ZP3 polyurethane tubing Barb fitting U4 For 4 soft tubing Width across flats H G J Rotating K Non-rotating Width across flats E C (Buffer body) Model 2 2 B D A B C D E F G H Vacuum inlet direction q Pad dia.
d. e. f. -46- 7.5. 1. 2. (1mm ) 3. 4. N Nm LEY16 LE-D-2-1 10 0.36 LEY25 LE-D-2-2 19 0.63 LEY32 LE-D-2-3 30 1.5 5. LEY32 Nm LEY16 0.63 LEY25 1.5 LEY32 5.2 6. -47- 8.
B A B A 2-position double 2(B) (A)4 Metal Rubber Function Cylinder port fitting port size C6: With 6 One-touch fitting D-sub connector VP4 Symbol DC AC Specifications cable assembly AXT100-DS25-030 (R1)5 1 (P) 3(R2) D: Slide locking type (Manual) C: Locking type (Manual) 2 (0.4 W) Note 1) 2-position double Nil Standard VQ 1/2 VQ 1/2 F kit (D-sub connector) 2(B) (A)4 Manifold base (9 stations
SYJ71 R 2 4 SYJ72 R 2 4 Standard With power saving circuit 0.35 (With light: 0.4 (DIN terminal with light: 0.45)) Power consumption (W) DC (A) 2 (A) 2 0.1 (With light only) X X 1.4 (With light: 1.5) 100 V 110 V [115 V] 200 V 1.6 (With light: 1.7) [1.7 (With light: 1.8)] 1 (P) 3 (R) 1 (P) 3 (R) Apparent power (VA) AC 2.3 (With light: 2.4) 2.5 (With light: 2.6) [2.7 (With light: 2.8)] 220
1.5 V 5 V 4 mA 6 mA 20 mA (PF3W511) A B C 1 V 1.4 V 5 V 4 mA 5.6 mA 20 mA (PF3W521-12/14) A B C 1 V 1.8 V 5 V 4 mA 7.2 mA 20 mA (PF3W521-U30) A B C 1 V 1.48 V 5 V 4 mA 5.92 mA 20 mA [L/min] PF3W504 0.5 4 PF3W520 2 16 PF3W540 5 40 PF3W511 10 100 PF3W521-12/14 50 250 PF3W521-U30 30 250 () A B C D 0.6 V 1 V 5 V 5.4 V -40No.PF-OMN0009CN-F PF3W504/520/540/511 2X A AA B DD E F G H J K L
For example, when analogue output is 1 to 5 V, F.S. = 5[V] 1[V] = 4[V], (ref. 1%F.S. = 4[V] x 1% = 0.04[V]) F.S. (Full span, Full scale) H A function to store the accumulated flow value in the products internal memory. The flow value will be stored at a set time interval of either 2 or 5 minutes.
ZA A B t 2 x D ZX C ZM ZL ZH ZH ZH ZH -X267 ZH13 to 20DA 2 x D B ZHP A F E C ZU VQD-V Long clamping screw set for 1 station required for assembly needs to be ordered separately.
D-sub] BUS OUT BUS P 1 P 1 BUS IN E 3/5 E 3/5 2 2 B B 2 2 PWR PWR 4 A 4 A 4 4 Note 1) These figures show the SS5Y3-12SQA-05D.
100 V, 200 V Solid state switch Reed switch 3-wire (NPN) 2-wire 3-wire (NPN) 3-wire (PNP) 2-wire 3-wire (NPN) 3-wire (PNP) 2-wire 4-wire (NPN) Terminal conduit 12 V Relay, PLC IC circuit Yes 5 V, 12 V With diagnostic output (2-color indicator) 24 V 12 V Grommet 5 V, 12 V Water resistant (2-color indicator) 12 V 5 V, 12 V With diagnostic output (2-color indicator) IC circuit A96 A93 A90
Description 1 Power supply (24 VDC) 1 Power supply (24 VDC) 3 Power supply (0 V) 2 (Input) 3 Power supply (0 V) 4 Input 4 Input : Internal wiring of M12 input block and key position for mounting sensor connector No. 2 pins of M12 input block connectors are wired to each others sensor signal input pins (No. 4 pins) internally.
Note 3) Vacuum pilot type CE-compliant pilot solenoid valves will become VO307VD DZ-Q. 2 1 1 2 569 A VNB Series How to Order Pilot Solenoid Valves Valve size 1/2/3/4 Valve size 5/6/7 and vacuum pilot type VO307 Q 1 5 D SF4 5 D 23 Q Body option CE-compliant CE-compliant Coil rated voltage CE-compliant Nil Q Standard Vacuum pilot Nil V CE-compliant Nil Q 1 2 3 Note 1) 100 VAC 50/60 Hz 200
Example) SYJ3120-5M-M3, VJ3000-13-1 5 6 V S R 1 2 3 4 24V DC 12V DC 6V DC 5V DC 3V DC 100V AC 200V AC 110V AC [115V AC] 220V AC [230V AC] (For manifold type 20) SYJ3 2 5 M 1 M3 0 Body ported Base mounted (4 port) 2 SYJ3 3 5 M 0 (For manifold use only.)
1 V 1.8 V 5 V Current output 4 mA 7.2 mA 20 mA (PF3W521-U30) A B C Voltage output 1 V 1.48 V 5 V Current output 4 mA 5.92 mA 20 mA Rated flow [L/min] Sensor model Minimum Maximum PF3W504 0.5 4 PF3W520 2 16 PF3W540 5 40 PF3W511 10 100 PF3W521-12/14 50 250 PF3W521-U30 30 250 Analogue output (Fluid temperature) A B C D Voltage output 0.6 V 1 V 5 V 5.4 V -40No.PF-OMN0010-J Dimensions PF3W504
Connector pin numbers (lead wire) Connector pin numbers Wire colour Description 1 Brown DC(+) 2 White OUT2/Analogue output/External input 3 Blue DC(-) 4 Black OUT1 -18No.PF-OMS0002-B Internal circuit and wiring examples NPN (2 outputs) type PFMC7--AMaximum applied voltage: 28 V Maximum load current: 80 mA Internal voltage drop: 1 V or less NPN (1 output) + Analogue (1 to 5 V) output type
4-28 P. 2-4-23 P. 2-4-68 P. 2-4-59 P. 2-4-68 P. 2-4-60 P. 2-4-68 P. 2-4-63 Standard P. 2-4-92 P. 2-4-87 2-4-3 4 Series VQ/Body Ported: Variations Series VQ/Body Ported: Variations Manifold Variations F P T kit kit J kit kit Terminal block Flat ribbon cable connector (26, 20, 16, 10 pins) Conforming to MIL flat ribbon cable connector Flat ribbon cable connector (20 pins) D-sub connector Conforming
2 2-Rc 3 4 2-Rc1 Model J L K M N O P Q R S T U V M5 X 0.8 Depth 5.5 20 24 24 29 36 48 51 25 30 35 38 30 40 50 56 37 43 50.5 58.5 75 100 126 141 88 118 148 163 34 44.5 60.5 66.5 10.5 16 19.5 15.5 62 6 X 8 7 X 0 9 X 2 9 X 2 202.5 232 267 286.5 VNH1 -10A VNH2 -15A VNH3 -20A VNH4 -25A A B A B A B A B M6 X 1 Depth 6 70 92 109 M8 X 1.25 Depth 6 M8 X 1.25 Depth 6 4.2-34 2 Port Valve for Steam
bAs B6.type B (n ~ 2.4 _ l) 0.5 50.5 :"'Hs 43.5 15 +50( 0" ) 75 +55(n2) 15 75 ~ ' B6lype I><>S'KSlype 3.5 3.5 A 2 ( n ~ 2 . 4.~--' ) 10 26.5 25 26.5 D-G5 K5 type G 35+30(n-2) 35 100 100+ loo(n2) i D-A31ype 1><>3 ' K3 type 50.5 ~Hs 38 43.5 1.5 1.5 A 0 DA3 type 24.5 24.5 23 B 35+3O (n2) 5O+5O(n 2) 35 55 D-A4 type D-G3K3 type !
DIMENSIONS A B c D E 1.11 (114 268 @) 0.98 (25) o.17 (12t 0.31 o TOOiDEt A8 PAnTOF v tvExANrFotDAaS'V ADOSutllx "M" to p.n numb.r. Ellmplr: Pe't Numbr, t{Va at34. oanoM = A t Nva 4134{0090 vds mo0nt.d on I SP @2 &bDt.t. wlh |, SP 0300 Inl.rt.o.
Maximum current rating Voltage without load (V peak) 5.0 0 to 20 [V] 100 Peak voltage Over 20 [V] up to 30 [V] (2) Circuit (of class 2) which is of maximum 30 Vrms (42.4 V peak) or less, with UL 1310 class 2 power supply unit or UL 1585 class 2 transformer. Grounding Warning 1. Make sure the product is grounded to ensure the noise tolerance of the controller.
Operating Conditions Model : ML2B32 Load : 15N Speed , Va : 0.25m/s Pressure : 0.5MPa L1 : 0.05m L2 : 0.05m W W L1 L1 Loading Static Loading Dynamic Loading A Load due to W W3 B Momentum due to W M2 C Momentum due to we when stopping M3 V D M1 V 2.