Configurable load emulation using FPGA and power amplifiers for automotive power ICs

In this paper we present a new concept of an application-oriented characterization method for automotive power micro-electronic devices. Automotive power semiconductors are mainly influenced by their real-life application but there is no sufficient method yet to assess device robustness within their...

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Main Authors: Harrant, M., Nirmaier, T., Pelz, G., Dona, F., Grimm, C.
Format: Conference Proceeding
Language:English
Subjects:
Automotive engineering
Automotive Smart Power IC
Dynamic Load Emulation
Emulation
Equations
Field programmable gate arrays
Incandescent Lamps
Load modeling
Mathematical model
Real-Time Load Modelling
Real-time systems
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creator Harrant, M.
Nirmaier, T.
Pelz, G.
Dona, F.
Grimm, C.
description In this paper we present a new concept of an application-oriented characterization method for automotive power micro-electronic devices. Automotive power semiconductors are mainly influenced by their real-life application but there is no sufficient method yet to assess device robustness within their application. For that reason we established a first approach to emulate different automotive power loads by running their models in real-time on an FPGA platform while the load current is controlled with a class AB power amplifier. The functionality of this approach is evaluated on the basis of automotive smart high-side switches and incandescent lamp models.
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source IEEE Electronic Library (IEL) Conference Proceedings
subjects Automotive engineering
Automotive Smart Power IC
Dynamic Load Emulation
Emulation
Equations
Field programmable gate arrays
Incandescent Lamps
Load modeling
Mathematical model
Real-Time Load Modelling
Real-time systems
title Configurable load emulation using FPGA and power amplifiers for automotive power ICs
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