-|Transparent Guide|-
Operation Mode
■ F1: frequency / revolutions / speed
Measures the frequency of input A and displays the calculated frequency, revolutions,
and speed.
Frequency (Hz)
= f × α
(α = 1 [sec])
Revolutions (rpm) = f × α
(α = 60 [sec])
Speed (m / min)
= f × α
(α = 60 L [sec])
•
L: travel distance of conveyor belt of 1
cycle [m]
•
α: prescale
value
(For multiple objects, α = 60L / N)
Display value Display
unit
α
Frequency
Hz
1
kHz
0.001
Revolutions
rps
1
rpm (default)
60
Speed
mm / sec
1,000 L
cm / sec
100 L
m / sec
1 L
m / min
60 L
km / hour
3.6 L
MP5
MP5
Encoder
t1
t2
t3
t4
t5
t6
Input A
Hold
Display
1
× α
t1
1
× α
t2
1
× α
t5
1
× α
t3
1
× α
t6
■
F2:
passing speed
Displays the passing speed between input A ON and input B ON.
Passing speed (V) = f × α
(α = L [m])
•
f : reciprocal of time [sec] between input A
(sensor) ON and input B ( sensor) ON.
•
L: distance between input A (sensor) and
input B (sensor) [m]
•
α: prescale
value
Display value Display
unit
α
Passing speed
mm / sec
1,000 L
cm / sec
100 L
m / sec (default) 1 L
m / min
60 L
km / hour
3.6 L
Sensor A
Sensor B
MP5
•
ta: Return time (≥ 20 ms)
Input A
Input B
Hold
Display
t1
ta
t2
t3
t4
t5
t6
t7
1
× α
t1
1
× α
t2
1
× α
t3
1
× α
t6
1
× α
t4
1
× α
t7
■
F3: cycle
Displays the measured time from input A ON to the next ON.
Cycle (T)
= t
•
t: measurement time [sec]
Display value Display
unit
Cycle
SEC
MIN
999.99 s
(
default)
999.99 m
9999.9 s
9999.9 m
99999 s
99999 m
Photoelectric
sensor
MP5
Input A
t1
t1
t2
t2
t3
t5
t6
t3
t4
t5
t6
Hold
Display
■
F4:
passing time
Measure the time from input A ON to the next ON, and displays the passing time of the
arbitrary distance.
Passing time [sec] = t × α
(α=
L [m]
Distance advanced in 1 pulse cycle [m] )
•
t:
me
asurement time [sec]
•
L: arbitrary distance [m]
•
α: prescale
value
Display value Display
unit
Passing time
SEC
MIN
999.99 s
(
default)
999.99 m
9999.9 s
9999.9 m
99999 s
99999 m
MP5
L : Dis
tanc
e [m]
Input A
t1
t1 × α t2 × α
t5 × α
t2
t3 × α
t6 × α
t3
t4
t5
t6
Hold
Display
■
F5: time
interval
Displays measured time of input A ON.
Time interval (T)
= t
•
t: measured time of input A ON [sec]
Display value Display
unit
Time interval
SEC
MIN
999.99 s
(
default)
999.99 m
9999.9 s
9999.9 m
99999 s
99999 m
Stamp
Motor
MP5
•
ta: Return time (≥ 20 ms)
Input A
t1
t1
t2
t2
t3
t3
ta
ta
Hold
Display
■
F6: time
differential
Displays measured time from Input A ON to Input B ON.
Time differential (T)
= t (ta to tb)
•
t (ta to tb): measured time from input A ON
to input B ON [sec]
Display value Display
unit
Time
differential
SEC
MIN
999.99 s
(
default)
999.99 m
9999.9 s
9999.9 m
99999 s
99999 m
Sensor A
Sensor B
MP5
•
ta: Return time (≥ 20 ms)
Input A
Input B
t1
t3
t5
t6
t7
t1
t2
t3
t4
t6
t7
t4
t2
ta
Hold
Display
■
F7: absolute ratio
Measures and displays relative speed, amount, speed, etc. of input B against input A
in percentage (%).
Ab
solute
ratio
= Input B
Input A × 100 %
Ab
solute
ratio
= Frequency of input B [Hz] × Bα
Frequency of input A [Hz] × Aα × 100 %
•
Aα: prescale
value of input A
•
Bα: prescale
value of input B
Liquid
Flow meter B
Flow meter A
MP5
Display value Display
unit
Ab
solute ratio %
Display =
F
requency of input B [Hz] × Bα
× 100 [%]
F
requency of input A [Hz] × Aα
Input A
fA
fB
Input B
•
Hold
When the hold signal turns ON, the display
value is maintained until the display cycle
turns to hold OFF.
■ F8:
density
Measures and displays the density ratio (%) of input B against the total sum of input
A and input B.
Density =
Input B
Input A + Input B × 100 [%]
Density =
Frequency of input B [Hz] × Bα
(frequency of input A [Hz] × Aα)
+ (frequency of input B [Hz] × Bα)
× 100 [%]
•
Aα: prescale
value of input A
•
Bα: prescale
value of input B
Liquid
Flow meter B
Flow meter A
MP5
Display value Display
unit
Density
%
Input A
fA
fB
Input B
•
Hold
When the hold signal turns ON, the display
value is maintained until the display cycle
turns to hold OFF.
