Piping Specifications: M5 Female Thread/Side Piping Port, Output Specifications: PNP Open Collector 1 Output+Analog Voltage, Unit Specifications: Unit Switching Function (Not Allowed for Use in Japan), Lead Wire: No Lead Wire, Adapter: R [DIN Rail Adapter (DIN Rail to be Prepared by Customer)], Calibration Certification: -
Piping Specifications: M5 Female Thread/Side Piping Port, Output Specifications: PNP Open Collector 1 Output+Analog Voltage, Unit Specifications: Unit Switching Function (Not Allowed for Use in Japan), Lead Wire: G [Lead Wire w/Connector (2m Lead Wire Length)+Connector Cover], Adapter: -, Calibration Certification: -
Piping Specifications: M5 Female Thread/Side Piping Port, Output Specifications: PNP Open Collector 1 Output+Analog Voltage, Unit Specifications: Unit Switching Function, Initial Value psi, Not Allowed for Use in Japan, Lead Wire: No Lead Wire, Adapter: R [DIN Rail Adapter (DIN Rail to be Prepared by Customer)], Calibration Certification: -
Piping Specifications: M5 Female Thread/Rear Piping Port, Output Specifications: PNP Open Collector 1 Output+Analog Voltage, Unit Specifications: Unit Switching Function, Initial Value psi, Not Allowed for Use in Japan, Lead Wire: No Lead Wire, Adapter: Panel Mount Adapter+Front Protective Cover, Calibration Certification: -
Piping Specifications: NPT1/8 Piping Adapter, Side Ported, Output Specifications: PNP Open Collector 1 Output+Analog Voltage, Unit Specifications: Unit Switching Function, Initial Value psi, Not Allowed for Use in Japan, Lead Wire: G [Lead Wire w/Connector (2m Lead Wire Length)+Connector Cover], Adapter: None, Calibration Certification: w/Certificate
Piping Specifications: M5 (M5 Female Thread/Side Piping Port), Output Specifications: E (PNP Open Collector 1 Output+Analog Voltage), Unit Specifications: M (Fixed SI Unit, kPa)
Power Valve: Economy Valve Series VEX5 1 attached to the terminal block e. Then, pass the lead wire !0 through the terminal block e and tighten the screw !1 again. Note 1) Tighten within the tightening torque of 0.5 Nm 15%.
PF-OMK0003CN-E / 1 1.5 *3) 1 1 [] -3No. PF-OMK0003CN-E () () -4No. PF-OMK0003CN-E () * ,UL UL1310 2 UL15852 30[Vrms] (42.4[V ])(2 ) UL JIS B 8392-1 1.1.21.6.2 -5No. PF-OMK0003CN-E * (1 /) FG 49N ) 1 () -6No. PF-OMK0003CN-E *() 6 33 2 () () 10m DC(-)() () -7No. PF-OMK0003CN-E * ( ) () CE 050 -8No. PF-OMK0003CN-E * 523 * -9No. PF-OMK0003CN-E (11 ) -10No.
P(D Appendix e/How to caculate a rnomenl of ineriia .e@ Difilensions ..,,.,.,.,,.,.,,.,.,., C6 with Auto switch.-. e@ Auto Swilch DiagramgRolatron Into. ..
<> <> ON(SVON ON) Unable to find motor phase in set time. (1-193) E <> ON SVON ON <> Output current limit exceeded E <> set value (1-194) <> Current sensor abnormality has occurred. (1-195) E <> <> Position error overflowed (1-196) E <> <> EEPROM Memory abnormality has occurred (1-197) E <> EEPROM 10 <> CPU CPU CPU error (1-198) E <> -93No.JXC-OMT0001CN-C 14. / A () 50mm
P(D Appendix e/How to caculate a rnomenl of ineriia .e@ Difilensions ..,,.,.,.,,.,.,,.,.,., C6 with Auto switch.-. e@ Auto Swilch DiagramgRolatron Into. ..
~I ~--~~ K ~~ P~ ' ~k I -TFunnion Pin' . , nue ' :e In . L L 1===:: . e ~l Nut ftO'a E . d Nilt ;1 ' , 0 , d d u {} B I I H B ILH ~ I Model j Bore,size(rnm} . d , I .Ji'.. ..I ~. e ~:C _ ~1IlIO
Common exhaust: VV3P7-41Stations 1-04 (G) (E) (T) (D, Y) N.C.
0 t t r i w e r i u w y e q Courtesy of Steven Engineering, Inc.-230 Ryan Way, South San Francisco, CA 94080-6370-Main Office: (650) 588-9200-Outside Local Area: (800) 258-9200-www.stevenengineering.com q VQ7-8-FG-DVQ7-8-FG-D-R !0 !0 t t r i w y e q r i w e q VQ7-8-D-R FHG FJG FIG VQ7-8-DFHG FJG FIG !0 !0 t t r i w y e q r i w e q VQ7-8-FPG-D!
Head Flange: CG3GN Bore size Stroke With rubber bumper Width across flats KA GA GB 4 x FD 8 x J 2 x P F R0.5 H1 0 E 0.05 MM D FX 0.15 0 E 0.05 I B C Corner of the cover (20 to 63) H A AL Width across flats B1 Width across flats NA F FT C FX 0.15 S + Stroke ZZ + Stroke B End boss is machined on the flange for E.
0 i e r y !3 !4 @0 !9 t !8 @2 @4 !
Fluid Electrode Electromotive force (E) The electromotive force (E) is proportional to the fluid velocity (V) multiplied by the magnetic flux density (B). The volume flow is calculated by converting the measured electromotive force (E). An oval fluid passage is used to improve the magnetic flux density generated by small amounts of current.
(SW1) (SW1) (SW2-3, SW2-4) (SW2-3, SW2-4) 0 33 0 49 1 34 1 50 2 35 2 51 3 36 3 52 4 37 4 53 5 38 5 54 6 39 6 55 ON ON 7 40 7 56 8 41 8 57 1 2 3 4 1 2 3 4 9 42 9 58 A 43 A 59 B 44 B 60 C 45 C 61 D 46 D 62 E 47 E 63 F 48 F 64 -14- 5. Parameter list (Driver side) Please configure the appropriate parameters to enable correct driver operation. Refer to [5.
(T), OIN connector(D) Surge Voltage Suppressor Circuil U GS "--ffi_=r e+--,-1 *"-,..01$A|l ilrr i*Ti $i= *Ejlll,o .itJj rljo Lamp, Surge Voltage Suppressor Circuit E7, rZ, DZ EZ, rz, Dz (OOV o. more.l (Less than 24V) Surge Voltage Suppressor Circuit il*ffir.