OPAL-RT Technologies Inc.
OP4510
5년
주장비
시험
전기·전자장비 > 측정시험장비 > 전압/전류/전력측정시험장비
2017-10-26
75,660,000원
원
OP4510 시뮬레이터는 Powerelectronics, Powersystem 분야에서 실시간 시뮬레이션을 하기 위한 용도로 사용되며 주 Application은 다음과 같다.
- Powersystem : 다양한 전력시스템과 Microgrid와 같은 분산전원 시스템에서 고장, 사고 등의 상황에 전력망에 미치는 영향을 실시간 시뮬레이션을 통하여 확인할 수 있다.
- Power Electronics : 신재생 에너지 변환등 전력전자분야의 다양한 topology와 제어기, 제어알고리즘 등을 실시간 시뮬레이션 통해 분석 가능하다.
1. Simulator : OP4510 RT-Lab RCP/HIL Systems
2. 일반사양 : Intel Xeon E3, Kintex™-7, 16 CH Analog I/O, 32 CH Digital I/O, 1 to 5 Gbits optical cable, 43.2 (W) x 27.4 (D) x 8.9 cm (H)
3. 성능 : 8 GB RAM, 3.5 GHz CPU, 128 GB SSD, Digital output, : 32 Ch, push-pull, 5V to 30V, Galvanic isolation, Digital Input : 32 CH, 4V to 30V, Analog input : 16 Ch, 16 bits, ±20V differential input, Analog output : 16 Ch, 16 bits, ±16V
4. Software
1) RT-Lab
o 실시간 모델 개발 ( Real-Time Model Development )
- Fully integrated with Matlab/Simulink/Stateflow/SimPowerSystems/Real Time Workshop
- Specialized Tool-Box to prepare the model for distributed processing, inter-node Communication and signal I/O
o Run-Time
- Distributed, synchronized execution across multiple processors, including, multiple CPU
motherboards via Shared Memory and Dolphin Interconnect communication
- Integrated Signal Visualization and Control Panel
- Dynamic Signal Tracing - select any signal for monitoring during run-time
- On-line Parameter Editor - change parameters on-the-fly (manually or load parameter files)
- Extensive I/O card support - over 100 devices supported
o 성능
- XHP Mode - high speed mode to give closed loop cycle times below 10 microseconds
- Optimized Hard-Real-Time Scheduler - high performance, low jitter(Nominal 7microsec)
2) ARTEMIS
o 5th order solver for better stability in Real-Time
o Usage : Real-time simulation of electrical systems (general cases)
o Applications
- Power networks (HVDC, SVC, etc…)
- Line-commutated drives (thyristor drives, cyclo-converters, diodes, thyristors rectifiers)
3) RT-Event
o RT-Events signals have their own Simulink format (RTE) but can be decomposed in two vectors.
- the logic state, as any block in Simulink,
- the information about the time at which the transition has occurred, the Time-Stamp
- Events within a time-step are not ignored (they are ignored with standard SPS)
4) SSN
o State-space nodal method is a solver that uses arbitrary size of state-space thadescribes cluster of electrical elements and combines them into the nodal admittance matrix using nodal method.
o Extends the State-space solver to support a very large number of switching devices
- Facilitate the development of complex power electronic converters
- Enable the use of higher-level discretization methods with L-stability properties
o Enables the coupling of complex nodal-based model, such as Frequency-dependent line into a state-space solver
o Can be used to split a large model on multiple CPUs that does not contain long transmission lines (i.e.micro-grid applications) without artificial delays(Under Development)
5) eFPGAsim
o Power electronic real-time simulator
o Include an ultra fast solver on FPGA : eHS ( electric Hardware Solver )
o High speed controllers applications (F> 10 kHz) EFPGASim (eHS)
- Power electronics circuit simulated with time steps below 1 microsec
- Allow very high switching frequencies (10kHz to 200kHz) for semiconductor technology
- Maximum Number of switch : 72
- Number of source(voltage or current ) : 32
- Number of Measurement block(Voltage/current) : 32
o Switch type supportes : IGBT/Diode, Diode, Thyristor, Ideal Switch
o Maximum number of test scenario : Up to 512
o Circuit Editors Competible : SimPowerSystem Simulink Toolbox, PSIM, PLECS
Blockset Simulink Toolbox, NI Multisim
5. License : Host License( 1 User ) / Target License ( 1 Core – Fx )