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- Getting Started
- System Requirements
- Software Compatibility
- Quick Start | HYPERSIM
- HYPERSIM Quick Start | Required Material
- Step 1: Creating a New Schematic
- Step 2: Drawing a Power System
- Step 3: Opening a Model, Loading Sensors and Starting a Simulation
- Step 4: Monitoring Simulation Results with ScopeView
- Step 5: Using Analog and Digital I/O
- Step 6: Mapping Tasks and Starting the Simulation
- Step 7: Acquiring Data and Modifying Graph Templates
- HYPERSIM Quick Start | Troubleshooting
- Feature Quick Start Guides
- How To (Procedures)
- Overviews and Reference
- Graphical User Interface
- Components by Library
- Component Parameter Form Introduction
- Component Sensor Form Introduction
- Control Components
- Control Exciters
- Control Governors
- Control Logic Operations
- Control Math Operations
- Control Measurements
- Control Miscellaneous
- Control Nonlinear and Delay
- Control Protection Relays
- 21 - MHO Distance Relay
- 25 - Synchronism-Check Relay
- 27 - Undervoltage Relay
- 27 - Undervoltage Relay (1-ph)
- 40Q - Loss-of-Excitation Relay
- 49M - Thermal Overload Protection for Motors
- 50-51 - Overcurrent Relay
- 50 - Instantaneous or Definite Time Overcurrent Relay (1-ph)
- 50BF - Breaker Failure Protection
- 59 - Overvoltage Relay
- 59 - Overvoltage Relay (1-ph)
- 79 - Auto recloser
- 81 -Frequency Relay
- 87T - Transformer Differential Relay
- 67 - AC Directional Overcurrent Relay
- Control Sources
- Constant, Float
- Constant, Integer
- Pulse Train Generator
- PWM Average Generator for 2-Level Converter (Switching Function)
- PWM Average Generator for 3-Level Converter (Switching Function)
- PWM Average Generator for Full-Bridge Converter (Switching Function)
- PWM Generator for 2-Level Converter (Switching Devices)
- PWM Generator for 3-Level Converter (Switching Devices)
- PWM Generator for Full-Bridge Converter (Switching Devices)
- Random Number Generator
- Sine Wave Generator
- Sine Wave Generator With Angle
- Square Wave Generator
- Time Step
- Triangle Wave Generator
- Control Stabilizers
- Network Components
- Network FACTS and HVDC
- Network Filters
- Network Lines and Cables
- Typical Electrical Parameters
- Constant Param, 1-ph
- Constant Param, 2-ph
- Constant Param, 3-ph
- Constant Param, 3-ph with Fault
- Constant Param, 4-ph
- Constant Param, 6-ph
- Constant Param, 6-ph with Fault
- Constant Param, 9-ph
- Constant Param, 12-ph
- Frequency Dependent, 2-ph
- Frequency Dependent, 3-ph
- Frequency Dependent, 3-ph (SL)
- Frequency Dependent, 4-ph
- Frequency Dependent, 6-ph
- PI Section, 3-ph
- PI Section, 3-ph with Fault
- PI Section, 6-ph
- PI Section, 6-ph with Fault
- PI Section, 9-ph
- PI Section, 12-ph
- PI Section, 12-ph with Fault
- Cable Data
- Line Data
- Wideband Line/Cable
- Wideband Line/Cable Fitter
- Network Loads
- Network Machines and Generators
- Network Measurements
- Network Renewable Energy
- Network RLC
- Network Sources
- Network Switches and Breakers
- Network Tools
- Network Transformers
- 2-Winding 1-Phase Ideal Transformer
- 2-Winding 1-Phase Linear Transformer
- 2-Winding 1-Phase Linear Transformer with Tap Changer
- 2-Winding 1-Phase Saturable Transformer
- 2-Winding 3-Phase Linear Transformer
- 2-Winding 3-Phase Saturable Autotransformer with Internal Tertiary
- 2-Winding 3-Phase Saturable Autotransformer with Internal Tertiary 3-Limb
- 2-Winding 3-Phase Saturable Transformer
- 2-Winding 3-Phase Saturable Transformer with Tap Changer
- 2-Winding 3-Phase Series/Series Linear Transformer
- 2-Winding 3-Phase Series Linear Transformer
- 2-Winding 3-Phase Series Saturable Transformer
- 2-Winding Impedance-Matrix-Based Transformer
- 2-Winding Impedance-Matrix-Based Transformer with Internal Fault
- 3-Winding 1-Phase Linear Transformer
- 3-Winding 1-Phase Linear Transformer with Tap Changer
- 3-Winding 1-Phase Saturable Transformer
- 3-Winding 3-Phase Linear Transformer
- 3-Winding 3-Phase Linear Transformer with Internal Tertiary
- 3-Winding 3-Phase Saturable Transformer
- 3-Winding 3-Phase Saturable Transformer with Internal Tertiary
- 3-Winding 3-Phase Saturable Transformer with Tap Changer
- 3-Winding 3-Phase Saturable Transformer with Tap Changer and Decoupling Element
- 3-Winding Impedance-Matrix-Based Transformer
- 3-Winding Impedance-Matrix-Based Transformer with Internal Fault
- 4-Winding 1-Phase Linear Transformer
- 4-Winding 1-Phase Linear Transformer with Tap Changer
- 4-Winding 1-Phase Saturable Transformer
- Phase-Shifting Zigzag Transformer
- Network Voltage Source Converters
- 2-Level Converter (Average)
- 2-Level Converter (Switching Devices)
- 2-Level Converter (Switching Function)
- 3-Level NPC Converter (Switching Devices)
- 3-Level NPC Converter (Switching Function)
- Boost Converter (Switching Function)
- Full-Bridge Converter (Switching Devices)
- Full-Bridge Converter (Switching Function)
- MMC Valve (FB Cells)
- MMC Valve (HB Cells, Avg)
- MMC Valve (HB Cells)
- Signal Routing
- Target Inputs and Outputs
- Concepts and Advanced Functionalities
- Data Logger
- External Network Compatibility and Import
- FPGA-Based Simulation
- Load Flow
- Model Optimization
- Python API
- Sequence Manager
- Simulink Compatibility
- Simulink | Prerequisites and Supported Features
- Simulink | Using Multiple Time-Step Code Generation
- Simulink | Using S-Functions
- Simulink | Using Scopes
- Simulink | Using Tunable Parameters
- Simulink | Advanced: Custom Options
- Simulink | Advanced: Generating Code for a 64-Bit Operating System
- Simulink | Advanced: Protecting the Model Code
- Snapshot
- Task Manager
- Transformer data Tab | Inductance Matrix Transformer Programming Interface
- User-Coded Model (UCM)
- Variables and Expressions
- HyperView
- EXata CPS
- ScopeView
- ScopeView | Main Window
- ScopeView | Graphic Page Menus
- ScopeView | Advanced Graphic Actions
- ScopeView | Signals Form Menu, Data Source Chooser & Signal Selection
- ScopeView | API
- ScopeView Functions | Approximation
- ScopeView Functions | Trigonometric
- ScopeView Functions | Mathematical
- Mathematical | ABS
- Mathematical | CUMSUM
- Mathematical | DERIV
- Mathematical | DIFF
- Mathematical | INTEG
- Mathematical | LOG
- Mathematical | LOG10
- Mathematical | MAX
- Mathematical | MOY
- Mathematical | MIN
- Mathematical | NEG
- Mathematical | PHASEDIFF
- Mathematical | PHASESHIFT
- Mathematical | POS
- Mathematical | PROD
- Mathematical | RMS
- Mathematical | SIGN
- Mathematical | SQRT
- Mathematical | STAIR
- Mathematical | SUM
- Mathematical | WAVG
- Mathematical | WMAX
- Mathematical | WMIN
- Mathematical | WRMS
- Mathematical | WSUM
- ScopeView Functions | Miscellaneous
- Misc. | AMOD
- Misc. | CIRCLE
- Misc. | CLEARINGTIME
- Misc. | CROSSING TIME
- Misc. | ENERGY
- Misc. | ENV
- Misc. | ENV PEAK
- Misc. | ENV PP
- Misc. | I 2 T
- Misc. | LENGTH
- Misc. | LIM
- Misc. | MAXF
- Misc. | MINF
- Misc. | OPTIME
- Misc. | PERIOD
- Misc. | POWER
- Misc. | POWER3PH
- Misc. | RAMP
- Misc. | RATE
- Misc. | THRESHOLDTIME
- Misc. | VERSUS
- Misc. | XFIRST
- Misc. | XLAST
- Misc. | XSHIFT
- ScopeView Functions | Statistical
- ScopeView Functions | Harmonic Analysis
- ScopeView Functions | Spectral Analysis
- ScopeView Functions | Advanced
- Advanced | SIDSEUIL
- Advanced | SIDYN2
- Advanced | SIDYN2F
- Advanced | SIDYN2V
- Advanced | SIFREQ
- Advanced | SIGCMP
- Advanced | SIMAX1
- Advanced | SIMAX2
- Advanced | SIMAX3
- Advanced | SIHARMO
- Advanced | SIMXHART
- Advanced | SIMXSOM1
- Advanced | SIMXSOM2
- Advanced | SIMXSYMT
- Advanced | SIPZ
- Advanced | SISEUIL
- Advanced | SISYM3
- Advanced | SITENV
- Advanced | SITOP
- Advanced | SITOPREF
- Advanced | SITSEUIL
- ScopeView | Troubleshooting
- TestView
- TestView | GUI Walkthrough
- TestView | Commands Available for Tests
- TestView Command | HYPERSIM | HYPERSIM Test
- TestView Command | HYPERSIM | HYPERSIM Settings
- TestView Command | Main | Breaker
- TestView Command | Main | Multi-Breaker
- TestView Command | Main | Snapshot
- TestView Command | Main | Miscellaneous
- TestView Command | Main | CmdLine
- TestView Command | Main | Excel
- TestView Command | Main | GetValue
- TestView Command | Main | Processing
- TestView Command | General | Loop
- TestView Command | General | If (expression)
- TestView Command | General | Else [ if(expression) ]
- TestView Command | General | Sleep
- TestView Command | General | Pause/Message
- TestView Command | General | Macro
- TestView Command | General | Assign
- TestView Command | General | Expression
- TestView Command | General | Eval
- TestView Command | General | Input Value
- TestView Command | General | TableOut
- TestView Command | General | GraphicOut
- TestView Command | Miscellaneous | Action Group
- TestView Command | Miscellaneous | Table Report
- TestView Command | Extra | Post Sequence
- TestView Command | Extra | Node Test (Deprecated)
- TestView Command | Extra | Processing (Deprecated)
- TestView | Data Architecture
- I/O Interfaces
- Using the I/O Interface Configuration GUI
- Configuring I/O Sensor Connections
- OPAL-RT Board
- Communication Protocols
- Synchronization
- Signal Generator
- Triphase
- ABB PS935
- EXata CPS Configurator
- Example Models
- Examples | Benchmarks
- Example | HVAC 230kV 16Bus
- Example | HVAC 230kV 172Bus IEEE RTS96
- Example | HVAC 230kV 24Bus IEEE
- Example | HVAC 230kV 6Bus
- Example | HVAC 230kV 7Bus
- Example | HVAC 230kV 86Bus
- Example | HVAC 230kV 8Bus
- Example | HVAC 230kV 96Bus 86Line
- Example | HVAC 230kV 9Bus IEEE
- Example | HVAC 500kV 110Bus
- Example | HVAC 500kV 200Bus
- Example | HVAC 500kV 35Bus
- Example | Kundur 4-Machine Power System
- Examples | Cyber-Physical
- Examples | Distribution and Industrial Power Systems
- Examples | EMTP Compatibility
- Examples | FACTS & HVDC
- Examples | How To
- Examples | Protection
- Examples | Directional Overcurrent Protection
- Examples | GHOST Microgrid Model with Protection Scheme
- Examples | IEC 61850 Substation Automation System (SAS)
- Examples | IEC 61850 Substation Automation System (SAS) with MMS
- Examples | Line Distance Protection with POTT including TestView Project
- Examples | Out of Step (OOS) Detection Using PMUs
- Examples | Transformer Differential Protection
- Examples | Renewable Energy
- Examples | 2 MW Grid-Connected PV array
- Examples | Distribution Connected Battery Energy Storage System with Average Converter
- Examples | Distribution Connected Fuel Cell Generation System with Average Converter
- Examples | Distribution Connected Photovoltaic Generation System with Average Converter
- Examples | Partial Shading Test for PV Model
- Examples | P-V Characteristics Curve for Three Different PV Modules
- Examples | Type 4 Wind Farm model
- Examples | Transportation
- Examples | Benchmarks
- Release Notes
- HYPERSIM Release Notes: 2022.2
- HYPERSIM Release Notes: 2022.1
- HYPERSIM Release Notes: 2021.3
- HYPERSIM Release Notes: 2021.2
- HYPERSIM Release Notes: 2021.1
- HYPERSIM Release Notes: 2020.3
- HYPERSIM Release Notes: 2020.2
- HYPERSIM Release Notes: 2020.1
- HYPERSIM Release Notes: 2019.3
- HYPERSIM Release Notes: 2019.2
- HYPERSIM Release Notes: 2019.1
- HYPERSIM Release Notes: 6.2.2
- HYPERSIM Release Notes: 6.1.3
- HYPERSIM Release Notes: 6.1.0
- Performance Benchmarks
- Benchmarks | 6-Bus Transmission System with I/Os
- Benchmarks | 110-Bus 500 kV Transmission System
- Benchmarks | 600-Node 20 kV Distribution System
- Benchmarks | Brazil 138 kV and Above Power System
- Benchmarks | GHOST Microgrid
- Benchmarks | IEEE 39-Bus New England Power System
- Benchmarks | Two Substations with 100 km Transmission Line
Contact Us
If you have any questions, please refer to our online Knowledge Base:
http://www.opal-rt.com/support-knowledge-base/
…or contact the Support team using our web form:
http://www.opal-rt.com/contact-technical-support/
If you don’t find answers for the issues you are having, do not hesitate to contact us, and we’ll make sure to help you through your first steps and answer all your questions.
Return Merchandise Authorization (RMA):
http://www.opal-rt.com/return-marchandise-authorization/
Download latest software versions:
http://www.opal-rt.com/download-center/
Disclaimer
Information in this website is subject to change without notice.
No part of this documentation may be copied or reproduced in any form or by any means without written permission from OPAL-RT TECHNOLOGIES Inc.
OPAL-RT TECHNOLOGIES makes no representation or warranty with respect to the adequacy or accuracy of this documentation or the software which it describes. In no event will OPAL-RT TECHNOLOGIES or its direct or indirect suppliers be liable for any damages whatsoever including, but not limited to, direct, indirect, incidental, or consequential damages of any character including, without limitation, loss of business profits, data, business information, or any and all other commercial damages or losses, or for any damages in excess of the list price for the license to the software and documentation.
Copyright
HYPERSIM® is a registered trademark.
All product names, logos, and brands are property of their respective owners. All company, product and service names used in this website are for identification purposes only. Use of these names, logos, and brands does not imply endorsement.
- HYPERSIM: © Copyright 2019 Hydro-Québec
- DesignWorks: © Copyright 2019 Capilano Computing Systems Ltd
- ScopeView: © Copyright 2019 Hydro-Québec