2-Color Display ® Digital Flow Switch *1 Applicable fluid Dry air, N2, Ar, CO2 [L/min] 1 to 10 5 to 50 10 to 100 20 to 200 50 to 500 2 to 200 5 to 500 10 to 1000 20 to 2000 5 to 500 10 to 1000 20 to 2000 0 to 0.5 0 to 1 0 to 3 0.5 to 0.5 1 to 1 3 to 3 30 to 3000 10 to 1000 20 to 2000 60 to 6000 120 to 12000 24 VDC 10% PF3A7 H 12 to 24 VDC 10% 12 to 24 VDC PF2M7 PFMC 10% 18 to 30 VDC 10% PF3A7 H-L 12 to 24 VDC 10% 12 to 24 VDC 10% 12 to 24 VDC 10% 21.6 to 30 VDC PF3A701H
Rated flow range: PF3A701H: 10 TO 1000 lpm; PF3A702H: 20 to 2000 lpm; Large 2 screen, 3 color display to show both instantaneous and cumulative flow or set value at the same time; Can be converted to threaded model using modular connectors and piping adapters ; Accuracy: +/-3.0% F.S.
Rated flow range: PF3A701H: 10 TO 1000 lpm; PF3A702H: 20 to 2000 lpm; Large 2 screen, 3 color display to show both instantaneous and cumulative flow or set value at the same time; Can be converted to threaded model using modular connectors and piping adapters ; Accuracy: +/-3.0% F.S.
Rated flow range: PF3A701H: 10 TO 1000 lpm; PF3A702H: 20 to 2000 lpm; Large 2 screen, 3 color display to show both instantaneous and cumulative flow or set value at the same time; Can be converted to threaded model using modular connectors and piping adapters ; Accuracy: +/-3.0% F.S.
Rated flow range: PF3A701H: 10 TO 1000 lpm; PF3A702H: 20 to 2000 lpm; Large 2 screen, 3 color display to show both instantaneous and cumulative flow or set value at the same time; Can be converted to threaded model using modular connectors and piping adapters ; Accuracy: +/-3.0% F.S.
Rated flow range: PF3A701H: 10 TO 1000 lpm; PF3A702H: 20 to 2000 lpm; Large 2 screen, 3 color display to show both instantaneous and cumulative flow or set value at the same time; Can be converted to threaded model using modular connectors and piping adapters ; Accuracy: +/-3.0% F.S.
Rated flow range: PF3A701H: 10 TO 1000 lpm; PF3A702H: 20 to 2000 lpm; Large 2 screen, 3 color display to show both instantaneous and cumulative flow or set value at the same time; Can be converted to threaded model using modular connectors and piping adapters ; Accuracy: +/-3.0% F.S.
E > Es E Es Note 3) Bore size determination Tentative determination of L type NG Determination of allowable stroke (W + WB) V 2 E = () 2 1000 E > Es Note 2) OK P > Ps Determination of pressure (P) when making intermediate stop P Ps Consider made-to-order products, depending on an operating condition.
E > Es E Es Note 3) Bore size determination Tentative determination of L type NG Determination of allowable stroke (W + WB) V 2 E = () 2 1000 E > Es Note 2) OK P > Ps Determination of pressure (P) when making intermediate stop P Ps Consider made-to-order products, depending on an operating condition.
Determination of kinetic energy of load (E) E > Es E Es Bore size determination Tentative determination of L type W V 2 E = () 2 1000 Note 2) E > Es Determination of pressure (P) when making intermediate stop P > Ps P Ps Consider made-to-order products, depending on an operating condition. Tentative determination of L type (For intermediate stops, refer to page 1193.)
Determination of kinetic energy of load (E) E > Es E Es Bore size determination Tentative determination of L type W V 2 E = () 2 1000 Note 2) E > Es Determination of pressure (P) when making intermediate stop P > Ps P Ps Consider made-to-order products, depending on an operating condition. Tentative determination of L type (For intermediate stops, refer to page 1205.)
Determination of load's kinetic energy (E) E > Es E Es Bore size determination Tentative determination of L type (W + WB) V 2 E = x () 2 1000 P Ps Note 2) E > Es Determination of pressure (P) when making intermediate stop P > Ps Review of order made products based on operating conditions Tentative determination of L type (Refer to page 5 for intermediate stops.)
Description Material Function EB ES wSeal 1 Hexagon head bolt Plug to release air in the housing Stainless steel or iron eNut 2 Seal Resin 3 Nut Tightens the cover.
I nput dat a occupi es 4 w ords, but uses onl y t he 1st w ord. The pressure i s m oni t ored by b15, b1, b0 dat a. ( b11 b0 cover 100% F.
t w o byt es respect i vel y.
G SD O ccupi ed area ( I nput /out put dat a) 1 w ord / 1 w ord Low er 2 bi t s of 7 byt es of di agnosi s area are f or di agnosi s i nf orm at i on.
FGF3-40 1 unit FN EB ES Step 3 Selecting the filter model Selecting the filter model Checking each item Select vessel and seal materials based on compatibility with the fluid.
Determination of kinetic energy of load (E) E > Es E Es Bore size determination Tentative determination of L type W V 2 E = () 2 1000 Note 2) E > Es Determination of pressure (P) when making intermediate stop P > Ps P Ps Consider made-to-order products, depending on an operating condition. Tentative determination of L type (For intermediate stops, refer to page 1515.)
Heavy-loaded shock absorber + Adjustment bolt MY3B Bore size Stroke H (Shock absorber stroke) TS S EY SD ES EC W FC TU Stroke adjustment unit h TR (mm) ES EC W FC EY h S SD TS TR TU Shock absorber model Applicable cylinder MY3B16 MY3B20 MY3B25 MY3B32 MY3B40 MY3B50 MY3B63 14.1 23 62 34.5 29.5 RB1007 2.4 46.7 7 0.9 25 31.7 14.1 27.5 72 41 34 RB1007 2.4 46.7 7 4.4 21.5 28.2 20.1 31.8 90 52.2
Determination of loads kinetic energy (E) bore size Determination of bore size Review of larger bore size E Es E Es E = m E 2 a ( ) 2 (Refer to page 29) 1000 P Ps P Ps Determination of pressure for intermediate stop (p) (Refer to page 29) Review of larger bore size and operating pressure Model determination 1 Magnetically Coupled Rodless Cylinder Low Profile Guide Type Series CY1F Types