References
- A. Werthof, "36-44 GHz HPA for High Linearity Radio Systems," GaAs Symp. Dig., Nov. 2003, pp. 369-372.
- Hittite HMC906, data sheet, accessed June 19, 2012. http://www. hittite.com/content/documents/data_sheet/hmc906.pdf
- TriQuint TGA4916, data sheet, accessed June 19, 2012. http:// www.triquint.com/products/p/TGA4916
- TriQuint TGA4906, data sheet, accessed June 19, 2012. http:// www.triquint.com/products/p/TGA4906
- C. Grondahl, D. Corman, and K. Buer, "Wideband 5.5W Ka- Band Low-Cost MMIC High Power Amplifier with 30dB of Gain," EuMa Conf. Dig., Sept. 2002, pp. 1-3.
- K.S. Kong et al., "Ka-Band MMIC High Power Amplifier (4W at 30 GHz) with Record Compact Size," CSIC Conf. Dig., Oct. 2005, pp. 232-235.
- M.R. Lyons, C.D. Grondahl, and S.M. Daoud, "Design of Low- Cost 4W & 6W MMIC High Power Amplifiers for Ka-Band Modules," IEEE MTT-S Int. Microw. Symp. Dig., vol. 1, June 2004, pp. 1773-1676.
- Y.S. Noh, D.P. Chang, and I.B. Yom, "Ku-Band Power Amplifier MMIC Chipset with On-Chip Active Gate Bias Circuit," ETRI J., vol. 31, no. 3, June 2009, pp. 247-253. https://doi.org/10.4218/etrij.09.0108.0704
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WIN-Semiconductor, PP15-10, 0.15
${\mu}$ m InGaAs pHEMT Power Device Model HandBook, ver. 1.1.4, Oct. 5, 2010.
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