• Title/Summary/Keyword: Unequal divider

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An Unequal Power Divider using Common Defected Ground Structure (공통의 DGS를 이용한 비대칭 전력 분배기)

  • Lee, Jun;Lee, Jae-Hoon;Lim, Jong-Sik;Han, Sang-Min;Ahn, Dal
    • Proceedings of the KIEE Conference
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    • 2011.07a
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    • pp.1646-1647
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    • 2011
  • 본 논문에서는 공통의 결함접지면구조(Defected ground structure, DGS)를 이용한 1:2 비대칭 전력 분배기를 설계하였다. 기본적인 비대칭 전력분배기를 설계하고 DGS를 삽입하여 크기를 줄이고 반으로 접은 구조로 회로의 크기를 대폭 줄일 수 있는 구조 이다. 사용한 기판으로는 Rogers 5880 31mils(0.7874mm)를 사용하여 1GHz 주파수대의 1:2 비대칭 전력 분배기를 설계 및 제작하여 우수한 특성을 확인 할 수 있었다.

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A Study on the Fabrication of the 4 Port In-Phase High Power Combiner (4포트 동위상 고출력 전력결합기의 구현에 관한 연구)

  • Lee, Young-Sub;Jeon, Joong-Sung;Lee, Seok-Jeong;Ye, Byeong-Duck;Kim, Dong-Il;Hong, Tchang-Hee
    • Journal of Navigation and Port Research
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    • v.26 no.3
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    • pp.289-294
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    • 2002
  • The broadband high power 3-way combiner was designed and fabricated for the digital TV repeater. To achieve increase of the bandwidth and the high power capability, Wilkinson type power divider was adopted in our research. First of all, Wilkinson type power divider of equal-split and unequal-split were combined, and the characteristics of the four port in-phase power combiner was simulated for each thickness of dielectric substrates. As the results of simulation, the power combiner fabricated by using dielectric substrate of 120 mil-thickness has the characteristics as follows: insertion loss of less than -651 dB, reflection coefficient of less than -13 dB, isolation among the output ports of less than -15 dB, and pose difference among the output ports of smiler than 13$^{\circ}$. Therefore, this power combiner was possible to improve the limit of microstrip line width due to high impedance, the problem of power loss due to interaction between strip lines in a high power combiner and narrow bandwidth simultaneously. Furthermore, making broadband and high power could be achieved since the fabricated 3-way combiner has good characteristics of insertion loss, the reflection coefficient, separation between ports, and phase difference.

A Study on Improvement of Linearity and Efficiency Compensation in a Power Amplifier Using Asymmetical Doherty Structure (비대칭 Doherty 구조를 이용한 전력 증폭기의 선형성 개선과 효율 보상에 관한 연구)

  • Kang, Dong-Jin;Han, Ki-Kwan;Lee, Ho-Woong
    • The Journal of Korea Institute of Information, Electronics, and Communication Technology
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    • v.3 no.1
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    • pp.63-69
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    • 2010
  • In this paper, a new design method of asymmetrical configuration of main amplifier and peaking amplifier using changed bias point is proposed for excellent linearity, instead of the conventional Doherty structure. We have utilized the uneven wilkinson power divider for the unequal power drive at the input network of amplifiers. And we proposed a compensating method of the decreasing efficiency due to improving linearity using 3-stage Doherty structures. From the simulation results of asymmetrical Dohertry power amplifier and asymmetrical 3-stage Doherty power amplifier with uneven power drive are implemented. From the implementation and measurement results of the each amplifier, IMD characteristics have -55 dBc as the good efficiency of 13% compensates the decreased entire efficiency due to the improving linearity characteristics.

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A New Dual Band Branch Line Hybrid Coupler with Arbitrary Power Division Ratio (임의의 분배비를 갖는 새로운 이중 대역 가지 선로 결합기)

  • Kim, Kwi-Soo;Gwon, Chil-Hyeun;Dorjsuren, Baatarkhuu;Lim, Jong-Sik;Ahn, Dal
    • The Journal of Korean Institute of Electromagnetic Engineering and Science
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    • v.20 no.5
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    • pp.444-449
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    • 2009
  • This paper presents the design of a dual band branch line hybrid coupler(BLHC) with different power division ratios at two bands. In the proposed design, transmission lines of the BLHC are transformed to $\pi$-type equivalent circuits which represent different impedances and $\lambda/4$ electrical length at two frequency bands. In order to verify the proposed method, a dual band coupler with different power division ratios is designed for 0.9 GHz and 2 GHz applications. The desired power division ratios are 1:1 and 1:3 at the two operating frequency bands. The measured results show excellent performance with an insertion loss of less than 0.33 dB, a return loss of less than -18.07 dB, and good isolation characteristics.