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1 Earth and Power Supply Connections
2 Digital and Analog Connections With HIL Simulator and RCP

To operate a PELab unit several analog, digital, power, and safety connections must be made. In the following, the required connections for running a PELab unit in the PHIL mode are presented.

Earth and Power Supply Connections

Figure 1 shows the two connections which are essential for any PELab unit. The first one on the left side is the earth, which needs to be properly connected to the test bench ground for safety purposes. The second one on the right is the power supply of the measurements, protection systems, interface boards, and the internal embedded controller.

Figure 5. Earth and power supply connections

Digital and Analog Connections With HIL Simulator and RCP

Each PELab unit provides two groups of digital and analog inputs/outputs for real-time simulation and rapid control prototyping. As depicted in figure 6, there are two sets of digital and analog signals in two “RCP” and “HIL|OPAL-RT” sectors for rapid control prototyping and hardware in the loop simulation.

Since OP8666 supports DB37 connectors, it is compatible with the HIL|OPAL-RT sector as well.

Rapid control prototyping is also possible, using the OPAL-RT simulators as the developed control algorithm can be implemented on the simulator.

Figure 6. digital and analog connections of PELab to RCP controllers and HIL simulators

Pin mapping of the digital and analog inputs and outputs in both “RCP” and “HIL|OPAL-RT” sectors are provided in figure 7 and the following tables.

Table 4. Analog Input and Output Pin Mapping

Chanel	HIL analog input (DB37)	HIL analog output (DB37)	RCP analog output (DB50)	Measurement

Chanel	HIL analog input (DB37)	HIL analog output (DB37)	RCP analog output (DB50)	Measurement
CH1	1	1	17	Current (E1)
CH2	2	2	49	Current (E2)
CH3	3	3	32	Current (E3)
CH4	4	4	15	Current (H1)
CH5	5	5	47	Current (H2)
CH6	6	6	30	Current (H3)
CH7	7	7	13	i1 (Back panel)
CH8	8	8	45	i2 (Back panel)
CH9	9	9	28	Voltage (F1-F3)
CH10	10	10	11	Voltage (A1-A4)
CH11	11	11	43	Voltage (L1-L4)
CH12	12	12	26	Voltage (G1-G3)
CH13	13	13	9	V1 (Back panel)
CH14	14	14	41	V2 (Back panel)
CH15	15	15	24	V3 (Back panel)
CH16	16	16	7	V4 (Back panel)

Table 5. Digital Input Pin Mapping

Channel	HIL digital input (DB37)	RCP digital I/O (DB50)	Inverter signal

Channel	HIL digital input (DB37)	RCP digital I/O (DB50)	Inverter signal
DI 1	1	17	High Side Switch (E1)
DI 2	2	16	Low Side Switch (E1)
DI 3	3	15	High Side Switch (E2)
DI 4	4	14	Low Side Switch (E2)
DI 5	5	13	High Side Switch (E3)
DI 6	6	12	Low Side Switch (E3)
DI 7	7	11	High Side Switch (H1)
DI 8	8	10	Low Side Switch (H1)
DI 9	9	9	High Side Switch (H2)
DI 10	10	8	Low Side Switch (H2)
DI 11	11	7	High Side Switch (H3)
DI 12	12	6	Low Side Switch (H3)
DI 13	13	5	RL1 (Relay 1 Control)
DI 14	14	4	RL2 (Relay 2 Control)
DI 15	15	3	RL3 (Relay 3 Control)
DI 16	16	2	RL4 (Relay 4 Control)

Table 6. Digital Output Pin Mapping

Channel	HIL digital output (DB37)	RCP digital I/O (DB50)	Inverter signal

Channel	HIL digital output (DB37)	RCP digital I/O (DB50)	Inverter signal
DO1	1	49	Short Circuit Protection (SCP) fault for Module 1
DO2	2	48	Short Circuit Protection (SCP) fault for Module 2
DO3	3	47	Reserved
DO4	4	46	Reserved
DO5	5	45	Overcurrent Protection (OCP) for Phase E1
DO6	6	44	Overcurrent Protection (OCP) for Phase E2
DO7	7	43	Overcurrent Protection (OCP) for Phase E3
DO8	8	42	Overcurrent Protection (OCP) for Phase H1
DO9	9	41	Overcurrent Protection (OCP) for Phase H2
DO10	10	40	Overcurrent Protection (OCP) for Phase H3
DO10	11	39	Overvoltage Protection (OVP) For Module 1
DO11	12	38	Overvoltage Protection (OVP) For Module 2
DO12	13	37	Over Temperature Protection (OTP) For Module 1
DO13	14	36	Over Temperature Protection (OTP) For Module 2
DO14	15	35	Reserved
DO15	16	34	Reserved

Specialized Solutions Documentation

Cabling and Connections

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Earth and Power Supply Connections

Digital and Analog Connections With HIL Simulator and RCP