REALTIMEWAVE

PHIL Configuration

Power Hardware-in-the-Loop (PHIL) is an extension of existing Hardware-in-the-Loop (HILS)
and consists of a combination of existing HILS and Power Amplifiers that can generate high power.

Strengths of PHIL

· By adding Power Amplifier in HILS, it is possible to evaluate devices that will be connected to the actual system
· Simulate the flow of high power between devices under test (DUT) as well as electrical circuits
· Device performance according to parameter variation
· Hardware performance verification for various characteristic situations
· Verification of operation performance according to failure situation. /li>
· High-precision simulation with greater flexibility and stability than general analog benz and dynamometers is possible.

PHIL Application field

Grid Applications: · Grid Emulator (50, 60, 400 Hz); · Grid Load; · PV - Inverter Em; · Wind-Generator Emulation; · Grid Inverter Emulation

Microgrid Applications: · Motor Applications; · Motor / Generator Emulator; · Drive Inverter Emulator; · Frequency Inverter Emulator

Aerospace / Military: · 400 Hz Supply Grid Emulator; · DC - Supply Emulation; · 400 Hz Aerospace Device Emulator; · AC - DC Coupllng Emulator

Automotive Applications

· Electrical Drive Train Emulation

- Battery Emulator
- Drive Inverter Emulator
- Motor Emulator

· eVehicle Applications

- eVehicle Charging Station Emulator
- Test Bench for Charging

Transportation: · Supply Grid Emulator; · Machine Emulator; · Inverter Emulator; · Electrical Drive-Train Emulation

Model validation & parameter identifications
as required for HIL and SIL

Simulator Platform Comparison Chart

OP4512

OP4610XG

OP5705XG

OP5707XG

OP5033XG

	OP4512	OP4610XG	OP5705XG	OP5707XG	OP5033XG
Rack Unit	2U	3U	5U	5U	4U
Compatible Software Platforms	RT - LAB ㅣ HYPERSIM	RT - LAB ㅣ HYPERSIM	RT - LAB ㅣ HYPERSIM	RT - LAB ㅣ HYPERSIM	RT - LAB ㅣ HYPERSIM
Available Software Toolboxes & Add-ons	ARTEMiS eHSx64/32 ePHASORSIM Orchestra RT-XSG	ARTEMiS eHSx64/32 ePHASORSIM Orchestra RT-XSG	ARTEMiS ePHASORSIM EXata CPS Orchestra RT-XSG	ARTEMiS eHSx128/64 ePHASORSIM EXata CPS Orchestra RT-XSG	ARTEMiS ePHASORSIM EXata CPS Orchestra RT-XSG
CPU Family	Intel® Xeon® E3	AMD Ryzen™ 5	2nd Generation Intel® Xeon® Scalable Processors	2nd Generation Intel® Xeon® Scalable Processors	2nd Generation Intel® Xeon® Scalable Processors
CPU Specifications	Available with the following configuration:* Xeon® 4 cores, 3.7 GHz	Available with the following configuration:* Ryzen™ 6 cores, 3.8 GHz	Available with the following configurations:* Xeon® 4 cores, 2.60 GHz Xeon® 4 cores, 3.80 GHz Xeon® 8 cores, 3.80 GHz Xeon® 16 cores, 3.30 GHz	Available with the following configurations:* Xeon® 4 cores, 3.80 GHz Xeon® 8 cores, 3.80 GHz Xeon® 16 cores, 3.30 GHz	Available with the following configurations:* Xeon® 4 cores, 2.60 GHz Xeon® 4 cores, 3.80 GHz Xeon® 8 cores, 3.80 GHz Xeon® 16 cores, 3.30 GHz Xeon® 44 cores, 2.10 GHz
XILINX® FPGA	Kintex®-7 410T	Kintex®-7 410T	Artix®-7	Virtex®-7 485T	Artix®-7 (optional)
SFP optical interface (GTX 5 Gbits/s)	4	4	4	16	4 (optional)
I/O modules with 16 analog or 32 digital signals	4	4	8	8	n/a
Available PCI Express Slots for communication cards	1	2	4 or 5**	4 or 5**	5 or 6**
Maximum number of I/O channels	140	140	256	256	n/a

*or equivalent **depending on CPU configuration

OP1420 : PHIL Microgrid Test Bench, OP8110 : PHIL 4Q Power Amp

Software Description

	HYPERSIM	eMEGASIM	ePHASORSIM	eFPGASIM
Industries	Power Systems Simulation	Power Systems and Power Electronics Simulation	Power Systems Simulation	Power Electronics Simulation
Applications	Protection Systems, Power System Controls, Modular Multilevel Converter (MMC), Wide-Area Monitoring Protection and Control, Cybersecurity, Microgrid, Distribution	Protection Systems, Power System Controls, Modular Multilevel Converter (MMC), Microgrid, Onboard Power Systems, Hybrid and Electrical Transportation, Cybersecurity	Wide-Area Monitoring Protection and Control, Power System Controls, Cybersecurity	Energy Conversion Controls, Hybrid and Electrical Transportation, Power System Controls
Simulation type	EMT domain	EMT domain	Phasor domain	EMT domain
Typical time step	Network solution : 5-100μs Switches and converters : 200ns - 2 μs	Network solution : 10-100μs Switches and converters : 200ns - 2 μs	1ms - 10ms	200ns - 2 μs
Compatible modeling environments	HYPERSIM, Simulink, Simscape Power System	Simulink, Simscape Power System	Simulink, Excel, PSS®E, CYME, Power Factory, ETAP, FMU (Open Modelica and Dymola)	Simulink, Simscape Power System, PLECS, PSIM and NI Multisim
Maximum tested real-time network size	9,000 3-phase nodes (27,000 nodes)	300 3-phase nodes (900 nodes)	108,000 1-phase nodes	n/a
Maximum non real-time network size	Unlimited	1,500 3-phase nodes (5,000nodes)	Unlimited	n/a
Capability per CPU core or per FPGA	75 3-phase nodes @ 50 us(200 switches)	n/a	10,000 nodes @ 10 ms	288 states / 128 switches*
Features	· Automatic parallelization of computation · Windows-based offline simulation to prepare to real-time · Test automation tool and Python API · On-the-fly parameter modification during simulation · COMTRADE playback · Compatibility with Simulink for controls	· Dedicated SSN solver · API : Python, C, Java, LabVIEW · Multi-physical domain simulation	· Positive sequence and unbal-anced networks · Load flow (positive sequence) · Simulation of very large mixed T&D networks	· Automatic scripting · FPGA compilation not required · 200 kHz PWM I/O · Rich library of electrical motors

Power HILS

PHIL Configuration

Strengths of PHIL

PHIL Application field

Simulator Platform Comparison Chart

Software Description

Applications