AC Servo Motor Driver ( SSCNETⅢ/H Type ) (FR-BSF01FR-BLF) 7) 8) 11 20 11.
Caution -4- Specifications Model S F E 11 Port size Male thread type Plug-in type One-touch fitting type Max. flow capacity Symbol Port size Symbol Port size Symbol Applicable L/min (ANR) tube O.D. 11 M50.8 3 3A 4 3F 4 30 42 R1/8 4B 6 4G 6 65 52 R1/8 5C 8 5H 8 130 53 R1/4 130 73 R1/4 7D 10 7J 10 200 Accessory (Bracket) S F E B R 3 Symbol Applicable model 3 SFE3 4 SFE4 5 SFE5 6 SFE7
Water 15% Ethylene Glycol Aqueous Solution Physical property value Temperature Density [kg/L] Specific heat C [J/(kgK)] Current unit system Physical property value Temperature Density [kg/L] Specific heat C [J/(kgK)] Current unit system Weight volume ratio [kgf/L] Specific heat C [cal/(kgfC)] 5C 1.00 4.2 x 103 1.00 1 x 103 Weight volume ratio [kgf/L] Specific heat C [cal/(kgfC)] 5C 1.02
Pin description 1 DC (+) 2 Analog output Accumulated pulse output wiring examples 3 DC () 4 OUT1 4-I thread with depth J 40 Max. 30V 80 mA or less OUT1 Black Load H 0V Blue 50 msec PF2A7H--28 29(-M) A B C D E F G H I J Model Brown PF2A703H PF2A706H PF2A712H 55 160 40 92 67 55 Rc 1, NPT 1, G 1 36 M5 x 0.8 8 OUT1 80 mA Load Black 65 180 45 104 79 65 Rc 11/2, NPT 11/2, G 11/2 Rc 2, NPT 2, G
Refer to Table 5.4-11 Offset setting for details. (1) (2) Offset setting Table 5.4-11 Offset setting No. Indication Item Explanation Setting range (1) Offset Temp.
How to Order Specifications 11 MSQ 10 B A90 A S Particle generation grade Grade 1 Note 1) Suction flow rate (example) 1 l/min (ANR) 11-MSQA is identical to the high precision type and 11-MSQB is identical to the basic type. Clean series Vacuum type Number of auto switches Note) Please refer to Pneumatic Clean Series catalog for further details.
16.5 10 13.9 11 4.5 19.5 3/8 KQ2LU06-03GS 17 10.4 9.7 16.5 29.8 35 29.9 13.3 10.4 6 4.2 16.5 10 13.9 11 4.5 31.5 N Q1 O 8 1/8 KQ2LU08-01GS 14 13.2 13 18.2 25.7 32.3 29.2 14.2 13.2 8 4.2 18.2 13.1 26.3 18.2 6 16.4 1/4 KQ2LU08-02GS 14 13.2 13 18.2 30.1 36.7 32 14.2 13.2 8 4.2 18.2 13.1 26.3 18.2 6 21.5 3/8 KQ2LU08-03GS 17 13.2 13 18.2 31.5 38.1 33 14.2 13.2 8 4.2 18.2 13.1 26.3 18.2 6 33.3
Pin description PF2A7H-(-M) 68 69 1 DC(+) 2 Analog output 3 DC() Accumulated pulse output wiring examples 4 OUT1 4-I thread with depth J 40 Max. 30V 80mA or less OUT1 Black Load H 0V Blue 50msec PF2A7H-(-M) 28 29 B C D E F G H I J A Model Brown PF2A703H PF2A706H PF2A712H 55 160 40 92 67 55 Rc 1, NPT 1, G 1 36 M5 x 0.8 8 OUT1 80mA Load Black 65 180 45 104 79 65 Rc 11/2, NPT 11/2, G 11/2 Rc
0 e 1 New PFA Body 2 New PFA Sensor 3 Super PFA Tube 4 PPS Housing A 5 PPS Housing B 6 PPS Housing C 7 POM Bushing 8 PPS Cap 9 FKM Gasket 10 FKM O-ring 11 Stainless steel 304 Thread 12 PVC Lead wire !1 q t i PF2D540 o !0 u !0 !2ywr e !
/O.D. 5/8 6/9 6.5/10 8/12 8.5/12.5 11/16 Applicable hose I.D.
Water 15% Ethylene Glycol Aqueous Solution Physical property value Physical property value Temperature Density r [kg/L] Specific heat C [J/(kgK)] Current unit system Density r [kg/L] Specific heat C [J/(kgK)] Current unit system Weight volume ratio c [kgf/L] Specific heat C [cal/(kgfC)] 5C 1.00 4.2 x 103 1.00 1 x 103 Weight volume ratio c [kgf/L] Specific heat C [cal/(kgfC)] 5C 1.02 3.91
6 170 Construction/Components 0.5 1.0 0.6 0.2 0.1 1.0 0.6 0.2 0.1 0.1 0.61 4.5 11 1 4 250 Normally closed (N.C.) (8A) 6 1.05 19 8 1.7 31 1.5 0.4 340 10 1.9 34 4.5 0.61 11 250 1.0 6 1.05 19 3 8 (10A) 8 1.7 31 340 0.4 10 2.4 43 (15A) 10 2.4 43 1 2 420 Note) Refer to p.4.0-14 the glossary for detail of max. operating pressure differential and max. system pressure.
Solenoid Specifications Apparent power (VA) Inrush Holding Power consumption W (Holding) Temperature rise (C ) (Rated voltage) 4.5 45 3.2 35 6 55 7.5 60 6 50 8 60 11 65 9.5 60 11.5 65 Note) They are values in an ambient temperature of 20C 5C and application of rated voltage. Changing a coil from AC to DC is possible, but it's impossible to change from DC to AC.
Data Maximum Settable Temperature Graph 1: IDH4 Graph 2: IDH6 F 50F (10C) 44.6F (7C) 41F (5C) Pressure dew point 37.4F (3C) 50F (10C) 44.6F (7C) 41F (5C) Pressure dew point 37.4F (3C) Air flow capacity scfm (L/min [ANR]) 17.6 (500) 28.3 (800) Air flow capacity scfm (L/min [ANR]) 15.9 (450) Selection example 24.7 (700) 14.1 (400) 21.2 (600) 12.4 (350) Selection example Selection example 10.6
Dimensions (Orifice Size: 10 mm) Normally Closed: VXP2130 Grommet: G Conduit: C (67) (52) 20 23 (67) (52) 20 39 270 10 290 10 G 1/2 VC (5.5) (2.3) (2.3) (5.5) VDW 80 86 63 69 66.5 73.5 80 86 71 77 (33) 36 (33) 36 (27) 30 VQ (7.5) (27) 30 (7.5) Bracket 11 14 11 14 VX2 IN OUT IN OUT Bracket 24 26 50 2-Rc 1/4, 3/8, 1/2 (28) (28) 24 26 50 2-Rc 1/4, 3/8, 1/2 VX 22 28 40 22 28 Courtesy of Steven
Solenoid Specifications Apparent power (VA) Inrush Holding Power consumption W (Holding) Temperature rise (C ) (Rated voltage) 4.5 45 3.2 35 6 55 7.5 60 6 50 8 60 11 65 9.5 60 11.5 65 Note) They are values in an ambient temperature of 20C 5C and application of rated voltage. Changing a coil from AC to DC is possible, but it's impossible to change from DC to AC.
: D VXA 59 47 Cable 6 to 12 VN LVC LVA LVH (2.3) (7.5) (5.5) 34.5 (44) 80 86 LVD 63 69 (33) 36 (27) 30 LVQ G 1/2 IN 11 14 22 OUT LQ Hexagon width across flats Bracket 24 26 50 (52) (28) 2-Rc1 /4, 3/8, 1/2 22 28 LVN 40 (67) TI/ TIL Conduit terminal: T PA 92 2 PAX PB (2.3) 98 104 (7.5) (5.5) 25 52 55 (33) 36 G 1/2 (27) 30 (27) 30 11 14 IN OUT Bracket 50 (52) (67) 24 26 (28) 2-Rc 1/4, 3/8, 1
When the ambient temperature is 20C 5C and rated voltage is applied. Changing coils from AC to DC and vice versa is impossible, because of different core shapes. The apparent power in parentheses is for VXZ2230. Frequency (Hz) 50 60(53) 18 60 51(44) 12 Model Power source VX3 7.5 6 8 11 9.5 11.5 AC VXZ22 VXA DC 50 80 21 60 67 17 AC VXZ23 VN DC LVC JIS Symbol LVA OUT LVH IN LVD N.O.
.-230 Ryan Way, South San Francisco, CA 94080-6370-Main Office: (650) 588-9200-Outside Local Area: (800) 258-9200-www.stevenengineering.com 170 0.5 1.0 0.6 0.2 0.1 1.0 0.6 0.2 0.1 0.1 4.5 15 0.61 2.5 10.45 0.75 1 4 250 (8A) 26 41 46 15 26 41 58 58 1.1 1.7 1.9 0.61 1.1 1.7 2.4 2.4 3.3 6.4 8.8 2.5 3.3 6.4 11 11 0.50 0.40 0.40 0.45 0.50 0.40 0.38 0.38 1.1 1.8 2.3 0.75 1.1 1.8 2.8 2.8 6 8 1.5