Vacuum Panel mounl adapter H i s h-p reci s io n D i s *"l?
Panel mounl adapter H i s h-p reci s io n D i s *"l?
/S (8 points output) R2 09 9 Can accommodate up to 16 solenoids.
DC(+) 5 OUT1 4 OUT2 3 FUNC 2 DC(-) 1 -19No.PS-OMU0002CN-D Z/ISE20A(F)-S/-R () DC(+) NPN 2 Max.28 V80 mA 1 V R15 V OUT1 1 k OUT2 S420 mA DC(-) 12 V 300 24 V 600 50 DC(+) -S/-R () OUT1 NPN 2 OUT2 Max.28 V80 mA 1 V DC(-) DC(+) -X () -S/-R () OUT1 NPN 2 OUT2 Max.28 V80 mA 1 V DC(-) -20No.PS-OMU0002CN-D -V/-T () DC(+) PNP 2 Max.80 mA 1 V T15 V OUT1 1 k OUT2 V420 mA DC(
Output voltage (Rated pressure range) Linearity Output impedance Note 2) Voltage output 1% F .S. Approx. 1 k Analog output 2.4 to 20 mA 2.5% F.S. 4 to 20 mA 2.5% F.S. Output current (Rated pressure range) Linearity Note 3) 1% F .S.
AV Regulating pressure range AU Ambient and operating temperature range Weight AF Model AR 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 Port size Model IR IN OUT ARJ310-01 ARJ310-N01 ARJ310F-01-04 ARJ310F-01-06 ARJ310F-N01-03 ARJ310F-N01-07 Rc 1/8 R 1/8, M5 x
Steel) 4w 1P300.1P3100 DIMENSIONS MODEL 1P300 (Lever Type) l t I I I J J O
E l e c t r i c a l c a b l e m u s t n o t b e s u b j e c t e d t o excessive force. 2 When connecting the switch, use a spanner on the h e x a g o n f i t t i n g . N E V E R u s e t o o l s o n t h e s w i t c h body. 3 Do not use switch near corrosive materials. 4 The switch is not liquid sealed.
1 Metering Valve with Silencer Series ASN2 Superior sound reducing performance Over 20 dB at max. flow rate Cylinder speed easily set Shape of needle is the same as that of speed controller Retainer prevents accidental loss of needle Model Model Port size Effective area (mm 2) Weight (g) ASN2-M5 ASN2-U10/32 ASN2-01 ASN2-02 ASN2-03 ASN2-04 M5 x 0.8 10-32 UNF 1.8 1.8 3.6 6.5 16.6 24.5 5 5 17
PRESS. 1. 0 M Pa O U TPU T PRESS. 0. 0050. 2 M Pa M AD E I N J APAN So G No.
2 ( A ) m 2 5- I R 3 0 0 1 SUP OUT 2 3%F.S. 3 R B(P36203018) G 2 3 RcF N IR3000G43-2-01 G43-P2-N01-X30 IR3010G43-4-01 G43-P4-N01-X30 IR3020G43-10-01 G43-P10-N01-X30 02:1/4 03:3/8 04:1/2 Rc FG NNPT 00.010.2MPa 10.010.4MPa 20.010.8MPa PRECI SI O N REG U LATO R I R302BG No.
() N 3 M SI4 3 (SI) 4L/min,L A NPN(2) B PNP(2) C NPN(1)+(15V) D NPN(1)+(420mA) E PNP(1)+(15V) F PNP(1)+(420mA) G NPN(1)+5 H PNP(1)+5 5 L 6INOUT () 10 25 50 11 01 Rc1/8 02 Rc1/4 N01 NPT1/8 N02 NPT1/4 F01 G1/8 F02 G1/4 C4 4(5/32") C6 6 C8 8(5/16") N7 1/4 -10No.PF-OMJ0005CN-I 1 W Z (2 m) (2 m) + () 2 R S () () T V () () A A B B -11No.PF-OMJ0005CN-I IN OUT X693 IN OUT 73 IN OUT
.: 1/8, Types of Screw: NPT, Sonic Conductance IN -> OUT [dm3/(s/bar)]: 0.72, Option: None, Lock Nut Option: Round lock nut
Thread: N (NPT), Port Size: 01 (1/8), Option: None, Lock Nut: J (Round)
Steel) IP300 . 1P3100 DIMENS'ONS MODEL 1P300 (Lever Type) tu O O r o r n N ^ " n o r7a <6,69) (LEVER TYPE) MODEL 1P3100 (Rotary Type) O N / (2) t/4 t,tPt J o o iJ5 [8 so]]NVOLUTE SPL]NE 5HA:T 4 9 2 1 [ 1 2 s 0 0 ] r r81 lJ oool oo zzo fr ool r 1 3 T H P U H O I E S \ \ o o L O O N 0 945 I 24 001 2 7ss [7r oo] N O World Wide Ag{C Support...
Steel) IP300 . 1P3100 DIMENS'ONS MODEL 1P300 (Lever Type) tu O O r o r n N ^ " n o r7a <6,69) (LEVER TYPE) MODEL 1P3100 (Rotary Type) O N / (2) t/4 t,tPt J o o iJ5 [8 so]]NVOLUTE SPL]NE 5HA:T 4 9 2 1 [ 1 2 s 0 0 ] r r81 lJ oool oo zzo fr ool r 1 3 T H P U H O I E S \ \ o o L O O N 0 945 I 24 001 2 7ss [7r oo] N O World Wide Ag{C Support...
(B),2 (C),(B)(A), () (B)(C) (A) BLEED (B) (C) OUT SUP SUP. 1 1 M Pa/ m ( B) m 2 N / m m m M Pa M Pa/ m m M Pa B m /N (A) ) ( N N m / N ( C) m 2 N ( A) m 2 N -5- 3. 1 SUP OUT 2 %F.S 3 4 R B(P36202028) G 2 3 Rc,F N IR2000G43-2-01 G43-P2-N01-X30 IR2010G43-4-01 G43-P4-N01-X30 IR2020G43-10-01 G43-P10-N01-X30 021/44 Rc NNPT FG 00.0050.2MPa 1: 0.010.4MPa 20.010.8MPa
For adjustment from the air side, use of the silencer with throttle ASN2 (port size 1/4) connected to the air exhaust port
First find the ratio of the discharge rate for fresh water when viscosity is 15mPa s from the graph to the left. It is determined to be 48%. 2. Next, the viscosity of 15mPa s and the discharge rate of 200l/min in the required specification example are converted to the discharge rate for fresh water.
First find the ratio of the discharge rate for fresh water when viscosity is 15mPa s from the graph to the left. It is determined to be 48%. 2. Next, the viscosity of 15mPa s and the discharge rate of 200l/min in the required specification example are converted to the discharge rate for fresh water.