SOLENOID VALVES MANIFOLD OPTYMA OPTYMA-S - OPTYMA-T - OPTYMA-F
Solenoid valves manifold 1.446 Series 2500 Optyma-T Series 2200 Optyma-Sc 1.406 Series 2500 Optyma-F 1.413 Ampia gamma di sistemi multipolari e seriali interfacciabili con i principali bus di comunicazione Series 2200 Optyma-S 1.381
Overall dimensions and technical information are provided solely for informative purposes and may be modified without notice Solenoid valves manifold Series 2200 "OPTYMA-S" 1 Air distribution 1 | 421 Series 2200 "OPTYMA-S" General Optyma32-S has been designed in order to complete the Optyma series of valves. Optyma–S,12.5mm size, integrates all the technical features already developed and implemented on the Optima T & F such as the integrated electrical connection. Further technical specifications are:T TI T BN - Flow rate: up to 550[Nl/min], using the modular base with Ø8 quick fitting tube. - Modular base available with Ø4, Ø6, Ø8 quick fitting tube. - the solenoid pilots are low consumption and fitted on the same side of the valve. - Mono and bistable valves have the same dimension. - Easy and fast assembly on the sub base thanks to the “one screw” mounting solution. - Possibility to replace a valve without the need of disconnecting the pneumatic pipes. - Electrical and pneumatic connections positioned on the same side. - Possibility to operate with different pressures and vacuum. - Management of 32electrical signals,(16 bi-stable or any combination off mono and bi-stable vales up to max 32 signals). - the protection grade is iP65 directly integrated in the manifold components. - the electrical connection is achieved thanks to a 37 pole connector. - Possibility to integrate with Field bus modules CAnopen®, PROFIBUS DP, DeviceNet, EtherNet/IP, PROFINET IO RT/IRT, EtherCAT® and CC-Link IE Field Basic. “Shifting time of pneumatic directional control valves or moving parts, logic devices were measured in accordance to ISO 12238:2001, Pneumatic fluid power-Directional control valves-Measurement of shifting time” Main characteristics One size: 12.5mm thick Monostable and bistable valves with same dimensions Modular subbase with two positions Modular subbases assembled via tie rods Quick coupling connections directly integrated in sub base Integrated and optimized electrical connection system. IP65 protection grade as standard Construction characteristics Body Technopolymer Operators Technopolymer Spacers NBR Spacer Technopolymer Spools AISI 303 stainless steel Springs AISI 303 stainless steel Pistons Technopolymer Piston seals NBR Functions SV 5/2 MONOSTABLE SOLENOID-SPRING SV 5/2 MONOSTABLE SOLENOID-DIFFERENTIAL SV 5/2 BISTABLE SOLENOID-SOLENOID SV 5/3 C.C. SOLENOID-SOLENOID SV 2x3/2 N.C.-N.C. (=5/3 O.C.) SOLENOID-SOLENOID SV 2x3/2 N.O.-N.O. (=5/3 P.C.) SOLENOID-SOLENOID SV 2x3/2 N.C.-N.O. SOLENOID-SOLENOID SV 2x3/2 N.O.-N.C. SOLENOID-SOLENOID Technical characteristics Voltage 24VDC ±10% PNP (NPN and AC on request) Pilot consumption 0,5 Watt Pilot working pressure (12-14) from 2,5 to 7 bar max. Valve working pressure [1] from vacuum to 10 bar max. Operating temperature from -5°C to +50°C Protection degree IP65 Life (standard operating conditions) 50000000 Fluid Filtered air. No lubrication needed, if applied it shall be continuous
Overall dimensions and technical information are provided solely for informative purposes and may be modified without notice Solenoid valves manifold Series 2200 "OPTYMA-S" 1 Air distribution 1 | 422 ►Solenoid - Spring Operational characteristics Fluid Filtered air. No lubrication needed, if applied it shall be continuous Working pressure (bar) From vacuum to 10 Pressure range (bar) 2,5 ÷ 7 Temperature °C -5 ÷ +50 Flow rate at 6 bar with Δp=1 (Nl/min) 550 Responce time according to ISO 12238, activation time (ms) 12 Responce time according to ISO 12238, deactivation time (ms) 20 Shifting time of pneumatic directional control valves or moving parts, logic devices were measured in accordance to ISO 12238:2001 Flow rate at 6 bar with Δp=1 (Nl/min) with Base cod. 2244.01.V tube Ø4= 140 Flow rate at 6 bar with Δp=1 (Nl/min) with Base cod. 2246.01.V tubo Ø6= 400 Flow rate at 6 bar with Δp=1 (Nl/min) with Base cod. 2246.01.V tubo Ø8= 550 Coding: 2241.52.00.39.V V VOLTAGE 02 = 24 VDC PNP 12 = 24 VDC NPN 05 = 24 VAC SHORT FUNCTION CODE "A" Weight 67 g ►Solenoid-Differential Operational characteristics Fluid Filtered air. No lubrication needed, if applied it shall be continuous Working pressure (bar) From vacuum to 10 Pressure range (bar) 2,5 ÷ 7 Temperature °C -5 ÷ +50 Flow rate at 6 bar with Δp=1 (Nl/min) 550 Responce time according to ISO 12238, activation time (ms) 20 Responce time according to ISO 12238, deactivation time (ms) 25 Shifting time of pneumatic directional control valves or moving parts, logic devices were measured in accordance to ISO 12238:2001 Flow rate at 6 bar with Δp=1 (Nl/min) with Base cod. 2244.01.V tube Ø4= 140 Flow rate at 6 bar with Δp=1 (Nl/min) with Base cod. 2246.01.V tubo Ø6= 400 Flow rate at 6 bar with Δp=1 (Nl/min) with Base cod. 2246.01.V tubo Ø8= 550 Coding: 2241.52.00.36.V V VOLTAGE 02 = 24 VDC PNP 12 = 24 VDC NPN 05 = 24 VAC SHORT FUNCTION CODE "B" Weight 67 g ►Solenoid-Solenoid Operational characteristics Fluid Filtered air. No lubrication needed, if applied it shall be continuous Working pressure (bar) From vacuum to 10 Pressure range (bar) 2,5 ÷ 7 Temperature °C -5 ÷ +50 Flow rate at 6 bar with Δp=1 (Nl/min) 550 Responce time according to ISO 12238, activation time (ms) 10 Responce time according to ISO 12238, deactivation time (ms) 10 Shifting time of pneumatic directional control valves or moving parts, logic devices were measured in accordance to ISO 12238:2001 Flow rate at 6 bar with Δp=1 (Nl/min) with Base cod. 2244.01.V tube Ø4= 140 Flow rate at 6 bar with Δp=1 (Nl/min) with Base cod. 2246.01.V tubo Ø6= 400 Flow rate at 6 bar with Δp=1 (Nl/min) with Base cod. 2246.01.V tubo Ø8= 550 Coding: 2241.52.00.35.V V VOLTAGE 02 = 24 VDC PNP 12 = 24 VDC NPN 05 = 24 VAC SHORT FUNCTION CODE "C" Weight 67 g
Overall dimensions and technical information are provided solely for informative purposes and may be modified without notice Solenoid valves manifold Series 2200 "OPTYMA-S" 1 Air distribution 1 | 423 ►Solenoid-Solenoid 5/3 (Closed centres) Operational characteristics Fluid Filtered air. No lubrication needed, if applied it shall be continuous Working pressure (bar) From vacuum to 10 Pressure range (bar) 2,5 ÷ 7 Temperature °C -5 ÷ +50 Flow rate at 6 bar with Δp=1 (Nl/min) 400 Responce time according to ISO 12238, activation time (ms) 15 Responce time according to ISO 12238, deactivation time (ms) 20 Shifting time of pneumatic directional control valves or moving parts, logic devices were measured in accordance to ISO 12238:2001 Flow rate at 6 bar with Δp=1 (Nl/min) with Base cod. 2244.01.V tube Ø4= 140 Flow rate at 6 bar with Δp=1 (Nl/min) with Base cod. 2246.01.V tube Ø6= 300 Flow rate at 6 bar with Δp=1 (Nl/min) with Base cod. 2246.01.V tubo Ø8= 400 Coding: 2241.53.31.35.V V VOLTAGE 02 = 24 VDC PNP 12 = 24 VDC NPN 05 = 24 VAC SHORT FUNCTION CODE "E" Weight 83 g ►Solenoid-Solenoid 2x3/2 Operational characteristics Fluid Filtered air. No lubrication needed, if applied it shall be continuous Working pressure (bar) From vacuum to 10 Pressure range (bar) ≥3+(0,2xInlet pressure) Temperature °C -5 ÷ +50 Flow rate at 6 bar with Δp=1 (Nl/min) 420 Responce time according to ISO 12238, activation time (ms) 15 Responce time according to ISO 12238, deactivation time (ms) 25 Shifting time of pneumatic directional control valves or moving parts, logic devices were measured in accordance to ISO 12238:2001 Flow rate at 6 bar with Δp=1 (Nl/min) with Base cod. 2244.01.V tube Ø4= 140 Flow rate at 6 bar with Δp=1 (Nl/min) with Base cod. 2246.01.V tubo Ø6= 360 Flow rate at 6 bar with Δp=1 (Nl/min) with Base cod. 2246.01.V tubo Ø8= 420 Coding: 2241.62.F.35.V F FUNCTION 44 = NC-NC (5/3 Open centres) 45 = NC-NO (normally closed-normally open) 54 = NO-NC (normally open-normally closed) 55 = NO-NO (5/3 Pressured centres) V VOLTAGE 02 = 24 VDC PNP 12 = 24 VDC NPN 05 = 24 VAC SHORT FUNCTION CODE: NC-NC (5/3 Open centres)="F" NO-NO (5/3 Pressured centres)="G" NC-NO="H" NO-NC="I" Weight 75 g 5 14 4 1 3 2 12
Overall dimensions and technical information are provided solely for informative purposes and may be modified without notice 1 Air distribution Solenoid valves manifold 1 | 424 Series 2200 "OPTYMA-S" - Accessories ►Left Endplates Operational characteristics Fluid Filtered air. No lubrication needed, if applied it shall be continuous Working pressure (bar) From vacuum to 10 (External pilot base) 2,5-7 (Self-feeding base) Pressure range (bar) 2,5 ÷ 7 (External pilot base) Temperature °C -5 ÷ +50 Weight 174 g 12/14 separated from port 1 2240.02.C 63 33.6 Ø5.2 43.7 76 4.6 45 13 Ø5.5 Ø5.5 4 66.4 120.7 54.5 9.5 9.5 20 Ø10 22.4 44.9 Ø10 Ø10 8.5 Ø6 26 33.5 7.5 Ø4.2 34.5 12 14 1 3 5 Weight 174 g 12/14 connected to port 1 2240.12.C 63 33.6 Ø5.2 43.7 76 4.6 45 13 Ø5.5 Ø5.5 4 66.4 120.7 9.5 9.5 20 Ø10 22.4 44.9 Ø10 Ø10 26 33.5 7.5 Ø4.2 34.5 1 3 5 Coding: 2240.V.C V VERSION 02 = External feeding 12 = Self-feeding C ELECTRICAL CONNECTION 37P = Connectors 37 poles PNP 25P = Connectors 25 poles PNP 37N = Connectors 37 poles NPN 25N = Connectors 25 poles NPN 37A = Connectors 37 poles AC 25A = Connectors 25 poles AC ►Right Endplates Operational characteristics Fluid Filtered air. No lubrication needed, if applied it shall be continuous Working pressure (bar) From vacuum to 10 Pressure range (bar) 2,5 ÷ 7 Temperature °C -5 ÷ +50 Weight 147 g PORT 82/84= DO NOT PRESSURIZE, SOLENOID PILOTS EXHAUST 44.9 Ø10 Ø10 Ø10 22.4 54.5 9.5 Ø6 8.5 9.5 45 13 Ø5.5 4 76 43.7 Ø5.5 66.4 120.7 Ø5.2 63 33.6 4.6 34.5 Ø4.2 7.5 26 33.5 82 84 1 3 5 Coding: 2240.03.C C ELECTRICAL CONNECTION 00 = Electrical connection 25P = Connectors 25 poles ►Closing plate Operational characteristics Fluid Filtered air. No lubrication needed, if applied it shall be continuous Working pressure (bar) From vacuum to 10 Temperature °C -5 ÷ +50 128.6 2.15 68.5 3.21 Coding: 2240.00 Weight 30 g SHORT FUNCTION CODE "T"
Overall dimensions and technical information are provided solely for informative purposes and may be modified without notice 1 Air distribution Solenoid valves manifold 1 | 425 Series 2200 "OPTYMA-S" - Accessories ►Intermediate Inlet/Exhaust module Operational characteristics Fluid Filtered air. No lubrication needed, if applied it shall be continuous Working pressure (bar) From vacuum to 10 Temperature °C -5 ÷ +50 7.25 124.7 25 18 8 16,5 64 Ø8 Ø8 Ø8 Coding: 2240.10 Weight 105 g SHORT FUNCTION CODE "W" ►Modular base (2 places) Operational characteristics Fluid Filtered air. No lubrication needed, if applied it shall be continuous Working pressure (bar) From vacuum to 10 Temperature °C -5 ÷ +50 2244.FV Weight 75 g SHORT FUNCTION CODE "3" (Monostable) Opened ports SHORT FUNCTION CODE "33" (Monostable) Ports 1-5 separated SHORT FUNCTION CODE "34" (Monostable) Ports 1-3 separated SHORT FUNCTION CODE "35" (Monostable) Port 5 separated SHORT FUNCTION CODE "36" (Monostable) Separated ports SHORT FUNCTION CODE "37" (Monostable) Port 1 separated SHORT FUNCTION CODE "38" (Monostable) Ports 3-5 separated SHORT FUNCTION CODE "39" (Monostable) Port 3 separated 2246.FV Weight 75 g SHORT FUNCTION CODE "5" (Monostable) Opened ports SHORT FUNCTION CODE "53" (Monostable) Ports 1-5 separated SHORT FUNCTION CODE "54" (Monostable) Ports 1-3 separated SHORT FUNCTION CODE "55" (Monostable) Port 5 separated SHORT FUNCTION CODE "56" (Monostable) Separated ports SHORT FUNCTION CODE "57" (Monostable) Port 1 separated SHORT FUNCTION CODE "58" (Monostable) Ports 3-5 separated SHORT FUNCTION CODE "59" (Monostable) Port 3 separated 2248.FV Weight 75 g SHORT FUNCTION CODE "7" (Monostable) Opened ports SHORT FUNCTION CODE "73" (Monostable) Ports 1-5 separated SHORT FUNCTION CODE "74" (Monostable) Ports 1-3 separated SHORT FUNCTION CODE "75" (Monostable) Port 5 separated SHORT FUNCTION CODE "76" (Monostable) Separated ports SHORT FUNCTION CODE "77" (Monostable) Port 1 separated SHORT FUNCTION CODE "78" (Monostable) Ports 3-5 separated SHORT FUNCTION CODE "79" (Monostable) Port 3 separated 5.93 124.7 52 12.5 5.6 68.5 Ø4 5.21 1 3 5 SHORT FUNCTION CODE "4" (Bistable) Opened ports SHORT FUNCTION CODE "43" (Bistable) Ports 1-5 separated SHORT FUNCTION CODE "44" (Bistable) Ports 1-3 separated SHORT FUNCTION CODE "45" (Bistable) Port 5 separated SHORT FUNCTION CODE "46" (Bistable) Separated ports SHORT FUNCTION CODE "47" (Bistable) Port 1 separated SHORT FUNCTION CODE "48" (Bistable) Ports 3-5 separated SHORT FUNCTION CODE "49" (Bistable) Port 3 separated 5.93 124.7 52 12.5 5.6 68.5 Ø6 5.21 1 3 5 SHORT FUNCTION CODE "6" (Bistable) Opened ports SHORT FUNCTION CODE "63" (Bistable) Ports 1-5 separated SHORT FUNCTION CODE "64" (Bistable) Ports 1-3 separated SHORT FUNCTION CODE "65" (Bistable) Port 5 separated SHORT FUNCTION CODE "66" (Bistable) Separated ports SHORT FUNCTION CODE "67" (Bistable) Port 1 separated SHORT FUNCTION CODE "68" (Bistable) Ports 3-5 separated SHORT FUNCTION CODE "69" (Bistable) Port 3 separated 5.93 124.7 52 12.5 5.6 68.5 Ø8 5.21 1 3 5 SHORT FUNCTION CODE "8" (Bistable) Opened ports SHORT FUNCTION CODE "83" (Bistable) Ports 1-5 separated SHORT FUNCTION CODE "84" (Bistable) Ports 1-3 separated SHORT FUNCTION CODE "85" (Bistable) Port 5 separated SHORT FUNCTION CODE "86" (Bistable) Separated ports SHORT FUNCTION CODE "87" (Bistable) Port 1 separated SHORT FUNCTION CODE "88" (Bistable) Ports 3-5 separated SHORT FUNCTION CODE "89" (Bistable) Port 3 separated Coding: 224C.FV C TUBE DIAMETER 4 = Ø4 6 = Ø6 8 = Ø8 F FUNCTION 01 = Opened ports 03 = Ports 1-5 separated 04 = Ports 1-3 separated 05 = Ports 5 separated 06 = Separated ports 07 = Ports 1 separated 08 = Ports 3-5 separated 09 = Ports 3 separated V VERSION M = for Monostable SV B = for Bistable SV
Overall dimensions and technical information are provided solely for informative purposes and may be modified without notice 1 Air distribution Solenoid valves manifold 1 | 426 Series 2200 "OPTYMA-S" - Accessories ►Polyethylene Silencer Series SPL-R Coding: SPLR.D D TUBE DIAMETER 6 = 6 mm 10 = 10 mm ►Diaphragm plug Coding: 2230.17 Weight 6,5 g ►Tie-rod M3 The Kit includes 6 pieces 14 6 7 4 ES. 3 Ø5 Coding: 2240.KD.00 ►Tie-rod M3 The Kit includes 3 pieces M3 L=41mm+(N. pos. x 12,5mm) Coding: 2240.KT.P P N. POSITIONS 02 = Nr. 2 Positions 04 = Nr. 4 Positions 06 = Nr. 6 Positions 08 = Nr. 8 Positions 10 = Nr. 10 Positions 12 = Nr. 12 Positions 14 = Nr. 14 Positions 16 = Nr. 16 Positions 18 = Nr. 18 Positions 20 = Nr. 20 Positions 22 = Nr. 22 Positions 24 = Nr. 24 Positions 26 = Nr. 26 Positions 28 = Nr. 28 Positions 30 = Nr. 30 Positions 32 = Nr. 32 Positions ►Cable complete with connector, 25 Poles IP65 Coding: 2300.25.L.C L CABLE LENGTH 03 = 3 meters 05 = 5 meters 10 = 10 meters F FUNCTION 31 = Closed centres 32 = Open centres 33 = Pressured centres ►Cable complete with connector, 37 Poles IP65 Coding: 2400.37.L.C L CABLE LENGTH 03 = 3 meters 05 = 5 meters 10 = 10 meters F FUNCTION 31 = Closed centres 32 = Open centres 33 = Pressured centres ►Cable complete with connector, 25 Poles IP65 Coding: 2400.25.L.25 L CABLE LENGTH 03 = 3 meters 05 = 5 meters 10 = 10 meters
Overall dimensions and technical information are provided solely for informative purposes and may be modified without notice 8 Input/Output Module 1 Air distribution Solenoid valves manifold 1 | 427 Series 2200 "OPTYMA-S" - Accessories Ordering code General : 2240.08S Input features: Overall dimensions and I/O layout: PIN DESCRIPTION 1 +24 VDC 4 INPUT/OUTPUT 3 GND 1 4 3 M8 CONNECTOR 3 POLES FEMALE M8 CONNECTOR 3 POLES FEMALE DIAGNOSTIC GREEN LED VOLTAGE ON THROUGH-LINE 52 57 GREEN LED INPUT/OUTPUT 99 63 Using the 2240.03.25P output terminal it is possible to make any electrical signals not used by valves available on a 25 sub-D female connector at the right end of the manifold. It is possible to then join a multi-core cable to link to the next manifold, or connect directly to one or two I/O modules. The I/O modules can accept input or output signals, depending upon what is connected. Please note: If the manifold is connected by a multi-core connection, each connection can be used as either an input or an output, while if the manifold is connected to a serial node the connections can only be used as an output. It is possible to connect the manifold to up to two I/O modules. Each I/O module includes 8 diagnostic LEDs which indicate the presence of an Input / Output signal for each connector. Please note: For an LED to function, a signal of at least +15VDC must be present on pin 4 of the connector. If this signal is lower, the LED will not light, this does not compromise the normal Input / Output function of the unit. Each connection can accept either two wire (switches, magnetic switches, pressure switches, etc.) or three wire connections (photocells, electronic end of stroke sensors, etc.) if +24VDC is required on at Pin 1 of each connector, it is possible to provide this via the through-line pin of the multi-pole connector. I.E : Pin 25 of the 25 pin multi-pole connector (code 2240.02.25P or 2240.12.25P) Pin 36-37 of the 37 pin multi-pole connector (code 2240.02.37P or 2240.12.37P) Attention: The output connections are not protected against short-circuit. Please pay attention when wiring (avoid Pin 4 being connected to Pin 3 or Pin 1). Output features: Model Case I/O Connector PIN 1 voltage (connector used as Input) PIN 4 voltage diagnosis Node consumption (Outlets excluded) Outlets voltage Input voltage Maximum outlet current Maximum Input/Output Multiconnector max. Current Connections to manifold Maximum n. of moduls Protection degree Ambient temperature General characteristics 2240.08S Reinforced technopolymer M8 connector 3 poles female (IEC 60947-5-2) Green LED 7mA per each LED with 24 VDC signal +23,3 VDC (serial) /by the user (multipolar) Depend by the using 100 mA (serial) / 400 mA (multipolar) 8 per module 100 mA Direct connection to 25 poles connector 2 IP65 when assembled from -0° to +50° C by the user
Overall dimensions and technical information are provided solely for informative purposes and may be modified without notice 8 Input/Output Module 1 Air distribution Solenoid valves manifold 1 | 428 Series 2200 "OPTYMA-S" - Accessories 1 4 3 1 4 3 PIN 1 PIN 2 PIN 3 PIN 4 PIN 5 PIN 6 PIN 7 PIN 8 PIN 9 PIN 10 PIN 11 PIN 12 PIN 13 PIN 14 PIN 15 PIN 16 PIN 17 PIN 18 PIN 19 PIN 20 PIN 21 PIN 22 PIN 23 PIN 24 PIN 25 PIN 26 PIN 27 PIN 28 PIN 29 PIN 30 PIN 31 PIN 32 PIN 33 PIN 34 PIN 35 PIN 36 PIN 37 PIN 1 PIN 2 PIN 3 PIN 4 PIN 5 PIN 6 PIN 7 PIN 8 PIN 9 PIN 10 PIN 11 PIN 12 PIN 13 PIN 14 PIN 15 PIN 16 PIN 17 PIN 18 PIN 19 PIN 20 PIN 21 PIN 22 PIN 23 PIN 24 PIN 25 The I/O module changes it is operation depending on the way the manifold is controlled. There are two possible modes: A) Control via multi-pole connection B) Control via fieldbus Connection modes: M8 connector used as Input: A) Control via multi-pole : Attention: Since every cable has a degree of resistance, there will always be a voltage drop depending on the cable’s length, sectional area and the current. Attention: Voltage applied to each connector is passed to multi-pole connector pin. Output voltage will the same as is applied at the multi-pole connector pin. The maximum output current depends upon the power unit used, but we recommend no more than 250mA. M8 connector used as Output: Attention : Optyma 32-S solenoid valve manifolds permit up to 22 electrical signals that are not used by manifolds to be made available: these signals can be managed by another manifold and / or by I/O modules. The I/O module will manage these unused signals. Connections that are not managing useful signals will remain unconnected. PIN DESCRIPTION 1 THROUGH LINE SUB-D TYPE 37 POLE MALE CONNECTOR 1 - 32 = SIGNALS 33 - 35 = GND 36 - 37 = THROUGH LINE 1 - 22 = SIGNALS 23 - 24 = GND 25 = THROUGH LINE SUB-D TYPE 25 POLE MALE CONNECTOR CORRESPONDENCE BETWEEN MULTI-POLE SIGNAL AND CONNECTOR 4 SIGNAL 3 GND Attention: No more additions are possible Attention: Only one more I/O module can be added. In order to use the I/O module, the correct right hand endplate with 25 pole female outlet connector must be used. (Code 2240.03.25P). Attention: Signal Not connected GND Connected Through line Connected Please note: this example considers a 37 pin multi-pole connector. The same configuration managed by a 25 pin multi-pole connector will stop at number 22 of multi-pole connector and at number 17 of the manifold. 22 16 3-4 Module 1 Module 1 Module 2 Not Connected Multi-pole connector pin 37 poles Connettor 1 2 3-45-6 1 2 5-6 7-8 12 9 10 13 11 14 15 16 1 2 3-4 5-6 7-8 Module 1 12 9 10 13 11 14 15 16 Module 2 20 17 18 21 19 22 23 24 1 2 3-4 5-6 9-10 7 8 18 15 16 19 17 20 21 22 26 23 24 27 25 28 11-12 13-14 7-8 9 10 11 12 13 17 18 19 20 21 14 15 16 22 Multi-pole connector pin 37 poles Connector Multi-pole connector pin Maximum 22 Signals 22 Signals : Outlet signals from manifold PIN DESCRIPTION 1 4 3 THROUGH LINE SIGNAL GND
Overall dimensions and technical information are provided solely for informative purposes and may be modified without notice 8 Input/Output Module 1 Air distribution Solenoid valves manifold 1 | 429 Series 2200 "OPTYMA-S" - Accessories 1 4 3 1 2 3-4 5-6 28 25 26 29 27 30 31 32 ... 19-20 21-22 23-24 17-18 Please note: I/O modules don’t allow to connect any additional valves manifold after them. Please note: Optyma 32-S solenoid valve manifolds manage up to 32 signals. If the manifold uses more than 24 signals the I/O module will manage only the remainder. Connections that are not managing useful signals will remain unconnected. Attention: No more additions are possible Attention: Output only Attention: Output only Attention: Only one more I/O module can be added. Not connected Attention: Signal Not connected GND Connected Through line Connected Attention: Output only Attention: Signal Not connected GND Connected Attention: No more additions are possible Attention: Output only Multi-pole connector pin 37 poles Connettor Connettore 37 poli Serial node Outlet Pin Serial node Outlet Pin Serial node Outlet Pin 1 2 3-4 5-6 31 28 29 32 30 ... 22-23 24-25 26-27 20-21 3-4 Module 1 1 2 5-6 7-8 12 9 10 13 11 14 15 16 1 2 3-4 5-6 7-8 Module 1 12 9 10 13 11 14 15 16 Module 2 20 17 18 21 19 22 23 24 1 2 3-4 5-6 7-8 Module 1 12 9 10 13 11 14 15 16 Module 2 20 17 18 21 19 22 23 24 1 2 3-4 5-6 31 28 29 32 30 ... 22-23 24-25 26-27 20-21 Multi-pole connector pin PIN DESCRIPTION 1 NOT CONNECTED 4 SIGNAL 3 GND Serial node Outlet Pin Input Module With this kind of control the I/O module can only be used as an output. Pin 1 of each connector is not connected. The output voltage will be 0.7V lower than that applied to Pin 4 of the connector. The maximum output current for each output is 100mA. Te correspondence between control byte and each single output depends on how many electrical signals are used by the manifold and by the relative position of the I/O module. B) Control via fieldbus: Not connected
Overall dimensions and technical information are provided solely for informative purposes and may be modified without notice Solenoid valves manifold Series 2200 "OPTYMA-S" 1 Air distribution 1 | 430 Sub-base for 2 bistable valves Sub-base for 2 monostable valves Signals used for the single position 2 signals used for the first position 2 signals used for the second position 1 signal used for the first position 1 signal used for the second position 4 2 Sub-base configurations Total number of used signal Electrical connection The electrical connection is made using a 37 pin connector and can manage up to 32 electrical signals. Alternatively a 25 pin connector can be used which is suitable for up to 22 electrical signals. The distributions of the electrical signals between sub-bases achieved thanks to a dedicated electrical connector positioned in each sun-base which diverts the signals needed to operate the solenoid pilots of the valve mounted on the sub-base and passing unused signals forward to the next base. The Optyma-S sub-bases are designed to carry two valves and are available in the following configurations: Sub-base for 2 bistable valves On the sub base for 2 bistable valves the first electrical signal is used to actuate the solenoid pilot on side 14 of the first position, the second signal is used to actuate the solenoid pilot on side 12 of the first position. Each sub base uses 4 electric signals. The same layout applies to the following position therefore the third signal is used to actuate the solenoid pilot on side 14 of the second position and the fourth signal is used to actuate the solenoid pilot on side 12 of the second position. The remaining signals are transferred downstream. On a bistable sub base it is possible to mount both bistable or monostable valves (in the second case 1 electrical signal for each valve is wasted). This solutions enables the user to change the manifold layout without the need to re-configure the output correspondence on the PLC. The use of bistable sub-bases reduces the maximum number of valves that can be mounted on the manifold: If the 37 pole connector is used the maximum number of valves is 16 If the 25 pole connector is used the maximum number of valves is 10. Sub-base for 2 monostable valves On the sub base for 2 monostable valves the first electrical signal is used to actuate the solenoid pilot on side 14 of the first position, the second signal is used to actuate the solenoid pilot on side 12 of the second position. Each sub base uses 2 electric signals. The remaining signals are transferred downstream. On a monostable sub base it is possible to mount only monostable valves (shoud a bistable valve be mounted on a monostable sub base it will not be possible to actuate the solenoid pilot on side 12). This solutions enables the user to maximise the manifold lay out using all the electrical signals available. If the 37 pole connector is used the maximum number of valves is 32 If the 25 pole connector is used the maximum number of valves is 22 Note: Monostable valves, which are fitted with only one solenoid pilot can be mounted on both monostable or bistable sub bases. Bistable valves ,5/3; 2x3/2;2x2/2, which are fitted with 2 solenoid pilots and therefore always use two electrical signals must always be mounted on bistable subbases. Additional exhaust and air supply modules: The Additional exhaust and air supply module is fitted with a dedicated electrical connector which does not use any electric signal but simply carries forward all signals which have not been used by the valves mounted before it. This enables its use in any position of the manifold.
Overall dimensions and technical information are provided solely for informative purposes and may be modified without notice Multipolar connections 1 Air distribution Solenoid valves manifold 1 | 431 Series 2200 "OPTYMA-S" PIN 1 PIN 2 PIN 3 PIN 4 PIN 5 PIN 6 PIN 7 PIN 8 PIN 9 PIN 10 PIN 11 PIN 12 PIN 13 PIN 14 PIN 15 PIN 16 PIN 17 PIN 18 PIN 19 PIN 20 PIN 21 PIN 22 PIN 23 PIN 24 PIN 25 PIN 26 PIN 27 PIN 28 PIN 29 PIN 30 PIN 31 PIN 32 PIN 33 PIN 34 PIN 35 PIN 36 PIN 37 SUB-D 37 POLE MALE CONNECTOR 1 - 32 = Solenoid valves signals 33 - 35 = GND 36 - 37 = Through line PIN 1 PIN 2 PIN 3 PIN 4 PIN 5 PIN 6 PIN 7 PIN 8 PIN 9 PIN 10 PIN 11 PIN 12 PIN 13 PIN 14 PIN 15 PIN 16 PIN 17 PIN 18 PIN 19 PIN 20 PIN 21 PIN 22 PIN 23 PIN 24 PIN 25 1 - 22 = Solenoid valves signals 23 - 24 = GND 25 = Through line SUB-D 25 POLE MALE CONNECTOR PIN 13 PIN 12 PIN 11 PIN 10 PIN 9 PIN 8 PIN 7 PIN 6 PIN 5 PIN 4 PIN 3 PIN 2 PIN 1 PIN 25 PIN 24 PIN 23 PIN 22 PIN 21 PIN 20 PIN 19 PIN 18 PIN 17 PIN 16 PIN 15 PIN 14 1 - 22 = Solenoid valves signals 23 - 24 = GND 25 = Through line SUB-D 25 POLE FEMALE CONNECTOR INLET ELECTRIC CONNECTIONS OUTLET ELECTRIC CONNECTIONS (IF PRESENT) Unused electrical signals The electrical signals which have not been used in the manifold can be made available by using the end plate fitted with the 25 pole connector. The number of electric signals available depends on the type of connector mounted on the inlet plate and on the number of signals used in the manifold: 37 pole Inlet connector : N. of outputs= 32 – used signals (max 22) 25 pole Inlet connector : N. of outputs= 22 – used signals Here are some examples of possible configurations and the corresponding pin layout both on the inlet and end plate :
Overall dimensions and technical information are provided solely for informative purposes and may be modified without notice Multipolar connections 1 Air distribution Solenoid valves manifold 1 | 432 Series 2200 "OPTYMA-S" POS. 1 2 3 4 5 6 7 8 9 10 11 1 2 3 4 37 PIN Connector correspondence for manifold mounted on bases for bistable valves 37 PIN Connector correspondence for valves assembled on mixed bases PIN 1 = PILOT 14 SV POS.1 PIN 2 = PILOT 12 SV POS.1 PIN 3 = PILOT 14 SV POS.2 PIN 4 = PILOT 12 SV POS.2 PIN 5 = PILOT 14 SV POS.3 PIN 6 = NOT CONNECTED PIN 7 = PILOT 14 SV POS.4 PIN 8 = NOT CONNECTED PIN 9 = PILOT 14 SV POS.6 PIN 10 = NOT CONNECTED PIN 11 = NOT CONNECTED PIN 12 = NOT CONNECTED PIN 13 = PILOT 14 SV POS.8 PIN 14 = PILOT 12 SV POS.8 PIN 15 = NOT CONNECTED PIN 16 = NOT CONNECTED PIN 17 = PILOT 14 SV POS.10 PIN 18 = NOT CONNECTED PIN 19 = NOT CONNECTED PIN 20 = NOT CONNECTED PIN 1 = PILOT 14 SV POS.1 PIN 2 = PILOT 12 SV POS.1 PIN 3 = PILOT 14 SV POS.2 PIN 4 = PILOT 12 SV POS.2 PIN 5 = PILOT 14 SV POS.3 PIN 6 = PILOT 14 SV POS.4 PIN 7 = PILOT 14 SV POS.6 PIN 8 = NOT CONNECTED PIN 9 = NOT CONNECTED PIN 10 = NOT CONNECTED PIN 11 = PILOT 14 SV POS.8 PIN 12 = PILOT 12 SV POS.8 PIN 13 = NOT CONNECTED PIN 14 = NOT CONNECTED PIN 15 = PILOT 14 SV POS.10 PIN 16 = NOT CONNECTED 37 PIN Connector correspondence for manifold for 32 position manifold with monostable valves on double bases 25P 37P 1 2 ... 5 6 7 8 9 10 11 12 13 14 15 16 POS. 1 2 3 4 5 6 7 8 9 10 11 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 3 4 ... 29 30 31 32 1 2 ... 3 4 ... 19 20 21 22 POS. 1 2 3 4 ... 29 30 31 32 POS. 1 2 3 4 ... 19 20 21 22
Overall dimensions and technical information are provided solely for informative purposes and may be modified without notice Solenoid valves manifold Series 2200 "OPTYMA-S" 1 Air distribution 1 | 433 52 + (N° bases x 25) Ø4,2 60 + (N° bases x 25) VALVE OUTLET (PORTS 2 & 4) - Ø6 - Ø4 VALVE EXHAUST CONDUITS (CONNECTIONS 3 & 5) - Ø10 VALVE SUPPLY CONDUITS (CONNECTION) 1 - Ø10 PILOT SUPPLY CONDUIT - Ø6 From the top DIN rail fixing Maximum possible size According to valves used PILOT STATE IDENTIFICATION LED (LED “ON” IDENTIFIES ACTUATED PILOT) ORDERING CODE PILOT EXHAUST CONDUIT - Ø6 VALVE MANUAL OVER-RIDE PNEUMATIC SYMBOL FUNCTION SHORT CODE VALVE COUPLING SCREW CUSTOMIZABLE REMOVABLE LABLES 1,5
Overall dimensions and technical information are provided solely for informative purposes and may be modified without notice Solenoid valves manifold Series 2200 "OPTYMA-S" 1 Air distribution 1 | 434 Manual override actuation Valve Installation Spring return function: push to actuate (when released it moves back to the original position). Latching function: push and turn to get the latching function NOTE : It is strongly suggested to replace the original position after using Manifold assembly Torque moment (Nm) : 0,8 Min. torque moment : 2 Nm Max. torque moment: 2,5 Nm 3 2,5
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 | 435 Series 2200 "OPTYMA-S" Manifold Layout configuration ACCESSORIES W00 = Intermediate supply & exhaust module 0X0 = Diaphragm plug on pipe 1 00Y = Diaphragm plug on pipeE 3 Z00 = Diaphragm plug on pipe 5 0XY = Diaphragm plug on pipe 1 & 3 ZX0 = Diaphragm plug on pipe 5 & 1 Z0Y = Diaphragm plug on pipe 5 & 3 ZXY = Diaphragm plug on pipe 5,1 & 3 VALVES TYPE A = 5/2 Solenoid - Spring B = 5/2 Solenoid - Differential C = 5/2 Solenoid - Solenoid E = 5/3 CC Solenoid - Solenoid F = 2x3/2 NC-NC (= 5/3 OC) Solenoid - Solenoid G = 2x3/2 NO-NO (= 5/3 PC) Solenoid - Solenoid H = 2x3/2 NC-NO Solenoid - Solenoid I = 2x3/2 NO-NC Solenoid - Solenoid T = Free valve space plug __ __ __ __ __ S . . __ LEFT ENDPLATE A2 = 25 poles - Self feeding A3 = 37 poles - Self feeding E2 = 25 poles - External feeding E3 = 37 poles - External feeding ACCESSORIES CONFIGURATION _ _ __ __ MODUL CONFIGURATION Sub-base type Valve type __ MULTIPOINT CONNECTION MP = PNP 24 V DC MN = NPN 24 V DC MA = 24 V AC RIGHT ENDPLATE U0 = Closed U2 = 25 Poles __ __ . __ . . . . I/O MODULE M8 (Requires 25 poles right endplate) SUB-BASE TYPE 3 = 2 Position Monostable sub base ø4 (2 electric signal used) 4 = 2 Position Bistable sub base ø4 (4 electric signals used) 5 = 2 Position Monostable sub base ø6 (2 electric signal used) 6 = 2 Position Bistable sub base ø6 (4 electric signals used) 7 = 2 Position Monostable sub base ø8 (2 electric signal used) 8 = 2 Position Bistable sub base ø8 (4 electric signals used) __ __ __ 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 bistable base ( 2 electrical signals occupied for each position) causes the loss of one electric signal. In this case the monostable valve can be replaced by a bistable valve without reconfiguring the PLC. The diaphragms plugs are used to intercept the conduits 1,3 & 5 of the base. Should one or more conduits be cut more than one time it is necessary to add the relevant intermediate Supply/Exhaust module. Well-tried component B10d 50.000.000 Series 2200 OPTYMA-S solenoid valve manifolds managed by multipoint connection are “well tried components” - The product is a well-tried product for a safety-related application according to ISO 13849-1. - The relevant basic and well-tried safety principles according ISO 13849-2 for this product are fulfilled. - The suitability of the product for a precise application must be verified and confirmed by the user. SUB-BASE VARIANTS EMPTY = No variants (SUB-BASE STANDARD) 3 = Diaphragm plug on pipe 1 and 5 4 = Diaphragm plug on pipe 1 and 3 5 = Diaphragm plug on pipe 5 6 = Diaphragm plug on pipe 1, 3 and 5 7 = Diaphragm plug on pipe 1 8 = Diaphragm plug on pipe 3 and 5 9 = Diaphragm plug on pipe 3 __
Overall dimensions and technical information are provided solely for informative purposes and may be modified without notice Series 2200 "OPTYMA-S" - Serial systemsN CAnopen® Module 1 Air distribution Solenoid valves manifold 1 | 436 2 1 4 3 5 1 2 5 4 3 Technical characteristics 5522.32S CiA Draft Standard Proposal 301 V 4.10 (15 August 2006) Reinforced technopolymer M12 4P male connector (IEC 60947-5-2) +24 VDC +/- 10% 30 mA Green LED PWR +24 VDC +/- 10% 100 mA 32 32 10 - 20 - 50 - 125 - 250 - 500 - 800 - 1000 Kbit/s From 1 to 63 64 (slave + master) 100 m at 500 Kbit/s Green LED + Red LED Available from our web site: http://www.pneumaxspa.com IP65 when assembled From 0° to +50° C Model Specifications Case Power supply connection Power supply voltage Node consumption (without inputs) Power supply diagnosis PNP equivalent outputs Maximum current for each output Maximum output number Max output simultaneously actuated Network connectors Baud rate Addresses, possible numbers Max nodes in net Bus maximum recommended length Bus diagnosis Configuration file IP protection grade Temperature range 2 M12 5P connectors male-female Type A (IEC 60947-5-2) 2 1 3 4 M12 5P MALE ® CANopen module is directly integrated on Optyma-S solenoid valves manifold via a 37 poles connector, normally used for multipolar cable connection. Optyma-S solenoid valves connected to node must be PNP equivalent (final 02 in ordering code). The node can be easily installed also on solenoid valves manifold already mounted on equipment. Module can manage up to 32 solenoid valves, and, in the same time, a max number of 4 Input modules 5222.08S. ® CANopen module recognizes automatically the presence of the Input modules on power on. Regardless of the number of Input modules connected, the managable solenoid valves are 32. Node power supply is made by a M12 4P male circular connector. The separation between node 24 VDC Power supply and outputs 24 VDC allows to switch off the outputs maintaning powered the node and inputs, if present. ® Connection to Bus CANopen is possible via 2 M12 5P male - female circular connectors; these two are connected in parallel and according to CiA Draft Recommendation 303-1 (V. 1.3 : 30 December 2004). Transmission speed can be set by 3 dip-switches. The node address can be set by 6 dip-switches using BCD numeration. The module includes an internal terminating resistance that can be activated by a dip-switch. General: 5522.32S Scheme / Overall dimensions and I/O layout : M12 5P FEMALE M15 4P MALE MAX 32 OUT 52 PIN 1 2 3 4 NETWORK connectors POWER SUPPLY connector Optional CAN external positive supply (Dedicated for supply of transceiver and Optocouplers, if galvanic isolation of the bus node applies) PIN SIGNAL DESCRIPTION 1 CAN_SHLD Optional CAN Shield 2 CAN_V+ 3 CAN_GND Ground / 0V / V4 CAN_H CAN_H bus line (dominant high) 5 CAN_L CAN_L bus line (dominant low) DESCRIPTION +24 VDC (NODE & INPUTS) NC GND +24 VDC (OUTPUTS) 99 63 Power supply Outputs Network Ordering code
Overall dimensions and technical information are provided solely for informative purposes and may be modified without notice DeviceNet Module 1 Air distribution Solenoid valves manifold 1 | 437 Series 2200 "OPTYMA-S" - Serial systems DeviceNet module is directly integrated on Optyma-S solenoid valves manifold via a 37 poles connector, normally used for multipolar cable connection. Optyma-S solenoid valves connected to node must be PNP equivalent (final 02 in ordering code). The node can be easily installed also on solenoid valves manifold already mounted on equipment. Module can manage up to 32 solenoid valves, and, in the same time, a max number of 4 Input modules 5222.08S. DeviceNet module recognizes automatically the presence of the Input modules on power on. Regardless of the number of Input modules connected, the managable solenoid valves are 32. Node power supply is made by a M12 4P male circular connector. The separation between node 24 VDC Power supply and outputs 24 VDC allows to switch off the outputs maintaning powered the node and inputs, if present. Connection to Bus DeviceNet is possible via 2 M12 5P male - female circular connectors; these two are connected in parallel and according to DeviceNet Specifications Volume I, release 2.0. Transmission speed can be set by 3 dip-switches. The node address can be set by 6 dip-switches using BCD numeration. The module includes an internal terminating resistance that can be activated by a dip-switch. General: 5422.32S 2 1 3 4 Scheme / Overall dimensions and I/O layout : M12 4P MALE MAX 32 OUT 52 POWER SUPPLY connector PIN 1 2 3 4 DESCRIPTION +24 VDC (NODE & INPUTS) NC GND +24 VDC (OUTPUTS) 99 63 Ordering code Technical characteristics 2 1 4 3 5 1 2 5 4 3 M12 5P MALE M12 5P FEMALE NETWORK connectors Optional CAN external positive supply (Dedicated for supply of transceiver and Optocouplers, if galvanic isolation of the bus node applies) PIN SIGNAL DESCRIPTION 1 CAN_SHLD Optional CAN Shield 2 CAN_V+ 3 CAN_GND Ground / 0V / V4 CAN_H CAN_H bus line (dominant high) 5 CAN_L CAN_L bus line (dominant low) Model Specifications Case Power supply connection Power supply voltage Node consumption (without inputs) Power supply diagnosis PNP equivalent outputs Maximum current for each output Maximum output number Max output simultaneously actuated Network connectors Baud rate Addresses, possible numbers Max nodes in net Bus maximum recommended length Bus diagnosis Configuration file IP protection grade Temperature range 5422.32S DeviceNet Specifications Volume I, release 2.0. Reinforced technopolymer M12 4P male connector (IEC 60947-5-2) +24 VDC +/- 10% 30 mA Green LED PWR +24 VDC +/- 10% 100 mA 32 32 2 M12 5P connectors male-female Type A (IEC 60947-5-2) 125 - 250 - 500 Kbit/s From 1 to 63 64 (slave + master) 100 m at 500 Kbit/s Green LED + Red LED Available from our web site: http://www.pneumaxspa.com IP65 when assembled From 0° to +50° C Power supply Outputs Network
Overall dimensions and technical information are provided solely for informative purposes and may be modified without notice PROFIBUS DP Module 1 Air distribution Solenoid valves manifold 1 | 438 Series 2200 "OPTYMA-S" - Serial systems General: 5322.32S PROFIBUS DP module is directly integrated on Optyma-S solenoid valves manifold via a 37 poles connector, normally used for multipolar cable connection. Optyma-S solenoid valves connected to node must be PNP equivalent (final 02 in ordering code). The node can be easily installed also on solenoid valves manifold already mounted on equipment. Module can manage up to 32 solenoid valves, and, in the same time, a max number of 4 Input modules 5222.08S. PROFIBUS DP module recognizes automatically the presence of the Input modules on power on. Regardless of the number of Input modules connected, the managable solenoid valves are 32. Node power supply is made by a M12 4P male circular connector. The separation between node 24 VDC Power supply and outputs 24 VDC allows to switch off the outputs maintaning powered the node and inputs, if present. Connection to Bus PROFIBUS DP is possible via 2 M12 type B 5P male - female circular connectors; these two are connected in parallel and according to PROFIBUS Interconnection Technology (Version 1.1 : August 2001). The node address can be set using BCD numeration: 4 dip-switches for the units and 4 dipswitches for the tens. The module includes an internal terminating resistance that can be activated by a dip-switch. 2 1 3 4 Scheme / Overall dimensions and I/O layout : MAX 32 OUT 52 NETWORK connectors POWER SUPPLY connector PIN 1 2 3 4 DESCRIPTION +24 VDC (NODE & INPUTS) NC GND +24 VDC (OUTPUTS) M12 4P MALE M12 5P MALE M12 5P FEMALE 99 63 Ordering code Technical characteristics 9,6 - 19,2 - 93,75 - 187,5 - 500 - 1500 - 3000 - 6000 - 12000 Kbit/s Power supply Outputs Network Model Specifications Case Power supply connection Power supply voltage Node consumption (without inputs) Power supply diagnosis PNP equivalent outputs Maximum current for each output Maximum output number Max output simultaneously actuated Network connectors Baud rate Addresses, possible numbers Max nodes in net Bus maximum recommended length Bus diagnosis Configuration file IP protection grade Temperature range 5322.32S PROFIBUS DP Reinforced technopolymer M12 4P male connector (IEC 60947-5-2) +24 VDC +/- 10% 50 mA Green LED PWR +24 VDC +/- 10% 100 mA 32 32 2 M12 5P male-female connectors Type B From 1 to 99 100 (slave + master) 100 m at 12 Mbit/s - 1200 m at 9,6 Kbit/s Green LED + Red LED Available from our web site: http://www.pneumaxspa.com IP65 when assembled From 0° to +50° C 2 1 4 3 5 1 2 5 4 3 Receive / Transmit data -N, A-line PIN SIGNAL DESCRIPTION 1 VP Power supply plus, (P5V) 2 A-line 3 DGND Data Ground (reference potential to VP) 4 B-line Receive / Transmit data -plus, B-line 5 SHIELD Shield or PE
Overall dimensions and technical information are provided solely for informative purposes and may be modified without notice Series 2200 "OPTYMA-S" - Serial systemsT EtherCAt® Module 1 Air distribution Solenoid valves manifold 1 | 439 ® EtherCAT module is directly integrated on Optyma-S solenoid valves manifold via a 37 poles connector, normally used for multipolar cable connection. Optyma-S solenoid valves connected to node must be PNP equivalent (final 02 in ordering code). The node can be easily installed also on solenoid valves manifold already mounted on equipment. Module can manage up to 32 solenoid valves, and, in the same time, a max number of 4 Input modules 5222.08S. ® The EtherCAT module, regardless the number of Input module connected, reports to have connected 4 Input modules. Regardless of the number of Input modules connected, the managable solenoid valves are 32. Node power supply is made by a M12 4P male circular connector. The separation between node 24 VDC Power supply and outputs 24 VDC allows to switch off the outputs maintaning powered the node and inputs, if present. ® Connection to Bus EtherCAT is possible via 2 M12 4P type D female circular connectors. These two connectors lead the signal to two different communication ports, so they are not connected in parallel. The node address is assigned during configuration. General: Ordering code 5722.32S.EC.A Scheme / Overall dimensions and I/O layout : M12 4P FEMALE M12 4P FEMALE NETWORK connectors DESCRIPTION Ethernet Transmit High Ethernet Receive High Ethernet Transmit Low Ethernet Receive Low 1 2 3 4 TX+ RX+ TXRXPIN SIGNAL M12 4P MALE POWER SUPPLY connector PIN 1 2 3 4 DESCRIPTION +24 VDC (NODE & INPUTS) +24 VDC (OUTPUTS) NC GND Technical characteristics 99 63 52 MAX 32 OUT 1 2 4 3 1 2 4 3 2 1 3 4 Model Specifications Case Power supply connection Power supply voltage Node consumption (without inputs) Power supply diagnosis PNP equivalent outputs Maximum current for each output Maximum output number Max output simultaneously actuated Network connectors Baud rate Addresses, possible numbers Max nodes in net Maximum distance between 2 nodes Bus diagnosis Configuration file IP protection grade Temperature range 5722.32S.EC.A ® EtherCAT Specifications ETG.1000 series Reinforced technopolymer M12 4P male connector (IEC 60947-5-2) +24 VDC +/- 10% 60 mA Green PWR / Green OUT LED LED +24 VDC +/- 10% 100 mA 32 32 100 Mbit/s From 1 to 65535 65536 (Master + Slave) 100 m 1 green and 1 red LED for status + 2 LEDs for link & activity Available from our web site: http://www.pneumaxspa.com IP65 when assembled From 0° to +50° C Power supply Outputs Network 2 M12 4P female connectors Type D (IEC 61076-2-101)
Overall dimensions and technical information are provided solely for informative purposes and may be modified without notice PROFINET IO RT Module 1 Air distribution Solenoid valves manifold 1 | 440 Series 2200 "OPTYMA-S" - Serial systems General: PROFINET IO RT module is directly integrated on Optyma-S solenoid valves manifold via a 37 poles connector, normally used for multipolar cable connection. Optyma-S solenoid valves connected to node must be PNP equivalent (final 02 in ordering code). The node can be easily installed also on solenoid valves manifold already mounted on equipment. Module can manage up to 32 solenoid valves, and, in the same time, a max number of 4 Input modules 5222.08S. The PROFINET IO RT module, regardless the number of Input module connected, reports to have connected 8 Input modules. Regardless of the number of Input modules connected, the managable solenoid valves are 32. Node power supply is made by a M12 4P male circular connector. The separation between node 24 VDC Power supply and outputs 24 VDC allows to switch off the outputs maintaning powered the node and inputs, if present. Connection to Bus PROFINET IO RT is possible via 2 M12 4P type D female circular connectors. These two connectors lead the signal to two different communication ports, so they are not connected in parallel. The node address is assigned during configuration. Ordering code 5722.32S.PN.A Scheme / Overall dimensions and I/O layout : M12 4P FEMALE M12 4P FEMALE NETWORK connectors M12 4P MALE POWER SUPPLY connector PIN 1 2 3 4 DESCRIPTION +24 VDC (NODE & INPUTS) +24 VDC (OUTPUTS) NC GND Technical characteristics 99 63 52 MAX 32 OUT DESCRIPTION Ethernet Transmit High Ethernet Receive High Ethernet Transmit Low Ethernet Receive Low 1 2 3 4 TX+ RX+ TXRXPIN SIGNAL 1 2 4 3 1 2 4 3 2 1 3 4 2 M12 4P female connectors Type D (IEC 61076-2-101) 5722.32S.PN.A PROFINET IO RT Reinforced technopolymer M12 4P male connector (IEC 60947-5-2) +24 VDC +/- 10% 60 mA Green LED PWR / Green LED OUT +24 VDC +/- 10% 100 mA 32 32 100 Mbit/s Power supply Outputs Network Model Specifications Case Power supply connection Power supply voltage Node consumption ( ) without inputs Power supply diagnosis PNP equivalent outputs Maximum current for each output Maximum output number Max output simultaneously actuated Network connectors Baud rate As an Ethernet Network 100 m Available from our web site: http://www.pneumaxspa.com IP65 when assembled From 0° to +50° C Max nodes in net Maximum distance between 2 nodes Bus diagnosis Configuration file IP protection grade Temperature range 2 red LEDs for status + 4 LEDs for link & activity
Overall dimensions and technical information are provided solely for informative purposes and may be modified without notice EtherNet/IP Module 1 Air distribution Solenoid valves manifold 1 | 441 Series 2200 "OPTYMA-S" - Serial systems EtherNet/IP module is directly integrated on Optyma-S solenoid valves manifold via a 37 poles connector, normally used for multipolar cable connection. Optyma-S solenoid valves connected to node must be PNP equivalent (final 02 in ordering code). The node can be easily installed also on solenoid valves manifold already mounted on equipment. Module can manage up to 32 solenoid valves, and, in the same time, a max number of 4 Input modules 5222.08S. The EtherNet/IP module, regardless the number of Input module connected, reports to have connected 8 Input modules. Regardless of the number of Input modules connected, the managable solenoid valves are 32. Node power supply is made by a M12 4P male circular connector. The separation between node 24 VDC Power supply and outputs 24 VDC allows to switch off the outputs maintaning powered the node and inputs, if present. Connection to Bus EtherNet/IP is possible via 2 M12 4P type D female circular connectors. These two connectors lead the signal to two different communication ports, so they are not connected in parallel. The node address is assigned during configuration. General: Ordering code 5722.32S.EI.A Scheme / Overall dimensions and I/O layout : M12 4P FEMALE M12 4P FEMALE NETWORK connectors M12 4P MALE POWER SUPPLY connector PIN 1 2 3 4 DESCRIPTION +24 VDC (NODE & INPUTS) +24 VDC (OUTPUTS) NC GND Technical characteristics 99 63 52 MAX 32 OUT 2 M12 4P female connectors Type D (IEC 61076-2-101) Power supply Outputs Network Model Specifications Case Power supply connection Power supply voltage Node consumption ( ) without inputs Power supply diagnosis PNP equivalent outputs Maximum current for each output Maximum output number Max output simultaneously actuated Network connectors Baud rate 5722.32S.EI.A The EtherNet/IP Specification Reinforced technopolymer M12 4P male connector (IEC 60947-5-2) +24 VDC +/- 10% 60 mA / OUT Green LED PWR Green LED +24 VDC +/- 10% 100 mA 32 32 100 Mbit/s 1 2 4 3 1 2 4 3 2 1 3 4 DESCRIPTION Ethernet Transmit High Ethernet Receive High Ethernet Transmit Low Ethernet Receive Low 1 2 3 4 TX+ RX+ TXRXPIN SIGNAL Max nodes in net Maximum distance between 2 nodes Bus diagnosis Configuration file IP protection grade Temperature range As an Ethernet Network 100 m Available from our web site: http://www.pneumaxspa.com IP65 when assembled From 0° to +50° C 2 bi-colors LEDs green/red for status + 4 LEDs for link & activity
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