Overall dimensions and technical information are provided solely for informative purposes and may be modified without notice 1 Air distribution Solenoid valves manifold 1 | 88 Series 2200 Optyma-S EVO - Proportional technology accessories Installation/Operation PNEUMATIC CONNECTION ELECTRICAL CONNECTION NOTES ON OPERATION The compressed air is connected by G 1/4” threaded holes on the body. Before making the connections, eliminate any impurities in the connecting pipes to prevent chippings or dust entering the unit. Do not supply the circuit with more than 10 bar pressure and make sure that the compressed air is dried (excessive condensate could cause the appliance to malfunction) and filtered at 5 micron. The supply pressure to the regulator must always be at least 1 bar greater than the desired outlet pressure. If a silencer is applied to the discharge path the unit response time may change; periodically check that the silencer is not blocked and replace it if necessary. For the electrical connection a SUB-D 15-pole female or a M12 connector is used (accordingly to the model, to be ordered separately). Wire in accordance with the wiring diagram shown below. Warning: INCORRECT CONNECTIONS MAY DAMAGE THE DEVICE If the electric supply is interrupted, the outlet pressure is maintained at the set value. However, maintaining the exact value cannot be ensured as it is impossible to operate the solenoid valves. In order to discharge the circuit downstream, zero the reference, make sure that the display shows a pressure value equal to zero and then disconnect the electric power supply. A version of the device is available that exhausts the downstream circuit when the power supply is removed (Option “A” at the end of the ordering code). If the compressed-air supply is suspended and the electric power supply is maintained a whirring will be heard that is due to the solenoid valves; an operating parameter can be activated (P18) that triggers the regulator protection whenever the requested pressure is not reached within 4 seconds of the reference signal being sent. In this case the system will intervene to interrupt the control of the solenoid valves. Every twenty seconds, the unit will start the reset procedure until standard operating conditions have been restored. Proportional regulator, CANopen® version with D-SUB connector Proportional regulator, CANopen® version with M12 connector 1 2 5 4 3 2 1 3 4 M12 4P MALE 1 2 5 4 3 2 1 3 4 PIN DESCRIPTION 1 +24 VDC (NODE AND INPUTS) 2 NC 3 GND 4 +24 VDC (OUTPUTS) M12 5P FEMALE 1 2 5 4 3 2 1 3 4 PIN SIGNAL DESCRIPTION 1 CAN_SHIELD Optional Can Shield 2 CAN_V+ Optional Can external positive supply (Dedicated for supply of transceiver and Optocouplers, if galvanic isolation of the bus node applies) 3 CAN_GND Ground / 0V / V4 CAN_H CAN_H bus line (Dominant high) 5 CAN_L CAN_L bus line (Dominant low) Proportional regulator, standard version with D-SUB connector Proportional regulator, M12 standard version 15 1 8 9 TOP VIEW OF THE REGULATOR CONNECTOR CONNECTOR PINOUT: 1 = DIGITAL INPUT 1 2 = DIGITAL INPUT 2 3 = DIGITAL INPUT 3 4 = DIGITAL INPUT 4 5 = DIGITAL INPUT 5 6 = DIGITAL INPUT 6 7 = DIGITAL INPUT 7 8 = ANALOG INPUT / DIGITAL INPUT 8 9 = SUPPLY (24 VDC) 10 = DIGITAL OUTPUT (24 VDC PNP) 11 = ANALOG OUTPUT (CURRENT) 12 =ANALOG OUTPUT (VOLTAGE) 13 = Rx RS-232 14 = Tx RS-232 15 = GND 15 1 8 9 Proportional regulator, EtherCAT®, PROFINET IO RT and EtherNet/IP version CONNECTOR PINOUT: 1 = Device logic power supply 2 = NC 3 = GND 4 = Solenoid valves power supply CONNECTOR PINOUT: 1 = TX Signal + (Ethernet Transmit High) 2 = RX Signal + (Ethernet Receive High) 3 = TX Signal - (Ethernet Transmit Low) 4 = RX Signal - (Ethernet Receive Low) 1 2 4 3 4 3 1 2 M12D 4P FEMALE M8 4P MALE 1 2 4 3 4 3 1 2 1 2 4 3 4 3 1 2 2 1 3 4 M12 4P MALE M12 Standard version CONNECTOR PINOUT: 1 = POWER SUPPLY (24 VDC) 2 = ANALOG OUTPUT (depending on the model) 3 = GND 4 = ANALOG INPUT 2 1 3 4 TOP VIEW OF THE REGULATOR CONNECTOR CONNECTOR PINOUT: 1 = CAN_SHIELD 2 = CAN_V+ 3 = CAN_GND 4 = CAN_H 5 = CAN_L 6 = NC 7 = NC 8 = NC 9 = SUPPLY (+24 VDC) 10 = CAN_SHIELD 11 = CAN_V+ 12 = CAN_GND 13 = CAN_H 14 = CAN_L 15 = GND 15 1 8 9 15 1 8 9 Proportional regulator, IO-Link version CONNECTOR PINOUT: 1 = L+ 2 = +24 VDC (P24) 3 = L4 = C/Q 5 = GND (N24) M12 5P MALE 2 1 3 5 4 2 1 3 5 4
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