Autonics CTS Series User manual
Hounter7Ximer
0Tower of load1
+aspni wxfxj syxtyx
031
051
Tower
for
load
0IH1
.Yse proper load and power for load
not to excess SR7SKK capacity
0 8ZIH Qax6 988mF max61 of solid
state output6
.Ge sure not apply reverse polarity of
power6
*[hen use inductive load0Velay etc14
surge absorber0Iiode4 Zaristor etc1
must be connected between both
side of the load6
*
+aspni wxfxj syxtyx hsrrjhxnsr
,]yxtyx hsrrjhxnsr
Poad
,Xrtyx hsrrjhxnsr
.Wolid state input
Wtandard sensorBRTR output type sensor
+Xrtyx pslnh O \sBzspxflj nrtyx>\^\?
.
Hontact input
+Xrtyx pslnh O dspxflj nrtyx>^\^?
7
8
*
7
8
*
8Z
7
8
*
7
8
*
7
8
*
7
8
*
R]c\bT DbX[T
Z_^ ^[]\[^
,atjhnknhfxnsrw ,Rsrrjhxnsrw
,Snqjrwnsrw
,]vijvnrl nrksvqfxnsr
W
:T
>
HX
W
<
.Wolid state input
Wtandard sensorBTRT output type sensor
.
Hontact input
Hounter7Ximer
Poad
,Uvsrx tfrjp nijrxnknhfxnsr
Weries
Iigit
Wingle preset
Nndicator
Qodel
IH power
FH power
Tower
supply
Fllowable voltage range
IH power
HTW of NRF4 NRG
Qin6 input
signal width
Hounter
Ximer
Nnput
Sne5shot output
FH power
Wolid5
state
Hon5
tact
Hontrol
output
Xype
Hapacity
Jxternal sensor power
Fmbient temperature
Ximer
Qemory retention
Nnsulation resistance
Iielectric strength
Zibration
Whock
Velay
life cycle
[eight
IH power
FH power
HXW
<
HX<W
HX<W5:T
9885:<8ZFH =87>8Mz
:<5>8ZIH
A8 to 998- of rated voltage0FH power type1
NndicatorBFpprox6 AZF4 Wingle preset . Iouble presetBFpprox6 98ZF
Nndicator . Wingle presetBFpprox6 =[4 Iouble presetBFpprox6 >[
Welectable 9cps4 8cps4 9kcps4 =kcps4 98kcps
Veset inputBWelectable 9ms or :8ms
NRF4 NRM4 Veset signalBWelectable 9ms or :8ms
Welectable voltage input or Ro5voltage input
_Zoltage input` Nnput impedance is =6<k04 ,M, level B =5 8ZIH4 ,P, level B 85:ZIH
_Ro5voltage input` Whort5circuit impedance B Qax6 9k04
Vesidual volatge B Qax6 :ZIH4 Spen5circuit impedance B Qin6 988k0
98 7 =8 7 988 7 :88 7 =88 7 9888 7 :888 7 =888ms
Wingle preset type B WTIX09c1
Iouble preset type B WTWX09a1 for first . second output
RSB:=8ZFH F resistive load4 RHB:=8ZFH :F resistive load
RTR open collector
Qax6 8ZIH4 Qax6 988mF
98 years
9:ZIH |98-4 988mF Qax6
= to @=-VM
Tower SR start B |8689- |868=sec
Wignal start B |8689- |868 sec
|:kZ the square wave noise0pulse widthB9/1 by the noise simulator
HX<WB
Fpprox6 9==g
HX<W5:TB
Fpprox6 9>:g
HX<WB
Fpprox6 9=:g
HX<W5:TB
Fpprox6 9=Ag
HX>W5WB
Fpprox6 9 >g
HX>W5WB
Fpprox6 9 g
Roise strength0FH power1
Iouble preset
Tower
consumption
Hapacity
Wtorage temperature
Fmbient humidity
>
HX>W
HX>W5:T
HX>W5W
HX>WB
Fpprox6 9==g
HX>WB
Fpprox6 9=:g
HX>W5:TB
Fpprox6 9>:g
HX>W5:TB
Fpprox6 9=Ag
QRS
MJ
bIisplay for processing value0Ved PJI1
Hounting value0Hounter17Trocessing time0Ximer1
7Wetting symbols
PJI heightB99mm for <digit4 98mm for >digit
cTreset value display0]ellow5Lreen PJI1
Treset value0Hounter17Treset time0Ximer1 and
setting symbols
PJI heightB@mm for <digit4 ?mm for >digit
dPSHO B Oey lock indication
eHRX B Nndication the operation of counter
fXQV B Nndication the operation of timer
5PJI flickers when the timer is processing
5PJI turns on when the processing time stops
gTW94 TW: B Hheck preset value and display
change of it
hSYX94 SYX: B Nndicating operation of output
iB Veset key
jB Qode key
a4 4 B Wet key
*Xhere is no g4hPJI in HX>W5WV
TW: will be changed to TW and SYX: is SYX6
Xhere is no TW94 SYX9 PJI in HX<W4 HX>W6
HSRXFHX SYXB
RSB:=8ZFH F
RHB:=8ZFH :F
VJWNWXNZJ PSFI
NRF
*
NRG7NRM
39:ZIH
988mF 8Z VJWJX
WSPNI WXFXJ
SYXB
8ZIH 988mF
RS HSQ RH
:<5>8ZIH
9885:<8ZFH
=87>8Mz
WSYVHJ
NRF 8Z VJWJX
WSYVHJ
39:ZIH
988mF
SYX9
SYX:
NRF
39:ZIH
988mF 8Z VJWJX
WSYVHJ
*NRG7NRM signal in HXW series
091Speration of HounterBSperating as NRG signal
0:1Speration of XimerBSperating as NRM signal
Nf the NRM signal applied during it is used as Ximer4
the processing time stops6 0Mold1
WSPNI WXFXJ
SYXB
8ZIH 988mF
SYX:
SYX
:<5>8ZIH
9885:<8ZFH
=87>8Mz
:<5>8ZIH
9885:<8ZFH
=87>8Mz
SYX
*
NRG7NRM
*
NRG7NRM
.Honnection of relay contact input in state of Ro5voltage
input0RTR1BHX>W
.Honnection of contact input in state of select voltaged
input0TRT1BHX>W
+Rsrxfhx syxtyx
Xhank you very much for selecting Futonics products6
Usv }syv wfkjx}A tpjfwj vjfi xmj kspps{nrl gjksvj ywnrlC
,Rfyxnsr ksv }syv wfkjx}
Trotection
Xype
= =
=
*[hen use HX<W5:T7HX>W5:T as Ximer4 unable to use it as double preset6
[P\cPZ
=Rfyxnsr
=efvrnrl
*Tlease keep these instructions and review them before using this unit6
*Tlease observe the cautions that followC
Werious injury may result if instructions are not followed6
Troduct may be damaged4 or injury may result if instructions are not followed6
*Xhe following is an explanation of the symbols used in the operation manual6
cautionBNnjury or danger may occur under special conditions6
=
=
=
efvrnrl
Rfyxnsr
FC Xr hfwj sk ywnrl xmnw yrnx {nxm qfhmnrjvnjw>\yhpjfv ts{jv hsrxvspA qjinhfp juyntqjrxA
zjmnhpjA xvfnrA fnvtpfrjA hsqgywxnsr fttfvfxywA jrxjvxfnrqjrx sv wfkjx} ijznhj jxh?A nx
vjuynvjw nrwxfppnrl kfnpBwfkj ijznhjA sv hsrxfhx yw ksv nrksvqfxnsr vjuynvjiC
Nt may result in fatal damage4 fire or human injury
GC bmnw yrnx qywx gj qsyrxji sr ^frjpC
Nt may give an electric shock6
HC Ss rsx hsrrjhx xjvqnrfpw {mjr nx nw ts{jv srC
Nt may give an electric shock6
IC Ss rsx inwfwwjqgpj fri qsink} xmnw yrnxA {mjr nx vjuynvjwC Xk rjjiwA tpjfwj hsrxfhx ywC
Nt may give an electric shock and cause a fire6
FC bmnw yrnx wmfpp rsx gj ywji syxissvwC
Nt might shorten the life cycle of the product or give an electric shock6
GC emjr {nvj hsrrjhxnsrA \sCGEPeV>ECJEqq:? wmsypi gj ywji fri whvj{ gspx sr xjvqnrfp
gpsho {nxm ECLI\oq xs ECNE\oq wxvjrlxmC
Nt may result in malfunction or fire due to contact failure6
HC ^pjfwj sgwjvzj wtjhnknhfxnsr vfxnrlC
Nt might shorten the life cycle of the product and cause a fire6
IC Ss rsx ywj xmj psfi gj}sri vfxji w{nxhmnrl hftfhnx} sk jpf} hsrxfhxC
Nt may cause insulation failure4 contact melt4 contact failure4 relay broken4 fire etc6
JC Xr hpjfrnrl xmj yrnxA is rsx ywj {fxjv sv fr svlfrnh wspzjrxwC
Nt might cause an electric shock or fire that will result in damage to the product6
KC Ss rsx ywj xmnw yrnx fx tpfhj {mjvj xmjvj fvj kpfqqfgpj sv j|tpswnzj lfwA myqninx}A invjhx
vf} sk xmj wyrA vfinfrx mjfxA zngvfxnsrA nqtfhx jxhC
Nt may cause explosion6
LC Ss rsx nrkps{ iywx sv {nvj ivjlw nrxs nrwnij sk xmnw yrnxC
Nt may cause a fire or mechanical trouble6
ISHRDF
^aG
IOTNSKQESLMKQ
^aF
QRS MJ
]cbF
Z]RY ]cbG R\b b[
j
g
d
h
i
b
c
f
e
a
ISGRDF
^aG
IOTNSKQESLMKQ
QRS MJ
^aF
Z]RY ]cbG R\b b[
]cbF
j
g
d
h
i
b
c
f
e
a
ISHRDF
^aG
IOTNSKQESLMKQ
^aF
QRS MJ
]cbF
Z]RY ]cbG R\b b[
*bmj fgszj wtjhnknhfxnsr fvj hmfrljfgpj {nxmsyx rsxnhj fr}xnqjC
Hounting speedB
9 or 8cps setting0Hounter1
Wensor Hounter7Ximer
0RTR voltage
output1
39:Z
8Z
0HXW Weries1
=6<k0
Nnner
circuit of
input part
0RTR open
collector output1
8Z
39:Z
8Z
39:Z
8Z
39:Z
8Z
39:Z
=6<k0
8Z
39:Z
0HX>W5:T4 HX>W
HX<W5:T4 HX<W1
=6<k0
=6<k0
=6<k0
=6<k0
0HX>W5:T4 HX>W
HX<W5:T4 HX<W1
*NRF0514 NRG7NRM0614 VJWJX091 input part
Wensor Hounter7Ximer
0HXW Weries1
Nnner
circuit of
input part
0HXW Weries1
Nnner
circuit of
input part
Hounter7Ximer
Wensor Hounter7Ximer Wensor Hounter7Ximer
Nnner
circuit of
input part
Nnner
circuit of
input part
0TRT voltage
output1
0HXW Weries1 0TRT open
collect output1
0HXW Weries1
Nnner
circuit of
input part
Hounter7Ximer
0HXW Weries1
Hounting speedB
9 or 8cps setting0Hounter1
<@
<@
>8
?@ 9:
<=
.
Tanel cut5out
0YnitBmm1
98
988
<=6=
386=
58
Qin6 >:
Qin6 ==
<=6=
386=
58
.I Snlnx
.K Snlnx
+RbIaA RbKa +RbIaBG^A RbKaBG^
FGHIJ
KLMNFE
{
FF FG
35
HSRXFHX SYX94 SYX:B
:=8ZFH F
VJWNWXNZJ PSFI
FGHIJ
KLMNFE
{
FF FG
35
+RbKaB/
FGHIJ
KLMNFE
{
FF FG
35
KLMNFE
NRF NRG7
NRM
39:ZIH 8Z VJWJX
KLMNFE
NRF NRG7
NRM
39:ZIH 8Z VJWJX
>HX>W5:T
HX>W HX>W5W
<HX<W5:T
HX<W
Iigit
Hounter7Ximer
Qodel
Wingle preset
Nndicator
Treset
QodelQodel
Iouble preset
K
AAAAAA0Iigit1
INR size [<@}M<@mm
Rb G^a
AAAA0Iigit1
Hounter7Ximer
Wingle preset
Nndicator
Iouble preset
Vepeat error
Wet error
Zoltage error
Xemperature error
Qechanical
Qalfunction
Qechanical
Jlectrical
Qechanical
Qalfunction
598 to ==~0at non5freezing status1
5:= to >=~0at non5freezing status1*
Qin69848884888 times
Qin69884888 times0RSB:=8ZFH F resistive load4 RHB:=8ZFH :F resistive load1
Qin6 988Q00at =88ZIH1
:888ZFH =87>8Mz for 9 minute
88m7s:0Fpprox6 8L1 times at \4 ]4 ^ direction
988m7s:0Fpprox6 98L1 times at \4 ]4 ^ direction
86=mm amplitude at frequency of 98 to ==Mz in each of \4 ]4 ^ directions for 98 minutes
86?=mm amplitude at frequency of 98 to ==Mz in each of \4 ]4 ^ directions for 9 hour
WT>=0Kront panel only1
Hhange ,,< to ,:, by pressing
key twice6 Nt will be completed
to preset value and return to
VYR mode by pressing key6
,Ufhxsv} wtjhnknhfxnsr
,Rmfrlj stjvfxnsr qsij>RsyrxjvDbnqjv?
+]tjvfxnsr nr Rsyrxjv
VYR mode0Hounter1
Oey
seconds
Pock key0 1
Yp7Iown mode0 1
Nnput signal time0 1
,Xrtyx pslnh wjpjhxnsr
96 Xhe power must be cut off6
:6 Ietach the case from body6
9B8A57?
9>C=B:@6B;<:@
[PSTX\Y]TP
EdSR
a]cRT
FEEBGIEdPR
JEBKEW~
FEdP
=
]cbG
HEdSR
FEEqP
]cbF
GJEdPR
GPFf
]cbG
GJEdPR
GPFf
TaTb
FGdSRFEEqP
0
X\QDX\W
X\P
FGHIJ
FG
KLMNFE
FF
1
2
1
2Hase detachment
Ffter push toward 1and pull toward 2as
like picture6
@@ ^pjfwj hmjho nk xmj ts{jv hyx skk== @@
6 Welect input logic by using input logic W7[ inside of Hounter7Ximer6
<6 Tlease assemble opposite way of the case detachment6
=6 Xhen apply the power to Hounter7Ximer6
TnT
[S
[S
SYX: output time0 1
Pock key0 1
Qaximum counting speed0 1
Sutput mode0 1
Nnput logic0 1
Qinimum reset time0 1
Iecimal point0 1
Qemorize counting value0 1
Hounter7Ximer0 1
Nnput mode0 1
[S
[S
[S
[S
[S
[S
[S
[S
[S
[S
[S
Kree scale value0 1
[S
[S
[S
[S
[S
[S
[S
Xime range
Sutput time0 1
Sutput mode0 1
[S
[S
[S
[S
[S
VYR mode0Ximer1
Oey
seconds
[S Oey
seconds
[S Oey
seconds
[S
Kunction setting mode0Hounter1
Nnput logic0 1
Hounter7Ximer0 1
Kunction setting mode0Ximer1
*Ffter selecting Ximer in Hounter7Ximer of
Hounter function setting mode4 if press
for more than sec64 it will move to Ximer VYR
mode6
Ffter select Hounter in Hounter7Ximer of Ximer
function setting mode4 if press for more
than sec64 it will move to Hounter VYR mode6
*Nf press for more than sec6 in VYR mode4
it will move to function setting mode6
Nf press for more than sec6 in function
setting mode4 it will move to VYR mode6
Nf no key touched more than >8sec64 it will
move to VYR mode6
+]tjvfxnsr nr bnqjv
SYX9 output time0 1
,Ws{ xs wjx Zsho oj}
Ge sure to set the lock mode in order to protect malfunction by unauthorized keypad6
0PSHO SKK1 B Hancellataion of the lock mode
0PSHO PJZJP 91 B Pock key
0PSHO PJZJP :1 B Pock , , . , , . , , key
0PSHO PJZJP 1 B Pock , , . , , . , , . , , key
QRS
QRS
,Tvvsv hsij inwtpf}
Jrror display Jrrors Sutput status Mow to return
HTY error Iouble preset typeBSYX94 SYX: are SKK
Wingle preset typeBSYX is SKK VWX key4 VJWJX input
W[9
Nnput
logic W7[
,^vjwhfpj kyrhxnsr
Xhis function is to set and indicate calculated unit for actual length4 liquid measure4 position etc6
it is called ,Trescale value, for measured length4 measured liquid4 measured position4 etc per 9
pulse6
Kor example1Tulse number T is number of pulses per 9 revolution of rotary encoder6 P is the
desired length to be measured6 Trescale value is desired length P7pulse number T
generated by the rotary encoder6 Nt is the length measured per 9 pulse6
+Hontrol length by the counter and the rotary encoder
868>Amm7pulse
69<9> \ ::
9888
_Iiameter of the Tulley connected with
the encoder is ::mm4 pulse number
of encoder per 9revolutionB9888`
Nt is possible to control conveyor as 869mm unit to
set 868>A for Trescale value by pressing setting key
in state of prescale value setting in function setting
mode6 Iecimal point should be set the first decimal
place in function setting mode6
,Rmfrlj sk tvjwjx zfpyj nr bnqjv stjvfxnsr
+Xr xmj hmfrlj xmj xCsUU xnqj kvsq HEwjhC xs JEwjhC fri xmj xCsr xnqj kvsq IEwjhC
xs GEwjhC 0Sutput mode B KPO4 Xime range B tr5:1
ln
km
*Nn state of changing preset value4 if no key is touched for >8 sec64 the timer will return to the VYR
mode6
MJ
Rmfrlj
tvjwjx
xnqj
VYR
mode
MJ MJ MJ
xCsUU
hmfrlj
tvjwjx xnqj
xCsr
hmfrlj
tvjwjx xnqj
Hhange , , to ,=, by pressing
key twice6 Wet ,t6oKK, time
as pressing key which enters
,t6on, mode automatically6
Xhe first digit flickering6
Tressing key to enter the
state of changing preset
time6 Xhe right first digit
flickers6
Whift the flickering digit to
, , position by pressing
key twice6
Whift the flashing digit to
,<, position by pressing
key twice6
VYR
mode
,Rmfrlj sk tvjwjx zfpyj nr Rsyrxjv stjvfxnsr
ln
km
Rmfrlj
tvjwjx
zfpyj
VYR
mode
MJ MJ MJ
*Nf the input signal in while changing preset value4 it controls the output and the counting function6
Nn state of changing preset value if no key is touched for >8 sec64 the timer will return to the VYR
mode6 Ffter change the preset value as ,8,4 there is key input or VJWJX input4 the output will be
maintained as SKK6
0Gut in state of the output mode is ,X,4 if change single preset value as ,8,4 the single output will be
maintained as SR61
QRS
Rmfrlj
wnrlpj
tvjwjx zfpyj
Rmfrlj
isygpj
tvjwjx zfpyj
Tress key to enter in
state of changing preset
value the prior preset
value is indicated and
the first digit ,=, flashes6
Hhange ,=, to ,8, by pressing
key = times4 and shift the
flickering0,?, flickering1digit
to the second digit by pressing
key once6
Hhange ,?, to ,@, by
pressing key once6
VYR
mode
Iouble preset model
0HX>W5:T4 HX<W5:T1
Wingle preset model
0HX>W4 HX<W1
Nndicator model
0HX>W5W1
Qodel
Wet item
Yp7Iown5H0Y7I5H1
K
Mold
988ms
8cps
:8ms
Ron decimal point
Ro5voltage input0RTR1
HPJr0Tower reset1
P6oKK0Pock SKK1
Nnput mode
Sutput mode
SYX:0SYX1
SYX9
HTW
Qin6 reset time
Iecimal point
Trescale value
Nnput signal mode
Hounting memory
Xime range
Yp7Iown mode
Sutput mode
Sutput time
HSYRXJV
Hounter7Ximer
Nnput method
Pock key
Hounter
Y0YT1
SRI0SR Ielay1
Mold
:8ms
XNQJV
>digit indication model0HX>W5:T4 HX>W4 HX>W5WU B 96888
<digit indication model0HX<W5:T4 HX<W1 B 9688
>digit indication model0HX>W5:T4 HX>W4 HX>W5WU B 8689s5AAAA6AAs
<digit indication model0HX<W5:T4 HX<W1 B 8689s5AA6AAs
Nt will be completed to preset
value and return to VYR
mode by pressing key6
MJ
MJ
nTn
*[hen use HX<W5:T7HX>W5:T as Ximer4 unable to use it as double preset6
ISHR
^a
IOTNSKQESLMKQ
QRS MJ
Z]RY ]cb R\b b[
ISHR
^a
IOTNSKQESLMKQ
QRS MJ
Z]RY ]cb R\b b[
ISHR
^a
IOTNSKQESLMKQ
QRS MJ
Z]RY ]cb R\b b[
ISHR
^a
IOTNSKQESLMKQ
QRS MJ
Z]RY ]cb R\b b[
ISHRDF
^aG
IOTNSKQESLMKQ
^aF
QRSMJ
]cbF
Z]RY ]cbG R\b b[
ISHR
^a
IOTNSKQESLMKQ
QRS MJ
Z]RY ]cb R\b b[
ISHR
^a
IOTNSKQESLMKQ
QRS MJ
Z]RY ]cb R\b b[
ISHR
^a
IOTNSKQESLMKQ
QRS MJ
Z]RY ]cb R\b b[
ISHR
^a
IOTNSKQESLMKQ
QRS MJ
Z]RY ]cb R\b b[
.Welect Ro5voltage input0RTR1 .Welect voltage input0TRT1
nTn TnT
2Trescale value D
D
D
.x Iiameter of the Tulley0I1
Tulse numbers per 9 revolution
of the encoder
+Ws{ xs hmfrlj nr xmj wnrlpj tvjwjx x}tjObs hmfrlj xmj wjx zfpyj kvsq FLJ xs FME
+Rmfrlj xmj tvjwjx zfpyj nr xmj
wnrlpj tvjwjx x}tj>RbKaA RbIa?
+Rmfrlj xmj tvjwjx zfpyj nr xmj isygpj
tvjwjx x}tj>RbKaBG^A RbIaBG^?
2[henever key is pressed in the state changing preset value4
the flickering digit shifts from the right to the left6
+Rmfrlj tvjwjx xnqj nr hfwj sk xmj syxtyx
qsij nw UZY
+Rmfrlj tvjwjx xnqj nr hfwj sk
xmj syxtyx qsij nw rsx UZY
2[henever key is pressed in the changing mode of the preset time4
the flickers digit shifts from the right to the left6
Qotor controlling
system
Hounter
Hutter
Votary
encoder
Qotor
Tulley
NRF B Ro counting input
0Pimit counting input of NRG1
NRG B Hounting input
,Xrtyx stjvfxnsr qsij ksv hsyrxjv
*[hen use F4G phase of encoder with connecting to NRF4 NRG4 please set counter input mode as phase
different input0Yd5H16
,]yxtyx stjvfxnsr qsij ksv hsyrxjv
,ajxxnrl sk hsyrxjv kyrhxnsr qsijw
Nnput mode Hounting chart
0Yp1
M
P
M
P
Hounting
value
8
NRG
NRF
Ro counting
89:
M
P
M
P
NRG
NRF
89:
M
P
M
P
NRG
NRF
nn59 n5: n5 n5< n5=
M
P
M
P
NRG
NRF
n5=
n5<
n5
n5:
n59
n
:
:
9
M
P
M
P
NRG
NRF
M
P
M
P
NRG
NRF
8
:
9:99 :
M
P
M
P
NRG
NRF
8
:
9::
9
NRF B Hounting input
NRG B Ro counting input
0Pimit counting input of NRF1
2[hen NRF is P4 please set no counting
0NRFBM -P1 or turn off no counting
0NRGBP -M1
,Rsyrxjv stjvfxnsr sk RbKaB/>Xrinhfxnsr srp}?
VJWJX
NRM
AAAAAA
8
VJWJX
NRM
AAAAAA
8
5AAAAA
VJWJX
NRM
AAAAAA
8
5AAAAA
*2BSver Qin6 signal width4 3BSver 97: of Qin6 signal width
RsyrxjvDbnqjv
>?
MJ
MJ
MJ
MJ
MJ
MJ
MJ
MJ
MJ
MJ
MJ
MJ
Wetting mode
]cbG syxtyx
xnqj> ?
Zsho oj}
>?
[jqsvn~j
hsyrxnrl
zfpyj
>?
Sjhnqfp tsnrx
>?
[nrC vjwjx xnqj
>?
Xrtyx pslnh
>?
]yxtyx qsij
>?
[f|nqyq
hsyrxnrl
wtjji
>?
Xrtyx qsij
>?
Oey B Whift the flickering digit
4 Oey B Hhange the prescale value
Wet range of prescale value B
86889 to AA6AAA0HX>W5:T4 HX>W4 HX>W5W14 8689to A6AA0HX<W5:T4 HX<W1
Trescale value B Nt is actual value of length and position4 liquid measure
from counting input of 9pulse
Mow to set0 4 1
^vjwhfpj zfpyj
>?
Sutput
mode
Nnput mode Speration
SYX:
0SYX1
SYX9
VJWJX
AAAAAA
TVJWJX:
TVJWJX9
8
Yp Iown Yp7Iown F4 G4 H
VJWJX
AAAAAA
TVJWJX:
TVJWJX9
8
VJWJX
AAAAAA
TVJWJX:
TVJWJX9
8
VJWJX
AAAAAA
TVJWJX:
TVJWJX9
8
VJWJX
AAAAAA
TVJWJX:
TVJWJX9
8
VJWJX
AAAAAA
TVJWJX:
TVJWJX9
8
VJWJX
AAAAAA
TVJWJX:
TVJWJX9
8
VJWJX
AAAAAA
TVJWJX:
TVJWJX9
8
Yp7Iown 5 F4 G4 H
VJWJX
AAAAAA
TVJWJX:
TVJWJX9
8
5AAAAAA
VJWJX
AAAAAA
TVJWJX:
TVJWJX9
8
5AAAAAA
VJWJX
AAAAAA
TVJWJX:
TVJWJX9
8
5AAAAAA
SYX:
0SYX1
SYX9
SYX9
SYX9
SYX9
SYX:
0SYX1
SYX9
SYX:
0SYX1
SYX9
SYX9
SYX9
SYX:
0SYX1
SYX9
SYX9
SYX:
0SYX1
SYX:
0SYX1
SYX:
0SYX1
SYX:
0SYX1
SYX:
0SYX1
SYX:
0SYX1
89:
Yd5F4 G4 H will be fixed in the input mode4 if output mode is W4 X4 I6
>U?
>\?
>R?
> ?
>Y?
>^?
>_?
>P?
>a?
>b?
>S?
Hounting
value
8
Hounting
value
8
Hounting
value
8
Hounting
value
8
Hounting
value
8
Hounting
value
8
[hen NRG is M4 please set no counting
0NRFBM -P1 or turn off no counting
0NRGBP -M1
NRF B Hounting value input
NRG B Ro counting input
0Pimit counting input of NRF1
nDTreset value
[hen NRF is P4 please set no counting
0NRFBP -M1 or turn off no counting
0NRGBM -P1
Ro counting
Ro counting
Ro counting
Ffter counting up4 the display
value and SYX94 SYX: holds
,on, state until the reset
signal is applied6
Sne5shot output of SYX9
operates regardless to SYX:6
Ffter counting up4 the display
value increases or decreases
until the reset signal is
applied6
Mold output of SYX9 turns off
after Sne5shot time of SYX:6
Sne5shot output of SYX9
operates regardless to SYX:6
Xhe display value resets at
the same time counting up6
Mold output of SYX9 turns off
after Sne5shot time of SYX:6
Sne5shot output of SYX9
operates regardless to SYX:6
Ffter counting up4 display
value resets after one shot
time of SYX:6
Mold output of SYX9 turns off
after Sne5shot time of SYX:6
Sne5shot output of SYX9
operates regardless to SYX:6
Ffter counting up4 display value
is held for Sne5shot time of SYX:4
counting operation starts again
when SYX: turns on4 when SYX:
turns off4 display value indicates
counted value for SR time of
SYX: and increases or decreases6
Mold output of SYX9 turns off
after Sne5shot time of SYX:6
Sne5shot output of SYX9 operates
regardless to SYX:6
Ffter counting up4 display
value increases or decreases
for Sne5shot time of SYX:6
Mold output of SYX9 turns off
after Sne5shot time of SYX:6
Sne5shot output of SYX9
operates regardless to SYX:6
Ffter counting up4 display
value and Mold output of
SYX9 is held until applying
the reset signal6
Sne5shot output of SYX9
operates regardless to SYX:6
SYX: returns automatically
after Sne5shot time6
SYX9 and SYX: keeps SR
state in following conditionC
Iisplay value Treset 9
Iisplay value Treset :
*Sutput of single preset type is operating the same as SYX: of double preset type6
SYX9 keeps SKK state when
display value is smaller than
Treset 9 value4 but if Treset :
is ,8,4 SYX9 keeps SR state6
SYX: keeps SR state when
display value is equal or larger
than Treset :6
[hen display value is equal
to set value0Treset 9 or
Treset :1 only4 SYX9 ot SYX:
output keeps SR state6
B Hounter
B Ximer
YnitBms
YnitBms
]cbG syxtyx
xnqj> ?
NRF B Ro counting input
0Pimit counting input of NRG1
NRG B Hounting input
RDpreset value
[hen NRF is P4 please set no counting
0NRFBM -P1 or turn off no counting
0NRGBP -M1
NRF B Hounting value input
NRG B Yp7Iown counting command
input
[hen NRG is P4 counting Yp
[hen NRG is M4 counting Iown
NRF B Hounting Yp input
NRG B Hounting Iown input
[hen NRF and NRG applied P -M4
it will remain previous counting value6
Nnput type
Wymbol Zoltage input0TRT1 Hontact input0RTR1
M
P
=5 8ZIH
85:ZIH
Whort circuit
Spen
.Xr hfwj sk nrtyx qsij nw ct .Xr hfwj sk nrtyx qsij nw Ss{r
.Xr hfwj sk xmj nrtyx qsij nw hsqqfri nrtyx>ciBP?A Xrinzniyfp nrtyx>ciBg?A
^mfwj inkkjvjrhj nrtyx>ciBR?
*Xhere is no ,SYX9 output time, in single preset model0HX>W4 HX<W14 ,SYX: output time,
will be replaced as ,SYX output time0 1,6
*Nn case of setting output mode as ,K4 R,4 if counting value reach at preset value6
Sutput will be held6 Wo there is no ,SYX: output time, in function setting mode6
*Nf set ,W4 X4 I, as the output mode4 input will fixed one from Yd5F4 Yd5G4 Yd5H6
Nf change input mode to Yp7Iown4 it needs to change an other mode4 not W6X6I6
*[hen it is in function setting mode4 no external input signal will be accepted and the
output will stay in the SKK state6
*[hen selecting the ,I, output mode and if 9kcps is used4 the output may not operate
normally because of respond time of the contact6 Xherefore4 in this case be sure to use
the solid state output6
*Nn state of maximum counting speed is =kcps or 98kcps4 if change output mode to ,I,4
the maximum counting speed will be changed to 9cps6
*Xhere are no output mode and output time setting mode of function setting mode in
HX>W5Wseries6
0Iown1
0Yp7
Iown5F1
Hommand
input
0Yp7
Iown5G1
Nndividual
input
0Yp7
Iown5H1
Thase
difference
input
22
<=
3333
22
<=
22
22
22
Rotice
2Yp or Iown input mode
Hounting speed is that of one by one09B91 duty ratio of NRF or NRG
input signal4 and it is applied in NRF or NRG at the same time6
Nn case of setting I in output mode4 =Ocps and 98Ocps are not
indicated in the display6
2Yp 7 Iown5F4 G4 H input mode
Qin6 external VJWJX signal width0YnitBms1
2Nn case of HX>W5:T4 HX>W4 HX>W5W
2Nn case of HX<W5:T4 HX<W
B Tower reset for counting value6
0Veset counting value when
power off1
B Qemory for counting value
0Qemory of counting value when
power off1
Ffter counting up4 the display
value increases or decreases
until the reset signal is
applied4 and SYX9 and SYX:
holds ,on, state6
Sne5shot outputof SYX9
operates regardless to SYX:6
Mold output
Sne5shot output0SYX9 output1 Sne5shot output
0SYX: output1 Mold output Hoincidence output
Nt indicates according to position4 and it can/t set by . key6
Zoltage input B Ro5voltage input B
,[fnr tvsiyhxw
,ajxxnrl sk xnqjv kyrhxnsr qsijw
,bnqjv vfrlj
,bnqjv stjvfxnsr sk RbKaB/>Xrinhfxnsr srp}?
ajx qjry Ws{ xs wjx> A ?
Yp B Xime proceeds from 80zero1 to the set value
Iown B Xime proceeds from the set value to 80zero1
Welection of Qin6 signal width of NRF4 NRMNGNX4 VJWJX signal
bnqj vfrlj
*TS[JV VJWJXBXhere is no memory retention6 0Nnitialize the indicating value1
*TS[JV MSPIBXhere is memory retention6 0Nt memorizes the indicating value when power cut off and displays the indicating
value as initial value1
Yp
Iisplay
Iown
TS[JV
NRM
AAAA6AA
8
AAAA6AA
8
[hen setting the function mode4 no external input signal will be accepted and the output will stay in the SKK state6
*Nn case of output mode is KOP4 NRX4 NRX94 SKI4 there is no output time setting in the function setting mode6
*Nn the indicator type 0HX>W5W14 there are no the output mode and the output time setting mode0SYX94 SYX:1 in the
function setting mode6
*Hontrol output operates as SYX: in the double preset type 0HX>W5:T4 HX<W5:T14 and out9 always keeps ,SKK, status6
*[hen in the function setting mode4 if no key is touched for >8 sec6 the timer will return to VYR mode6
91Xime starts when NRF signal turns on4
if NRF signal is applied repeatedly4
only initial signal is applied6
:1Hontrol output operates as hold
output when reaches to the set time6
1Xime starts when power turns on and
when reat turns off during NRF signal
turns on6
<1Nn case of using the contact output4
Qin6 setting time must be set over
988ms6
91Xime starts when NRF signal turns on4
if NRF signal is applied4 only initial
signal is applied6
:1Hontrol output operates as Sne5shot
output when reaches to the set time6
1Xime starts when power turns on and
when reat turns off during NRF signal
turns on6
<1Nn case of using the contact signal4
Qin6 setting time must be set over
988ms6
91[hen NRF is SR4 time starts6
:1[hen NRF is SKK4 time resets6
1Xime starts when power turns on and
when reset turns off during NRF signal
turns on6
<1[hen time reaches to set value4
display value and control output will be
reset automatically6
=1Hontrol output turns SR4 during time
processes6
91Hontrol output turns on and time
starts when NRF signal turns on6
:1Nf NRF signal is applied repeatedly4
only initial signal is applied6
1[hen reaches to set value4 display
value and control output is reset
automatically6
<1Xime starts when power turns on and
when reset turns off during NRF signal
turns on6
=1Xime processes normally while NRF
signal keeps SR status6
91Nf power is on and reset is off4
control output keeps on state during
NRF signal is SR6
:1[hen time reaches to set value4
display value and control output will
be reset automatically6
,Rfyxnsr
0YnitBms1
Nt is operation time of control output according to output mode6
0YnitBms1
MJ
MJ
MJ
MJ
MJ
MJ
MJ
MJ
WNLRFP SR IJPF]0TS[JV VJWJX1
SYX:0SYX1
Wetting time
8
Wetting time
8
TS[JV
NRF
NRMNGNX
VJWJX
>]\S?
.HX>W5:T4 HX>W4 HX>W5W.HX<W5:T4 HX<W
5 AAAAh=Am
5 AAh=Am=As
5 AAAAAAm
5 AAAAA6Am
5 AAAm=A6As
5 AAAAA6As
869s
5 AAAAAAs
9s
5 AAm=A6AAs
8689s
5 AAAAh
5 AAh=Am
5 AAAAm
5 AAA6Am
5 AAA6As
869s
5 AAAAs
9s
5 AAm=As
.HX>W5:T4 HX>W4 HX>W5W
.HX<W5:T4 HX<W
R]c\bT DbX[T
>?
c^DS]e\ qsij
>?
]yxtyx qsij
>?
]yxtyx xnqj
>?
Xrtyx pslnh
>?
Xrtyx wnlrfp xnqj
>?
Zsho oj}>Zsho?
>?
Xime range Xime range
,bnqjv syxtyx stjvfxnsr qsij
Sutput
mode Xime chart Speration
91Xime starts when NRF signal turns on4
if NRF signal turns off4 time resets6
:1Xime starts when power turns on and
when reset turns off during NRF signal
on6
1Hontrol output operates as hold or
Sne5shot time6
TS[JV SR IJPF]0TS[JV MSPI1
SYX:0SYX1
Wetting time
TS[JV
NRF
NRMNGNX
VJWJX
KPNHOJV0TS[JV VJWJX1
SYX:0SYX1
Xoff Wetting time
Xon Wetting time
8
TS[JV
NRF
NRMNGNX
VJWJX
SYX:0SYX1
Wetting time
TS[JV
NRF
NRMNGNX
VJWJX
KPNHOJV 90TS[JV VJWJX1BMold output
8
Wetting time
KPNHOJV 90TS[JV VJWJX1BSne5shot output
SYX:0SYX1
Wetting time
TS[JV
NRF
NRMNGNX
VJWJX
8
Wetting time
8
Wetting time
8
Xoff Wetting time
Xon Wetting time
8
>UZY?
8
8
>UZYCF?
SYX:0SYX1
Wetting time
8
TS[JV
NRF
NRMNGNX
VJWJX
KPNHOJV :0TS[JV MSPI1BMold output
Wetting time
8
KPNHOJV :0TS[JV MSPI1BSne5shot output
SYX:0SYX1
Wetting time
TS[JV
NRF
NRMNGNX
VJWJX
Wetting time
8
8
SYX:0SYX1
Wetting time
TS[JV
NRF
NRMNGNX
VJWJX
8
Wetting time
8
>]\SCF?
>UZYCG?
91Xime starts when NRF signal turns on4
if NRF signal is applied repeatedly4
only initial signal is applied6
:1Xime starts when power turns on and
when reset turns off during NRF
signal on6
1Hontrol output operates as hold or
Sne5shot time6
91Xime starts when power turns on6
0Xhere is no NRF function1
:1Xime resets when reset turns on6
Xime starts when reset turns off6
1Hontrol output operates as hold
output or Sne5shot output6
<1Nt memories display value when
power turns off6
91Xime starts when NRF signal turns on4
if NRF signal is applied repeatedly4
only initial signal is applied6
:1Xime starts when power turns on and
when reset turns off during NRF signal
on6
1Hontrol output operates as hold
output4 output turns on for the Xoff
time and turns on for the Xon time
repeatedly6 0Xhere is no Sne5shot
output1
<1Jach the Xon time and the Xoff time
must be set individually6
=1Nn case of using the contact output4
Qin6 setting time must be set over
988ms6
91Xime starts when NRF signal turns on4
if NRF signal is applied4 reaptedly
only initial signal is applied6
:1Xime starts when power turns on and
when reset turns off during NRF
signal turns on6
1Hontrol output operates as hold
output4 in case of using the contact
output Qin6 setting time must be set
over 988ms6
91Xime starts when NRF signal turns on4
if NRF signal is applied repeatedly4
only initial signal is applied6
:1Xime starts when power turns on and
when reset turns off during NRF signal
on6
1Hontrol output operates as Sne5shot4
in case of using the contact output4
Qin6 setting time must be set over
988ms6
>]\SCG?
NRXJVZFP 90TS[JV VJWJX1
TS[JV
NRF
NRMNGNX
VJWJX
SYX:0SYX1
Wetting time
Wetting time
8
WNLRFP SKK IJPF]0TS[JV VJWJX1
TS[JV
NRF
NRMNGNX
VJWJX
SYX:0SYX1
Wetting time
8
8
>X\bCF?
8
Wetting time
>]US?
SYX:0SYX1
Wetting time
8
TS[JV
NRF
NRMNGNX
VJWJX
Wetting time
8
>X\b?
96 Xhe power SR7SKK
1Tower voltage rises for 988ms after power on and
falls for ?88ms after power off6 Xherefore be sure to
apply input signal after 988ms and power turns on
again after ?88ms when power turns off6
2[hen apply the power into HXW series4 please apply
the power in an instant by using Wwitch or Velay6
:6 Nnput signal line
1Yse as short a cable from the sensor to this unit as possible6
2Yse shielded cable for long input line6
3[ire as separating input line from the power line6
6 Welection of input method
Ge sure to change the input method after power off6
<6 Hontact count input0[hen it is used as Hounter1
Nf apply contact input at high speed mode 09k4 =k4 98k14 it may miscount by chattering6
Xherefore set low speed mode 09 or 8cps1 at contact input6
=6 [hen test dielectric voltage and insulation resistance of the control panel with this unit installed6
1Tlease isolate this unit from the circuit of control panel6
2Tlease make all terminals of this unit short5circuited6
>6 Io not use this unit at below places6
1Tlace where there are severe vibration or impact6
2Tlace where strong alkalis or acids are used6
3Tlace where there are direct ray of the sun
4Tlace where strong magnetic field or electric noise are generated6
?6 Nnstallation environment
1Nt shall be used indoor
2Fltitude Qax6 :888m
3Tollution Iegree :
4Wnstallation Hategory X
Kunction setting mode
Hounting display Treset display Hounting display Treset display
Kunction setting mode
*Xx qf} hfywj qfpkyrhxnsr nk fgszj nrwxvyhxnsrw fvj rsx kspps{jiC
t
?88ms
988ms
SR
SKK
Tower
Xhe unstable time
against the input signal
,MJFI UYFVXJV B
<95=4 ]ongdang5ri4 Yngsang5eup4 ]angsan5si4
Lyeongnam4 Oorea >:>5@<?
,NRXJVRFXNSRFP WFPJW B
=9: Fnsung G7I4 <9859 4 Whindorim5dong4
Luro5gu4 Weoul4 Oorea 9=:58?8
XJPB@:5:5:>?A5>=@= 7 KF\B@:5:5:>?A5>==>
,J5mail B salesEautonics6net
mxxtODD{{{CfyxsrnhwCrjx
ptvutvqwrts
,HSYRXJV
,XNQJV
,XJQTJVFXYVJ HSRXVSPPJV
,TFRJP QJXJV
,XFHMS7PNRJ WTJJI7TYPWJ QJXJV
,INWTPF] YRNX
,TVS\NQNX] WJRWSV
,TMSXSJPJHXVNH WJRWSV
,KNGJV STXNH WJRWSV
,TVJWWYVJ WJRWSV
,VSXFV] JRHSIJV
,WJRWSV HSRXVSPPJV
,TS[JV HSRXVSPPJV
,WXJTTNRL QSXSV . IVNZJV . HSRXVSPPJV
,PFWJV QFVONRL W]WXJQ JT5J58958 8J
Nt indicates according to position4 and it can/t set by . key6
Zoltage input B Ro5voltage input B
0Yp1 0Iown1
B HSYRXJV
B XNQJV
TS[JV
NRF
SYX:
0SYX1
X0Treset time1
t
8689s 5 AAAA6AAs
9m
9s
9m
869m
869s
8689s 5 AA6AAs
9h
9m
9m
869m
9s
Xoff Xon Xa Xb Xon
MSPI
Xoff Xoff
Xon
t5a
a
t
X
0Wetting time1
TS[JV
SYX:
0SYX1
TS[JV
NRF
SYX:
0SYX1
Xoff Xon Xoff Xon Xoff
X
X
TS[JV
NRF
SYX:
0SYX1 XBWetting time
XX
ttt
TS[JV
NRF
SYX:
0SYX1
XX
t
XX
X5c
MSPI
XX5c
tat5a
c
c
TS[JV
NRF
SYX:
0SYX1
XBWetting time
TS[JV
NRF
SYX:
0SYX1 MSPI
X
tt t
WNLRFP SR IJPF] 90TS[JV VJWJX1
ttt
TS[JV
NRF
SYX:
0SYX1
X0Wetting time1
XBWetting time
XBWetting time
TS[JV
NRF
SYX:
0SYX1
X
TS[JV
NRF
SYX:
0SYX1
X
NRXJVZFP0TS[JV7WNLRFP VJWJX1
X
TS[JV
NRF
SYX:
0SYX1 XBWetting time
X
Mold output
tDSne5shot output time
Sne5shot output
Mold output
Yp
Iisplay
Iown
Yp
Iisplay
Iown
Yp
Iisplay
Iown
Yp
Iisplay
Iown
Yp
Iisplay
Iown
Yp
Iisplay
Iown
Yp
Iisplay
Iown
Yp
Iisplay
Iown
Yp
Iisplay
Iown
Yp
Iisplay
Iown
Yp
Iisplay
Iown
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