This paper presents a methodology based on SystemC-AMS and supported by the COSIDE graphical design environment for the development of automatic test-solutions for Integrated Circuits, which optimises the design of test-hardware and the coding of test-programs.The proposed development framework allows efficient design of test-hardware and rapid mixed-signal simulation of test-program sections, offering insight on the analog behaviour of the test-setup and on the interaction between the test-hardware, the Automatic Test Equipment and the Device Under Test, allowing early investigation and troubleshooting of the test-solution.The framework is validated within an industrial test-scenario by investigating solutions for the measurement of a rapidly changing voltage curve and by designing a narrow current pulse generator circuit where active components are used to modulate the native Automatic Test Equipment capabilities. The investigated solutions are integrated in the physical test-board and probe-card of the specific Device Under Test, and bench measurements are performed within the test-program execution.The comparison between simulation results and bench measurements highlights the capability of the presented SystemC-AMS framework in offering an accurate analog representation of the modelled components and properly supporting the development of automatic test-solutions.

Turossi, D., Baschirotto, A. (2024). A SystemC-AMS Development Framework for High Power IC Test-Hardware. In 2024 IEEE European Test Symposium (ETS) (pp.1-5) [10.1109/ets61313.2024.10567976].

A SystemC-AMS Development Framework for High Power IC Test-Hardware

Turossi, Davide
Primo
;
Baschirotto, Andrea
Ultimo
2024

Abstract

This paper presents a methodology based on SystemC-AMS and supported by the COSIDE graphical design environment for the development of automatic test-solutions for Integrated Circuits, which optimises the design of test-hardware and the coding of test-programs.The proposed development framework allows efficient design of test-hardware and rapid mixed-signal simulation of test-program sections, offering insight on the analog behaviour of the test-setup and on the interaction between the test-hardware, the Automatic Test Equipment and the Device Under Test, allowing early investigation and troubleshooting of the test-solution.The framework is validated within an industrial test-scenario by investigating solutions for the measurement of a rapidly changing voltage curve and by designing a narrow current pulse generator circuit where active components are used to modulate the native Automatic Test Equipment capabilities. The investigated solutions are integrated in the physical test-board and probe-card of the specific Device Under Test, and bench measurements are performed within the test-program execution.The comparison between simulation results and bench measurements highlights the capability of the presented SystemC-AMS framework in offering an accurate analog representation of the modelled components and properly supporting the development of automatic test-solutions.
slide + paper
Pulse generation, Performance evaluation, Automatic test equipment, Voltage measurement, Pulse measurements, Current measurement, Simulation
English
2024 IEEE European Test Symposium (ETS) - 20 May 2024through 24 May 2024
2024
2024 IEEE European Test Symposium (ETS)
9798350349320
2024
1
5
reserved
Turossi, D., Baschirotto, A. (2024). A SystemC-AMS Development Framework for High Power IC Test-Hardware. In 2024 IEEE European Test Symposium (ETS) (pp.1-5) [10.1109/ets61313.2024.10567976].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10281/494679
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