Overall dimensions and technical information are provided solely for informative purposes and may be modified without notice Configurator 1 Air distribution 1 | 420 Solenoid valves manifold Series 2300 - ENOVA® - Serial Systems __ .__.__. __ __ __ __ __ __ __ __ __ __ E __ __ __ BUS CONFIGURATION : ® CA= CANopen 22 OUT ® CB= CANopen 22 OUT + 8 INPUTS ® CC= CANopen 22 OUT + 16 INPUTS ® CD= CANopen 22 OUT + 24 INPUTS DA= DeviceNet 22 OUT DB= DeviceNet 22 OUT + 8 INPUTS DC= DeviceNet 22 OUT + 16 INPUTS DD= DeviceNet 22 OUT + 24 INPUTS PA= PROFIBUS 22 OUT PB= PROFIBUS 22 OUT + 8 INPUTS PC= PROFIBUS 16 OUT + 16 INPUTS ENDPLATES SELECTION : A= 5 ports endplated left side plus right side endplated B= 3 ports endplated left side plus right side endplated ACCESSORIES : 0 = none D= DIN bar adapter S= 90° Fixing bracket Manifold layout configuration complete with Serial systems SHORT CODE FUNCTION / CONNECTION: A4 = SV 5/2 MONOST. SOL.-SPRING Ø4 A6 = SV 5/2 MONOST. SOL.-SPRING Ø6 A8 = SV 5/2 MONOST. SOL.-SPRING Ø8 B4 = SV 5/2 MONOST. SOL.-DIFFERENTIAL Ø4 B6 = SV 5/2 MONOST. SOL.-DIFFERENTIAL Ø6 B8 = SV 5/2 MONOST. SOL.-DIFFERENTIAL Ø8 C4 = SV 5/2 BISTABLE SOL.-SOL. Ø4 C6 = SV 5/2 BISTABLE SOL.-SOL. Ø6 C8 = SV 5/2 BISTABLE SOL.-SOL. Ø8 E4 = SV 5/3 CC SOL.-SOL. Ø4 E6 = SV 5/3 CC SOL.-SOL. Ø6 E8 = SV 5/3 CC SOL.-SOL. Ø8 F4 = SV 2x3/2 NC-NC (= 5/3 CA) SOL.-SOL. Ø4 F6 = SV 2x3/2 NC-NC (= 5/3 CA) SOL.-SOL. Ø6 F8 = SV 2x3/2 NC-NC (= 5/3 CA) SOL.-SOL. Ø8 G4 = SV 2x3/2 NO-NO (= 5/3 CP) SOL.-SOL. Ø4 G6 = SV 2x3/2 NO-NO (= 5/3 CP) SOL.-SOL. Ø6 G8 = SV 2x3/2 NO-NO (= 5/3 CP) SOL.-SOL. Ø8 H4 = SV 2x3/2 NC-NO SOL.-SOL. Ø4 H6 = SV 2x3/2 NC-NO SOL.-SOL. Ø6 H8 = SV 2x3/2 NC-NO SOL.-SOL. Ø8 L4 = SV 2x2/2 NC-NC SOL.-SOL. Ø4 L6 = SV 2x2/2 NC-NC SOL.-SOL. Ø6 L8 = SV 2x2/2 NC-NC SOL.-SOL. Ø8 M4 = SV 2x2/2 NO-NO SOL.-SOL. Ø4 M6 = SV 2x2/2 NO-NO SOL.-SOL. Ø6 M8 = SV 2x2/2 NO-NO SOL.-SOL. Ø8 N4 = SV 2x2/2 NC-NO SOL.-SOL. Ø4 N6 = SV 2x2/2 NC-NO SOL.-SOL. Ø6 N8 = SV 2x2/2 NC-NO SOL.-SOL. Ø8 P4 = SV 5/2 MONOST. SOL.-SPRING CEB Ø4 P6 = SV 5/2 MONOST. SOL.-SPRING CEB Ø6 P8 = SV 5/2 MONOST. SOL.-SPRING CEB Ø8 R4 = SV 5/2 MONOST. SOL.-DIFF. CEB Ø4 R6 = SV 5/2 MONOST. SOL.-DIFF. CEB Ø6 R8 = SV 5/2 MONOST. SOL.-DIFF. CEB Ø8 T1 = 1 ELECTRIC SIGNAL THROUGH MODULE T2 = 2 ELECTRIC SIGNALS THROUGH MODULE J= INTERMEDIATE EXHAUST MODULE Ø8 K= INTERMEDIATE INLET MODULE Ø8 W = INLET-EXHAUST MODULE Ø8 X= INLET DIAPHRAGM Y= EXHAUST DIAPHRAGM Z= INLET -EXHAUST DIAPHRAGM NOTE: While configuring the manifold always bear in mind that the maximum number of electrical signals available is 22. N.B. CEB = Electrical connector for bistable valves ( uses two electric signals) Intermediate supply / exhaust modules require the same space as a valve but do not use any electric signals (as the electric connector carries forward all signals received from the module immediately before). The separation diaphragms are positioned between two modules and replace the standard seal therefore do not increase the dimension of the assembly. When using a separation diaphragm of any type, it is necessary to add, in any position between diaphragm and the manifold and plate, an extra air supply / exhaust module depending on the type of diaphragm used.
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