Overview
Description
An xEV (Electric Vehicle) runs on a motor or combination of motor and internal combustion engine, and the motor is controlled by the xEV Inverter.
The “xEV Inverter Application Model and Software” provides a sample application model and software to control the motor, reducing software development effort and time during product development using the xEV inverter kit.
This software/model and application note can be requested by those who satisfy the following conditions and will be downloadable only after signing an NDA and a paid contract.
- You can sign in to your My Renesas account. (only corporate e-mail addresses are acceptable)
*If you do not have an account, please sign up for one. - You have already purchased the kit that works with this software.
- It is not to be used by a competitor's related trading company, for personal use, or for research purposes, etc.
Features
- Reduce potential design rework through simulation at the design stage by using a sample application model and a sample IGBT model, motor model of MATLAB®/Simulink®.
- Reduce application software programming effort by automatically generating sample application software from sample application models (autocode).
- Reduce driver software programming effort by providing driver software whose operation has been confirmed on the reference board of the inverter kit for xEV (electric vehicle), it is possible to start the actual machine evaluation in a short period of time.
- Reduce customer effort to learn how to use the Renesas environment from simulation on a PC to execution on the board by providing application notes covering everything from simulation on a PC to execution on the board
Target Devices
Documentation
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Type | Title | Date |
Application Note | PDF 4.30 MB | |
Manual - Software | PDF 1.26 MB | |
2 items
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Design & Development
Related Boards & Kits
xEV Inverter Kit
An inverter is used to convert DC power to the AC power used in an electric vehicle motor. The xEV inverter kit maximizes the HEV/EV motor performance by practical inverter hardware designs using a combination of microcontrollers, power management ICs, gate driver ICs, insulated gate bipolar...