Investigation into intermodulation distortion in HEMTs using a quasi-2-D physical model

PJ Rudge; RE Miles; MB Steer; CM Snowden

doi:10.1109/22.971615

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Investigation into intermodulation distortion in HEMTs using a quasi-2-D physical model

Journal article

Peer reviewed

Investigation into intermodulation distortion in HEMTs using a quasi-2-D physical model

PJ Rudge, RE Miles, MB Steer and CM Snowden

IEEE Transactions on Microwave Theory and Techniques, Vol.49(12), pp.2315-2321

01/12/2001

DOI: https://doi.org/10.1109/22.971615

Abstract

The need for both linear and efficient pseudomorphic high electron-mobility transistors (pHEMTs) for modern wireless handsets necessitates a thorough understanding of the origins of intermodulation distortion at the device level. For the first time, the dynamic large-signal internal physical behavior of a pHEMT is examined using a quasi-two-dimensional physical device model. The model accounts fully for device-circuit interaction and is validated experimentally for a two-tone experiment around 5 GHz.

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Title: Investigation into intermodulation distortion in HEMTs using a quasi-2-D physical model
Creators: PJ Rudge
RE Miles
MB Steer
CM Snowden
Publication Details: IEEE Transactions on Microwave Theory and Techniques, Vol.49(12), pp.2315-2321
Date published: 01/12/2001
Date submitted: 16/05/2017
Identifiers: 99512394502346
Academic Unit: University of Surrey
Resource Type: Journal article

Investigation into intermodulation distortion in HEMTs using a quasi-2-D physical model

Abstract

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