A_HEC-OM-J017 SMC Corporation R&D Center Product Development Division-6 Address: 4-2-2, KINUNODAI,TSUKUBAMIRAI-CITY , IBARAKI-KEN 300-2493, JAPAN Phone:+81-297-52-6 Fax:+81-297-20-5007 E-mail:kaihatsu_6_g3@smcjpn.co.jp Notice: The content of this manual can be revised without a previous notice.
SMC Corporation R&D Center Product Development Division-6 Address: 4-2-2, KINUNODAI,TSUKUBAMIRAI-CITY , IBARAKI-KEN 300-2493, JAPAN Phone:+81-297-52-6 Fax:+81-297-20-5007 E-mail:kaihatsu_6_g3@smcjpn.co.jp Notice: The content of this manual can be revised without a previous notice.
SMC Corporation R&D Center Product Development Division-6 Address: 4-2-2, KINUNODAI,TSUKUBAMIRAI-CITY , IBARAKI-KEN 300-2493, JAPAN Phone:+81-297-52-6 Fax:+81-297-20-5007 E-mail:kaihatsu_6_g3@smcjpn.co.jp Notice: The content of this manual can be revised without a previous notice. ii HEF002-A6 Contents Contents 1 PREPARATION FOR COMMUNICATION -1-1 2 OPTIONS OF COMMUNICATION METHOD -2-1 2.1
SMC Corporation R&D Center Product Development Division-6 Address: 4-2-2, KINUNODAI,TSUKUBAMIRAI-CITY , IBARAKI-KEN 300-2493, JAPAN Phone:+81-297-52-6 Fax:+81-297-20-5007 E-mail:kaihatsu_6_g3@smcjpn.co.jp Notice: The content of this manual can be revised without a previous notice. ii INR-244-831 Contents Contents 1 PREPARATION FOR COMMUNICATION -1-1 2 OPTIONS OF COMMUNICATION METHOD -2-1
SMC Corporation R&D Center Product Development Division-6 Address: 4-2-2 Kinunodai, Tsukubamirai-shi Ibaraki, 300-2493, japan E-mail: kaihatsu_6_g3@.smcjpn.co.jp A_HEC-OM-J004-4 Table of Contents Table of Contents Chapter 1 Safety Instructions . 1-1 1.1 Dangers, Warnings, and Cautions Used in This Manual . 1-1 1.1.1 Hazard Levels . 1-1 1.1.2 Definitions of Serious injury and Minor injury.
Product Development Div. 6, Engineering Headquarters Japan Technical Center, SMC Corporation, Address: 4-2-2 Kinunodai, Tsukubamirai-city, Ibaraki-ken, 300-2493 TEL: +81 297-52-6 FAX: +81 297-20-5007 E-mail: kaihatsu_6_g3@.smcjpn.co.jp Note: The contents of this manual are subject to change without notice.
standard material (FKM) at ambient temperatures , excluding gas permeation Flange type KF (NW) KF (NW), K (DN) Main material Body: aluminum alloy, Bellows: SUS316L, Main part: SUS304 and FKM (standard sealant material) Surface treatment for body Outside: hard anodized Inside: basis material Actuation pressure MPa(G) 0.3 to 0.6 0.4 to 0.6 Air consumption cm3 Note 2) for 0.5MPa 46 102 400 300
Specifications Model XLDV-25 XLDV-40 XLDV-50 XLDV-63 XLDV-80 XLDV-100 XLDV-160 Flange (valve) size 25 40 50 63 80 100 160 Actuating type Normally closed Fluid Vacuum of inert gas Operating temperature oC 5 to 60 Operating pressure Pa Atmospheric pressure to 1 x 10-6 Main pumping 14 45 80 160 200 300 800 Conductance l/s Note 1 Initial pumping 0.53 28 2.511 48 418 6.531.5 6.531.5 Internal 1.3
Fluid Vacuum of inert gas Ambient temperature: 20 oC 5 to 60 (5 to 150 for high temperature type) Operating pressure Pa Atmospheric pressure to 1 x 10-5 Main exhaust valve 200 300 800 Conductance l/s Note 1 Bypass valve MAX31.5Viscosity / Theoretical value Internal 1.3 x 10-9 for the standard material (FKM) at ambient temperature, excluding gas permeation Leakage Pam3/s External 1.3 x 10-
(Note1) (Petroleum,Water-glycol, Emulsion,Phosphoric ester) Applicable model FH100-06 FH100-08 FH100-10 FH100-12 FH100-16 FH100-20 FH100-24 INOUT Port size (Rc) 3/4B 1B 1 1/4B 1 1/2B 2B 2 1/2B 3B Drain port size M162 Rated flow Paper 50 80 120 160 260 450 600 rate Micromesh 60 100 150 200 300 550 700 (L/min) Operating pressure 1.0MPa Operating temperature 80oC Nominal filtration 1.
setting Page 94 PrES [ 0.0] 0 PrES [diSP] Display [MES ] Measurement display setting [F16] Page 97 tEMP [diSP] Display AC [diSP] Display [F30] AC [SAvE] Accumulated value hold [ oFF] Not stored Page 98 [F33] [Po_E] Not Applicable on this product. [25] AMS series [50] AMS30 series [100] AMS40 series [200] AMS60 series [FrtE] Standby flow rate (Threshold) [100] AMS20 series [200] AMS30 series [300
How to judge: The area within the curb line of graph 1 shows the relationship between the specified length stroke cylinder and allowable lateral load, which applies to piston rod end. 5 - Ex.) 25A-CS2F125-300 According to the graph 1, nodal point of cylinder stroke 300mm and 125 is 115N. Lateral load to rod end needs to be smaller than this.
Heat resistant lead wire (between sensor unit and amplifier unit) 3.4 Lead wire Oilproof heavy-duty vinyl code (amplifier unit grommet) 3.4, 0.2 mm2, 3-wire, 3000 mm Impact resistance Sensor unit: 1000 m/s2, Amplifier unit: 300 m/s2 Insulation resistance 50 M or more under the test voltage 500 VDC (between lead wire and case) Withstand voltage 1000 VAC, 1 min.