PFxx-OMU0002

(reed or solid state input) for 30 ms or longer 18 No.PF-OMU0002-D NPN + Analogue output type PF3A7H--ES/FSMaximum load current: 80 mA Internal voltage drop 2 V max.

4-channel Flow Monitor ( compatible)

Max. applied voltage: 30 V, Load current 80 mA Internal voltage drop: 1.5 V or less When used as a switch output device Max. applied voltage: 30 V, Load current 80 mA Internal voltage drop: 1.5 V or less -19No.PF-OMA1011-A PFG203-# IO-Link/PNP open collector 1 output + PNP open collector 4 output specification Used as IO-Link device Load current 80 mA Internal voltage drop: 1.5 V or less

PF-OMM0004_C

L/min 0.01 L/min 0.1 L/min 1 L/min 2 L/min (50 ms) 0.05 L/pulse 0.1 L/pulse 0.5 L/pulse 1 L/pulse 2 L/pulse 090 () 070 ( ) L/minL 3F.S. 3F.S. 2F.S. 2 5%F.S.(25 ) 3 3 9.9 L 9 L 4 0.1L 0.5L 1L NPN PNP 80 mA DC28 V NPN1 V (80 mA ) PNP1.5 V (80 mA ) 25 0.5 s/1 s/2 s -65No.PF-OMM0004-D PF3W704 PF3W720 PF3W740 PF3W711 PF3W721 6 0.5 s/1 s/2 s 15 V 1 k 420 mA DC12 V 300 DC24

Digital Flow Switch (Remote type monitor unit)

. -17No.PF-OMN0012-H Examples of Internal Circuit and Wiring NPN2 output type PNP2 output type PF3W30A PF3W30B Max. 28 V, 80 mA Internal voltage drop 1 V or less Max. 80 mA Internal voltage drop 1.5 V or less NPN + Analogue output type PNP + Analogue output type PF3W30C PF3W30E NPN + Analogue output type PNP + Analogue output type PF3W30D PF3W30F Max. 28 V, 80 mA Internal voltage drop 1 V

HRX-OM-Q026

17: Pump capacity (HRSH150/200-A-20/40-HRSH150/200/250-W-20/40-) 8.5 Pump Capacity HRSH Series 8-18 HRX-OM-Q026 Chapter 8 Documents 8.5.3 HRSH250/300-A-20/400.9 90 0.8 80 Circulating fluid outlet 0.7 70 Lifting head [m] Pressure [MPa] 0.6 60 Usable flow rate range 0.5 50 0.4 40 0.3 30 Circulating fluid return 0.2 20 0.1 10 0 0 0 20 40 60 80 100 120 140 160 180 Circulating fluid flow [L/min

MHS

-32DB MHSH3-40DB MHSH3-50 DB MHSH3-63 DB MHSH3-80 DB mm 5 5 10 10 15 N 6~10 11~15 20~25 29~34 49~59 g 500 740 1,290 2,250 4,000 g 32 40 50 63 80 MHSHJ3-D 430 600 1,020 1,710 3,040 MHSHJ3-DA 550 800 1,380 2,360 4,120 MHSHJ3-DB 520 770 1,340 2,310 4,120 5 3. 3-1. 1 2 3 3-2. 1 .

HEAVY DUTY STOPPER CYLINDER

Standard stroke (mm) Bore size 50 63 80 Extended 40.3 78.5 88.2 Retracted 139.5 174.6 217.3 Bore size Standard stroke 50 30 63 30 80 40 1-4. Cylinder mass Action Bore size Mass (mm) (kg) 50 1.70 Double acting Single acting (spring retraction) Double acting with spring 63 2.78 80 4.96 4 - 2.

Mist Separator Series AM Model Series AM can separate and Model AM850 AM250 AM350 AM450 AM550 AM650 AM150 remove oil mist in compressed air Rated flow 750 1500 2200 3500 6000 12000 300 (1) (l/min (ANR)) which is difficult to remove by Port size ordin

, 290 80 AM350 3 4 2B/FF/10K 11/2 B/FF/10K 1 2 3 4 , 305 312 80 AM450 AMl 1 1 1 2 1 3 4 1 2 , , , 339 80 AM550 Related poroducts 391 80 AM650 1 2 1 540.5 80 AM850 Precautions/With Differential Pressure Gauge(GD40-20-01) Be sure to read before handling.

Micro Mist Separator Series AMD Model Series AMD can separate and Model AMD450 AMD550 AMD650 AMD850 AMD150 AMD250 AMD350 remove aerosol state oil mist in Rated flow (l/min (ANR))(1) 2000 3500 6000 12000 200 500 1000 compressed air and remove Port size

AMD550 AMD650 AMD850 3/4B/FF/10K 1B/FF/10K 290 AMD350 80 Related poroducts 2B/FF/10K 11/2 B/FF/10K 305 312 AMD450 80 339 AMD550 80 391 AMD650 80 540.5 AMD850 80 Precaution Please refer to p.4.5-7 for with pressure differential gauge (GD40-2-01). 4.6-14

Micro Mist Separator with Prefilter AMH Model Model AMH250 AMH350 AMH450 AMH550 AMH650 AMH850 AMH150 Series AMH can separate and (1) remove aerosol state oil mist in 500 1000 2000 3500 6000 12000 200 Rated flow (l/min(ANR)) compressed air and remove Po

AMH650 AMH850 3/4B/FF/10K 1B/FF/10K 290 AMH350 80 2B/FF/10K 11/2 B/FF/10K 305 312 AMH450 80 339 AMH550 80 391 AMH650 80 540.5 AMH850 80 Precaution Please refer to p.4.5-7 for with pressure differential gauge (GD40-2-01). 4.6-21

3 Port Air Operated Valve Series SYJA300 1

Rc 1/8 Body ported 80 Rc 1/8 Rc 1/4 Rc 1/8 Rc 1/4 M5 x 0.8 130 (Without subplate 80) N.C. Base mounted (with sub-plate) SYJA724-01 SYJA724-02 N.O.

VFR

Material Description Pilot valve assembly M8 x 80 VFS6000-15 VFR61 VFS6000-15 VFR62 M8 x 80 VFS6000-15 VFR63/64/65 NBR Hexagon socket head screw Gasket o M8 x 80 Refer to How to Order Pilot Valve Assembly on page 3-5-94. Steel !0 !

Series SV

Then, measure the flow rate, upstream pressure and downstream pressure each at 80%, 60%, 40% and 20% points of the flow rate. Calculate the sonic conductance C from the maximum flow rate. Also, substitute other data for variables in the formula for subsonic flow and obtain the critical pressure rate b by averaging the critical pressure rates at those points.

PF2D

mA Internal voltage drop: 1 V or less (with load current of 80 mA) Maximum applied voltage: 30 V Maximum load current: 80 mA Internal voltage drop: 1 V or less (with load current of 80 mA) PNP open collector (PF2D201) Switch output (Real-time switch output, Accumulated switch output) Output Note 3) specifications Accumulated pulse output No. of outputs Output protection NPN open collector

RB/RBL/RBQ

Specifications and operational instructions Confirmation of specifications 0.3 < 5 (max.) t 10 (min.) < 25 < 80 (max.) F F1 628 < 1961 (max.) CEP1 3.

High Speed 2 Port Valve SX10 Series

(packaged together) 50 80 650 F 40 550 G 10 300 H 4 200 J Filter (IN port) 100 Nil Without lter F With lter Note) Note) Flow reduction rate 50 L/min: 5% or less 100 L/min: 5 to 10% 150 L/min: 10 to 15% 80 600 K 40 500 L 10 250 M 4 150 150 Specications Flow rate (L/min) [at 0.25 MPa] 50 100 150 Power consumption (W) 80 40 10 4 80 40 10 4 80 40 10 4 Type of actuation 2-position 2 port N.C.,

AC Servo Motor Driver

80 60 60 40 40 [mA] [mA] 20 20 0 2 3.5 5.5 8 14 22 38 0 2 3.5 5.5 8 1422 38 80 150 30 60 100 80 150 30 60 100 Cable size [mm2] a. 200V class Cable size [mm2] b. 400V class Fig. 12.3 Leakage current example (Ig1, Ig2) for CV cable run in metal conduit 12 30 12.

AC Servo Motor Driver ( ＳＳＣＮＥＴⅢ Type ）

Igm: Leakage current of the servo motor (Found from Table 11.4.) 120 120 100 100 Leakage current Leakage current 80 80 60 60 40 40 [mA] [mA] 20 20 0 2 0 14 100 5.5 38 2 3.5 8 1422 38 80 150 5.5 30 60 100 3.5 8 22 60 150 30 80 Cable size[mm2] Cable size[mm2] a. 200V class b. 400V class Fig. 11.3 Leakage current example (lg1, lg2) for CV cable run in metal conduit 11 30 11.

LEC-OM02904

(L) W E L d 11 30 11 11.8 (1) ACPWM 30cm 10{IglIgnIgaK(Ig2Igm)}[mA](11.1) K NV M NV-SP NV-SW NV-CP NV-CW NV-HW 1 Ig1 Iga Ig2 Igm Ign BV-C1 NFB 3 NV-L Igl (11.3) Ig2 (11.3) Ign (FR-BIF-(H) ()4.4mA) Iga(11.6) Igm (11.5) 120 120 100 100 80 80 60 60 40 40 [mA] [mA] [mA] [mA] 20 20 0 2 0 2 100 5.5 14 38 14 100 5.5 38 8 3.5 22 60 150 8 3.5 22 60 150 30 80 30 80 2] [mm 2] [mm [mm2] [mm2]

Smooth Cylinder Series CQ2Y ø32, ø40, ø50, ø63, ø80, ø100 Specifications and auto switch information not provided below are the same as those of the anti-lateral load type of Series CQ2  S .

Nil S n Mounting Bore size B A L F G D Through-hole (Standard) Both ends tapped Foot Front flange Rear flange Double clevis 32 40 50 63 80 100 32 mm 40 mm 50 mm 63 mm 80 mm 100 mm Mounting brackets are not mounted and are supplied loose at the time of shipment.