UIT
PNP
input
Contact
PNP voltage
output type
+ 12 V
IN
0 V
(COM)
3.9 kΩ
CIRC
UIT
SENSOR CIRC
UIT
SENSOR CIRC
UIT
Pulse meter
Sensor
Sensor
PNP open collector
output type
