PSxx-OMU0008CN DC(+) 5 OUT1 4 OUT2 3 FUNC 2 DC(-) 1 -21No.PS-OMU0008CN-D ZSE20C(F)/ISE20C(H)-S/-R () NPN 2 DC(+) Max.28 V80 mA 1 V R15 V OUT1 1 k S420 mA OUT2 12 V 300 24 V 600 DC(-) 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(-) -22No.PS-OMU0008CN-D -V/-T () PNP 2 DC(+) Max.80 mA 1 V T15 V OUT1 1 k V420 mA OUT2
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.
Terminal part no. 1 10 2 11 3 12 4 13 5 14 6 15 7 16 8 17 9 18 A mark is located on the connector number 1 side. 20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 View from the insertion side View from the wiring side Switches Home position switch: This switch indicates the home position. Connect this switch when returning to the origin point.
(Green) Indicator light Load Enclosure IP40 Environment resistance Blue DC () 3.4 3-wire 25AWG 2 m Lead wire with connector 11
)) Effective area (mm2) Effective area (mm2) 12 10,11,12 08,09 1000 10 15 8 500 06,07 10 6 500 4 5 2 0 0 5 10 0 5 10 0 Number of needle rotations Number of needle rotations 15-9-15 3 Series ASD Dimensions: Metric Size ASD330F/430F ASD530F/630F ASD230F Applicable tubing O.D. d Applicable tubing O.D. d L2 L3 M L2 L3 M D2 D2 L1 L1 L4 L4 H (Hexagon width across flats) H (Hexagon width across
XLC-16 XLC-25 XLC-40 XLC-50-1 XLC-63-1 XLC-80-1 XLC-100-1 XLC-160-1 16 25 40 50 63 80 100 160 560(5150) -5 Pa (abs) 110 l/s 1 5 14 45 80 160 200 300 800 10 (FKM) 1.310 Pam 3/S -11 (FKM) 1.310 KF(NW) KF(NW)K(DN) SUS316LSUS304FKM() 2 MPa (G) 0.30.6 0.40.6 cm 3 3 0.5MPa 38 91 430 280 500 1000 2300 3700 M5 Rc 1/8 Rc1/4 kg 0.28 0.46 1.1 1.4 2.3 4.0 8.7 14.5 1) 2) Y-VAC2 3) 1 7 XL-OMV0002
110 -10 Pam 3/s A B C 0.0-101.0kPa 0 -101.0 kPa -100.0100.0kPa -100 kPa 100 kPa -0.1001.000MPa -0.1 MPa 0 1.
Then, the charging time (T) for a 100 l tank, T = t x = 49 x = 49 (s). V 10 10 10 T = t x = 110 x = 110 (s). V 10 10 10 T = t x = 2.4 x = 24 (s).
4t i I '.*"{ c o M . r s r + t '.*{ la:q.B js t ) L l s ! r 6 L + r tL--g.S!" i6 t+l r-fP!3zo r t I r-V-ru ?sdm,{t-!:-!!.Fst-r ?i,oxl+4r5"a, I l r c o M " I r + r t r c o M c , + l ll coM" i q (+) ( coMo ro(+) /r'Y;-"' M* fr'fi-"" ' ire!.f s | ) ,-Js!jr L , 3 smms { l'.;+_2. ( ) ( L--!9!!" zz r +r 3sd5{fj:3'?L i 3 idb61f-1:-_r: ( ' tl co 22 l+) tL-Lg!!"r5 L+' tL-l-s!"
4t i I '.*"{ c o M . r s r + t '.*{ la:q.B js t ) L l s ! r 6 L + r tL--g.S!" i6 t+l r-fP!3zo r t I r-V-ru ?sdm,{t-!:-!!.Fst-r ?i,oxl+4r5"a, I l r c o M " I r + r t r c o M c , + l ll coM" i q (+) ( coMo ro(+) /r'Y;-"' M* fr'fi-"" ' ire!.f s | ) ,-Js!jr L , 3 smms { l'.;+_2. ( ) ( L--!9!!" zz r +r 3sd5{fj:3'?L i 3 idb61f-1:-_r: ( ' tl co 22 l+) tL-Lg!!"r5 L+' tL-l-s!"
Flow rate Power consumption Operating frequency 100 Hz 500 Hz 1000 Hz 80 W 1200 Hz Low flow type 50 L/min 40 W 1000 Hz 10 W 550 Hz 4 W 350 Hz 80 W 650 Hz Medium flow type 100 L/min 40 W 550 Hz 10 W 300 Hz 4 W 200 Hz 80 W 600 Hz High flow type 150 L/min 40 W 500 Hz 10 W 250 Hz 4 W 150 Hz VCH VDW SX10 SX10 Select a model according to applications and purposes.
14 10 SS 28 1 2-5 x 22l AW (spring pin) 30 Z 20 7 2-6.9 through 2-11 counter bore depth 6.3 78 1 75 0.2 60 0.2 60 0.2 35 80 6.3 64 3.1 5 M6 x 1 x 18.5l and M6 x 1 (hexagon bolt) (hexagon nut) 2-M6 x 1 (through) 2-M5 x 0.8 Thread depth 7.5 14 8-M5 x 0.8 thread depth 7.5 (same on reverse side) 4-Rc 1/8 thread depth 6.5 (piping port) (same on reverse side) 30 (Z) 15 6 13 8.5 Model S ZZ Z SS
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(
-R () NPN 2 Max.28 V80 mA 1 V R15 V 1 k S420 mA 12 V 300 24 V 600 50 -S/-R () NPN 2 Max.28 V80 mA 1 V -X () -S/-R () NPN 2 Max.28 V80 mA 1 V -21No.PS-OMU0005CN-C -V/-T () PNP 2 Max.80 mA 1 V T15 V 1 k V420 mA 12 V 300 24 V 600 50 -V/-T () PNP 2 Max.80 mA 1 V -Y () -V/-T () PNP 2 Max.28 V80 mA 1 V -22No.PS-OMU0005CN-C [] 3 0.2 [] / OUT2 OUT2 OUT1 OUT1 [F10]30 () 13
No.EX-OMX1001 PRODUCT NAME SI unit for EtherNet/IPTM MODEL / Series / Product Number EX260-SEN2-X205 Table of Contents Safety Instructions 2 Model Indication and How to Order 8 Summary of Product parts 9 Definition and terminology 10 Installation and Wiring 11 Installation 11 Wiring 12 LED Indication and Settings 16 Hardware Configuration 19 EDS file and icon 19 Setting using RSLogix5000TM
(For details, refer to "Specific Product Precautions 1" on Page 11.)
Terminal part no. 1 10 2 11 3 12 4 13 5 14 6 15 7 16 8 17 9 18 A mark is located on the connector number 1 side. 20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 LJ1 LG1 LC1 LX LC6D/LC6C Switches View from the insertion side View from the wiring side Switches Home position switch: This switch indicates the home position. Connect this switch when returning to the origin point.
Series CBQ2 Allowable Kinetic Energy Allowable Rod End Lateral Load 0.5MPa 0.4MPa With rubber bumper With auto switch (lateral resistance) 200 100 100 50 50 40 30 Allowable lateral load W (N) 63 20 Load weight kg 50 10 63 40 32 10 5 4 3 50 5 2 40 1 0 10 20 30 40 50 60 70 80 90 100 32 Stroke St (mm) 1 50 100 200 500 300 Maximum speed mm/s (Mounting orientation: Horizontal) W
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.