Series AP500 pressure (psig) A 25 0.17 m1.12 (m28.4) 20 0.14 45 15 0.10 10 0.07 1.00 (25.4) 2 x 10-32 UNF depth 0.25 (6.3) (Mounting hole) 5 0.03 0 0.00 0 10 20 30 40 50 60 70 80 Flow Rate (slpm, N2) A Connections AP501A Input pressure : 2 psig (14 kPa) inch (mm) FV4 MV4 TW4 760 0 2.78 (70.6) 700 -8 2.12 (53.8) Delivery pressure (mmHg abs) Derivery pressure (kPa) 600 -21 500 -35 400 -48 300 -61 200 -75
How to Order AL800 AL 23 80 12 0 R AL900 Semi-standard R Flow direction: Right Left Body size Port size Semi-standard Lubricator 1 1S-1 1S-2 2 3 6 8 1000 cm3 tank 1000 cm3 tank with switch (Bottom limit ON) 1000 cm3 tank with switch (Bottom limit OFF) Metal bowl With drain cock Nylon bowl (Including sight dome) Metal bowl with level gauge Symbol 12 14 20 4 1 1 1 2 2 1 80 90 1 2 2 1 Thread
(Example: When there are 12 solenoid valve stations, there are 8 ejector stations.) SY3000 manifold model Ejector valve number SX3000-75-1A SY3140-5LZ SY3240-5LZ ZYY35LZ-10S-E15C 1 SET 1 SET 1 SET 1 SET is the symbol for a built-in assembly. Add the symbol at the beginning of part numbers for solenoid valves, etc. to be mounted, and enter these together in order from the D side.
Full stroke Note 1) 25, 50, 75, 100, 125, 150, 175, 200, 250, 300 Bore size (mm) Note First-stage stroke Note 2) 5 mm to "Full stroke" 5 mm RS Q G Note 1) RZQB (through hole type) is only available for full strokes 25, 50 and 75. Note 2) Available in 1 mm increments.
Applicable dryer Weight (g) A B IDF-FL200 IDF-FL201 IDF-FL202 IDF-FL203 IDF-FL204 IDF-FL205 20 30 45 55 70 75 150 200 IDF1E, 2E IDF3E IDF4E IDF6E, IDU3E IDF8E, IDU4E IDF11E, IDU6E 220 310 375 340 375 195 (IDF-FL200, 201) (IDF-FL202, 203, 204, 205) 265 12 14 Accessory (Option) Bypass Piping Set/Dimensions IDF1E, 2E, 3E For NPT For Rc (E) (E) Air outlet Air inlet Air outlet Air inlet Port size
Wireless system configuration example 75 6.1. Flow chart for using the wireless system (Refer to Step 2) 75 6.2. System Construction Example 76 6.3.
Wireless system configuration example 75 6.1. Flow chart for using the wireless system (Refer to Step 2) 75 6.2. System Construction Example 76 6.3.
i 1 6 30 46 1 0 21 50 168 0 70 I 12 90 50 1 0 58 238 52 1 . 2 66 31 % 44.5 1 3 23 60 182 0 86 105 59 130 58 52 1 1 . 2 66 37 % 55 1 5 70 208 0 '102 1 8 130 160 71 297 65 't2.5 80 1 4 40 12 1 5 25 80 226 0 1 1 6 13.5 t 8 150 92 1 8 0 72 3 1 6 65 14.0 8 1 ra Single Glevis Type/CLAC with Bod Boot M14x r.5 M 1 8 X 1 . 5 M18X1.5 M22X1.5 M26X1.5 Dill|o||$io[$ $enies CIA Double Glevis TyPe/CLAD
i 1 6 30 46 1 0 21 50 168 0 70 I 12 90 50 1 0 58 238 52 1 . 2 66 31 % 44.5 1 3 23 60 182 0 86 105 59 130 58 52 1 1 . 2 66 37 % 55 1 5 70 208 0 '102 1 8 130 160 71 297 65 't2.5 80 1 4 40 12 1 5 25 80 226 0 1 1 6 13.5 t 8 150 92 1 8 0 72 3 1 6 65 14.0 8 1 ra Single Glevis Type/CLAC with Bod Boot M14x r.5 M 1 8 X 1 . 5 M18X1.5 M22X1.5 M26X1.5 Dill|o||$io[$ $enies CIA Double Glevis TyPe/CLAD
AT Ambient temperature 0.98 B 75 psi (0.53 MPa) Inlet air pressure 0.95 C IDF IDU 14 SCFM Air consumption Note) Values obtained from the table below. IDFA 2 Calculate the corrected air flow capacity. IDFB IDFB Corrected air flow capacity = 14 SCFM (0.82 x 0.98 x 0.95) = 18 SCFM Obtain the corrected air flow capacity from the following formula.
Power supply (24VDC or 12 to 1sVDC) is required. Note 2) Select either analog output or switch output When switch output is selected, select either NPN output or PNP output.
12 3 3.125 1/2 1 1/2 3 7/16 10 1 3/4 1 1/4-12 2 2.375 3/8 1 1/8 3 1/8 10 2 1 1/2-12 2 1/4 2.625 3/8 1 1/4 3 1/4 10 2 1/2 1 7/8-12 3 3.125 1/2 1 1/2 3 1/2 12 2 1 1/2-12 2 1/4 2.625 3/8 1 1/4 3 1/4 12 2 1/2 1 7/8-12 3 3.125 1/2 1 1/2 3 1/2 12 3 2 1/4-12 3 1/2 3.75 1/2 1 1/2 3 1/2 14 2 1/2 1 7/8-12 3 3.125 1/2 1 1/2 3 13/16 14 3 2 1/4-12 3 1/2 3.75 1/2 1 1/2 3 13/16 14 3 1/2 2 1/2-12 3 1/2 4.25
-12 3 3.125 1/2 1 1/2 3 7/16 10 1 3/4 1 1/4-12 2 2.375 3/8 1 1/8 3 1/8 10 2 1 1/2-12 2 1/4 2.625 3/8 1 1/4 3 1/4 10 2 1/2 1 7/8-12 3 3.125 1/2 1 1/2 3 1/2 12 2 1 1/2-12 2 1/4 2.625 3/8 1 1/4 3 1/4 12 2 1/2 1 7/8-12 3 3.125 1/2 1 1/2 3 1/2 12 3 2 1/4-12 3 1/2 3.75 1/2 1 1/2 3 1/2 14 2 1/2 1 7/8-12 3 3.125 1/2 1 1/2 3 13/16 14 3 2 1/4-12 3 1/2 3.75 1/2 1 1/2 3 13/16 14 3 1/2 2 1/2-12 3 1/2
Nylon 12 Nylon 12 Nylon 12 Nylon 12 Nylon 12 Nylon 12 Nylon 12 Nylon 12 Nylon 12 Nylon 12 POLYURETHANE TUBING SERIES TU, TIUB H O W T O O R D E R P O LY U R E T H A N E T U B I N G S E R I E S TU & TIUB Soft and very flexible tubing TU 20 M O D E L C O L O R TU .mm TIUB ...inch B Black BU Blue G Green R Red W White Y Yellow C Transparent YR Orange T U B E T Y P E Imperial 01 05 07 11 13
25 pins) P/PC: Flat ribbon cable (26 pins) Straight Symbol Stations Note 02 2 stations Double wiring*1 Symbol Stations Note 02 2 stations Double wiring*1 12 12 stations 02 2 stations Specified layout*2 (Up to 24 solenoids available) 12 12 stations 02 2 stations Specified layout*2 (Up to 24 solenoids available) 24 24 stations 24 24 stations *1 Indicate the sizes on the manifold specification
12 stations F 1 to 12 Manifold is 12 stations max.
A 14 A B A 14 A B A B A 14 A B A 14 A B 2 3 A 14 U side D side PWR OUT 0 1 4 5 Mounting 2 3 B 12 B 12 B 12 B 12 B 12 PCI BUS IN BUS OUT Nil D D0 D3 Direct mounting DIN rail mounting (With DIN rail) DIN rail mounting (Without DIN rail) 8 7 1 2 3 4 5 Valve stations I/O Unit stations 1 2 For 3 stations Specify a longer rail than the standard length.
Refer to the terminal block connection instructions.) 12 stations maximum Piping specifications Applicable stations A, B port location Port size Series P, R A, B 3/4 3/8,1/2 Side 12 stations max.
38 12 14 EXH Port Size 12 14 38 38 12 INSTALLATION Pilot EXH Port Size 18 The Booster Regulator should be installed with its piston in a horizontal position.