(depending on factory jumper setting, the LED will light at 50V, 100V, 200V or 400V). Although the OP5511 is available as an external unit with appropriate housing, it is primarily used within existing simulator chassis. Its connectors are the same, regardless of the configuration.
OP5511 High Current/Voltage Module MECHANICAL INTERFACE MECHANICAL INTERFACE Figure 1 shows the front panel of the module where where voltage and current acquisition and auxiliary output connectors are located. Table 1, Table 2 and Table 3 provide the connector pin assignments.
OP5511 High Current/Voltage Module Connector PIN ASSIGNMENTS CONNECTOR PIN ASSIGNMENTS front connectors The front panel includes screw terminals to connect the current and voltage inputs. Current Sensor Pin Assignments Pin # Description Connector Diagram + Channel A - Channel A...
OP5511 High Current/Voltage Module Connector PIN ASSIGNMENTS Auxiliary Outputs Pin Assignments Pin # Description Connector Diagram + IA + IB + IC + ID Vin D Vin C Vin B Vin A Table 3: Auxiliary Outputs terminal connector To minimize connection resistance, it is highly recommended to connect only 1 wire per screw for the current input pins.
OP5511 High Current/Voltage Module Connector PIN ASSIGNMENTS SPECIFICATIONS Current and voltage sensor ranges must be specified at time of purchase and will be factory configured. If any adjustments are required, contact OPAL-RT Technical Support. PRODUCT NAME OP5511 Part number 126-0215 (sensor input board)+ 126-0217 (current/voltage sensor board)
OP5511 High Current/Voltage Module Setup Example SETUP EXAMPLE The following diagrams provide an example of current and voltage connections. To measure the current, the cable must pass through the Ch. A input current removable screw terminal connector (contact Ch. A+ and contact Ch. A.- )
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OP5511 High Current/Voltage Module Setup Example If the reference motor voltage has the same ground as the simulator, connect the common point Ch. A voltage on the auxiliary connector to the simulator ground with an external wire. (3) Figure 4 provides a closer look at the motor circuit.