Overall dimensions and technical information are provided solely for informative purposes and may be modified without notice Configurator 1 Air distribution Solenoid valves manifold 1 | 485 Series 2500 "OPTYMA-F" - Serial systems ACCESSORIES LEFT ENDPLATE A3 = 37 poles - Self feeding E3 = 37 poles - External feeding ACCESSORIES CONFIGURATION __ __ MODUL CONFIGURATION Valve type RIGHT ENDPLATE U0 = Closed U2 = 25 Poles U3 = 37 Poles . . . INPUT MODULES A = No module D1= 8 M8 digital Inputs module D3= 16 digital Inputs (SUB-D 25) module T1= 2 analogue Inputs 0-5V module T2= 2 analogue Inputs 0-10V module C1= 2 analogue Inputs 0-20mA module C2= 2 analogue Inputs 4-20mA module I/O MODULE M8 (Requires 25 poles right endplate) Manifold Layout configuration SHORT CODE FUNCTION / CONNECTION : 32 OUT VERSION C3 D3 P3 A3 I3 N3 L3 M3 = = = = = = = = ® CANopen 32OUT DeviceNet 32OUT PROFIBUS 32OUT ® EtherCAT 32OUT (5700 Series) EtherNet / IP 32OUT PROFINET IO RT/IRT 32OUT Powerlink 32OUT Modbus/TCP 32OUT __ __ F . . __ __ __ __ . __ . . . . __ __ . . . . . . . Sub-base type NOTE: While configuring the manifold always be careful that the maximum number of electrical signals available is 32. The use of monostable valve mounted on a base type 2 ( 2 electrical signals occupied ) causes the loss of one electric signal. In this case the monostable valve can be replaced by a bistable valve. The diaphragms plugs are used to intercept the conduits 1,3 & 5 of the base. If it is necessary to interrupt more than one conduit in the same time then put in line the letters which identifies the position (for exemple : regarding the 3 & 5 conduits, put the Y & Z letters). Should one or more conduits be cut more than one time it is necessary to add the relevant intermediate Supply/Exhaust module. A1= 5/2 SOL.-SPRING + BASE TYPE 1 (1 electrical signal occupied) A2= 5/2 SOL.-SPRING + BASE TYPE 2 (2 electrical signals occupied) B1= 5/2 SOL.-DIFFERENTIAL + BASE TYPE 1 (1 electrical signal occupied) B2= 5/2 SOL.-DIFFERENTIAL + BASE TYPE 2 (2 electrical signals occupied) C2= 5/2 SOL.-SOL. + BASE TYPE 2 (2 electrical signals occupied) E2= 5/3 CC SOL.-SOL. + BASE TYPE 2 (2 electrical signals occupied) F2= 2x3/2 NC-NC (= 5/3 OC) SOL.-SOL.+BASE TYPE 2 (2 electrical signals occupied) G2= 2x3/2 NO-NO (= 5/3 PC) SOL.-SOL.+BASE TYPE 2 (2 electrical signals occupied) H2= 2x3/2 NC-NO SOL.-SOL. + BASE TYPE 2 (2 electrical signals occupied) I2= 2x3/2 NO-NC SOL.-SOL. + BASE TYPE 2 (2 electrical signals occupied) T1= FREE VALVE SPACE PLUG + BASE FOR MONOSTABLE VALVE T2= FREE VALVE SPACE PLUG + BASE FOR BISTABLE VALVE U2 = Electric and electro-pneumatic cut off module 2 positions K2 = Electric and electro-pneumatic cut off module 2 positions with external pilot U4 = Electric and electro-pneumatic cut off module 4 positions K4 = Electric and electro-pneumatic cut off module 4 positions with external pilot U6 = Electric and electro-pneumatic cut off module 6 positions K6 = Electric and electro-pneumatic cut off module 6 positions with external pilot U8 = Electric and electro-pneumatic cut off module 8 positions K8 = Electric and electro-pneumatic cut off module 8 positions with external pilot W = Intermediate supply & exhaust module X = Diaphragm plug on pipe 1 Y = Diaphragm plug on pipe 3 Z = Diaphragm plug on pipe 5 XY = Diaphragm plug on pipe 1 & 3 ZX = Diaphragm plug on pipe 5 & 1 ZY = Diaphragm plug on pipe 5 & 3 ZXY = Diaphragm plug on pipe 5, 1 & 3
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