VT317 (60 Hz) 11 VA (50 Hz), 7 VA (60 Hz) Without indicator light: 6 W, With indicator light: 6.3 W ZNR (Varistor), Neon bulb ZNR (Varistor), LED (Neon bulb for 100 V or more) Inrush Holding Apparent power (3) AC 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 Power consumption
) 24 V ( US 1 ) 0 V ( US 1 ) Power 24 V ( US 2 ) 0 V ( US 2 ) (XD1) DC / DC FE Push Pull connector ( 24 Volt ) Solenoid valve interface 24 V ( US 1 ) 0 V ( US 1 ) 0 V ( US 2 ) 1 Power 24 V ( US 2 ) 2 0 V ( US 2 ) 0 V ( US 2 ) (XD2) 3 FE OUT [ 0 ] Short circuit Pules transformer Push Pull connector ( RJ 45 ) protection OUT [ 31 ] 34 TD + Bus P TD Port 1 ( XF1 ) ERTEC 200 RD +
4 ZSE20B-L(-M): 1 ZSE20B-L-P: 4 ZSE20BF-L(-M): 1 Unit (Selection of display unit) 0x03E8 (1000) 0 R/W Y U8 ZSE20BF-L-P: 4 NorP (Selection of PNP/NPN) Setting of switch output specification 0: NPN 1: PNP 0x03E9 (1001) 0 R/W Y U8 0x01 (1) Setting of display color 0: red (Constantly red) 1: Grn (Constantly green) 2: 1SoG CoL (Selection of display color) (OUT1 turns green at ON) 0x03EA (1002
T O O R D E R S E R I E S (N)AS1000-4000 S Y M B O L S NAS 3 000 A R E A C O D E Japan, Asia, Australia, UK N Canada, USA P O R T T H R E A D P A N E L M O U N T V E R S I O N R(PT) N NPT B O D Y S I Z E P O R T S I Z E 1 M3, M5 2 1/8, 1/4 Standard 3 3/8 Standard 4 1/2 Standard M3 M3x0.5 M5 M5x0.8 01 1/8 (10-32Nom) 02 1/4 03 3/8 04 1/2 T E C H N I C A L SPECIFICATIONS D I M E N S I O N S
Heat Exchanger Specifications HED003-HW13 HED003-HW19 HED005-HW13 HED005-HW19 HED007-HW13 HED007-HW19 Heat exchanger model Cooling capacity (Water) Note 1) 500 W 300 W 750 W Heating capacity (Water) Note 1) 1000 W 600 W 1800 W Cooling/Heating method Peltier device (Thermoelectric device, Thermo-module) Radiating method Water-cooled Operating temperature range 50 to 140F (10 to 60C) (depending
Vacuum pressure Theoretical lifting force Horizontal lifting force [N]Safety factor 1/4 [kPa] [N] 1 cup gripping -50 40.2 10 2 cups gripping -67 53.8 13.4 3 cups gripping -73 58.7 14.6 (Calculated by W = P X S, S = r2, r = 32 / 2. Refer to 3.3 How to calculate theoretical lifting force for the detail.)
(0.23 A) Power consumption (When rated voltage is at 24 V) Inrush Holding 60 dB 1 W Coil switching noise Note 6) [ ] indicates high-pressure type.
Power supply is AC200V single phase (Note 4) Malfunction RA1 OFF ON MC MC SK EMG stop switch Driver Servo amplifier Servo motor MC (Note 7) MCCB CNP1 1-phase 200 V AC to 240 V AC (Note 11) L1 CNP3 (Note 6) U U L2 Motor V V L3 M [1] W NW P3 (Note 1) (Note 10) P4 CNP2 P+ [2] (Note 2) C [3] D (Note 11) (Note 3) Encoder CN2 Encoder L11 cable L21 (Note 8) Main circuit power supply CN3 EM2 24 V
SYJA 2(A) 2(A) Standard VZA (P)1 3(R) (P)1 3(R) i VFA 2(A) 2(A) 2(A) 3(R) VFRA o For vacuum (P)1 3(R) (P)1 3(R) VPA4 SYJA X VZA 1(P) VTA For vacuum u y t r e w q VGA VPA VPA VPA3 i 2(A) 3(R) o X Component Parts No.
:1D SI unit BOOL RO P 60A0:21 Slot 0 BOOL RO P 60A0:22 Slot 1 BOOL RO P 60A0:23 Slot 2 BOOL RO P 60A0:24 Slot 3 BOOL RO P 60A0:25 Slot 4 BOOL RO P 60A0:26 Slot 5 BOOL RO P 60A0:27 Slot 6 BOOL RO P 60A0:28 Slot 7 BOOL RO P 60A0:29 Slot 8 BOOL RO P 60A0:2A Slot 9 BOOL RO P -76No.EX-OMO0027-A Module Output Data SI unit (EX600-SEC) Table.
LVN Port P TI/ TIL Port P Port P PA Port A PAX Port A Port A PB Normally open (N. O.) Port P Port P Port P Model Manifold base model Individual port Rc VVXA211-stations Common port Rc Port A 1 8 1 4 3 8 1 8 1 4 VVXA212-stations VVXA221-stations VVXA222-stations Manifold Manifold Stations B mount 2 to 10 stations 17-3-97 2 The VX series will be revised shortly.
W-rth std. gauge. An individualSUP spacer on manifold block can form individual P oort for the valve. ffi I NWFgTOOO| NWF9+oOOtP-{)0T-1 P-ff]T-2 %% Nore) Fd prssr|e center Vpe valves, use p/n NAFBF3000.
Cam Lever NVM121-NO1-02 = z-wayi 2 porl-lh" NPT w/One Way Cam Lever NVM131-N01-01 : 3-way; 2 porl:/e" NPT w/Std.
HRX-OM-M091-P Operation Manual Communication function Thermo chiller Air-Cooled Water-Cooled refrigerated type refrigerated type HRS012-A-10HRS012-W-10HRS018-A-10HRS018-W-10HRS012-A-20HRS012-W-20HRS018-A-20HRS018-W-20HRS024-A-20HRS024-W-20HRS030-A-20HRS030-W-20HRS040-A-20 HRS040-W-20HRS050-A-20HRS050-W-20HRS060-A-20HRS060-W-20Keep this manual available whenever necessary 2022 SMC CORPORATION
Grommet: G Conduit: C 300 V D D F Q F Q 280 300 VC Class H coil Broken line section C C G1/2 R R VDW VQ E E VX2 A H A H B B 2-P Port size 2-P Port size VX 2-M, thread depth N 2-M, thread depth N 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 VX3 L L VXA K K VN
Depending on the piping volume (piping length and diameter), if the pressure just before the supply (P) port falls below 0.5MPa, the performance such as vacuum pressure may reduce. Raise the upstream pressure,and the pressure just The pressure just before the supply (P) port is low. before the supply (P) port becomes 0.5MPa.
V V V V V V Clevis pin V Single knuckle joint V V V V V V V Double knuckle joint (with pin) V V V V V V V Option With rod boot V V V V V V V * Refer to page 690 for dimensions and part numbers of the option.
Slroke = 079 (20mrt) w h Boot Mr limelers i. Parenlneses CPA1 BN do Boot with Boot' BORE D E G'GB J K M MM N P H z.
W-rth std. gauge. An individualSUP spacer on manifold block can form individual P oort for the valve. ffi I NWFgTOOO| NWF9+oOOtP-{)0T-1 P-ff]T-2 %% Nore) Fd prssr|e center Vpe valves, use p/n NAFBF3000.