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Equivalent Circuit Model of Comb-type Capacitive Transmission Line on MMIC for Application to the RF Component Design in Millimeter-Wave Wireless Communication System

  • Published:2011 Issue: Volume: Page:1071-1077
  • ISSN:1876-1100
  • Container-title:Electrical Engineering and Control
  • language:
  • Short-container-title:

Author:

Jang Eui-Hoon,Park Young-Bae,Jung Bo-Ra,Jeong Jang-Hyeon,Ju Jeong-Gab,Yun Young

Publisher

Springer Berlin Heidelberg

Reference12 articles.

1. Zargari, M., Su, D.: Challenges in designing CMOS wireless systems on a chip. IEICE Trans. Electron. E90-C, 1142–1148 (2007)

2. Jeong, J.H., Yun, Y.: An Ultra-compact On-chip Impedance Transformer Fabricated Using a Novel Microstrip Line Employing Periodically Arrayed Capacitive Elements on MMIC. In: International Conference on Applications of Electromagnetism and Student Innovation Competition Awards, Taipei, Taiwan, August 11-13, pp. 102–106 (2011)

3. Matsunaga, K., Miura, I., Iwata, N.: A CW 4-W Ka-Band Power Amplifier Utilizing MMIC Multichip Technology. IEEE J. Solid State Circuits 35, 1293–1297 (2000)

4. Webster, D.R., Ataei, G., Haigh, D.G.: Low-Distortion MMIC Power Amplifier Using a New Form of Derivative Superposition. IEEE Trans. Microwave Theory and Tech. 49, 328–332 (2001)

5. Itoh, Y., Nii, M., Takeuchi, N., Tsukahara, Y., Kurebayashi, H.: MMIC/Super-MIC/MIC-Combined C- to Ku-Band 2W Balanced Amplifier Multi-Chip Module. IEICE Trans. Electron E80-C(6), 757–762 (1997)
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