The Analysis of Photoconductive Semiconductor Switch Operation in the Frequency of 10 GHz
A device analysis of the photoconductive
semiconductor switch is carried out to investigate distribution of
electric field and carrier concentrations as well as the current density
distribution. The operation of this device was then investigated as a
switch operating in X band. It is shown that despite the presence of
symmetry geometry, switch current density of the on-state steady
state mode is distributed asymmetrically throughout the device.
[1] Atlas User-s Manual, Silvaco Int., Santa Clara, CA, Sep, 2004.
[2] A. Karabegovic , R.M. O-Connell , and W.C. Nunnally,
"Photoconductive Switch Design for Microwave Applications" , IEEE
Transactions on Dielectrics and Electrical Insulation vol.16,NO.4; 2009
[3] R.M.O-Connell, C.J.Huany, A.Karabegovic, and W.C.Nunnally,
"Optoelectronic microwave power amplifiers", IEEE Trans. Dielectr.
Electr. Insul., vol.14,pp. 994-1001, 2007.
[4] A.Karabegovic, R.M.O-Connell , and W.C.Nunnaly , "Photoconductive
Semiconductor Switch for microwave applications" , IEEE 28th Interm.
Power modulator conf., Las vegas, NV, USA, PP.9-12,2008.
[5] M. Fathipour, A. E. Ardakani, "Semiconductor Devices: an Introduction
, Uni. of Tehran press, 2002.
[6] I. M. Abolduyev, A. M. Zubkov, and V. M. Minnebaev, "X-Band Power
amplifier for Active Phased-Array Antennas", ICSC'98,3rd Intern. Conf.
on Satellite Communications , Vol 1, pp. 170-171, 1998
[7] A. S. Grove , "Physics and Technology of Semiconductor Devices ,
John Wiley and Sons, Inc., New York.
[1] Atlas User-s Manual, Silvaco Int., Santa Clara, CA, Sep, 2004.
[2] A. Karabegovic , R.M. O-Connell , and W.C. Nunnally,
"Photoconductive Switch Design for Microwave Applications" , IEEE
Transactions on Dielectrics and Electrical Insulation vol.16,NO.4; 2009
[3] R.M.O-Connell, C.J.Huany, A.Karabegovic, and W.C.Nunnally,
"Optoelectronic microwave power amplifiers", IEEE Trans. Dielectr.
Electr. Insul., vol.14,pp. 994-1001, 2007.
[4] A.Karabegovic, R.M.O-Connell , and W.C.Nunnaly , "Photoconductive
Semiconductor Switch for microwave applications" , IEEE 28th Interm.
Power modulator conf., Las vegas, NV, USA, PP.9-12,2008.
[5] M. Fathipour, A. E. Ardakani, "Semiconductor Devices: an Introduction
, Uni. of Tehran press, 2002.
[6] I. M. Abolduyev, A. M. Zubkov, and V. M. Minnebaev, "X-Band Power
amplifier for Active Phased-Array Antennas", ICSC'98,3rd Intern. Conf.
on Satellite Communications , Vol 1, pp. 170-171, 1998
[7] A. S. Grove , "Physics and Technology of Semiconductor Devices ,
John Wiley and Sons, Inc., New York.
@article{"International Journal of Electrical, Electronic and Communication Sciences:55389", author = "Morteza Fathipour and Seyed Nasrolah Anousheh and Kaveh Ghiafeh Davoudi and Vala Fathipour", title = "The Analysis of Photoconductive Semiconductor Switch Operation in the Frequency of 10 GHz", abstract = "A device analysis of the photoconductive
semiconductor switch is carried out to investigate distribution of
electric field and carrier concentrations as well as the current density
distribution. The operation of this device was then investigated as a
switch operating in X band. It is shown that despite the presence of
symmetry geometry, switch current density of the on-state steady
state mode is distributed asymmetrically throughout the device.", keywords = "Band X, Gallium-Arsenide, Mixed mode, PCSS,Photoconductivity.", volume = "4", number = "9", pages = "1368-5", }