Documentation Home Page ◇ Power Electronics Add-On for NI VeriStand Home Page
Pour la documentation en FRANÇAIS, utilisez l'outil de traduction de votre navigateur Chrome, Edge ou Safari. Voir un exemple.
Power Electronics Add-On for NI VeriStand - Simulink Circuit - User Documentation
Local Search
Search in Power Electronics Add-On for NI VeriStand documentation only
Table of Contents
- Getting Started
- Power Electronics Add-On Custom Device
- Default Hardware Configurations
- eHSx64_Dual_6_Ph_PMSM_VDQ_IO_7891
- eHSx64_Dual_PMSM_VDQ_Quad_IM_SM_IO_7891
- eHSx64_Quad_PMSM_SH_IO_7891
- eHSx64_Quad_PMSM_VDQ_IO_7891
- eHSx64_Quad_IM_SM_IO_7868R
- eHSx32_Dual_PMSM_SH_IO_7868R
- eHSx32_6_Ph_PMSM_VDQ_IO_32DO_7868R
- eHSx64_Dual_PMSM_VDQ_IO_7868R
- eHSx32_Dual_PMSM_VDQ_IO_32DO_7868R
- eHSx64_Quad_IM_Saturation_IO_7868R
- Circuit Model Section
- Hardware Configuration Section
- Default Hardware Configurations
- Examples
- How-To
- How to Install the Power Electronics Add-On on an Offline System
- How to Add the Power Electronics Add-On to the System Definition
- How to Select a Hardware Configuration
- How to Create a Circuit Model
- How to Add a Circuit Model to the System Definition
- How to Use the Scenarios Feature
- How to Monitor VeriStand Channel Values at Execution Time
- How to Display Simulated Signals using Waveforms
- How to Log Waveform Data to a File
- How to Validate PWM and Static Digital Input Signals
- How to Simulate a Three Phase Voltage Source using Sinewave Generators
- How to Reduce PMSM SH Signal Error In High Impedance Conditions
- How to Upgrade or Uninstall the Power Electronics Add-On
- How to Tune Switch Conductance (Gs)
- How to Duplicate an Existing Hardware Configuration
- How to Distribute Custom Hardware Configurations
- How to Simulate a Drive with a Machine
- How to Add Custom Models
- How to Troubleshoot Deployment Errors Using Real Time Target Logs
- Appendix
- Supported Circuit Editors
- Processor Assignments
- Permanent Magnet Synchronous Machine Models Comparison
- Machine Configuration Files
- Archived Features
- Archived Machine Models
- Archived Examples
- 1. Three Phase Rectifier (Archived)
- 1.0 Opening the Example
- 1.1 Configuring the Real-Time Controller
- 1.3 Updating the Circuit Model
- 1.4 Configuring the Sources of the Model
- 1.6 Setting Default Values for the Sinewave Generators
- 1.7 Configuring the Waveforms of the Simulation
- 1.8 Deploying and Running the Simulation
- 1.5 Configuring the Switches of the Model
- 1.9 Controlling and Monitoring the Simulation
- 1.10 Additional User Interfaces
- 1.2 Selecting a Hardware Configuration
- 2. PMSM Local Control (Archived)
- 2.0 Opening the Example
- 2.1 Configuring the Real-Time Controller
- 2.2 Selecting the Hardware Configuration
- 2.3 Configuring the Electrical Models
- 2.4 Configuring the Sources of the Model
- 2.5 Configuring the Switches of the Model
- 2.6 Setting Default Values for the Signal Generators
- 2.7 Configuring the Waveforms of the Simulation
- 2.8 Configuring the Local Controller
- 2.9 Deploying and Running the Simulation
- 2.10 Controlling and Monitoring the Simulation
- 2.11 Additional User Interfaces
- 3. PMSM SH Local Control (Archived)
- 3.0 Opening the Example
- 3.1 Configuring the Real-Time Controller
- 3.2 Selecting the Hardware Configuration
- 3.3 Configuring the Electrical Models
- 3.4 Configuring the Sources of the Model
- 3.5 Configuring the Switches of the Model
- 3.6 Setting Default Values for the Signal Generators
- 3.7 Configuring the Waveforms of the Simulation
- 3.8 Configuring the Local Controller
- 3.9 Deploying and Running the Simulation
- 3.10 Controlling and Monitoring the Simulation
- 3.11 Additional User Interfaces
- 4. SCIM Constant Local Control (Archived)
- 4.0 Opening the Example
- 4.1 Configuring the Real-Time Controller
- 4.2 Selecting the Hardware Configuration
- 4.3 Configuring the Electrical Models
- 4.4 Configuring the Sources of the Model
- 4.5 Configuring the Switches of the Model
- 4.6 Setting Default Values for the Signal Generators
- 4.7 Configuring the Waveforms of the Simulation
- 4.8 Configuring the Local Controller
- 4.9 Deploying and Running the Simulation
- 4.10 Controlling and Monitoring the Simulation
- 4.11 Additional User Interfaces
- 5. 6-Phase PMSM Local Control (Archived)
- 5.0 Opening the Example
- 5.1 Configuring the Real-Time Controller
- 5.2 Selecting the Hardware Configuration
- 5.3 Configuring the Electrical Models
- 5.4 Configuring the Sources of the Model
- 5.5 Configuring the Switches of the Model
- 5.6 Setting Default Values for the Signal Generators
- 5.7 Configuring the Waveforms of the Simulation
- 5.8 Configuring the Local Controller
- 5.9 Deploying and Running the Simulation
- 5.10 Controlling and Monitoring the Simulation
- 5.11 Additional User Interfaces
- 6. Round Rotor SM Local Control (Archived)
- 6.0 Opening the Example
- 6.1 Configuring the Real-Time Controller
- 6.2 Selecting the Hardware Configuration
- 6.3 Configuring the Electrical Models
- 6.4 Configuring the Sources of the Model
- 6.5 Configuring the Switches of the Model
- 6.6 Setting Default Values for the Signal Generators
- 6.7 Configuring the Waveforms of the Simulation
- 6.8 Configuring the Local Controller
- 6.9 Deploying and Running the Simulation
- 6.10 Controlling and Monitoring the Simulation
- 6.11 Additional User Interfaces
- 7. Two Level Inverter (Archived)
- 7.0 Opening the Example
- 7.1 Configuring the Real-Time Controller
- 7.2 Selecting a Hardware Configuration
- 7.3 Updating the Circuit Model
- 7.4 Configuring the Sources of the Model
- 7.5 Configuring the Switches of the Model
- 7.6 Setting Default Values for the SPWM Generators
- 7.7 Configuring the Waveforms of the Simulation
- 7.8 Deploying and Running the Simulation
- 7.9 Controlling and Monitoring the Simulation
- 7.10 Additional User Interfaces
- 1. Three Phase Rectifier (Archived)
- Archived Hardware Configurations
- Archived Hardware Configuration Pinout Diagrams
- (Archived) 7868 IO Pinout [eHSx64_Quad_IM_Saturation_IO_7868R]
- (Archived) 7891 IO Pinout [eHSx64_Dual_PMSM_VDQ_Quad_IM_SM_IO_7891]
- (Archived) 7891 IO Pinout [eHSx64_Quad_PMSM_VDQ_IO_7891]
- (Archived) 7868 IO Pinout [eHSx32_Dual_PMSM_SH_IO_7868R]
- (Archived) 7868 IO Pinout [eHSx64_Quad_IM_SM_IO_7868R]
- (Archived) 7868 IO Pinout [eHSx64_Dual_PMSM_VDQ_IO_7868R]
- (Archived) 7891 IO Pinout [eHSx64_Dual_6_Ph_PMSM_VDQ_IO_7891]
- (Archived) 7891 IO Pinout [eHSx64_Quad_PMSM_SH_IO_7891]
- (Archived) 7868 IO Pinout [eHSx32_6_Ph_PMSM_VDQ_IO_32DO_7868R]
- (Archived) 7868 IO Pinout [eHSx32_Dual_PMSM_VDQ_IO_32DO_7868R]
- Hardware Configuration Manager
- Release Notes
- Project Migration Procedure
- Power Electronics Add-On 1.16.1
- Power Electronics Add-On 1.16.0
- Power Electronics Add-On 1.15.0
- Power Electronics Add-On 1.14.1
- Power Electronics Add-On 1.14.0
- Power Electronics Add-On 1.13.1
- Power Electronics Add-On 1.13.0
- Power Electronics Add-On 1.12.0
- Power Electronics Add-On 1.11.0 [Restricted]
- Power Electronics Add-On 1.10.0
- Power Electronics Add-On 1.9.0
- Power Electronics Add-On 1.8.0
- Power Electronics Add-On 1.7.0
- Power Electronics Add-On 1.6.2
- Power Electronics Add-On 1.6.1
- Power Electronics Add-On 1.6.0
- Power Electronics Add-On 1.5.0
OPAL-RT TECHNOLOGIES, Inc. | 1751, rue Richardson, bureau 1060 | Montréal, Québec Canada H3K 1G6 | opal-rt.com | +1 514-935-2323
Follow OPAL-RT: LinkedIn | Facebook | YouTube | X/Twitter