jofmb gbnbl
AB>E D?C@?D
<i1yz1~-|~-{.1,v3~.-
<m/zx~{~xv3~.-2
<`.--zx3~.-2
G
hjh Ojhj ./z-x.++zx3.1 .43/43 K lmTXU x.,,4-~xv3~.- .43/43
tgjUqMTXOgjUqMTYu
G
hjhOjhj ./z-x.++zx3.1 .43/43 Kf.6 2/zzy 2z1~v+ .43/43
tgjUqMTVOgjUqMTWu
QFNR SYX
/RTR STJR HSPPJHXSV0
8949;ZIH Qax5 97mF
WJVNFP SYX
/RTR STJR HSPPJHXSV0
8949;ZIH Qax5 97mF
29;ZIH
:7mF Qax5
MM
R T V X QP QR QT QV QX RP
QSUWYQQ QS QU QW QY
-TSP
LS PP
P
HSQ8 7Z
HPSHO PFXHM
HSQ9 IFXF
M
<e-/43Ni43/43
/90TRT input type
85 Nnput signal
/80Wolid state input
=Nnput frequencyA <7kMz/Qax50
Gut3 standard duty rate of input signal is 8A83
SR6SKK pulse width should be each over 87;5
>Nnput voltage Pevel A SR voltage 5;5<49;Z3 SKK voltage 574857Z
289Z
NR
7Z/HSQ0
Wensor circuit
<a~,z-2~.-2
QFNR SYX
/RTR STJR HSPPJHXSV0
8949;ZIH Qax5 97mF
G
hjhOjhj ./z-x.++zx3.1 .43/43 Kjp31v-2,~22~.-ITMRP,^a`J
.43/43tgjUqMTTOgjUqMTUu
;497mFIH
Poad =77
<
Qax5
29;ZIH
:7mF Qax5
MM
R T V X QP QR QT QV QX RP
QSUWYQQ QS QU QW QY
2
4
LS PP
P
HSQ 7Z
[gv~-3z1,~-v+w+.x*\
[m4wIi/3~.-J3z1,~-v+w+.x*\
[m4wIi/3~.-J.43/43 x.--zx3.1\
G
hjhOjhj ./z-x.++zx3.1 .43/43 K _`a .43/43 tgjUqMTROgjUqMTSu
QFNR SYX
/RTR STJR HSPPJHXSV0
8949;ZIH Qax5 97mF
QFNR SYX
/TRT STJR HSPPJHXSV0
8949;ZIH Qax5 97mF
GHI SYX
/RTR STJR HSPPJHXSV0
8949;ZIH Qax5 97mF
29;ZIH
:7mF Qax5
7Z
MM
R T V X QP QR QT QV QX RP
QSUWYQQ QS QU QW QY
TSP
GI I8 I: ISX HSQ9
FHI7I9
LS
HSQ8
PP
PI;
M
Glbf^rIc~5zM23v|zJ .43/43
tgjUqMT^u
MM
HSRXFHX SYXA9<7ZFH :F 8a
VJWNWXNZJ PSFI
QP QQ QR QS QT QU
M LS P PP HSQ
Glbf^rIn}1zzM23v|zJ .43/43
tgjUqMTQu
HSRXFHX SYXA9<7ZFH :F 8a
VJWNWXNZJ PSFI
QP QQ QR QS QT QU
MLS P
-8 is used VJWJX terminal only when it is operation mode/K8:0
/Wee the -<i/z1v3~.- ,.yz-
0
MM
RTV
QSU
LS PP
P
HSQ8 M
QFNR SYX
/TRT STJR HSPPJHXSV0
8949;ZIH Qax5 97mF
MM
RTV
QSU
LS PP
P
HSQ M
QFNR SYX
/TRT STJR HSPPJHXSV0
8949;ZIH Qax5 97mF
MM
RTV
QSU
LS PP
P
HSQ8 M
QFNR SYX
/RTR STJR HSPPJHXSV0
8949;ZIH Qax5 97mF
VW;?<
29;ZIH
:7mF Qax5
MM
R T V X QP QR QT QV QX RP
QSUWYQQ QS QU QW QY
G/40
LS PP
P
HSQ 7Z
M
QFNR SYX
/TRT STJR HSPPJHXSV0
8949;ZIH Qax5 97mF
MM
RTV
QSU
LS PP
P
HSQ M
F/20
Ge-/43 2/zx~{~xv3~.-
/90Velay contact input
=Nnput frequency A ;<Mz/Qax50
Gut3 SR6SKK pulse width should be each over 88ms5
>Velay contact specification A Tlease use a contact that can switch
reliably at 89ZIH3 9mF min5 of load current5
95 Nnput type
QT<[ has hjh ~-/43 v-y jhj ~-/43 and it is able to select it in Tara4
meter 8 group5
Qin5 87;
SR
SKK
SR SKK
X
1X A 8cycle of input signal
/80RTR input type
289Z
NR
7Z/HSQ0
-SNH is Spen collector output
Gi43/43 2/zx~{~xv3~.-
85 Velay output
=Sutput A Homparative or alarm output/Wee the -<i43/43 ,.yz-0
>Sutput method A Velay
?Hontact capacity A 9<7ZFH :F resistive load
@Pife cycle A Qechanical497million times/Wwitch times 8?7 times6min50
Jlectrical4Qin58773777 times/:F 9<7ZFH at resistive load0
/Wwitch times A 97 times6min50
95 XV output
=Sutput A Homparative or alarm output/Wee the -<i43/43 ,.yz-0
>Sutput method A RTR 6 TRT Spen collector
?Vated load voltage A 8949;ZIH
@Qax5 load current A 97mF
M
Xhank you very much for selecting Futonics products5
c.1 8.41 2v{z38L/+zv2z1zvy 3}z {.++.6~-| wz{.1z42~-|N
<`v43~.- {.1 8.41 2v{z38
QN e-xv2z.{42~-|3}~2 4-~36~3},vx}~-z1~z2Ih4x+zv1 /.6z1
x.-31.+L,zy~xv+z04~/,z-3L5z}~x+zL 31v~-Lv~1/+v-zL x.,w423~.-
v//v1v342Lz-3z13v~-,z-3 .1 2v{z38 yz5~xz z3xJL ~31z04~1z2
~-23v++~-| {v~+M2v{z yz5~xzL .1 x.-3vx342{.1 ~-{.1,v3~.- .- 38/z
1z04~1zyN
Nt may result in serious damage3 fire or human injury5
RNe3 ,423 wz ,.4-3zy .- /v-z+N
Nt may give an electric shock5
SN a. -.3 1z/v~1.1x}zx*4/6}z- /.6z1.-N
Nt may give an electric shock5
TN a. -.3 y~2v22z,w+zv-y,.y~{83}~24-~3L6}z-~31z04~1z2N
e{ -zzy2L/+zv2zx.-3vx342N
Nt may give an electric shock and cause a fire5
UN j+zv2z x}zx*3}z -4,wz1.{3z1,~-v+6}z-x.--zx3 /.6z1+~-z
.1 ,zv241~-|~-/43N
Nt may cause a fire5
qv1-~-|
H
`v43~.-
H
QN n}~24-~32}v++ -.3 wz 42zy .43y..12N
Nt might shorten the life cycle of the product or give an electric shock5
RN q}z-6~1zx.--zx3~.- {.1 /.6z1~-/43 v-y,zv241~-|~-/43L3}z
3~|}3z-~-|231z-|3}{.1 2x1z6w.+3 .- 3z1,~-v+w+.x*2}.4+ywz
.5z13}v-PNWTh ,9PNYPh ,N
Nt may result in malfunction or fire due to contact failure5
SN j+zv2z.w2z15z2/zx~{~xv3~.- 1v3~-|N
Nt might shorten the life cycle of the product and cause a fire5
TN a. -.3 42z3}z +.vy wz8.-y1v3zy 26~3x}~-| xv/vx~38 .{ lz+v8
x.-3vx3N
Nt may cause insulation failure3 contact melt3 contact failure3 relay
broken3 fire etc5
UN e-x+zv-~-|3}z 4-~3Ly. -.3 42z6v3z1.1v-.~+Mwv2zy yz3z1|z-3N
Nt might cause an electric shock or fire that will result in damage to this
product5
VN a. -.3 42z3}~24-~3v3/+vxz 6}z1z3}z1zv1z{+v,,vw+z.1
z7/+.2~5z|v2L}4,~y~38Ly~1zx31v83}z 24-L1vy~v-3 }zv3L
5~w1v3~.-L~,/vx3z3xN
Nt may cause a fire or explosion5
WN a. -.3 ~-{+.6 y423 .1 6~1zy1z|2~-3. ~-2~yz .{3}~24-~3N
Nt may cause a fire or mechanical trouble5
XN j+zv2zx.--zx3 /1./z1+8 v{3z1x}zx*~-|3}z /.+v1~38 .{,zv241~-|
3z1,~-v+2N
Nt may cause a fire or explosion5
g^ho^f
Qain circuit
Wensor circuitWensor circuit
Wensor circuit
Qain circuit
H
-Tlease keep these instructions and review them before using this unit5
-Tlease observe the cautions that followB
Werious injury may result if instructions are not followed5
Troduct may be damaged3 or injury may result if
instructions are not followed5
-Xhe following is an explanation of the symbols used in the operation
manual5
cautionANnjury or danger may occur under special conditions5
H
H
H
8875;
?@5<
8;5@
275?
47
275=
47
=
=?@5<
87=
;<
875<
87@
@=
;?
*
/3-1, .,2,0
?7mF
M
M
M
757<675<68696;6?sec5/Xhe same as update output cycle0
NQode K83 K93 K>3 K?3 K@3 K87 A K5W5 }757<. rdg }8Iigit
NQode K:3 K;3 K<3 K= A K5W5 }7578. rdg }8Iigit
<digit/48@@@@ to @@@@@0
Rumber of revolution6Wpeed6Krequency/K803 Tassing speed/K903
Hycle/K:03 Tassing time/K;03 Xime width/K<03 Xime difference
/K=03 Fbsolute rate/K>03 Jrror ratio/K?03 Iensity/K@03 Jrror/K8703
Pength measurement/K8803 Nnterval/K8903 Nntegration/K8:0
NPock setting function NQonitoring delay function
NFuto4^ero time setting function NXime unit selection function
NHurrent output range selection/Hurrent output type only0
NHomparative output function/MM3 M3 LS3 P3 PP0
NIeviation memory function/K output mode applied only0
NTeak value monitoring value
NVemote6Pocal switching function/Hommunication output type only0
NIata Gank switching function
NQemory protection function/Qode K8: applied only0
@7 to 887. of rated voltage
> Wegment PJI/^ero Glanking0
[> ~ M8;mm
4@ @
Iirect input method/757778~87 to @5@@@@~87 0
NQode K83 K93 K>3 K?3 K@3 K87 A 75777<Mz to <7kMz
NQode K: A 7579s to :3977s
NQode K;3 K<3 K= A 7578s to :3977s
NQode K883 K893 K8: A 7 to ; ~87 Hount
@
7 to @@@@ -8
;<
Mirose connctorA MNK:GF487TF495<;V
/Xhere is no connector in indicator50
Wub terminal
/Xhere is no connectorin indicator50
Glack Glack Glue Grown
-8
:n}z vw.5z2/zx~{~xv3~.- v1z x}v-|zvw+z6~3}.43 -.3~xz v-83~,zN
:jhj ./z-x.++zx3.1 .43/43Zi/3~.-
-8A TSP signal is SR when it is /40 display value
QRSTUVWXY
NRF |
WSYVHJ
87749;7ZFH
<76=7Mz =ZF
GFRO
7Z
MSPI6VJWJX
NRG 289Z
7Z
-TSP signal is SR when it is /40 display value
QT<[
;5<k<
>RTR voltage
output type sensor
?RTR SNH output
type sensor
=Hontact
QT<[
;5<k<
>TRT voltage
output type sensor
?TRT SNH output
type sensor
=Hontact
GTanel cut4out
/YnitAmm0
@9
;=
Qin5 <9
Qin5 88=
t`.--zx3.1 38/zu
tnz1,~-v+ 38/zu
qv1-~-|
`v43~.-
89ZIH }87.3 ?7mF
Tower supply
Tower consumption
87749;7ZFH <76=7Mz
9777ZFH =7Mz 8minute/Getween terminals of FH power and
case3 Getween terminals of FH power and measuring terminals0
Nmpulse noise strength
Qin5 877Q</at <77ZIH megger0 between terminal and case
}9777Z the square wave noise/pulse widthA8;0
by the noise simulator
gjUqWeries
Fpprox5 9:7g
Tower for external
sensor
Qeasuring accuracy
/9: }<,0
Qax5 indication
Speration mode
Mysteresis
Sther functions
Qemory Ron4volatile memory/Nnput times A 8773777 times0
Fllowable operation
voltage
Iisplay accuracy
Iielectric strength
Nnsulation resistance
Qechanical
Ynit weight
Qalfunction
Zibration
Whock Qechanical
Qalfunction
:77m6sE/Fpprox5 :7L0 : times at \3 ]3 ^ direction
877m6sE/Fpprox5 87L0 : times at \3 ]3 ^ direction
75<mm amplitude at frequency of 87 to <<Mz
in each of \3 ]3 ^ directions for 87 minutes
75><mm amplitude at frequency of 87 to <<Mz
in each of \3 ]3 ^ directions for 9 hour
Qeasuring range
Fpprox5 Qax5 =ZF
NWolid state input A Qax5 <7kMz/Tulse widthAQin5 87;0
NHontact input A Qax5 ;<Mz/Tulse widthAQin5 88ms0
Nnput frequency
Nnput level
Iisplay method
Hharacter size
_Zoltage input` MighA;5<49;ZIH3 PowA748ZIH3
_Ro4voltage input` Vesidual voltageAQax5 8Z
Qain
output
Wub
output
RTR open collector
quintuple output
TRT open collector
quintuple output
8949;ZIH :7mF Qax5
GHI Iynamic
TZ transmission
VW;?< com5
RTR open collector 8949;ZIH 97mF Qax5
:9 channels3 Qutral direction communication function
IH;497mF Poad =77<Qax5/Vesponse timeA Qax5 ?77ms0
:< to ?<.VM3 Wtorage humidityA :< to ?<.VM
Fmbient
temperature 487to<7,3 Wtorage temperatureA 497 to =7,
-Hondition for use in environment is no freezing or condensation5
-8A Xhe hysteresis setting range is changed by the setting position of decimal point5
Fmbient
humidity
Jnvironment
Pow speed serial output RTR open collector 8949;ZIH 97mF Qax5
9<7ZFH :F resistive load :a
Trescale function
Xriple6Uuintuple relay
Velay life cycle Jlectrical
Qechanical Qin5 8737773777 operations
Qin5 8773777 times at 9<7ZFH :F/resistive load0
-8
Ntem
Sutput
Wize
gj U q T
Tower supply
h
U@@@@@/< Iigit0
gj Tulse meter
qINR [@= ~ M;?mm
T877|9;7ZFH <76=7Mz
h
Q
Nndicator
Velay five4stage/MM3 M3 LS3 P3 PP0
Velay three4stage/M3 LS3 P0
^
Iigit
R
S
T
RTR open collector quintuple output
TRT open collector quintuple output
RTR open collector quintuple output
GHI Iynamic
U
V
W
X
Y
TRT open collector quintuple output
RTR open collector quintuple output
TRT open collector quintuple output
RTR open collector quintuple output
TRT open collector quintuple output
GHI Iynamic
Pow speed serial output
VW;?< communication
TZ transmission output
/IH;4<7mF0
TZ transmission output
/IH;4<7mF0
Pow speed serial output
VW;?< communication
Qain output
/Homparative value output0
Wub output
/Iisplay value output0
Krequency of input G_Mz`
~
G:
/Krequency of input F_Mz`
~
F:0 2 /Krequency of input G_Mz`
~
G:0
<i/z1v3~.- ,.yz
;g.yz cQIc1z04z-x8Oh4,wz1.{1z5.+43~.-Om/zzyJ
Xhis mode is to display calculated frequency or number of revolution3 speed by
measuring frequency of Nnput F3
80Krequency/Mz0 D f
~
:/:D 8_sec` 0
90Rumber of revolution/rpm0 D f
~
:/:D =7_sec` 0
:0Wpeed/m6min0 D f
~
:/:D =7P_sec` 0
-P D Xhe length of conveyor moved for 8 pulse cycle_m`
G
Iisplay value and display unit
Iisplay value Iisplay unit
Krequency
Rumber of
revolution
Wpeed
Mz
kMz
rps
rpm
mm 6 sec
cm 6 sec
m 6 sec
m6min
km 6 hour -Iisplay unit of factory
default A rpm
G
Xime chart
t8 t9 t: t; t< t=
Nnput F
Mold input
Iisplay
-:A Trescale value
;g.yz cRIjv22~-|2/zzyJ
Nt displays the passing speed between SR of input F and SR of input G5
Tassing speed/Z0 D f
~
:/:D P_m` 0
-f A Xhis is reciprocal number of the time between SR of input F and SR of input G
P A Xhe distance between input F and input G_m`
G
Iisplay value and display unit
Tassing
speed
mm 6 sec
cm 6 sec
m 6 sec
m6min
km 6 hour
G
Xime chart
Nnput F
Mold input
-:A Trescale value
ta A Nt needs min5 97ms for return time
Nnput G
ta
t8 t9 t: t; t< t= t>
Iisplay
8
t8 ~
:
8
t9 ~
:
8
t; ~
:
8
t> ~
:
;g.yz cSI`8x+zJ
Nt displays the time from when input F is SR to the next SR of input F5
Hycle/X0 D t
-t A Qeasurement time_sec`
G
Iisplay value and display unit
Hycle
WJH
G
Xime chart
-t83 t93 t:3 t;3 t<3 t= should be over 97ms then able to measure
QNR
@@@5@@sec5
@@@@5@sec5
@@min5
<@5@sec5
@hour <@min5
<@sec5
@@@@@sec5
@@@5@@min5
@@@@5@min5
@@hour
<@5@min5
@@@hour
<@min5
@@@@@min5
-Wet the display unit at the /Xime unit0 of Tarameter 95
-Iisplay unit of factory default A @@@5@@sec5
t8 t9 t: t; t< t=
Nnput F
Mold input
Iisplay t8 t: t=
;g.yz cTIjv22~-|3~,zJ
Nt displays the passing time of certain distance as measuring the time between SR
and the next SR of Nnput F5
G
Iisplay value and display unit
Iisplay value Iisplay unit
WJH
G
Xime chart
-:A Tresale value
QNR
@@@5@@sec5
@@@@5@sec5
@@hour <@5@sec5
@hour <@min5 <@sec5
@@@@@sec5
@@@5@@min5
@@@@5@min5
@@hour <@5@min5
@@@hour <@min5
@@@@@min5
t8 t9 t: t; t< t=
Nnput F
Mold input
Iisplay t8
~
:t:
~
:t=
~
:
;g.yz cUIn~,z6~y3}J
Nt displays the SR time of input F5
Xime width_X` D t
-t A SR measurement time of input F_sec`
G
Iisplay value and display unit
G
Xime chart
-ta A Nt needs min5 97ms for return5
-Wet the display unit at the /Xime unit0 of parameter 95
-Iisplay unit of factory default A @@@5@@sec5
t8
Nnput F
Mold input
Iisplay t8
~
:t:
~
:
Tassing
time
;g.yz cVIn~,z~-3z15v+J
Nt displays the time from input F is SR to input G is SR5
Xime difference/X0 D t/ta to tb0
-t/ta to tb0AXhe measurement time from input F is SR to input G is SR_sec`
G
Iisplay value and display unit
G
Xime chart
Nnput F
Mold input
-ta A Nt needs min597ms for return time5
Nnput G
ta
t8 t9 t: t; t< t= t>
Iisplay
t8 t9 t; t>
-tAQeasurement time_sec`
PAHertain distance_m`
;g.yz cXIb11.1 1v3~.J
Nt displays how many percentage/.0 faster or late of Nnput G against Nnput F5
G
Xime chart
Nnput F
Nnput G
fF
G
Iisplay value and display unit
Iisplay value Iisplay unit
Jrror rate .
-F:A Trescale value of input F
G:A Trescale value of input G
fG
-Mold A Mold signal is SR3 the display value will be held until hold signal is SKK5
;g.yz cYIaz-2~38J
G
Xime chart
Nnput F
Nnput G
fF
G
Iisplay value and display unit
Iensity .
-F:A Trescale value of input F
G:A Trescale value of input G
fG
-Mold A Mold signal is SR3 the display value will be held until hold signal is SKK5
;g.yz cQPIb11.1J
Nt displays the error between standard Nnput F and comparing Nnput G5
Jrror D Nnput G 4 Nnput F
Jrror D /Krequency of input G_Mz`
~
G:0 4 /Krequency of input F_Mz`
~
F:0
G
Xime chart
Nnput F
Nmput G
fF
G
Iisplay value and display unit
Jrror JRI Yser setting unit
fG
-Mold A Mold signal is SR3 the display value will be held until hold signal is SKK5
Iisplay D /Krequency of input G_Mz`
~
G:0 4 /Krequency of input F_Mz`
~
F:0
;g.yz cQQIfz-|3},zv241,z-3J
Nt displays the number of Nnput F pulse while Nnput G is SR5
Pength measurment D T
~
:/-T A Rumber of input F pulse3 :A Trescale value0
G
Xime chart
G
Iisplay value and display unit
Pength
measurment
Uuantity_JF`
-ta3 tb A Nt needs min5 97ms for return time
mm
cm
m
Nnput F
Mold input
Iisplay =
~
:;
~
:
89:;<= 89 89:;
ta tb
Nnput G
:5 GHI Iynamic output
=Sutput A Iisplay value
>Sutput signal A GHI Iata/F3 G3 H3 I3 ISX0 6FA Powest bit3 IotA Mighest bit
Iigit Iata/I73 I83 I93 I:3 I;0 6I7A Powest digit3 I;A Mighest digit
?Sutput type A RTR Spen Hollector
@Vated load voltage A 8949;ZIH
AQax5 load current A 97mF
Jx0 [hen display value is 89<5?@
;5 Pow speed serial output
=Sutput A Iisplay value
>Sutput signal A Hlock3 Iata3 Patch
?Hlock cycle A <7Mz
@Sutput Hlock bit A 9< bit
ASutput Iata bit A 9< bit
BSutput formA RTR Spen Hollector
CVated load voltage A 8949;ZIH
DQax5 load current A 97mF
=5 VW;?< communication output
=
FddressA7|@@address/:9 channel0
>Xransmission speed/
Gaud rate0 A 9;776;?776@=77 bps
?Xransmission code
A FWHKK
@
Tarity Git A Ro
A
Iata Git A ? Git
BWtop GitA8Git
CHommunication items
N
QT<[ 6TH A Homparative value of each bank data3 Trescale value and
Teak value3 VJWJX control
N
QT<[ 5TH A Homparative value of each bank data3 Trescale value and
Teak value3 Iisplay value
ta t9 t:ta
Nnput G4Nnput F
Nnput F
Nnput G
Nnput F 2 Nnput G
;g.yz cQRIe-3z15v+J
Nt displays the number of Nnput F pulse from Nnput G is SR to the time Nnput G is SR next5
Nnterval D T
~
:/-T A Rumber of input F pulse3 :A Trescale value0
G
Xime chart
G
Iisplay value and display unit
Uuantity_JF`
mm
cm
m
Nt displays the density rate of input G against total sum of input F and input G5
Iensity D
~
877_.`
Iensity D
~
877_.`
-F:A Trescale of input F
G:A Trescale of input G
Iisplay D
~
877_.`
:/Trescale value0
8
75778
8
=7
83777P
877P
P
=7P
:5=P
:/Trescale value0
83777P
877P
P
=7P
:5=P
Jncoder
-Iisplay unit of factory default A m6sec
QT<[
P A Iistance_m`
Lrn4TRT
SYX
]el4RTR
SYX
Ved4IH89
|9;Z
Gik4LRI
/SZ0
Grn4/Glk0
4I4SR
Grn4/Ved0
4P4SR
GX
:774IIX
QN
R
QF
\
FYXSRN
HW
OSVJ
F
QT<[
Lrn4TRT
SYX
]el4RTR
SYX
Ved4IH89
|9;Z
Gik4LRI
/SZ0
Grn4/Glk0
4I4SR
Grn4/Ved0
4P4SR
GX
:774IIX
QN
R
QF
\
FYXSRN
HW
OSVJ
F
QT<[
G]W<774
XIX9
GVRA
IH89|9;Z
GPJASYXTYX
[MXAW]RH5
TMSXS
WJRWSV
FYXSRNHW
OSVJF
Wensor F Wensor G
-Iisplay unit of factory default A @@@5@@sec5
-Wet the display unit at the /Xime unit0 of Tarameter 95
-Iisplay unit of factory default
A @@@5@@sec5
-Kactory default/Ynit0
A Uuantity_JF`
QT<[
Lrn4TRT
SYX
]el4RTR
SYX
Ved4IH89
|9;Z
Gik4LRI
/SZ0
Grn4/Glk0
4I4SR
Grn4/Ved0
4P4SR
GX
:774IIX
QN
R
QF
\
FYXSRN
HW
OSVJ
F
-Kactory
default/Ynit0
A Uuantity_JF`
QT<[
G
Welect operation mode from /mode0 of Tarameter 8 group5
G
Xhere are 8: kinds of operation mode in this unit5
<5 TZ transmission output/;497mFIH0
=Fpplication A Xo transmit the measured value
>Kunction A
Xhis function is to transmit ;497mFIH converted from measured display
value between Migh limit output/KW4M0 and Pow limit/KW4P05
?Vange of Migh6Pow limit output setting
NMigh limit setting range/KW4M0AKrom min5 to max within range of measurement
NPow limit setting range/KW4P0AKrom min5 to max within range of measurement
/KW4M should be over -8- bigger than KW4P0
@Vesistive load A Qax5 =77<
AVesolution A ?777 division
GWerial transmission time diagram
GIata output sequence when it is serial transmission
Whift
IT/<0
QWG/<0
PWG/<0
IT/;0
QWG/;0
PWG/;0
IT/:0
QWG/90
PWG/:0
IT/90
QWG/90
PWG/80
Wtart
97ms
97
;
<ms
Iecimal
point/<digit0
Iata
/<digit0
Iecimal
point/;digit0
Iata
/;digit0
Iecimal
point/:digit0
Iata
/:digit0
Iecimal
point/9digit0
Iata
/9digit0
Iecimal
point/8digit0
Iata
/8digit0
PWG/90
IT/80
QWG/80
KW4M
KW4P
Iisplay
value
;mF
97mF
Nf set KW4P and KW4M in certain section3
the output will be ;497mFIH5 8
Vevolution between KW4P and KW4M is
?7773 therefore if display value is narrower
than ?3777 the resolution will be low5 8
87 Iigit
;
87 Iigit 7
QR UN X Y
M
M
M
M
M
MPMM
MM
M
P
PM
M
MM PMMM
PP
MMM
M
MMM
MP
87 Iigit
;
87 Iigit 7
F
G
H
I
ISX
GHI
Iata
TZ Iisplay value
P
M
M
M
M
M
M
I7
I8
I9
I:
I;
Iigit
758ms
<ms >5?ms
:@ms
M
Lrn4TRT
SYX
]el4RTR
SYX
Ved4IH89
|9;Z
Gik4LRI
/SZ0
Grn4/Glk0
4I4SR
Grn4/Ved0
4P4SR
GX
:774IIX
QN
R
QF
\
FYXSRN
HW
OSVJ
F
G]W<774
XIX9
GVRA
IH89|9;Z
GPJASYXT
YX
[MXAW]RH5
TMSXS
WJRWSV
FYXSRNHW
OSVJF
P_m`
Qoving distance within 8pulse cycle_m`
Tassing time_sec` D t
~
:/:D0
;g.yz cWI^w2.+43z1v3zJ
Nt displays how many percentage/.0 faster or late3 speed3 volume etc5 of Nnput G
against input F0
Fbsolute rate D /Nnput G 6 Nnput F0
~
877.
Fbsolute rate D
~
877_.`
G
Xime chart
Nnput F
Nnput G
fF
G
Iisplay value and display unit
Iisplay value Iisplay unit
Fbsolute rate
Krequency of input G_Mz`
~
G:
Krequency of input F_Mz`
~
F:
.
-F:A Trescale value of input F
G:A Trescale value of input G
fG
-Mold A Mold signal is SR3 the display value will be held until hold signal is SKK5
Iisplay D
~
877_.`
Krequency of input G_Mz`
~
G:
Krequency of input F_Mz`
~
F:
-Iisplay unit of factory default A @@@5@@sec5
-Iisplay unit can be set at /Xime unit0 of Tarameter 95
Fbsolute rate D
~
877_.`
/Krequency of input G_Mz`
~
G:04/Krequency of input F_Mz`
~
F:0
Krequency of input F_Mz`
~
F:
Jrror rate D
~
877_.`
Iisplay D
~
877_.`
Thotoelectric sensor
Lrn4TRT
SYX
]el4RTR
SYX
Ved4IH89
|9;Z
Gik4LRI
/SZ0
Grn4/Glk0
4I4SR
Grn4/Ved0
4P4SR
GX
:774IIX
QN
R
QF
\
FYXSRN
HW
OSVJ
F
QT<[
Honveyer F
Honveyer G
-ta A Nt needs min5 97ms for return time5
Nnput F
Mold input
Iisplay
Nnput G
Lrn4TRT
SYX
]el4RTR
SYX
Ved4IH89
|9;Z
Gik4LRI
/SZ0
Grn4/Glk0
4I4SR
Grn4/Ved0
4P4SR
GX
:774IIX
QN
R
QF
\
FYXSRN
HW
OSVJ
F
Lrn4TRT
SYX
]el4RTR
SYX
Ved4IH89
|9;Z
Gik4LRI
/SZ0
Grn4/Glk0
4I4SR
Grn4/Ved0
4P4SR
GX
:774IIX
QN
R
QF
\
FYXSRN
HW
OSVJ
F
QT<[
Thotoelectric
sensor
F
G
QT<[
F Klow meter G Klow meter
Piquid
F Klow meter G Klow meter
Piquid
Lrn4TRT
SYX
]el4RTR
SYX
Ved4IH89
|9;Z
Gik4LRI
/SZ0
Grn4/Glk0
4I4SR
Grn4/Ved0
4P4SR
GX
:774IIX
QN
R
QF
\
FYXSRN
HW
OSVJ
F
Lrn4TRT
SYX
]el4RTR
SYX
Ved4IH89
|9;Z
Gik4LRI
/SZ0
Grn4/Glk0
4I4SR
Grn4/Ved0
4P4SR
GX
:774IIX
QN
R
QF
\
FYXSRN
HW
OSVJ
F
QT<[
Lrn4TRT
SYX
]el4RTR
SYX
Ved4IH89
|9;Z
Gik4LRI
/SZ0
Grn4/Glk0
4I4SR
Grn4/Ved0
4P4SR
GX
:774IIX
QN
R
QF
\
FYXSRN
HW
OSVJ
F
Wensor F Wensor G
Lrn4TRT
SYX
]el4RTR
SYX
Ved4IH89
|9;Z
Gik4LRI
/SZ0
Grn4/Glk0
4I4SR
Grn4/Ved0
4P4SR
GX
:774IIX
QN
R
QF
\
FYXSRN
HW
OSVJ
F
Iisplay value Iisplay unit
Iisplay value Iisplay unit
Iisplay value Iisplay unit
WJH QNR
@@@5@@sec5
@@@@5@sec5
@@hour <@5@sec5
@hour <@min5 <@sec5
@@@@@sec5
@@@5@@min5
@@@@5@min5
@@hour <@5@min5
@@@hour <@min5
@@@@@min5
Xime width
QT<[
Lrn4TRT
SYX
]el4RTR
SYX
Ved4IH89
|9;Z
Gik4LRI
/SZ0
Grn4/Glk0
4I4SR
Grn4/Ved0
4P4SR
GX
:774IIX
QN
R
QF
\
FYXSRN
HW
OSVJ
F
Lrn4TRT
SYX
]el4RTR
SYX
Ved4IH89
|9;Z
Gik4LRI
/SZ0
Grn4/Glk0
4I4SR
Grn4/Ved0
4P4SR
GX
:774IIX
QN
R
QF
\
FYXSRN
HW
OSVJ
F
Wtamp
Qotor
Iisplay value Iisplay unit
WJH QNR
@@@5@@sec5
@@@@5@sec5
@@hour <@5@sec5
@hour <@min5 <@sec5
@@@@@sec5
@@@5@@min5
@@@@5@min5
@@hour <@5@min5
@@@hour <@min5
@@@@@min5
Xime
interval
Iisplay value Iisplay unit
Iisplay value Iisplay unit
Iisplay value Iisplay unit
Iisplay value Iisplay unit
/Krequency of input G_Mz`
~
G:04/Krequency of input F_Mz`
~
F:0
Krequency of input F_Mz`
~
F:
Krequency of input G_Mz`
~
G:
/Krequency of input F_Mz`
~
F:02/Krequency of input G_Mz`
~
G:0
Nnterval
;
~
::
~
:
89:;8989:
ta ta
F
G
QT<[
QT<[
Honveyor G
QT<[
Honveyor F
87 Iigit 87 Iigit 87 Iigit
:98
8
t8 ~
:
8
t: ~
:
8
t= ~
:
Hlock
8 9 : ; < = > ? @ 87 88 89 8: 8; 8< 8= 8> 8? 8@ 97 98 99 9: 9; 9<
H8 H9 H:
Patch
HPO
ordering
Iata
I8
H9: H9; H9< H8 H9 H: H;
I9 I: I9: I9; I9< I8 I9 I: I;
Wegment
Iata ordering
Thotoelectric
sensor
Lrn4TRT
SYX
]el4RTR
SYX
Ved4IH89
|9;Z
Gik4LRI
/SZ0
Grn4/Glk0
4I4SR
Grn4/Ved0
4P4SR
GX
:774IIX
QN
R
QF
\
FYXSRN
HW
OSVJ
F
;g.yz cQSIe-3z|1v3~.-J
Nt displays the counting value against pulses of Nnput F5
Nntegration D T
~
:
-T A Tulse number of input F3 :A Trescale value
G
Speration and Xime chart
=Nt counts the number of input F pulse5
>Fs input G is an enable input signal it stops the counting and display value of input F
when it is SR and then it counts input F continuously when it is SKK5
G
Iisplay value and display unit
Nntegration Uuantity_JF`
Nnput F
Iisplay 7
89:;<=
Nnput G
89:;
VJWJX
89: ; < 7 89:;=
;c/Ieflection0 output mode_ `
Xhis function is to memorize the setting value and provide outputs when it exceeds the
deviation of M3 P5
GXhe setting value memory A Qemorize the current display value as the setting value by
pressing/ ga 230 key in front5
GIisplay the setting value A Hheck the memorized the setting value by / 30 key5
/Iisplay the memorized setting value for pressing 3key continuously50
GIeviation setting A Wet M3 P deviation by setting value5
/Xhe set deviation will be memorized until set the next deviation again when power off50
GIeviation setting range A 757778 to @@@@@/Xhe setting range will be changed by decimal point
setting parameter5 Nf set decimal point as 7777573 the setting range will be 758 to @@@@5@50
GSperation
-8A [hen select the comparative output limit function3 output will not be come5
-9A Sutput position may different from above graph as output coming under assuming
the setting value memory is before the setting value memory point on above graph5
-Xhere are no MM3 LS3 PP outputs in K output mode5
-Jven thought you set the deviation as -7/^ero0-3 it will actually work as setting -8-5
<i43/43 ,.yz
GWelect output mode in /output type0 of Tarameter8 group5
GXhere are < stages output/MM3 M3 LS3 P3 PP0 and : stage output/M3 LS3 P05
GXhere are = kinds of output mode such as W/Wtandard0 output mode3 M/Migh0 output
mode3 P/Pow0 output mode3 G/Glock0 output mode3 K/Sne shot0output mode3
K/Ieviation0output mode5
GHomparative value/MM3 M3 P3 PP0 can be set as PPCPCMCMM in G output mode and the other
outputs can be operated separately in output/ W3M3 P3 N0 mode regardless of comparative
/MM3 M3 P3 PP0 set value
;m/Wtandard0 output mode_ `
MM
M
P
PP
MM
M
LS
P
PP
Mys
Mys
Mys
Mys
Sutput MM A
Homparative value MM*Iisplay value
Sutput M A
Homparative value M*Iisplay value
Sutput LS A [hen there are no MM3
M3 P3 PP output3 it will
be SR5
Sutput P A
Homparative value P+Iisplay value
Sutput PP A
Homparative value PP+Iisplay value
Homparative
value
Sutput
;d/Migh0 output mode_ `
MM
M
P
PP
MM
M
P
PP
LS
Mys
Mys
Sutput MM A
Homparative value MM*Iisplay value
Sutput M A
Homparative value M*Iisplay value
Sutput P A
Homparative value P*Iisplay value
Sutput PP A
Homparative value PP*Iisplay value
Sutput LS A [hen there are no MM3
M3 P3 PP output3 it will
be SR5
Mys
Mys
;f/Pow0 output mode_ `
MM
M
P
PP
MM
M
P
PP
LS
Sutput MM A
Homparative value MM+Iisplay value
Sutput M A
Homparative value M+Iisplay value
Sutput P A
Homparative value P+Iisplay value
Sutput PP A
Homparative value PP+Iisplay value
Sutput LS A [hen there are no MM3
M3 P3 PP output3 it will
be SR5
Mys
Mys
Mys
Mys
;_/Glock0 output mode_ `
MM
M
P
PP
MM
M
LS
P
PP
Sutput MM A
Homparative value MM*Iisplay value
Sutput M A Homparative value M*
Iisplay value9Homparative value MM
Sutput LS A [hen there are no MM3
M3 P3 PP output3 it will be SR5
Sutput P A Homparative value PP9
Iisplay value*Homparative value P
Sutput PP A
Homparative value PP+Iisplay value
Mys
Mys
Mys
Mys
<jv1v,z3z1
Gjv1v,z3z1P|1.4/
Wub mode
Tarameter 7 K8 K9 K: K; K< K= K> K? K@ K87 K88 K89 K8:
\
\
Gjv1v,z3z1Q|1.4/
Wub mode
Tarameter 8 K8 K9 K: K; K< K= K> K? K@ K87 K88 K89 K8:
\
\
\\\\
\\\\\\\
111
\
\
\
\\
\\ \
\
\
\\
\\ \
\
\\
\
\\\ \\
\\\\\\
--1- A NR4b sensor will be set as nTn3 h3 K or TnT3 h3 K in mode K883 K893 K8:5
Gjv1v,z3z1R|1.4/
Wub mode
Tarameter 9 K8 K9 K: K; K< K= K> K? K@ K87 K88 K89 K8:
\\
\
\
\\
\
\
\\
\\
\
\
\\
\
\
\\
/Migh4limit0M deviation
SR
SKK
SR
SKK
SR
SKK
SR
SKK
Tower
Wetting value memory
P deviation output
M deviation output
Tress / ga 230 Oey at the same time
for memorizing the setting value
\\\\
\\\\\\\
\
\
\
\\
\\
\
\\
\\
\\
Gjv1v,z3z1S|1.4/
Wub mode
Tarameter : K8 K9 K: K; K< K= K> K? K@ K87 K88 K89 K8:
;O/Sne Whot0 output mode_ `
MM
M
P
PP
MM
M
LS
P
PP
Sutput MM A
Homparative value MM*Iisplay value
Sutput M A Homparative value M*
Iisplay value9Homparative value MM
Sutput P A Homparative value P*
Iisplay value9Homparative value M
Sutput PP A Homparative value PP
*Iisplay value 9P
-Xhere is no LS output in output Kmode5
-Sne Whot/ 0 output time has been fixed 75:sec5
-Xhere is no Mysteresis in K/Sne shot0 comparative output mode5
1[hen it is TZ transmission output3
it operates in all mode5
1[hen it is VW;?< communication output3
it operates in all modes5
Gg.-~3.1~-|yz+v8{4-x3~.- ./z1v3~.- x}v13 w8zvx} .43/43 ,.yz
Homparative output
adjustment function5
Wtarting correction
timer function
Gjv1v,z3z1P|1.4/
<i/z1v3~.- x}v13 w8zvx} jv1v,z3z1|1.4/
ga
ga
ga
ga
ga
ga
GK83 K93 K>3 K@3 K883 K893 K8:
A 7 to @@@@@
GK: to K=
A 7 to Wetting time range
GK?3 K87 A 48@@@@ to @@@@@
ga
ga
Gjv1v,z3z1Q|1.4/
ga
ga
ga
ga
ga
ga
ga
ga
ga
ga
ga ga
334
Nt sets the memory retention5
Xhe measuring value will
be memorized when the
power off5 /Qode K8: only0
Wet the Futo4zero of
NRG input5
Welect the start
compensating timer
function or comparative
output/P3 PP0 limit
function5 -:
NTRT transistor
output type A
NHontact output
type/P output0 A
NRTR transistor
output type A
NHontact output
type/M output0 A
ga
ga A Kix and move to the next parameter
A Kix and move to the next parameter
ga
ga
7A Qove the setting digit
433A Hhange the setting value
A Kix and move to the next parameter
ga
ga
> 7 A Qove the setting digit
433A Hhange the setting value
A Kix and move to the next
parameter
ga
7A Qove the setting digit
433A Hhange the setting value
A Kix and move to the next parameter
ga
7A Qove the setting digit
433A Hhange the setting value
A Kix and move to the next parameter
ga
433A Hhange the
setting mode
A Kix and move to the next
parameter 5
ga
ga
\\ \
1:D8 display value
Wetting value
/Pow4limit0P deviation
GXhe display parameter are different by each operation mode3 please see
-<jv1v,z3z1-5
GA [hen select the operation mode3 the parameter will be displayed5
\ A [hen select the operation mode3 the parameter will not be displayed5
ga
ga
QT<[
SY
X
WJR
W
_gmSPPM
aanMh
OSVJ
F
jdini
mqen`
SYXT
YX
7
Z
2IH89|9;
Z
VJ
I
GP
O
[M
X
LV
R
QSI
J
P5
SR
I5
SR
Homparative
value
Sutput
Homparative
value
Sutput
Homparative
value
Sutput
Homparative
value
Sutput
Iisplay value Iisplay unit
ga
[hen is flickering
by 8sec5 cycle3 set the
starting correction time
to 5
ga
-8A UVSR T3npbY t are displayed in mode K83 K93 K;3 K883 K893 K8:5
Ffter displaying for 9sec5 then
advance to automatically5 Tressing
key before 8sec5 it will move to 5
np}__
np} _
np} j
np}jj
^ndi
yndi
kmcd
hlX`
hlXa
mrqXq
_tp
fs`|c
`sqz`
`sqza
kdkm
xcdet
pq`|q
{a`li
cmq
}slq
np}__
np} _
np} j
npwug
npwvg
npwvt
np}jj
npwut
chp{q
-8
-8
epX_
epXj
`cco
anp
odkmq
jmb
msqXq pq`oc msqX_ msqXj msqXa msqX[ msqXe
-Nf press key for : sec5 in loh3 it will enter into parameter 8 group5
-8A Nt will not be displayed in indication type5
Xhe output mode is fixed as type in K8: operation mode5
-9A Mysteresis operation mode is able to be set in K83 K> to K87 operation mode5
-:A ]ou are able to select the comparative output_ ` limit function or starting correction_ ` timer in monitoring delay function mode5
[hen selecting the comparative output limit_ ` function3 it will move to the next parameter_ ` and when selecting the starting correction timer_ ` you need to be
set the starting correction time_ | ` so that it moves to the next parameter_ `5
-Nf press key for over 9 sec5 in every setting mode3 data will be set and return to loh5
-[hen entering into parameter 8 group3 the parameter name and data will be flickering by 8 sec5 then move setting digit by 7key or change the setting value by 43key5
-Fll data set by users will be shown_displayed` to 8sec5 cycle then move to the next parameter by pressing key5
433A Hhange the
setting mode
A Kix and move to the next parameter
to
A Kix and move to the next
parameter
=433A Hhange the setting mode
Qenu and Tarameter display Tarameter Wetting range Wetting key
Wet M comparative value
Wet P comparative value
Wet PP comparative value
Wet MM comparative value
Iisplay high peak value among
measuring values
Iisplay low peak value among
measuring values
GVeset
Nf you press 7key for 9sec5 while or
is flickering3 the Teak value display will
be reset to the current measuring value and it
will keep flickering5
Nf you touch once again3 it will return to
or loh5
ga n.4x}
{=
>
{
Welect operation mode5
Wet the sensor type of
input F5
Wet the sensor type of
input G5
Welect the output mode5
-8
Wet the Futo4zero time
of NRF input5
Wet the hysteresis for the
output5 -9
Xhis is parameter 8 group5
>[hen select
A Qemory retention
A Ro memory retention
/Nf decimal point is
set in 3 the range will
be to 5
433A Hhange the sensor type
433A Hhange the setting mode
-8A Nf you press key in loh mode3 it will enter into /K output modeA 0 at comparative output mode and at indication type5
-[hen entering into parameter 73 the parameter and data will be flickering by 8 sec5 then moving the setting digit and changing the setting value are available5
-Nt will show the set data to flicker by 8sec53 then move to next Tarameter with touching key once5
-9
-8
ga n.4x}
-87A Qove the setting digit
433A Hhange the setting value
A Kix and move to the next parameter
Qenu and Tarameter display Tarameter Wetting range Wetting key
to
to
to
ga /1z22 S2zxN
to
=6
loh
loh
<c4-x3~.-
;g.-~3.1~-|{4-x3~.-
Xhis function is to save Migh Teak value/ 0 or Pow Teak value/ 0 against display
value5
GYser can check saved value in Tarameter 7 group5 Fnd Migh Teak value/ 0or
Pow Teak value/ 0 will be continuously saved during checking5
GWee Tarameter 7 for Veset5
;d823z1z2~2{4-x3~.-
Wet the Mysteresis value/F0 for comparative setting value in order to prevent unstable
operation due to output going SR6SKK frequently5
<gv~- /1.y4x32
Gjv1v,z3z1S|1.4/
loh
ga
ga
ga
ga
ga
ga
ga
ga
Gjv1v,z3z1R|1.4/
loh
ga ga
34
ga ga
ga
ga
ga
ga
ga
ga
ga
ga
ga
ga
ga
333 3 3
Xhis is parameter 9 group5
Welect Iata bank5
Wet decimal point position
of display value
Nt will be displayed in K:3
K;3 K<3 K= operation mode
and set the time unit5 /.80
=Welect the time unit
>Welect the time range
Wet the comparative
value MM5
Wet the comparative
value M5
Wet the comparative
value P5
Wet the comparative
value PP5
Wet the prescale value of
input F mantissa/\05
Wet the prescale value of
input F an exponent/y05
Wet the prescale value of
input G mantissa/\05
Wet the prescale value of
input G an exponent/y05
Welect the display cycle5
8 A Iata bank 8
9 A Iata bank 9
to
to
to
to
ga
ga
7A Qove the setting digit
433A Hhange the setting value
A Kix and move to the next parameter
ga
7A Qove the decimal point
A Kix and move to the next parameter
ga
7A Qove the setting digit
433A Hhange the setting value
A Kix and move to the next parameter
ga
7A Qove the setting digit
433A Hhange the setting value
A Kix and move to the next parameter
ga
7A Qove the setting digit
433A Hhange the setting value
A Kix and move to the next parameter
ga
ga
433A Hhange
setting value
A Kix and move to the
ga
=433A Hhange the setting mode
A Wave
ga
>433A Hhange the setting value
/sec50
/min50
A Kix and move to the next parameter
ga
ga
ga
ga
ga
ga
to /:9 channel0
-[hen the output mode is W
output mode3 the setting
value of MM3 M3 P3 PP are not
effected by each other5
Xherefore MM value may be
equal or lower than PP value5
-]ou are able to set -7-3 but when set -7-3 the actual operation will be as -8-5
-Xhe initial setting value is 77785
-]ou are able to set in the Tarameter 8 group5
ga
ga
;g.-~3.1~-|yz+v83~,z2{4-x3~.-
Xhis function is for the stable control to limit
P3 PP outputs until certain output is come or
to limit all outputs while the equipment is
reaching a stable status against various
change of input such as the staring current
when the motor is running after power on5
Xhere are the starting correction timer function
and comparative output limit function in the
monitoring delay function5
GXhe starting correction timer function
Xhis function is to make the output not come
out during the setting time5 /Xime setting range 757 to @@5@sec50
GHomparative output limit function/PP3 P output limit function0
Fpplicable output modeA W3G3K mode/Wee -<i43/43 ,.yz-0
Xhis function is to limit the PP3 P output before M or MM output5
<`v43~.- {.1 42~-|
ga
:e3,v8xv42z,v+{4-x3~.- ~{ vw.5z~-2314x3~.-2 v1z-.3 {.++.6zyN
7A Qove the setting digit
433A Hhange the setting value
A Kix and move to the next parameter
ga
ga
ga
ga
ga
-fANnput pulse
/Krequency0 per sec5
-:ATrescale value
-RATulse number per
8 revolution
GMow to set prescale value/:D8<0
Wet prescale value separating as a mantissa/\0 and an exponent/]0 at 3
/or 305 Kor example3 prescale value/:0D8<3 a mantissa/\0A85<7773 an
exponent/]0A785 Sr if set :value as D758<773 D79 then also get the
same display value5
Ffter displaying for 9sec5 then
advance to automatically5 Tressing
key before 8sec5 it will move to 5
;f.x*2z33~-|{4-x3~.-
Xhis function is to set the enable or disable of each Tarameter and mode changes in QT<[5
VTQDf~:
Df~=7~86R
Df~=7~86;
Df~=7~759<
Df~8</:D8<0
Homparative
setting value
M3 MM
Sutput M
Sutput P
F
F
FAMysterisis value
Homparative
setting value
P3 PP
ISX position
77777
777757
777577
775777
Wetting range
7777 to @@@@
77757 to @@@5@
77577 to @@5@@
75777 to @5@@@
757777 75777 to 75@@@@
;j1z2xv+z{4-x3~.-
Xhis prescale function allows you to multiply the number of pulse or pulse length by
a variable/\ 1 87 0 then display a specific unit or a certain double number5
Nt will display frequency or VTQ from prescale value/:0 by measuring the input F
frequency5 Kor example3 the prescale value when need to display the VTQ as below5
Qonitoring delay
time
Homparative
setting value
P3 PP
Sutput Ro ouput Sut
put
80Xhe output mode is W output mode
Xhis point where the comparative
output limit function is released5
MM
M
P
PP
MM
M
LS
P
PP
Homparative
value
Sutput
-Xhe comparative output
will not come out when
it is operating/ 0 after
supplying power5
90Xhe output mode is G output
Xhis point where the comparative
output limit function is released5
-[hen output mode is G
output mode3 the setting
value should be
PPCP3MCMMinsequence
:0Xhe output mode is K output mode
-Xhe output mode is
K output mode3 the
comparative output
limit function will be
released at the setting
value/Wtandard setting05
MM
MM
Sutput
M deviation
M
Sutput
M
P
PP
Wetting value
P deviation
P
M
LS
P
PP
Homparative
value
Homparative
value
-Xhe comparative output
will not come out when it
is operating/ 0 after
supplying power5
;^43.Msz1. 3~,z2z33~-|{4-x3~.-
[hen you know the interval of input signal3 Futo4zero time should be set as a little
bit longer than that interval of input signal5 Nf there is no pulse input within setting
time/Futo4zero time03 it regards as the input signal is cut off then make the value
as -77777- forcibly5 Rote that the Futo4zero time setting should be longer than the
narrowest interval of input pulse5 Stherwise it may be difficult to make the display
value as -77777-5
GFuto4zero time setting range/758 to @@@@5@sec0
G[hen the display value is -77777-3 each output will respond to how it was programmed
for -7-5
y
QT<[
85 Nnstallation environment
=Nt shall be used indoor ?Tollution Iegree 9
>Fltitude Qax5 9777m @Nnstallation HategoryLJ
95 Tlease use separated line from high voltage line or power line in order to avoid inductive noise5
:5 Tlease install power switch or circuit breaker in order to cut the power supply5
;5 Xhe switch or circuit breaker should be installed near by users for safety5
<5 Io not use this unit at below places5
=Tlace where there are severe vibration or impact5
>Tlace where there are direct ray of the sun5
?Tlace where strong magnetic field or electric noise are generated5
=5 Wtorage method
[hen storing this unit for a long time3 please avoid the direct ray of the sun and keep this
unit under circumstances as 497 to 2=7,3 :< to ?<VM5
>5 Nnput line
Whield wire must be used when the measuring input line
is getting longer or there are lots of noises5
?5 Tlease put enough space between power line and
terminal of measuring input5
GYsing shield with two wires
MN
PS[
QT<
WNL
WJH
@@@5@@sec5
@@@@5@sec5
@hour<@min5<@sec5
@@min5<@5@sec5
@@@@@sec5
QNR
@@@5@@min5
@@@@5@min5
@@hour<@5@min5
@@@@@min5
@@@hour<@min5
Tlease turn off the power before detaching the case5
-Tush the side locks to direction =and then pull out
to direction >5
;`v2zyv3vx},z-3
;e--z1}v1y6v1zf.x*2z33~-|{4-x3~.-
Xhis function is to lock in Tarameter : group by Nnner hardware Pock mode in
order to prevent wrong setting5
;a~2/+v8x8x+z2z+zx3~.- {4-x3~.-
Xhis function is to change the display cycle in range of 757<675<68696;6? sec53 and
displays the average value of measuring value for the setting cycle5
;n~,z4-~32z+zx3~.- {4-x3~.-
Jnable to display TZ value with firmed time unit
in range of various time5
GXime unit selection function can be set in
parameter 9 group5
GFpplicable mode A Qode : to =
-Xhere is no ISX setting mode when set the
time unit display function5
;cvx3.18 yz{v4+3
-Xhe specification may not be displayed due to the operation mode
and output specification5
=
>
=
A Yse
A Rot use
Tarameter
mee
jmb Z
jmb [
jmb \
Tarameter
7 group
000 0
000
00
0
44 4 4
4
4
4
4
44
-4A Ynlock3 0A Pock
-Pock setting is available in
Tarameter : group5
Tarameter
8 group
Tarameter
9 group
Tarameter
: group
jmb ]
-Wetting pin for Pock setting is located on internal THG5
HheckA /3 HhangeA /
HheckA /3 HhangeA ~
HheckA ~3 HhangeA ~
h7
/Mardware Pock70
h8
/Mardware Pock80
h9
/Mardware Pock90
Tin Qode Vemark
Kactory
default
GTarameter 8 group
Qode Qode
Wetting
value
Wetting
value
GTarameter 9 group
Qode Qode
Wetting
value
Wetting
value
GTarameter : group
Qode Wetting
value
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2Troximity sensors 2Thotoelectric sensors
2Frea sensors 2Kiber optic sensors
2Ioor6Ioor side sensors 2Tressure sensors
2Hounters 2Ximers
2Votary encoders 2Iisplay units
2Tower controllers 2Wensor controllers
2Tanel meters
2Lraphic6Pogic panels
2Xemperature controllers
2Xachometer6Tulse/Vate0 meters
2Xemperature6Mumidity transducers
2Wtepping motors6drivers6motion controllers
2Paser marking system/HS
9
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2Paser welding6soldering system
;av3v_v-* 26~3x}~-|{4-x3~.-
Xhis function is to use the values by switching Iata Gank 83 9 after registering
comparative setting value and prescale value into Iata Gank8 and Iata Gank95
G[hen the : and < terminals are open circuited3 the comparative value and prescale
of Iata Gank 8 will be used5
G[hen the : and < terminals are short4circuited3 the comparative value and prescale
of Iata Gank 9 will be used5
GFfter selecting the Iata Gank for saving the comparative setting value and prescale
value3 set the comparative setting value and prescale value then it will be saved at
Iata Gank5
jMT
JT4J47;4797L
Wet the Migh4limit value of TZ
transmission output5
Wet the communication
Fddress5
Welect the communication
speed5
Welect the Vemote and the
Pocal5
-8
Wet the Pow4limit value of TZ
transmission output5
Jnable to lock the key for each
parameter group
Xhis is parameter : group5
-Nt will enter into parameter : if pressing key for <sec5 in loh mode5
-8A Nt is enable to set the remote or local function in communication output type5 [hen select the remote_ ` function3 the front keys are disabled5
-9A Tressing key at parameter :3 it will enter into or /option function03 /Nndication type only05
-Nf press key for over 9 sec5 in every setting mode3 data will be set and return to loh5
-[hen entering into the parameter : group3 the parameter name and data value will flicker by cycle/8sec505 Xhen move the setting digit by 7key and change the setting value by 43key5
-Xhe fixed data value by user in each parameter will flicker by cycle/8sec50 and move to the next parameter by pressing key5
ga j1z22
{.1 U2zxN
A Xhere is no key
lock in all mode
A Tarameter7 | : Pock
A Tarameter8 | : Pock
AT
arameter
9 | : Pock
AT
arameter
: Pock only
GK83 K93 K>3 K@3 K883 K893
K8:A7to@@@@@
GK:|K=
A 7 to Wetting time range
GK?3 K87 A 48@@@@ to @@@@@
7A Qove the setting digit
A Kix and move to the next parameter
A Kix and move to the next parameter
A Kix and move to the next parameter
A Kix and move to the next parameter
A Kix and move to the next 5
ga j1z22
{.1 T2zxN
GK83 K93 K>3 K@3 K883 K893 K8:
A 7 to @@@@@
GK: to K=
A 7 to Wetting time range
GK?3 K87 A 48@@@@ to @@@@@
=
>
{
{
/87 to 87 0
4@ @
/87 to 87 0
4@ @
433A Hhange the setting value
A Kix and move to the next parameter
-Nt will enter into parameter 9 if pressing key for ;sec in loh mode
*-/.80Nt will be displayed in K:3 K;3 K<3 K= operation mode only and
enable to select the time until as sec5_ ` or min5_ `in parameter5
Welect the time range after selecting the time unit as sec5_ ` or min5 _ `5
-Nf press key for over 9 sec5 in every setting mode3 data will be set and return to loh5
-[hen enter into the parameter 9 group3 the parameter name and data value will flicker by cycle/8sec505 Xhen to move the setting digit by 7key and change the setting value by 43key5
-Xhe fixed data value set by user in each parameter will flicker by cycle/8sec50 and move to the next parameter by pressing key5
Qove to 3 if press
key before 8sec5
ga j1z22 {.1
U2zxN -9
Iisplay for 9sec5 then
move to automatically
7A Qove the setting digit
433A Hhange the setting value
WJH
@@@5@@sec5
@@@@5@sec5
@hour
<@min5<@sec5
@@min5<@5@sec5
@@@@@sec5
QNR
@@@5@@min5
@@@@5@min5
@@hour<@5@min5
@@@@@min5
@@@hour<@min5
Qenu and Tarameter display Tarameter Wetting range Wetting key
Qenu and Tarameter display Tarameter Wetting range Wetting key
433A Hhange the setting value
433A Hhange the setting mode
433A Hhange the setting mode
433A Hhange the setting mode