3 Way Direct Acting NVKF 300 Series (M5) 01T r/ NPTF {A port onl ' Special order Notel) Indicale in parentheses al end of parl # Ex.
PSI:1 Min. dISplay dilferenllal kgf/cm2 :O.02. bar:O.D2 kgf/cm2:O. 1, bar:O.1 mmHg:l 0. kPa:2. PSI:O.2 Can be programmed for a hysteresis mode, window comparator mode. or reversed output of these respective modes.
entry Port 1(P), 2(A) 3(R) 1 8 1 8 01 1 02 G Grommet (Lead wire length 300 mm) 1 4 1 4 H Grommet (Lead wire length 600 mm) 1 4 1 4 02 3 03 D DIN terminal 3 8 3 8 DO DIN terminal (Without connector) 04 1 2 1 2 1 2 3 4 1 2 3 4 1 04 5 06 Body ported G Grommet (Lead wire length 300 mm) 10 1 1 1 H Grommet (Lead wire length 600 mm) 10 7 12 14 9 20 2 E Grommet terminal 1 4 1 T Conduit terminal
Port size With One-touch fitting 01 M5 M5 R 1/8 R 1/4 R 3/8 R 1/2 02 03 04 Needle Valve/Flow Rate Characteristics Note) The flow rate characteristics are representative values.
TMH M5 Port size ASD M5 x 0.8 R 1/8 R 1/4 R 3/8 R 1/2 10-32 UNF NPT 1/8 NPT 1/4 NPT 3/8 NPT 1/2 Applicable tubing O.D. Note) Type 01 02 03 04 Inch size Metric size Elbow Universal 2 3 1/8" AS 23 01 3.2 03 05 07 09 11 13 04 06 08 10 12 4 5/32" 6 3/16" Control AS-FE U10/32 N01 N02 N03 N04 8 1/4" Meter-out Meter-in 0 1 10 5/16" Made to Order Refer to the below for details.
HS D-A7H D-A80H D-F7 D-J79 D-F7W D-J79W D-F7F D-F7NT D-F7BAL 40, 50 25, 32 Approx. 30.5 A A Approx. 22 A A Approx. HS 40, 50 25, 32 D-A73C D-A80C D-J79C Approx. 30.5 Approx. 26.6 A A A A D-A79W D-F7WV D-F7V D-F7BAVL 25, 32 40, 50 Approx. 30.5 Approx. 22 A A A A 40, 50 D-P5DW Approx. 31 A A Approx.
Voltage leaking When a resistor is used along with the switching element and a C-R element is used for protecting the switching element (surge voltage protector), be aware that there is an increase in leaked voltage when the leakage current flows through the resistor or the C-R element. Residual leaked voltage must be kept as follows.
[Check valve] A check valve is a safety device intended to prevent reverse flow. The AP 64 is a unique design with only one moving part in the gas stream, an O-ring. It is a springless design, free of springs and poppets. [Vacuum generator] A venturi device that creates vacuum by flowing gas through a nozzle.
B 5(3) 5(3) 6(4) 11 A 6(4) 6(4) 7(5) 12 B 0(0) 0(0) 0.5(0) 5.5 A 0.5(0) 0.5(0) 1.5(0) 6.5 B 3(1) 3(1) 4(2) 9 A 4(2) 4(2) 5(3) 10 Hs 69.5 72 75.5 79.5 B 6(4) 6(4) 7(5) 12 Hs 60 62.5 66 70 A 7(5) 7(5) 8(6) 13 Hs 25 27.5 31 35 B 0(0) 0(0) 1(0) 6 Hs 22.5 25 28.5 32.5 A 1(0) 1(0) 2(0) 7 B A B 1.5(0) 1.5(0) 4.5(2.5) 3.5(1.5) 2.5(0.5) 4.5(2.5) 3.5(1.5) 2.5(0.5) 5.5(3.5) 10.5 4.5(2.5) 9.5 3.5(1.5
Size 20, 25 32, 40 NT-02 NT-MU03 A nut is included in the rod end male thread as standard.
Normally open Normally closed Polycarbonate AD52 -A AD51 -A Nylon AD52 -6-A AD51 -6-A Metal AD52 -2-A AD51 -2-A 1 Enter the piping thread type to of the bowl assembly part number. Nil: Rc thread, N: NPT thread, F: G thread Please consult with SMC separately for psi and F unit display spccifications.
Refer to page 7-2-5. 2-M3 x 0.5 (Port size) M3 x 0.5 (Relief port: 10See above) (Vacuum port: 11See above) 3.5 20Data C + Stroke 3 B + Stroke A + Stroke Without auto switch With auto switch A B C A B C Bore size (mm) 24 18 29 23 11.5 16.5 6, 8, 10 7-2-7 7 Series CUJ Construction Double acting !3 w e q !1 r y o e t !
Hv Auto Switch Proper Mounting Position Solid state auto switch Bore size (mm) 2-color indication solid state auto switch Reed auto switch B C A B Hv A B C A B Hv A B Hv A B C D-A9 D-A9V D-M9 D-M9V D-F8 D-M9W A B Hv D-M9WV A 36 25 16 36 25 15 32 21 20 32 21 17.5 18 7 25 32 21 20 32 21 17.5 8 Note) Adjust the auto switch after confirming the operating conditions in the actual setting.
Avoid using a switch in a magnetic environment. It may cause a malfunction. 2. Use a screwdriver of a size suitable for the groove of the adjustment screw. 2. Do not use in such an environment, where water or oil is splashed.
HS D-A7H D-A80H D-F7 D-J79 D-F7W D-J79W D-F7F D-F7NT D-F7BAL 40, 50 25, 32 Approx. 30.5 A A Approx. 22 A A Approx. HS 40, 50 25, 32 D-A73C D-A80C D-J79C Approx. 30.5 Approx. 26.6 A A A A 25, 32 40, 50 D-A79W D-F7WV D-F7V D-F7BAVL Approx. 30.5 Approx. 22 A A A A 40, 50 D-P5DW Approx. 31 A A Approx.
-15A VNH3 -20A VNH4 -25A A B A B A B A B 60 80 100 115 217 (219) 246.5 (248.5) 282 (284) 301 (303) 60 77 96 113 46 60 76 85 34 40 50 60 24 36 41 50 135 164.5 200 219 50 60 79 90 77 1 8 1 2 3 x 3 4 3 x 1 1 4 95.5 111 119 VNH VNH 1 4 VND Note) ( ): CE-compliant product (-Q) VCC Model J K L M N O P Q R S T U VNH1 -10A A B VNH2 -15A A B VNH3 -20A A B VNH4 -25A A B M5 x 0.8 depth 5.5 M6 x 1 depth
Caution indicates a hazard with a low level of risk which, if not avoided, could result in minor or moderate injury. Caution: Warning indicates a hazard with a medium level of risk which, if not avoided, could result in death or serious injury. Warning: Danger : Danger indicates a hazard with a high level of risk which, if not avoided, will result in death or serious injury.
(A value under a specified condition.) VN LVC LVA Electricity LVH 1. Apparent power (VA) Volt-ampere is the product of voltage (V) and current (A). Power dissipation (W): For AC , W = V/A cos. For DC, W = V/A (Note) cos shows power factor. LVD LVQ 2. Surge voltage The surge voltage is a high voltage generated momentarily when cutting the power supply. LQ 3.
B D A A B D B D Dimensions Dimensions Dimensions (mm) (mm) (mm) A B C D E F Y A B C D E F G Y A B C D E F Y Model Model Model ZP40HB ZP63HB ZP100HB 40 41.4 28.4 43.2 20.5 30 13 63 65.1 45.5 67.6 31.5 50 4.5 21.5 100 103.1 68.6 106.7 47.5 80 35.5 ZP50HB ZP80HB ZP125HB 50 51.9 35.7 54 24 40.5 16.5 80 83 58.4 85.1 37 64 5 27.5 125 128.5 88.6 135 56 44 105 13-11-95 Series ZPT/ZPR Replacement