PSAN-01CV-NPT1/8

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PSAN Series<br>I<br>Small size, 1/2,000 resolution connector type digital pressure sensor<br>=|Features<br>@ldeal for a wide range of applications of gas, liquid, and oil. a Fy -<br>(Inappropriate to corrosion environment for SUS316L) THEI iri<br>@Enhanced environmental resistance with diaphragm -_ * Matt Foal Hal<br>@1/2,000 high resresolution for| indication Osea w moat<br>@Hold/Auto shift input function = vaa ~<br>(Only for models with Hold/Auto shift input type) Pneumatic type<br>—Hold : Holding instantaneous outputs and display value<br>— Auto shift : Enable to output regardless of initial pressure change Line-up<br>@Hold function for instantaneous outputs and holding display value<br>@2 independent outputs and NO/NC output selectable FSAN ar —<br>@Forced—output mode embodied for easy operation test and monitoring if 1 } HH 1 Tale mM<br>@One-touch connector type for easy maintenance aah (14 ant<br>@ Analog output (1/2,000 resolution, voltage : 1—5V, current : 4-20mA) oeseaA w = —<br>@Zero—point adjustment function, peak monitoring function, and = a<br>chatteringPI  preventiond "Caution f  functionfety"i ti yy . big<br>Ordering information<br>PS) AN) - (] VEPIV )-  Rew<br>Pressure pont<br>Cotion| output(Function)|<br>Cabl2Outout ype [_P__[output PNP open collector<br>Applicable fui<br>Appearance<br>% (%)In case of using M5 port, use PSO—Z01 (M5 Gender) together.<br>(=™|Pressure and Max. pressure display range<br>Vacuum | 0.0 to -101.3 |0.000 to -1.034/0.000 to -1.013] 0.00 to -14.70 0 to -760 0.0 to -29.9 | 0.0 to -103.4<br>pressure |(5.0 to —101.3) |(0.051 to —1.034)](0.050 to —1.013)|(0.74 to —14.70)(38.0 to —760.0)|(1.50 to —29.90)} (5.1 to — 103.4)<br>0.0 to 100.0 | 0.000 to 1.020 | 0.000 to 1.000 | 0.00 to 14.50<br>Positive |(—5.0 to 110.0) |(—0.051 to 1.122)](—0.050 to 1.100)|(—0.72 to 15.96<br>pressure 0 to 1000 0.00 to 10.20 | 0.00 to 10.00 | 0.0 to 145.0<br>(—50 to 1100) |(—0.51 to 11.22)}(—0.50 to 11.00)} (—7.2 to 159.6)<br>Compound] -101.3 to 100.0) -1.034 to 1.020 | -1.013 to 1.000 |-14.70 to 14.50/ -760 to 750 | -29.9 to 29.5 |-103.4 to 102.0<br>pressure |(—101.3 to 110.0)}(—1.034 to 1.122)|(—1.013 to 1.100)|(—14.70 to 15.96)}(—760.0 to 824.0)(—29.88 to 32.58)(—103.4 to 112.2)<br>%*( ) is Max. pressure display range.<br>For using a unit mmH2O, multiply display value by 100.<br>**----- End of picture text -----**<br>


~~rereeee~~ eee reneerenee ~~ener~~ E-| Autonics 

Pressure Sensor 

## ~~ee~~ 

|Pressure type<br>~~[Analogvoltageoutput]~~<br>O45,|Pressure type<br>~~[Analogvoltageoutput]~~<br>O45,|Pressure type<br>~~[Analogvoltageoutput]~~<br>O45,|Pressure type<br>~~[Analogvoltageoutput]~~<br>O45,|Pressure type<br>~~[Analogvoltageoutput]~~<br>O45,|||||||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|
||||||~~output]PSAN-(L)VO1C(P)V-(1|~~||~~|PSAN-(L)01C(P)V-L)|PSAN-(L)1C(P)V-C)_[|~~||||~~[|PSAN-(L)CO1C(P)V-C|~~||
|~~[Analog~~<br>O45,<br>~~[Hold/Auto~~<br>~~[Rated~~|||~~[Analogvoltageoutput]~~<br>~~[Hold/Auto~~||~~output]PSAN-(L)VO1C(P)V-(1|~~<br>~~|~~||~~|PSAN-(L)01C(P)V-L)|~~<br>~~|~~<br>~~|~~||~~|PSAN-(L)1C(P)V-C)_[|~~<br><br>~~|PSAN-(L)1C(P)A-(1_|~~||~~[|PSAN-(L)CO1C(P)V-C|~~<br><br>~~|PSAN-(L)CO1C(P)A-(|~~||
||||~~[Analogvoltageoutput]~~<br>~~[Hold/Auto~~<br>~~shiftinput~~<br>||~~output]PSAN-(L)VO1C(P)V-(1|~~<br>~~|~~<br>~~**|**PSAN-(L)VO1C(P)H-(|~~||~~|PSAN-(L)01C(P)V-L)|~~<br>~~|PSAN-(L)01C(P)A-(1~~<br>~~|~~<br>~~|PSAN-(L)01C(P)H-()~~||~~|PSAN-(L)1C(P)V-C)_[|~~<br>~~PSAN-(L)01C(P)A-(1~~<br>~~|PSAN-(L)1C(P)A-(1_|~~<br>~~[|_PSAN-(L)1C(P)H-()~~~~**_**~~<br>|||~~[|PSAN-(L)CO1C(P)V-C|~~<br>~~PSAN-(L)01C(P)A-(1~~<br>~~|PSAN-(L)CO1C(P)A-(|~~<br>|~~PSAN-(L)CO1C(P)H-(.|~~||
||||~~[Analog voltage output]~~<br>~~[Hold/Auto~~<br>~~shiftinput~~<br>~~pressurerange~~||~~output] PSAN-(L)VO1C(P)V-(1 |~~<br>~~|~~<br>~~**|**PSAN-(L)VO1C(P)H-(|~~<br>~~0.0t0-101.3kPa__|~~||~~| PSAN-(L)01C(P)V-L) |~~<br>~~|~~<br>~~|~~<br>~~|PSAN-(L)01C(P)H-()~~<br>~~-101.3kPa__|0.010100.0kPa___[~~||~~| PSAN-(L)1C(P)V-C)_ [|~~<br><br>~~|PSAN-(L)1C(P)A-(1_|~~<br>~~[|_PSAN-(L)1C(P)H-()~~~~**_**~~<br>|<br>~~Oto1,000kPa__|~~||~~[| PSAN-(L)CO1C(P)V-C |~~<br><br>~~|PSAN-(L)CO1C(P)A-(|~~<br>|~~PSAN-(L)CO1C(P)H-(.|~~<br>~~-101.3kPato100.0kPa|~~||
|~~[Hold/Auto~~<br>~~shiftinput~~<br>~~[Ratedpressurerange~~<br>~~[Displaypressurerange|~~|||||~~**|**PSAN-(L)VO1C(P)H-(|~~<br>~~0.0t0-101.3kPa__|~~<br>~~range|5.0to-101.3kPa__|~~||~~|~~<br>~~|PSAN-(L)01C(P)H-()~~<br>~~-101.3kPa__|0.010100.0kPa___[~~<br>~~|=5.0to110.0kPa~~||~~| PSAN-(L)1C(P)A-(1_ |~~<br>~~[|_PSAN-(L)1C(P)H-()~~~~**_**~~<br>|<br>~~Oto1,000kPa__|~~<br>|<br>~~=50to1,100kPa__~~<br>|||~~| PSAN-(L)CO1C(P)A-( |~~<br>|~~PSAN-(L)CO1C(P)H-(.|~~<br>~~-101.3kPato100.0kPa|~~<br>|~~~101.3kPato110.0kPa|~~||
|~~shift input ~~<br>~~[Rated pressure range~~<br>~~[Displaypressurerange|~~<br>~~[Min.cisplayunitinternalresolution)~~|||||~~**|** PSAN-(L)VO1C(P)H-( |~~<br>~~0.0t0 -101.3kPa__|~~<br>~~range|5.0to-101.3kPa__|~~<br>~~|__O.1kPa(1/2,000)__|_0.1kPa(1/2,000)__|__—i1kPa(1/2,000)__|__—0.1kPa(1/2,000)__|~~||~~| PSAN-(L)01C(P)H-() ~~<br>~~-101.3kPa__| 0.010 100.0kPa___[~~<br>~~|=5.0to110.0kPa~~<br>~~__|_0.1kPa(1/2,000)__|__—i1kPa(1/2,000)__|__—0.1kPa(1/2,000)__|~~||~~[| _PSAN-(L)1C(P)H-()~~~~**_**~~<br>|<br>~~Oto 1,000kPa__ | ~~<br>|<br>~~=50to1,100kPa__~~<br>|<br>~~__|_0.1kPa(1/2,000)__|__—i1kPa(1/2,000)__|__—0.1kPa(1/2,000)__|~~||| ~~PSAN-(L)CO1C(P)H-(. |~~<br> ~~-101.3kPa to 100.0kPa |~~<br>|~~~101.3kPato110.0kPa|~~<br>~~__|_0.1kPa(1/2,000)__|__—i1kPa(1/2,000)__|__—0.1kPa(1/2,000)__|~~||
|~~[Display pressure range|~~<br>~~[Min.cisplayunitinternalresolution)~~<br>~~Maxpressurerange |~~|||||~~range| 5.0 to -101.3kPa__ |~~<br>~~|__O.1kPa(1/2,000)__|_0.1kPa(1/2,000)__|__—i1kPa(1/2,000)__|__—0.1kPa(1/2,000)__|~~<br>~~|~~<br>~~___2timesofrated~~||~~| =5.0to 110.0kPa~~<br>~~__|_0.1kPa(1/2,000)__|__—i1kPa(1/2,000)__|__—0.1kPa(1/2,000)__|~~<br>~~ofratedpressure~~|||<br>~~=50 to 1,100kPa__~~<br>|<br>~~__|_0.1kPa(1/2,000)__|__—i1kPa(1/2,000)__|__—0.1kPa(1/2,000)__|~~<br>~~[15iesofratedpressure)~~||| ~~~101.3kPa to 110.0kPa |~~<br>~~__|_0.1kPa(1/2,000)__|__—i1kPa(1/2,000)__|__—0.1kPa(1/2,000)__|~~<br>~~2timesofratedpressure|~~||
|~~[Min.cisplay unitinternal resolution) ~~<br>~~Maxpressurerange |~~|||||~~| __O.1kPa(1/2,000) __|_0.1kPa(1/2,000)__|__—i1kPa(1/2,000)__|__—0.1kPa(1/2,000)__|~~<br>~~|~~<br>~~___2timesofratedpressure~~||||~~__|_0.1kPa(1/2,000)__|__—i1kPa(1/2,000)__|__—0.1kPa(1/2,000)__|~~<br>~~[15iesofratedpressure)~~||~~__|_0.1kPa(1/2,000)__|__—i1kPa(1/2,000)__|__—0.1kPa(1/2,000)__|~~<br>~~2timesofratedpressure|~~||
|~~Max pressurerange |~~|||||~~|~~<br>~~___2times ofratedpressure~~<br>~~[1 5 ies of rated pressure) 2 times of rated pressure|~~||||||||
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|Hysteresis<br>~~(* 2)~~|||||¢« PNP open collector output<br>‘= Max. source current:Max. 100mA, Residual voltage:Max. 2V||||||||
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|Analog<br>output||||~~eee~~<br>|Voltage output|~~eee~~<br>~~ee~~<br>~~ed~~<br>* Zero point: Within LVDC 2% F.S<br>* Span:Within4dVDC 42% F.S<br>~~*Resolution: 1/2,000(equaltodisplayresolution)~~<br>~~»*ResponseTime:50ms~~||||||||
|||||~~eee~~|~~eee~~<br>~~ee~~<br>~~ed~~<br>~~* Resolution: 1/2,000 (equal to display resolution)~~<br>~~»* Response Time:50ms~~<br>¢ Span:Withinl6mA +2% F.S<br>* Resolution:1/2,000(equal to display resolution)<br>* Response Time:70ms||||||||
|Tpssuaar<br>~~===]~~|||||~~===]1000[2000[1000[2000~~<br>|~~1000~~<br>~~2000]1000~~<br>~~2000~~||||||||
|Tpssuaar<br>sLkPa<br>5|**_**_kaflem?<br>{bar<br>s|<br>ZL<br>eL_<br>~~=]~~||~~===]~~|||~~===]1000[2000~~|~~[2000[1000~~|~~[1000[2000~~|~~[2000~~<br>||~~1000~~|~~2000]~~|~~1000~~|~~2000~~|
|||~~===]~~<br>~~|~~<br>~~|~~|||~~===] 1000 [2000~~<br>~~0.001|~~|~~[2000 [1000~~<br>~~ft~~<br>~~|~~<br>~~=— [~~|~~[1000 [2000~~<br>~~ft~~<br>~~ooor|~~|~~[2000~~<br>| <br>~~a~~<br>~~|—~~<br>||~~1000~~<br>~~a~~<br>~~oor|~~|~~2000] ~~<br>~~|~~<br>~~—~~~<br>[|~~1000~~<br>~~tt~~<br>~~—~~<br>~~|~~|~~2000~~<br>~~tt~~<br>~~ooo|~~|
|||~~|~~<br>~~|~~<br>~~|~~|||~~0.001|~~<br>~~00|~~|~~ft~~<br>~~|~~<br>~~=— [~~<br>~~|SO~~|~~ft~~<br>~~ooor|~~<br>~~coors~~|~~a~~<br>~~|—~~<br>|<br>~~|]EO~~<br>~~ST~~|~~a~~<br>~~oor|~~<br>~~ror|~~|~~|~~<br>~~—~~~<br>[<br>~~|OE~~|~~tt~~<br>~~—~~<br>~~|~~|~~tt~~<br>~~ooo|~~<br>~~cor.~~|
|||~~|~~<br>~~|~~<br>~~psi~~<br>~~|~~|||~~0.001 |~~<br>~~00|~~<br>~~|OT~~|~~|~~<br>~~= —  [~~<br>~~|SO~~<br>~~OTot~~<br>||~~ooor |~~<br>~~coors~~<br>~~ott~~|~~| —~~<br>| <br>~~|]EO~~<br>~~ST~~<br>~~ott~~<br>~~ff~~|~~oor |~~<br>~~ror|~~<br>~~ot~~|~~|~~<br>~~—~~~<br>[<br>~~|OE~~<br>~~ot~~|~~—~~<br>~~| ~~<br>~~te~~|~~ooo |~~<br>~~cor.~~<br>~~te~~|
|||~~|~~<br>~~psi~~<br>~~|~~<br>~~ommko|~~|||~~00 |~~<br>~~|OT~~<br>~~|~~<br>~~Te~~|~~| SO~~<br>~~OTot~~<br>|<br>~~Te ff~~|~~coors ~~<br>~~ott~~<br>~~ff~~|~~|] EO~~<br>~~ST~~<br>~~ott~~<br>~~ff~~<br>~~ff~~|~~ror |~~<br>~~ot~~<br>~~ff~~|~~| OE~~<br>~~ot~~<br>~~ff~~|~~te~~<br>~~ff~~|~~cor.~~<br>~~te~~<br>~~ff~~<br>~~rs~~|
|||~~psi~~<br>~~|~~<br>~~ommko|~~<br>~~into|~~|||~~| OT~~<br>~~|~~<br>~~Te~~<br>~~|~~|~~OT ot~~<br>|<br>~~Te ff~~<br>~~|~~|~~ott~~<br>~~ff~~<br>~~Ef~~|~~ott~~<br>~~ff~~<br>~~ff~~<br>~~Ef~~|~~ot~~<br>~~ff~~|~~ot~~<br>~~ff~~<br>~~8~~|~~te~~<br>~~ff~~<br>~~8~~|~~te~~<br>~~ff~~<br>~~rs~~<br>~~8~~|
|||~~ommko |~~<br>~~into|~~<br>~~mmo~~<br>~~|~~|||~~|~~<br>~~Te~~<br>~~|~~<br>~~|ot|~~|~~Te ff~~<br>~~|~~<br>~~|OO~~|~~ff~~<br>~~Ef~~<br>~~EO~~<br>~~EE~~|~~ff~~<br>~~Ef~~<br>~~EE~~<br>~~OE~~|~~ff~~<br>~~OE~~|~~ff~~<br>~~8~~<br>~~EE~~<br>~~EE~~|~~ff~~<br>~~8~~<br>~~EEft~~|~~ff~~<br>~~rs~~<br>~~8~~<br>~~ft~~|
|||~~into |~~<br>~~mmo~~<br>~~|~~|||~~|~~<br>~~|ot|~~|~~|~~<br>~~|OO~~|~~Ef~~<br>~~EO~~<br>~~EE~~|~~Ef~~<br>~~EE~~<br>~~OE~~|~~OE~~|~~8~~<br>~~EE~~<br>~~EE~~|~~8~~<br>~~EEft~~|~~8~~<br>~~ft~~|
|~~=]~~<br>~~mmo~~<br>~~|~~<br>output and display temp.|||||~~| ot | OO~~<br>~~EO~~<br>~~EE~~<br>~~OE~~<br>~~EE~~<br>~~EE ft~~<br>*Max.<br>1% F.S. of display pressure at 25°C under -—10C||||||||
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||||||¢ Fluid type > Front case<br>: PC, Rear case<br>: PA6, Pressure port<br>: SUS316L||||||||
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PSAN Series 

## ~~Cee~~ 

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@Analog output voltage and current—Pressure characteristic @Analog output voltage and current—Linear characteristic<br>(Normal Example) (Normal Example)<br>PSAN-01 PSAN-01<br>6 24 6 24<br>voltage 5 20 current voltage 5 20 current<br>; ce) ae<br>. TAKA<br>3 FA Full<br>| :12 3 aEN 12 scale<br>20 40 60 80 100 20 40 60 80 100<br>Pressure (kPa) Pressure (kPa)<br>(s]|Dimensions<br>OPneumatic type (Unit:mm)<br>: @Panel mounting bracket<br>1 TT I — HI nN3<br>' AM<br>30.7 ee' se<br>30 8 79 2 0 2—M3-  Tap 40 5<br>Totonies ae a ' | Panel mounting<br>(rrr Oh! = ' _—— bracket<br>8 (L IL SLS » (0) “Rutonies TooKPa (PSO-B02)<br>= & O ! (00008 Q Front<br>PT1/8"(Standard) H 7" on— = on protectioncover<br>' (PSO-P01)<br>' When front cover is mounted<br>@Fixing bracket A for mounting e@Fixing bracket B for mounting<br>' 35<br>: 2-M4 Bolt<br>; av] <|<br>' €) iw<br>| Up) &<br>H Ctr<br>eTrafal i = ' aT]rafal i =<br>(we oe, ' oie<br>OUT mam VCS OUT? ma Of ‘|»iS '1 Urw OUT? Y o A PSAN  ae-O 1 = OP Lhi)=<br>20 1.6 ©<br>30 2-M4 - Bolt 35.8 ' 44.8 =<br>**----- End of picture text -----**<br>


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(s]|Dimensions<br>**----- End of picture text -----**<br>


~~reerener~~ E-3 ~~eee~~ e eee e Autonicse 

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ee<br>(=| Dimensions<br>OFluid type (Unit:mm)<br>e@Panel mounting bracket<br>1—<br>;{=<br>— ——— oo awe Ta | sinaCU<br>=m ars ary 1 40 35.8<br>Ss {G8 a} , 20 Panel mounting<br>o rm  o oze | | | a | -as |. | { | bracket<br>a = a as ‘| ieatatn —} |<br>va ub = (PSO-B02)<br>27 at_|——| jm;ToPt O17.yg GLSS[it] '|H | ESCey E TAa = || Q) protectioncon | -(FESa LEE(3)Pressure<br>| nner part M5 T:aH — — — ——————— cover_ : E+=><br>|' ULI— (PSO-PO!) [Od— wy, en front cover<br>% (A) PT 1/8" model (Standard): 8, NPT1/8" model: 8, L_ L_] is mounted<br>7/16"—20 UNF model: 11 ' x (B) PT1/8" model (Standard): 56.3, NPT1/8" model: 56.3,<br>* (*1) Only for PT1/8" model, NPT1/8" model ' 7/16"—20 UNF model: 59.3<br>@Fixing bracket A for mounting e@Fixing bracket B for mounting<br>1 35<br>1 2-M4 Bolt<br>'|N<br>:' Pa| [J<br>' CT)<br>- : 7<br>ye LOLs a | g ; = Talal o h i _|F 0 aK ES<br>=cL——e—LJ b TU—TTTLJ I ul— © ol ''' | ce— Vatones | TT—Of le|=) 2 fo —| 6<br>2-M4 Bolt ! LC LJ LJ<br>eAccessory(Sold separately) e@Accessory<br>@Panel cut-out * Panel mounting * Front protection ¢ Pressure unit label<br>bracket cover<br><A +100kPa -101.3kPa 2kPa 10kPa 100kPa =1MPa<br>. i e £1,020kgff/on’ -1.034kgf/on’ 2.040kgf/on’ 10.20kgf/on* 1.020kgf/on’ 10.20kgf/en*<br>ge Z N +14.50psi -14.70psi 29.00psi 145.0psi 14.50psi 145.0psi<br>S 4 +1.000bar -1.013bar 2.000bar 10.00bar 1.000bar 10.00bar<br>Y,2 +29.5inHg+750mmHg + |  -29.9inHg-760mmHg /100 /100<br>°<br>os | < PSO-B02 +£1020mmH;0 -103.4mmH,0 2 .040mmH,0 10.20mmH,0 — X100 X100<br>aoe > < PSO-PO1 > DISPLAY UNIT LABEL<br>(Panel.8mm tremnessto 3.5mm ; * Bracketf A * Bracket B * Connector cable(PSO-—C01)<br>* M5 Gender 0<br>< PSO-ZO01Y > qa, ) ' A_*¢F<br>@Bracket A @Bracket B ;<br>= | =<br>20 3- 63.2 ©<br>©|<br>A¢<br>oO<br>N<br>e [Tat] | 25) d Ez ==) 20 (AF 3-2-M4{=}63.2Bolt<br>2-M4 BOLT 1.6 “<br>6<br>NI =:<br>**----- End of picture text -----**<br>


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Autonicse 

PSAN Series ~~ee~~ Control output diagram OAnalog output (Voltage output PSAN-(JCILIV-(, Current output PSAN-(J_J_ILJA-( type) 

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@NPN open collector output type @PNP open collector output type<br>J [+V] [(Brown)] ] +V (Brown)<br>° OUT1 (Black) Oprotection |g +<br>circuit ~ 12-24VDC<br>tecti lLoag| ver Curren<br>S) + 1S) circuit<br>]]Over= circuit current [ Analog output 12-24VDC &= eee Analog output<br>[> i : Yvoltage/current 1kQ: voltage/current<br>Ake (Orange) fetid (Orange)<br>re O<br>OV (Blue) OV (Blue)<br>%*In case of analog voltage output type models short-circuit protection is not embodied. ( | : For voltage output type only. )<br>Do not connect with power source or load directly.<br>* Be careful with input impedance of connecting devices when using analog voltage output type models.<br>Be careful with voltage drop due to cable resistance when extending sensor cable.<br>OHold/Auto shift input (PSAN-(JCIICH-( type)<br>@NPN open collector output type @PNP open collector output type<br>] [+V] [(Brown)] 1 +V (Brown)<br>OUT1 (Black) Over current] [] +<br>°S| |Over current = JOuT| (Black)<br>O]] protection ©} } Over current (]<br>5 circuit O 3 protection oa<br>c + c circuit<br>g Over current 12-24VDC i]<br>circuit [] ; .<br>—_ JHold/Auto shift — &Hold/Auto shift<br>input(orange) © input(orange) °|<br>Y 0v(Blue) | OV (Blue)<br>(=|/Front panel identification and function<br>Range of rated pressure : The unit label is changeable.<br>‘Autonics 100KPa Please use a desired measure unit label.<br>werere l 4 digit LED display(Red) : Indicates measuring pressure value, setting value, and error<br>| cormD“an O"an I UT?“a Output1 .indicator(Red). : Outputmessage.1 .is ON, LED will. be ON.<br>5) | ~ =a f e || 6 (5)4) Output2 [QJ][ key] : Usedindicator(Green)to enter into Preset/Parameter: Output 2 is ON,settingLED willmodebe ON.and to save Setting mode.<br>(6)(A) key : Used to set parameter and preset, peak value check mode, function setting or<br>output operation mode.<br>+(¥) keys : Used for zero—point adjustment function by pressing (A)+(MY) keys over 1 sec.<br>simultaneously in RUN mode.<br>m|Setting<br>over Press LM) key Parameter Pressureunit > operationOutput >| Outputtype |> Responsetime p> | andAnalogHold/Autooutput scaleShift | B®} lockKey<br>3sec. setting setting mode setting setting setting input setting setting<br>xe)fo)2) Press (J key Preset value Detection level 1 setting (out1) > Detection level 2 setting (out2)<br>= setting<br>Zz<br>eaa | Press (A) key Peak hold High peak > Low peak > Auto shift input setting<br>over 3sec. eels ile value check value check (In case of Hold/Auto shift input tyoe model)<br>Press Ay) moi ;<br>keys over 1sec. Ziadjustmenterally Zero—point adjustment<br>**----- End of picture text -----**<br>


~~Dt~~ E—5 Autonicse 

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eee<br>(a)Zero-point adjustment<br>Autonics 100kPa Autonics 100kPa Autonics 100kPa<br>itwie\ 7 ~ isbabeTT, “i, cL\a e re s<br>OUTi Mi) =6OUT2 OUT|=OUT2 OUTi i) =6OUT2<br>YVR YVR<br>PSAN- 0 O1 PSAN A PSAN- 0 O1<br>Press over 1sec.<br>If executing zero-point: adjustment:<br>1. In state of atmospheric pressure during RUN mode, when external pressure has been<br>2. pressWhen thekeyzero—point and keyadjustmentat the sameis completed,time for overit willlsec.display Pleaseapplied,execute willzero—pointflash. adjustment -procera<br>and return to RUN mode automatically. again in state of atmospheric pressure sensor<br>* Please execute zero-point adjustment regularly. without external pressure.<br>(=|Parameter setting<br>1. It is able to set pressure unit, display resolution, output operation mode, output type, response time, analog<br>output scale, Hold/Auto shift and key lock setting in parameter setting mode.<br>2. If the key lock is set Gock1 or lock2), unlock the key lock before setting parameters.<br>(Refer to Key Lock setting below.)<br>;-->| RUN mode<br>:Press OD key| Press @ key<br>:over 3sec. | over 3sec.<br>rot kt Pressure unit and previously set unit will flash in turn every 0.5 sec.<br>un) setting Press W or M key to select the unit.<br>Press (Press @ key for 1 sec to save selected unit and move to next mode.)<br> @ key @Vacuum pressure, compound pressure:<br>(kPa) (kgf/cm’) Ss (bar) (psi) (mmHg) (inHg) (mmH20)<br>@Positive pressure: For using mmH2zO unit,<br>multiply display value by 100.<br>114_. — | Output operation and previously set output operation mode will flash in turn every 0.5 sec.<br>oUEN mode setting Press & or § key to select output operation mode.<br>(Press @ key for 1 sec. to save selected output operation mode and move to next mode.)<br>Press OD key<br>=... %¥_ »% __... ¥ _..... © —....._| *Refer to E-10 page.<br>r , and previously set output operation mode will flash in turn every 0.5 sec.<br>nona_ |Output setting press W or Okey to select output type.<br>(Press @ key for 1 sec. to save selected output type and move to next mode.)<br>Press O key i a, _ a, __ _a ___ |<br>Gg 8 .. . © ! Refer to E-11 page.<br>Response time and previously set output operation mode will flash in turn every 0.5 sec.<br>setting Press & or §) key to select response time.<br>Press @ key (Press @ key for 1 sec. to save selected response time and move to next mode.)<br>De<br>Autonicse E-6<br>**----- End of picture text -----**<br>


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PSAN Series<br>eee<br>e@Analog output scale setting @Hold/Auto shift input setting<br>Analog voltage output type Analog current output type Hold/Auto shift input type<br>*1 A - tu Analogscale settingoutput. 1V *1 A -ffv4 Analogscale settingoutput;  4mA *3 d-in-} Select control functionF<br>| Press OD key | Press OD key | Press O key<br>#2} A - Su | Ansc a lelogsetting output5V x2 -2n7 | Ansc al eogsetting output20mA SHoE | Select Auto Shift: Output<br>Press OD key | Press OD key Press O key<br>#1. [FE tc] (voltage output)/ (current output) and previously set pressure value will flash in<br>turn every 0.5 sec.<br>Press &) or ) key to set analog output scale value for 1V and 4mA.<br>Setting range: Min.rated pressure < [A= fu], < 90% of rated pressure<br>(Press @ key for 1 sec to save selected pressure value as a scale value for 1V and 4mA and<br>move to next mode.)<br>*2. (voltage output)/ (current output) and previously set pressure value will flash in<br>turn every 0.5 sec.<br>Press or key to set analog output scale value for 5V and 20mA.<br>Setting range:[ A= tu], +10% of rated pressure < [A-5u]. < Max. rated pressure<br>(Press @ key for 1 sec to save selected pressure value as a scale value for 5V and 20mA and<br>move to next mode.)<br>*3. and previously set control function will flash in turn every 0.5 sec.<br>Press & or M) key to select external function.<br>(Press @ key for 1 sec to save selected function and move to next mode.)<br>@Select external input function: @Select the control output for Auto shift function in case of<br>selecting Auto shift function!<br>Press @ key [Lole] will flash in turn with previous setting parameter.<br>Press ®) or & key to select key lock setting.<br>(Press @ key for 1 sec. to save selected lock setting. Then, it will be returned to pressure unit<br>setting mode.)<br>When pressing @ key for 3 sec. in the middle of parameter setting, current setting value will be saved in EEPROM and<br>it will be returned to RUN mode.<br>%* All settings are saved in EEPROM regardless of power failure. Make sure that EEPROM has a limited write life cycle<br>(100,000 times).<br>(™|Preset setting<br>OHysteresis mode(H45.)<br>Autonics 100kPa Autonics 100kPa Autonics 100kPa Autonics 100kPa Autonics 100kPa<br>fa }m}||) Press ad ]|| Press Lc f}// Press ad x Press Lc x] Press<br>pa | at) key a De | key Px pa pa Da @ key ae [eg)] [OD] [kcy] [|][papa] pag) OD key<br>OUT! OUT? — OUT! OUT? — OUT! OUT? —> OUT! OUT? —- OUT!OUT? Sm — RUN mode<br>YR YR YR YR YR<br>PSAN -O 1 PSAN -O 1 PSAN -0 1 PSAN -0 1 PSAN -O 1<br>Press @ key for Se | and previously HYS | and previously See and previously H4S¢ and previously<br>3 in RUN set value will flash set value will flash set value will flash set value will flash<br>modd e .In in turn every 0.5 sec. in turn every 0.5 sec. in turn every 0.5 sec. in turn every 0.5 sec.<br>Autonics 100kPa Autonics 100kPa Autonics 100kPa Autonics 100kPa<br>me Cant Lara miele<br>ies (as Vt 0<br>‘OUT| Mi =6OUT2 OUT] i =OUT2 (OUT(= OUT2 OUT] (OUT.<br>YR YR YR YR<br>PSAN -0 1 PSAN -O 1 PSAN -0 1 PSAN -0 1<br>Press A) or M) key Press ®) or Press ®) or Press A) or<br>to select 5t | key to select HY5 | key to select Ste key to select HY¥S¢2<br>setting value. setting value. setting value. setting value.<br>«SE | setting range : Min. display pressure < St | < Max. display pressure<br>x*KHYS | setting range : Min. display pressure <HY¥5 | < Sk |<br>*St¢e setting range : Min. display pressure < St¢ < Max. display pressure<br>*HYSe setting range : Min. display pressure <HY¥S5e¢< Ste<br>e E-7 rrr e rece erence e neree Autonicse<br>**----- End of picture text -----**<br>


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IE<br>OWindow comparison output mode(¥! n) (A)<br>Autonies rr1e0KPa ‘Autonies 1e0Ka Autonies 1e0KPa Autonies 1e0KPa ‘Autonies 10KPa :,rere ic<br>Lint @Presskey a)  xWD [j|)( ODPresskey GOPresskey a’ we ml a ODPresskey |)aT) x aom @Presskey sensor®)<br>OUT Ma OUT? a — our OUT?  a — — OUT OUT? => our a OUT. ==> RUN mode Fiber<br>OV A PSAN -@ 1 O88 PSAN @-@ 1 UVAPSAN a-@ 1 UVAPSAN a-@ 1 O88 PSAN @-@ 1 Sensor<br>Press @ key for Lo- | and previously H! - | previously Lo-2 and previously Hi -2 and previously (C)<br>3 sec in RUN set value will flash set value will flash set value will flash set value will flash Door/Area<br>mode in turn every 0.5 sec. in turn every 0.5 sec. in turn every 0.5 sec. in turn every 0.5 sec. sensor<br>Autonics 100kPa Autonics 100kPa Autonics 100kPa Autonics 190kPa ( D )<br>Talat mule ir Proximity<br>as co a0 sensor<br>OUT a =6OUT2 am OUT a §=6OUT2 OUT a =6OUT2<br>O88 @ ME OF O88 B ME oF (e)<br>PSAN -@ 1 PSAN -0 1 PSAN -@ 1 PSAN -0 1 Pressure<br>Press ®) or Press &) or Press A) or Press A) or sensor<br>key to selectia-/ key to select Hi - | key to select Lo-é key to select HI -2<br>*Low value setting rangesetting: value.Min. display pressuresetting value.< Lo- !, La-e@setting< Max.value.display pressure—(3setting value.X Min. display range) | encoderOo ony<br>x High value setting range : La- /!, Lao-2+(3XMin. display range) < Hi - 1, Hi-2@ < Max. display pressure<br>*The minimum display unit for hysteresis is fixed to 1. (G)<br>Connector/<br>Socket<br>OHysteresis-Window comparison output mode(Hy-Y)<br>Autonics 100kPa Autonics 100kPa Autonics 100kPa Autonics 100kPa Autonics 100kPa oo p<br>[key] em) OD key @) key O key |e at| OD key sores<br>fee [@] Press—> CUT E lUT?(] —=>Press Press—=> Press—=> Con ca od m d) ( Press— RUN mode (1) troll<br>o8@ A nue@ A nuev a nov a ne a SSR/Powe<br>Press O key for St | and previously H45 | previously LoY and previously Hi GH and previously<br>3 sec in RUN set value will flash set value will flash set value will flash set value will flash (J)<br>mode. in turn every 0.5 sec. in turn every 0.5 sec. in turn every 0.5 sec. in turn every 0.5 sec. Counter<br>Autonies 100kPa Autonics 100kPa Autonics 100kPa Autonics 100kPa<br>miele Tala mal Levee<br>Coie ws a ws W)<br>OUT a =6OUT2 OUT a =6OUT2 OUT a =OUT2 a OUT| a =0UT2 am<br>Presskey toA)select or SE | Presskey to®)select or HY5 | Presskey to &)select or LoY Presskey toeSA)selector y Hi GH meterPanel<br>«SE setting value. setting value. setting value. setting value. (M)<br>| setting range : Min. display pressure < St | < Max. display pressure Speed/<br>xKHYS | setting. range : Min.. display. pressure <HY¥5 | < Sk | meterulse<br>Low value setting range : Min. display pressure < Lot < Max. display pressure—(3X Min. display range) (Nn)<br>x High value setting range : Low value+(3X Min. display range) < Hi GH < Max. display pressure Display<br>*ln case H4S | and Sk | have the same setting values, it will have the minimum display unit as a hysteresis. unit<br>OAutomatic sensitivity setting mode(AUto) oo<br>= = = =<br>Autonics 100kPa Autonics 100kPa Autonics 100kPa Autonics 100kPa controller<br>[key] i ee “VE i es key OO chine<br>a [0] Press—> CUT ad )UT?(] Press—=> Col ad ) ue“1 Press—=> Press—=> RUN mode power<br>supply<br>Press G3 key for St | and previously Ste and previously SEt and previously<br>3 sec in RUN set value will flash set value will flash set value will flash<br>mode . in turn every 0.5 sec. in turn every 0.5 sec. in turn every 0.5 sec. (R)<br>‘Autonics 100KPa ‘Autonies t00KPa ‘Autonics jeekPa Gra ph ic/<br>ra (rr Sensitivity will be automatically set. ses<br>(D008 ipa}Ey) Press A or © key to fine—adjust the<br>o vr ou cu meus |, setting value between St / and Ske. an<br>O88 @ O88 & OV A St 1 + 5be networkI<br>PSAN-@1 PSAN-@1 PSAN-@1 SET = 7 device<br>Press (A) or Press A) or Press A) or roa<br>key to select SE | key to select Ste key to select SEE Production<br>setting value. setting value. setting value. models &<br>*5et | setting range : Min. display pressure < St | < Max. display pressure—1% of rated pressure replacement<br>*5Ee setting range :5t !+1% of rated pressure < Ste < Max. display pressure<br>x*xIf certain detection level difference is not ensured, or setting conditions are not met, E-rj message will flash<br>three times and returned to Ste setting mode. Check all setting conditions and set proper setting values.<br>* Press A) key to change set values and last set value will be saved for level 1 and level 2.<br>*In case of PSAN-LIJLILH-L models, it is possible to set St | and St2 using option input (yellow) after applying<br>pressure on pressure port.<br> ——————————————————————————————————————————————————————————————————————<br>Autonics E-8<br>**----- End of picture text -----**<br>


## PSAN Series ~~IE~~ ©OForced output control mode(F.oUt) 

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Autonics 100kPa Autonics 100kPa Autonics 100kPa<br>Press i x ) iw Press<br>=> car Cond ==><br>YR YR YR<br>Ifmodeforcedis selected,output control |everyPresent Fait"0.5willpressuresec.flash valuein turnand<br>pressure value is Avtonies mz<br>displayed only.<br>(No output will be<br>provided.)<br>YR<br>Control output 1 OFF <—---= Control output 1 ON<br>Control output 2 OFF <= Control output 2 ON<br>e@Factory default (Unit:kPa)<br>If there is no additional key operation within 60 sec while Output Vacuum Positive Positive | Compound<br>setting,outputg it is returned to Run mode (Except(Except for force mode |—101.3pressureto 0] 0pressureto 100.0] | 0pressureto 1,000|-101.3pressureto 100.0<br>*In mode). Previously set values are remained. ce 1-500 [5t 1:50.0 15e 15500 SE 1:50.0<br>case of changing output operation mode, no preset H46 4 wust:0.)6 [HYS 0 «HS 1:0 HYS 1:—50.0<br>values will be initialized. Instead, previous output "1 St2:—50.0 ate :50.0 St2:500 5&2:50.0<br>operation settings will become the preset values. H35e:0 H95¢:0  |HY52:0 HY5e':~50.0<br>%* When changing pressure display unit, resolution, and Lo- 1:-60.0 JLa- 1:0 La- 1:0 La- 1:-50.0<br>Hold/Auto shift input function, preset values will be upg [HE t0 Hi = 1:50.07 Hi - 12500 | Hi - 150-0<br>initialized as shownp the next table.»P (When changing =!" |to-2:-50.0Hi -2:0 }ia-2:0Hi -2:50.0]H!— |La-2:0-2:500 | Lo-2:—50.0Hi -2:50.0<br>pressure display unit, preset value will be automatically Se 1:—50.0 [St 1:50.0 |SE 1:500 St 1:50.0<br>K switched : to changed pressure unit.) : Hy-u HYS O° HYS 5° HYS 5° HYS 00<br>eneSri  aon nisnthe ee ete to Mnetionuse in  neeHo uto shi — fH i at:GH:—50.0] Lot:4! GH:50.0]H!Lot:GH:500 | tLot:—o50Hi GH:50 . 0<br>Tanenon is nor avalia use| SE 1:0 SErO. [SE 1:0 SE 150.0<br>model. Ako |St2:—50.0 |5t2:50.0 |5t2:500 | 5t2:50.0<br>SEt:—25.0 {566 :25.0 |SEE:250 SEE:0<br>l™/High peak/Low peak function and Auto shift reference pressure check/change<br>Press A+M) keys<br>over 1sec. It will be returned to RUN<br>mode after previously set<br>Auto shift reference<br>Press OD key pressure is removed.<br>‘Autonics 700kPa Press iM | key ‘Autonics 700KPa Press iM | key ‘Autonics 700kPa Press iM | key naioale 7e0kPa ;<br>—— —— —— (oT<br>Press W+™ keys Press A+M keys Press A+) keys} ald LY Un<br>over 1sec. over 1sec. over 1sec. ; | a 4<br>¥ a A Remove the ¥ a ) Remove the v A Remove the ¥ a 4<br>retainedpressureminimumvalue. retainedpressureminimumvalue. retainedpressureminimumvalue. }i ;4<br>Press Retained maximum Retained maximum Auto shift reference}<br>3 sec oin  keyRUN for [exflash e very value0.5 sec.will [exflash e very value0.5 sec.will Hi pressureflash every value0.5 willsec. 4<br>mode. Autonics 100kPa Autonics 100kPa j Rutonies Aare ;<br>|<br>pressure if retained minimum : key to select set<br>value is above pressure value exceeds : value.<br>meeps limit of rated low-limit of rated pressure. ;<br>(For vacuum pressure Wor ANH il flash). Pov onenenenseeneneeesnennensennnnnnersnnned<br>type, LLLE will flash) ype, wii tas<br>* 1. >X Displayed only when "d-i n" is set to "SHFE".(PSAN-LITLILH-O models only)<br>If there is no Auto shift input, "2" will be displayed. (Refer to E-11 page for more details.)<br>reereeeeeeeeeeeeceeeneeeeeeneeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeneeeeee eee e ener ee eee<br>F—9 Autonics<br>**----- End of picture text -----**<br>


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IE<br>Output operation mode<br>1. Hysteresis mode(H45.5) _ 2. Window comparison output mode(¥ n)<br>It is able to set certain value for pressure detection | @It is able to set the range for high(Hi - |, Hi -2),<br>level(St 1, SE2) and hysteresis (HY¥5 1, HY52). low(Lo- |, La-2) limit of pressure detection level when<br>it is required to detect pressure at a certain range.<br>@®Detection hysteresis is fixed to min. display range.<br>Pressure Pressure<br>sea lth VAN Mb -2 JN % (x) Min. display r ange<br>He iH bhoodi He HH i iH fhoodt ui HH sensor<br>StOUT1I/HYSNO| OFFON |‘a____ar Lo-OUT1I/HiNO- | OFFon fo+ EE_|_ mm<br>se<br>St [1/H4S] dS | OFFa oHe i o 8 :| Lo-apnaI/Hi - | OFF\ a :{ eo, —— i<br>OUT2 NO ON ‘ 4 ! OUT2 NO ON ‘a ea]<br>Ste/HySe OFF — Lo-2/Hi -2 OFF — eee<br>OUT2 NC ON Hoo:jE Time OUT2 NC ON Hoh5 iromGPG3 Time<br>St2/H4Se OFF i ; Lo-2/H} -2 OFF H i<br>Time ! Time<br>3. Hysteresis-window comparison output 4.Automatic sensitivity setting mode(Auto)<br>mode(H4-") _  @This function is to set pressure detection level to the<br>It is available to set hysteresis mode and window proper position automatically. It is set by applied<br>comparison output mode when both hysteresis | pressure from two positions GE 1, 5Ee).<br>mode (St !, HYS 1) and window comparison output @Detection hysteresis is fixed to min. display range.<br>mode(Lo¥, Hi GH)are necessary. @The pressure detection level is shown in the following<br>@Detection hysteresis is fixed to min. display range. calculation. (St 14+5E2)<br>SET= ——<br>PressureHi GH Zee . _— Min olsplay : r ange :| PressureSte Ao . 2 _— in. olsplay a: r ange<br>Set t/HY5 | OFF 1, ; SEt OFF ee<br>Stsyst1/HYS | OFFOne ooo. i of io4HOoGP Gb Gb fo: Time | ereSEt ———OFF fio= GP+1ofr GE Gi_ Time<br>isi<br>OUT2 Hoi bo Ei Time : i Hoo tl it Time<br>Low/Hi NOGH OFFon |im=] ___ioee=| OUT2St 1/SE2NO OFFON fooif HHfoo"<br>OUT2 NC ON | imo 5 OUT2 NC ON =| is yj<br>LoY/H} GH OFF : : ; St 1/St2 OFF : :<br>Time : Time<br>5. Forced output control mode(F.oUt)<br>@Used to display pressure with forcibly holding comparing output OFF regardless of setting value.<br>@Output 1, 2 can be ON/OFF manually by pressing A), key while the forced output control mode is applied.<br>. : Present pressure :<br>Display m@m) pressurePresent i: < otiAa 7 valueSutbuland controlforced H: ayy) Presentpressure<br>value will iM | a parameter [Fout] Qj value will be<br>be displayed. : will flash in turn i displayed.<br>' every 0.5 sec. '<br>Output 1 eee is Timer<br>Output 2 iy, i Timer<br>eeerenee rere renee Autonicse E-10<br>**----- End of picture text -----**<br>


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PSAN Series<br>eee<br>=)/Functions<br>OPressure unit change function OHold/Auto shift input setting function<br>PSAN-VO1C(P) and PSAN-CO1C(P) has 7 kinds * Hold function: A function to hold present pressure<br>of pressure unit, PSAN-O1C(P) and PSAN-1C(P) value and control output at the time of hold signal<br>has 4 kinds of pressure unit. Please select the input.<br>proper unit for application. % Present pressure value and Hold message will flash<br>* PSAN-VO1C(P), PSAN-CO1C(P) : kPa, kgf/cm?, in turn every 0.5 sec. while Hold function is set. Make<br>bar, psi, mmHg, inHg, mmH2O sure that Hold function is not able to execut while<br>* PSAN-O1C(P), PSAN-1C(P) : kPa, kgf/cm’, bar, psi forced output mode is executed.<br>* When using mmH2O unit, multiply display value by > Control output timing chart<br>100. EX) When Hold signal is applied in Hysteresis mode,<br>©OutputThere  mode change function. ; refer to Control outputPuranasdiagram for hold signalgnat input.mp<br>to are 5 kinds of control output mode in order ressure h Nn<br>+ realize the various pressure detection. a<br>Hysteresis mode (H¥SA) : When needed to change woe ir SETTER EEE<br>hysteresis for detecting pressure. \* HoH GE<br>¢* Window comparison output mode! n) : When roi i i i<br>needed to detect pressure in certain area. ro Gb # ; i<br>¢ Hysteresis — Window comparison output mode (HY-¥) l i ii it 4<br>: When both hysteresis mode and window comparison geessetesseeseeeeeeseeenes  censesnrgpne ened feeeendsiled basesnsneenee ee<br>output mode are required. }OUT1 NO ON ; loowy i<br>* Automatic sensitivity setting mode (AUEo) : When pSE 1/45 | OFF fo trai Time : When<br>needed to set detection sensitivity automatically } OUT1 NC ON eee there<br>at proper position. pe HSS | OFF ro Time jis no<br>* Forced output control mode (F.oUE) : When needed }OUT2 NO ON IH iTo4 mE } HOLD<br>to display pressure with remaining comparison pSee/HISe OFF PE TIERE Time ; input<br>output OFF regardless of setting value. }OUT2NC ONhee oe, signal<br>OControl iSe@/H4Se2 OFF — aH —lp:<br>output change function hs ceesssssessnsnsesssnessesssnnssesssalessedfussedefeceesdefepededesseeseseeenenM}<br>set Normal Open or Normal Close. Aen linetligh eeae<br>Note that Normal Open and Normal Close provide i(Yellow) Low eo hy tt T i<br>opposite output. ?OQUT1 NO. ON ree ime;<br>Normal OUT1 outputOpen || OUT2NormaloutputOpen |Parameter[ taosetting : J value foe:iSk LMS1/HYS || ee) OFF PoiPop TE. 8 Time :; WhenthereHOLDis<br>Normal Open | Normal Close i | fo Time i input<br>Normal Close}. Normal Close . :}OUT2NCiSe2/H4Se OFFON fPp__ \ 2Hoi! Time }ii<br>(Chattering prevention) %* [Hold] and present pressure value will flash in turn<br>It can prevent chattering of control output by every 0.5 sec. while Hold signal is applied.<br>changing response time. It is able to set 5 kinds of lw sneer (or rie<br>response time(2.5ms, 5ms, 100ms, 500ms, 1000ms) j | |<br>and if the response time is getting longer, the —s I<br>detection will be more stable by increasing the o i a8) Flashing ci" Ns<br>number. v = MOS cee sa =<br>OAnalog output scale setting function ¢ Auto shift function: A function to use the measured<br>* Analog voltage output scale setting : The scale pressure at the moment of auto shift input as a<br>function for analog output voltage (1—5VDC) is not reference pressure in order to correct the set point<br>fixed to the rated pressure range. It can be changed values of control output when initial pressure changes.<br>for User's application. Analog output voltage range * Reference pressure is fixed to atmospheric<br>will be fixed to 1-5VDC within the pressure range pressure (0.0kPa) when Auto shift function is not<br>from pressure point of 1VDC output (A- tu) to ; used. ; ; ;<br>pressure point of 5VDC output (A-Su). x SHI n (Auto shift compensation value) will be reset<br>* Analog current output scale setting : The scale for to 0 when changing control output or preset values.<br>analog output Current (4—20mADC) is not fixed * Auto shift function will not be executed if "HHHH" or<br>to the rated pressure range. It can be changed for LLLL" error occurs or if forced output mode is set.<br>User's application. Analog output voltage will be [ SHot] : Reference pressure change through setting.<br>fixed to 4—20mA within the rated pressure range [ oUE 1] : Changed reference will be applied to control<br>from : A-o4 output 1 only.<br>pressurepressure point of 4mA output( ) to [ alte] : Changed reference will be applied to control<br>point of 20mA output (A-28). output 2 only<br>[ ALL] : Changed reference will be applied to both<br>control output 1 and control output 2.<br>e ee reer eee e eeee<br>E-11 Autonics<br>**----- End of picture text -----**<br>


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IE<br>> When Auto shift function is used < When Auto shift is used ><br>When Auto shift input signal remains at low level Pressure Increase of primary pressure<br>more than lms, the measured pressure at this point Normal primary pressure Ae<br>will. be saved as a reference value to make correct SEIWoh ~:~;PyDrop ofWiprimaryALpressure Af/: : \<br>judgment regardless of pressure changes. Corrected HSS tyeAPA 7A<br>preset pressure value will be applied after 7.5ms. Pbob PME PPG |<br>Measured reference pressure value will be saved in i Pb<br>Autonics 100kPa fe)N : : : : : : : :<br>Poot pot hoon hoot Dood boot Time<br>»> OUT o-- __fal Auto shift inputpi Auto shift inputpe<br>= = a a<br>- = Reference pressure = Reference pressure < Reference pressure = (E)<br>Flashing twice when Atmospheric pressure © Atmospheric pressure = Atmospheric pressure [geil<br>input Auto shift signal (0.0kPa) (0.0kPa) (0.0kPa) sensor<br>Auto shift Time<br>input Correction set value: [St {]) = [St t] + [SH nl<br>Correction set value: [H4¥5 !]) = [H¥5 1] + [SHI n]<br>Min. 1ms Time %[ SHI n] is the reference pressure set by Auto shift input.<br>Switch<br>outputresponse OKey lock function.<br>(Switch output responseMin. 7.5mstime Time The keywe lock function. prevents key operations so that<br>when Auto shift signal is input) conditions set in each mode.<br>—x—> eitof ! : All keys are locked: therefore it is not<br>Preset point value will be available to change parameter settings, preset value,<br>corrected by Auto shift input. . . ,<br>zero adjustment, High/Low peak check, and 5Hi nA<br>* When Auto shift function is used, the possible set data initialization. (Lock setting change is available)<br>pressure range will be wider than rated set pressure eLole : Partially locked status; therefore it is not<br>range. available to change parameter settings only (Lock<br>* The possible set pressure range for Auto shift type setting change is available). Other settings are still<br>models. available.<br>P ; eoFF : All of the setting is available, all keys are<br>ressure Set pressure range Possible set pressure range<br>type for Auto shift tyoe models unlocked.<br>Vacuum | _ _<br>101.3kPa to 5.0kPa| —101.3kPa to 101.3kPa OZero-point adjustment function<br>dara |<br>pressure value to "zero" when the pressure port is<br>Srangarg 72:OKPa to 110.0kPa| —110.0kPa to 110.0kPa The zero-point adjustment function forcibly sets the<br>—50.0kPa to 1100kPa} —1100kPa to 1100kPa opened to atmospheric pressure. When the zero<br>[Compoundpressure — 3kPa to 110.0kPa] -101.3kPa to 110.0kPa adjustmentCurrent] is changedis applied,by thisanalogfunction.output [Voltage or<br>x If the set point value corrected by auto shift input (Press +(&)keys over 1 sec. in RUN mode.)<br>flashexceedsthreesettimespressureand correctedrange, anvalueerrorismessagenot saved.will OHigh. Peak / Low Peak Hold function;<br>—>[-HH-] displayed when the set point value This function is to diagnosis malfunction of the system<br>corrected by Auto shift input is above the upper caused by parasitic pressure or to check through<br>limit of set pressure range. memorizing the max./min. pressure occurred from the<br>—[-LL-] displayed when the set point value system.<br>corrected by Auto shift input is below the lower . ;<br>limit of set pressure range. OError display function<br>* The correction value will be saved in EEPROM. Error display] Description | Troubleshooting<br>When external pressure : :<br>> . . \ oan : aor Try again after removing<br>< WhenExampleAutoofshift Autois notshiftusedfunction> Err | jis pus wile aciusting external pressure<br>Pressurecer Normalieh pi primaryini Droppressureof primary pressureIncrease /\of primary[\ pressure Whenw hvanabelvrisettingloadconditionoutput| liedleis] Check setting conditions<br>HYS | rAlf my  For a erscreasVU ErrJ |not met setting in Auto mode sensitivity and setting set values proper<br>; iMi When applied pressure<br>PoP : LLELLL exceeds Low-—limit of<br>Poi oi i display pressure range Apply pressure within<br>ot When applied pressure | display pressure range<br>PoP odd i Time HHHH exceeds High-limit of<br>bobo ob od i display pressure range<br>out ON<br>OFF . : -<br>Hobo -HH- Auto shift Set the corrected setting<br>Time -LL- correction ‘error value within setting<br>-HL - pressure range.<br>a<br>Autonics E-12<br>**----- End of picture text -----**<br>


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PSAN Series<br>IE<br>[=|Installation =™|Proper usage<br>1. Pressure port is divided as basic and option A Caution<br>specification.commercially availableTherefore,one touchbe surefitting.that(Standard:to use PSAN Series; .is for sensing; of non corrosive.<br>R(PT) 1/8", Option: NPT1/8", 7/16" — 20 UNF) gas. Do not use this product at corrosive gas<br>2. Please connect it by using spanner(12mm, 17mm) or flammable gas, etc.<br>at the metal part in order not to overload on the * Please using this unit within the range of specification,<br>3. body when connecting one touch fitting. , if applying pressure is larger than specification, it<br>Two different fixing brackets are provided for may not be working properly due to damage.<br>PSAN model. Select proper one with considering<br>4. Atyourfirst,applicationplease unscrewenvironments.hexagon wrench bolt and ¢ After supplying power, it takes 3 sec. to work.<br>assemble the bracket on this unit by fixing hexagon * When using switching regulator as power supply, it<br>the wrenchbolt. must be grounded (F.G.).<br>In this case, tightening torque<br>of hexagon wrench should be < 2<br>max. 3kgf * cm. SH =4<br>If not, it may cause mechanical 1H 42mm Le) |<br>problem. 2 -~e-\_ Spanner +0 28<br>A Caution <Pneumatic type> Switching _¢<br>The tightening. . torque of one regulator F.G.O<br>touch fitting should be max. A> = G Ground<br>100kgf - cm. SA<br>If not, it may cause mechanical ws y f<br>roblem. @ 170m * It may cause malfunction by noise, when wiring with<br>proble = Spanner power line or high voltage line.<br><Fluid type><br>* Do not insert any sharp or pointed object into pressure<br>Spring washer It may cause mechanical problem due to sensor damage.<br><p port.<br>—PFs Ss a, * Do not use this unit with flammable gas, because this<br>Sz Cg H-4 & ~ is not an explosion proof structure.<br>e. os<br>\ [¢]<br>Wa. + 0 ) @.~t Hexagon(M3x6)“0.~wrench bolt * Bewithsurewater,that oil,this: thinner,unit: shouldetc. not be contacted directly:<br>5. ss 00° by<br>Bracket(PSO-BO2) and front protection cover 6 0 io 0 6<br>(PSO- PO1) are sold separately. Please see the 06 6.6 oy°<br>pictures for installation. 66° 6 6<br>Panel mounting bracket nad,<br>Zar (PSO-B02) Za<br>\s VF mA y ¢ Wiring must be done with power off.<br>Protection S S (PSAN)<br>(PSO-P01)cover SV | yAM FoK¥<br>Bracket panel<br>**----- End of picture text -----**<br>


~~a~~ E-13 Autonics