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Non Contact Output
Power consumption : 500 mW
Output type : NPN Open collector
Load voltage : 12 - 24 V d.c
BCD Dynamic Output
Output Value : Display value
Output Signal : BCD data (A, B, C, D)
A : lowest Bit
Dot Point(Dot)
Dot value of each Digit Data
Dot Data(D0, D1, D2, D3, D4)
D0 : Lowest Digit,
D4 : Highest Digit
Output : NPN Open collector
Rated load voltage : 12-24 V d.c
Maximum load Current : 20
Example
In case of display value 123.45
10
4
Digit
10
0
Digit
P V
1
2
3.
4
5
A
H
L
H
L
H
L
H
B
H
H
L
L
H
H
H
BCD
C
H
H
H
H
L
L
H
Data
D
H
H
H
H
H
H
H
DOT
H
H
H
L
H
H
H
H
H
D0
0.1ms
H
D1
H
Digit
D2
H
D3
H
D4
0.2ms
10ms
50ms
Low Speed Serial Output
Output value : display value
Output signal : CLK, Data, Latch
CLK cycle : 50 Hz
Number of output CLK bit
Number of output Data bit
Rated load valtage : 12-24 V d.c
C1
C2
C3
C23
C24
C25
C1
C2
C3
C4
~
20ms
Data
D1
D2
D3
~
D23
D24
D25
D1
D2
D3
D4
5us
Latch
~
1ms
Data Output order of serial Transmission
START
CLK
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
order
Shift
Data
Dot Point
Data
Dot Point
Data
Dot Point
Data
Dot Point
Data
(5digit
)
(5
digit
)
(4
digit
)
(4
digit
)
(3
digit
)
(3
digit
)
(2
digit
)
(2
digit
)
(1
digit
)
4
10
Digit
0
10
Digit
PV Transmission Output(4-20 mA d.c)
Use : Transmit measuring value to external equipment
Function : transmit a Measured value between high Output(PV-H)and
low Output(PV-L)
Setting range of High and Low Output
- High setting range (PV-H) : from minimum value to maximum value within
measuring range
- Low Setting range(PV-L): From Maximum value to minium value within
measuring range (Notice, PV-H must be bigger than PV-L by 1 at least)
- Load resistance : Max. 600
- Resolution : 10.000
RS-485 Communication Output
PV-H
Address : 0 ~ 99(32 Channels)
PV-L
Transmission Speed(Baud Rate) :
2400/4800/9600/19200 bps
Transmission code : Binary
20 mA
Parity Bit : None
Data Bit : 8 Bit
4 mA
Stop Bit : 1 Bit
Communication items
RP3-5A(D)5
PC : Set value, Clear for peak value, Reset control
RP3-5A(D)5
PC : Set value, Status value of control
Operating Mode
Mode
:
Frequency (Hz) / Revolution (rpm) / Velocity (m/s)
Revolution (RPM): IN A Input Cycle(f) x ( =60 x prescale value) display value
(default)
Frequency (Hz): IN A Input Cycle(f) x ( = prescale value) display value
Velocity (m/min): IN A Input Cycle(f) x ( =60 x L/N) display value
L = D (circumference of the revolving object)
= prescale value, N = the number of waveform per 1 revolution
Example of Application
HH
H
rpm
GO
L
LL
IN A
IN A
HH
H
GO
m/min
L
LL
Display value & Units
Display value
Display value
mm/s
1000 L
Frequency
cm/s
100 L
Velocity
m/s
L (default)
Revolution
m/min
60 L
km/hour
3.6 L
Total Counted
Display
(1/t1)×α
(1/t2)×α (1/t3)×α Keep (1/t3)×α
Value
IN A
t1
t2
t3
HOLD
Mode
: Moving Velocity (m/s)
Display the moving velocity from ON of IN A to ON of IN B.
Velocity(m/s): IN A Input Frequency(f) x
Display value & Units
Example of Application
Units
Prescale Value( )
mm/s
1000 L
IN B
IN A
HH
H
cm/s
GO
100 L
L
LL
m/s
1 L (default)
m/min
60 L
km/hour
3.6 L
Default of Prescale Value
: Time=1sec, Length=1m. L the Distance from IN A sensor to IN B (unit:m)
25
Display
(1/t1)×α
(1/t2)×α
IN A
t1
ta
t2
ta
t3
ta
t4
Dot Point
(1
digit
)
IN B
HOLD
Mode
: Cycle
Display the input cycle (T) of IN A after measuring it
Cycle: IN A Input Cycle (t)
Display value & Units
Display
Units
10
60
value
9.9999s
59.999s
Display Value
HH
H
GO
L
LL
99.999s
59m59s.9
999.99s
999m59s
Cycle
9999.9s
9h59m59s
99999s
999h59m
Display
t1
t3
t4
IN A
t1
t2
t3
t4
t5
t6
HOLD
Mode
: Passing Time (s)
Display the passing time the after measuring the input cycle (T)
Passing Time (sec): t x
Moving distance per 1 pulse = the circumference ( D) of the roller / N
(Pulse per 1 revolution of the encoder)
(prescale) = process operation length (m) x moving distance (m) per 1
Pulse
Prescale is the required pulse number in order to pass the process
operation.
Example of Application
Revolution
Velocity (m/min)
Display value & Units
Units
Display
10
value
Motor
9.9999s
99.999s
999.99s
Velocity
Hz
1
9999.9s
KHz
0.001
99999s
RPS
1
RPM
60
Display
t1
IN A
t1
t2
HOLD
Mode
: Time Lag
Display the time from ON of IN A to ON of IN B after measuring it
Time Lag (T): t(IN A ~ IN B)
value display.
= L (m)
Display value & Units
Display
Units
10
value
1m
9.9999s
m/min
99.999s
999.99s
Velocity
9999.9s
99999s
Display
t1
IN A
Keep (1/t4)×α
(1/t6)×α
t1
ta
t2
IN B
ta
t5
ta
t6
HOLD
ta(Pause Time) : ta≥20 mS
Mode
: Time Width
Display the time after measuring the time IN A is ON
Time Width (T): t
Display value & Units
Display
Units
Example of Application
10
value
9.9999s
99.999s
999.99s
Velocity
sec
9999.9s
IN B
99999s
Display
t total counted value
IN A
t7
t1
HOLD
t7
ta(Pause Time) : ta≥20 mS
Display the length after measuring the pulse of IN A while IN B is ON
Pulse Width = P x
Display value & Units
Passing Time
HH
sec
H
GO
L
LL
Rotary
IN B
Display
Encoder
Process
Operation
IN A
Length
IN B
Example of Obtaining a
60
Prescale Value (no unit)
HOLD
59.999s
: The diameter of the revolving
59m59s.9
object = D
999m59s
The number of pulse per 1
revolution of the encoder = N
9h59m59s
Process Operation Length = L
999h59m
: Prescale Value ( ) = L/( D/N)
Mode
Display the pulse of input IN A from the time when IN B is ON to the time
t3
Keep t4
t7
when IN is re-ON
Interval = P x
t3
t4
t5
t6
t7
Display value & Units
ta(Pause Time) : ta≥20 mS
Display
Example of Application
IN A
IN B
60
IN B
IN A
59.999s
A
HOLD
HH
H
1m
GO
sec
L
LL
59m59s.9
B
999m59s
9h59m59s
999h59m
t2
Keep t4
t6
Mode
It starts counting the pulse which inputs to IN A but it does not count the
pulse when IN B is ON.
ta
t3
ta
t4
ta
t5
ta
t6
If the RESET input is ON, then the counted value becomes 0.
Counter = P x
Example of Application
ta(Pause Time) : ta≥20 mS
HH
H
GO
L
LL
IN A
Display
Example of Application
IN A
Press
IN B
60
IN A
Reset
59.999s
HH
H
sec
GO
L
LL
59m59s.9
999m59s
9h59m59s
999h59m
t1
t3
ta
t2
ta
t3
ta(Pause Time) : ta≥20 mS
Mode
: Pulse Width (length)
(P=Pulse of IN A,
= prescale value)
Example of Application
Units
Prescale Value( )
mm
1000
HH
H
cm
GO
L
cm
100
LL
IN A
IN B
m
1
Quantity(EA)
1
4×α
2×α
1
2
3
4
1
2
1
2
3
ta
ta
ta(Pause Time) : ta≥20 mS
: Pulse Interval Coefficient (Interval
between objects)
(P=Pulse of IN A,
= prescale value)
Example of Application
Units
Prescale Value( )
mm
1000
cm
100
HH
cm
H
GO
L
LL
Interval
m
1
IN A
IN B
Rotary
1
Encoder
Quantity(EA)
5×α
2×α
1
2
3
4
5
1
2
1
2
ta
ta(Pause Time) : ta≥20 mS
: Addition Counter (Coefficient)
(P=Pulse of IN A, =Prescale Value)
If you input 0.1 to the prescale
value ( ) of IN A and apply the
dot position as
then the
displayed value is increased by 1
for every 10 increment.
Proximity Sensor
1
2
3
4
5
6
7
0
1
2
1
2
3
4
5
6
7
1
2
3
ta(Pause Time) : ta≥20 mS
Length
Rotary
Encoder
4
3
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