Title

A Simplified And Efficient Numerical Model For Charge Injection In Acoustic Charge Transport Devices

Abstract

A numerically efficient model for simulating electrical charge injection in acoustic charge transport (ACT) devices is developed. This model simplifies an existing charge injection model and is derived based on the coupled set of semiconductor device equations. The present model increases the computational efficiency of decoupling and reducing the number of mathematical equations forming the charge injection model. A brief overview of the original model is presented. The assumptions leading to the decoupling and reduction of the device equations, and differences between the two models are described. Results computed by the simplified model are shown and compared to the results from the original charge injection model and experimental measurement. The present model is able to examine 45 SAW wave positions and 163 contact voltages in 8 h on a 25-MHz PC in comparison to the previous model which simulated 59 wave positions and 164 contact voltages on an Hewlett-Packard 9000 series 500 minicomputer in 37 h. A substantial reduction in computation time is achieved for prediction of ACT parameters and simulation results compare favorably with previously published experimental measurements. © 1992 IEEE

Publication Date

1-1-1992

Publication Title

IEEE Transactions on Electron Devices

Volume

39

Issue

8

Number of Pages

1811-1820

Document Type

Article

Identifier

scopus

Personal Identifier

scopus

DOI Link

https://doi.org/10.1109/16.144669

Socpus ID

0026910027 (Scopus)

Source API URL

https://api.elsevier.com/content/abstract/scopus_id/0026910027

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