On-Chip Spiral Inductors and On-Chip Spiral Transistors for Accurate Numerical Modeling|RISS 상세보기

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다국어 초록 (Multilingual Abstract)

This paper presents a new model for designing on-chip spiral inductor and on-chip spiral transistors. For this, the coupling between on-chip inductors and transistors has been implemented. The electromagnetic coupling between the inductors and the transistors and the mutual inductance are modeled by presenting the magnetic vector potential to study the coupling effect. It changes the surface integral of the magnetic field into the loop integral of the magnetic vector potential to calculate the coupling. In this method, the partial mutual inductance idea to compute the mutual inductance between two conductor sections instead of conductor loops can be developed. The inductance classification is applied to an on-chip environment to characterize interconnects and integrated inductors. The investigative model is reconsidered to incorporate the semiconductor substrate losses and the skin effect. The numerical solutions of the investigative model are also presented. To simulate the proposed model ADS Momentum software is used.

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목차 (Table of Contents)

1. Introduction
2. The Scatter Parameters
3. Coupling between On-Chip Spiral Inductors
4. Coupling between On-Chip Inductors and Transistors
5. Results and Discussion

1. Introduction
2. The Scatter Parameters
3. Coupling between On-Chip Spiral Inductors
4. Coupling between On-Chip Inductors and Transistors
5. Results and Discussion
6. Conclusion
References

참고문헌 (Reference)

1 H. Hasegawa, 19 : 869-, 1971

2 S. Palanivel Rajan, 8 : 38-, 2016

3 Christopher L. Holloway, 43 : 1204-, 1995

4 Peter Meuris, 20 : 753-, 2001

5 Derek K. Shaeffer, 32 : 745-, 1997

6 Jan Craninckx, 32 : 736-, 1997

7 Alireza Zolfaghari, 36 : 620-, 2001

8 Chih-Chun Tang, 37 : 471-, 2002

9 Guo Lihui, 23 : 470-, 2002

10 Joachim N. Burghartz, 33 : 2028-, 1998

1 H. Hasegawa, 19 : 869-, 1971

2 S. Palanivel Rajan, 8 : 38-, 2016

3 Christopher L. Holloway, 43 : 1204-, 1995

4 Peter Meuris, 20 : 753-, 2001

5 Derek K. Shaeffer, 32 : 745-, 1997

6 Jan Craninckx, 32 : 736-, 1997

7 Alireza Zolfaghari, 36 : 620-, 2001

8 Chih-Chun Tang, 37 : 471-, 2002

9 Guo Lihui, 23 : 470-, 2002

10 Joachim N. Burghartz, 33 : 2028-, 1998

11 Bendik Kleveland, 37 : 716-, 2002

12 Jia-Sheng Hong, 44 : 2099-, 1996

13 Yu Cao, 38 : 419-, 2003

14 Alan L. L. Pun, 33 : 877-, 1998

15 Patrik Larsson, 36 : 1113-, 2001

16 Harold A. Wheeler, 25 : 631-, 1977

17 Hilmi Gurleyen, "Analytical Modeling of Magnetically Saturated Inductance by Lambert W Function" 한국자기학회 22 (22): 369-377, 2017

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