Minimization of baseband electrical memory effects in GaN HEMTs using active IF load-pull

M Akmal; J Lees; V Carrubba; S Ben Smida; S Woodington; J Benedikt; KA Morris; MA Beach; JP McGeehan; P Tasker

Minimization of baseband electrical memory effects in GaN HEMTs using active IF load-pull

M Akmal, J Lees, V Carrubba, S Ben Smida, S Woodington, J Benedikt, KA Morris, MA Beach, JP McGeehan, P Tasker

Research output: Chapter in Book/Report/Conference proceeding › Conference Contribution (Conference Proceeding)

14 Citations (Scopus)

Abstract

This paper presents a rigorous way to quantify the role played by higher baseband impedances in determining baseband electrical memory effects observed in power transistors under two-carrier excitation. These effects typically appear not only as asymmetrical distortion terms in the frequency domain, but also more reliably as a recognizeable hysteresis or looping in the dynamic transfer characteristics extracted from measured input voltage and output current envelopes of a power device. Investigations have been carried out using a commercially available 10W GaN HEMT device characterised at 2GHz within a high-power modulated wavefor measurement system. Active IF loadpull has been employed to present specific baseband impedance environments, allowing the sensitivity of IMD symmetry to baseband impedance variations to be investigated.

Translated title of the contribution	Minimization of baseband electrical memory effects in GaN HEMTs using active IF load-pull
Original language	English
Title of host publication	Asia-Pacific Microwave Conference 2010 (APMC), Yokohama, Japan
Publisher	IEICE
Pages	5 - 8
Number of pages	4
ISBN (Print)	9781424475902
Publication status	Published - 7 Dec 2010

Handle.net

Persistent link

Cite this

@inproceedings{fdbf5ac8534d4832b72de2d085654a93,

title = "Minimization of baseband electrical memory effects in GaN HEMTs using active IF load-pull",

abstract = "This paper presents a rigorous way to quantify the role played by higher baseband impedances in determining baseband electrical memory effects observed in power transistors under two-carrier excitation. These effects typically appear not only as asymmetrical distortion terms in the frequency domain, but also more reliably as a recognizeable hysteresis or looping in the dynamic transfer characteristics extracted from measured input voltage and output current envelopes of a power device. Investigations have been carried out using a commercially available 10W GaN HEMT device characterised at 2GHz within a high-power modulated wavefor measurement system. Active IF loadpull has been employed to present specific baseband impedance environments, allowing the sensitivity of IMD symmetry to baseband impedance variations to be investigated.",

author = "M Akmal and J Lees and V Carrubba and {Ben Smida}, S and S Woodington and J Benedikt and KA Morris and MA Beach and JP McGeehan and P Tasker",

year = "2010",

month = dec,

day = "7",

language = "English",

isbn = "9781424475902",

pages = "5 -- 8",

booktitle = "Asia-Pacific Microwave Conference 2010 (APMC), Yokohama, Japan",

publisher = "IEICE",

}

TY - GEN

T1 - Minimization of baseband electrical memory effects in GaN HEMTs using active IF load-pull

AU - Akmal, M

AU - Lees, J

AU - Carrubba, V

AU - Ben Smida, S

AU - Woodington, S

AU - Benedikt, J

AU - Morris, KA

AU - Beach, MA

AU - McGeehan, JP

AU - Tasker, P

PY - 2010/12/7

Y1 - 2010/12/7

N2 - This paper presents a rigorous way to quantify the role played by higher baseband impedances in determining baseband electrical memory effects observed in power transistors under two-carrier excitation. These effects typically appear not only as asymmetrical distortion terms in the frequency domain, but also more reliably as a recognizeable hysteresis or looping in the dynamic transfer characteristics extracted from measured input voltage and output current envelopes of a power device. Investigations have been carried out using a commercially available 10W GaN HEMT device characterised at 2GHz within a high-power modulated wavefor measurement system. Active IF loadpull has been employed to present specific baseband impedance environments, allowing the sensitivity of IMD symmetry to baseband impedance variations to be investigated.

AB - This paper presents a rigorous way to quantify the role played by higher baseband impedances in determining baseband electrical memory effects observed in power transistors under two-carrier excitation. These effects typically appear not only as asymmetrical distortion terms in the frequency domain, but also more reliably as a recognizeable hysteresis or looping in the dynamic transfer characteristics extracted from measured input voltage and output current envelopes of a power device. Investigations have been carried out using a commercially available 10W GaN HEMT device characterised at 2GHz within a high-power modulated wavefor measurement system. Active IF loadpull has been employed to present specific baseband impedance environments, allowing the sensitivity of IMD symmetry to baseband impedance variations to be investigated.

M3 - Conference Contribution (Conference Proceeding)

SN - 9781424475902

SP - 5

EP - 8

BT - Asia-Pacific Microwave Conference 2010 (APMC), Yokohama, Japan

PB - IEICE

ER -

Minimization of baseband electrical memory effects in GaN HEMTs using active IF load-pull

Abstract

Handle.net

Fingerprint

Cite this