An oscillator with low phase noise and superior harmonic suppression characteristics based on uniplanar compact split ring resonators

2006 ◽  
Vol 48 (5) ◽  
pp. 938-940 ◽  
Author(s):  
Cheol Gyu Hwang ◽  
Noh Hoon Myung
Keyword(s):  
Phase Noise ◽  
Ring Resonators ◽  
Harmonic Suppression ◽  
Split Ring ◽  
Split Ring Resonators ◽  
Low Phase Noise

scholarly journals Dual-Band High Q-Factor Complementary Split-Ring Resonators Using Substrate Integrated Waveguide Method and Their Applications

2019 ◽  
Vol 2019 ◽  
pp. 1-11
Author(s):  
Mehdi Hamidkhani ◽  
Rasool Sadeghi ◽  
Mohamadreza Karimi
Keyword(s):  
Phase Noise ◽  
Group Delay ◽  
Cavity Resonator ◽  
Practical Method ◽  
Ring Resonators ◽  
Dual Band ◽  
High Group ◽  
Split Ring ◽  
Split Ring Resonators ◽  
Low Phase Noise

In modern microwave telecommunication systems, especially in low phase noise oscillators, there is a need for resonators with low insertion losses and high Q-factor. More specifically, it is of high interest to design resonators with high group delay. In this paper, three novel dual-band complementary split-ring resonators (CSRRs) featuring high group delay etched on the waveguide surface by using substrate integrated waveguides are investigated and proposed. They are designed for a frequency range of 4.5–5.5 GHz. Group delay rates for the first, second, and third resonators were approximated as much as 23 ns, 293 ns, and 90 ns, respectively. We also proposed a new practical method to develop a wide tuning range SIW CSRR cavity resonator with a small tuning voltage in the second resonator, which leads to about 19% and 1% of tuning frequency band in the first and second bands, respectively. Finally, some of their applications in the design of filter, diplexer, and low phase noise oscillator will be investigated.

A compact low-phase noise oscillator with superior harmonic suppression characteristics based on novel nested split-ring resonator (NSRR)

2015 ◽  
Vol 8 (8) ◽  
pp. 1155-1161 ◽  
Author(s):  
Yong Liu ◽  
Neng Xie ◽  
Xiaohong Tang ◽  
Fei Xiao
Keyword(s):  
Phase Noise ◽  
Second Harmonic ◽  
High Harmonic ◽  
Split Ring Resonator ◽  
Ring Resonators ◽  
Harmonic Suppression ◽  
Split Ring ◽  
Compact Size ◽  
Free Band ◽  
Low Phase Noise

In this paper, a novel microwave oscillator incorporating miniaturized nested split-ring resonators is proposed. The high-quality (Q) factor and wide spurious-free band of the NSRR contribute to low-phase noise and high-harmonic suppression of the proposed oscillator circuits. In addition, the NSRR is featured by compact size of 0.12λg × 0.12λg, where λg is the guided wavelength of resonance frequency. The fabricated 2.4 GHz oscillator has an output power of 11.7 dBm with 5 V DC supply and 10 mA current consumption. The second harmonic suppression is −45.49 dBc, the phase noise is −110 dBc/Hz @100 kHz, and the DC–RF conversion efficiency is measured as 30%.

Low phase noise oscillator based on complementary split‐ring resonators loaded quarter‐mode circular SIW cavity

2017 ◽  
Vol 53 (14) ◽  
pp. 933-935 ◽  
Author(s):  
Jie Xu ◽  
Yinjie Cui ◽  
Zhengbin Xu ◽  
Jian Guo ◽  
Cheng Qian ◽  
...  
Keyword(s):  
Phase Noise ◽  
Ring Resonators ◽  
Split Ring ◽  
Split Ring Resonators ◽  
Low Phase Noise

scholarly journals Low-Phase-Noise Oscillator Using a High-QL Resonator with Split-Ring Structure and Open-Loaded T-Type Stub for a Tumor-Location-Tracking Sensor

2021 ◽  
Vol 11 (23) ◽  
pp. 11550
Author(s):  
Ki-Cheol Yoon ◽  
Kwang-Gi Kim ◽  
Jun-Won Chung ◽  
Byeong-Soo Kim
Keyword(s):  
Phase Noise ◽  
Second Harmonic ◽  
Tumor Location ◽  
Ring Structure ◽  
Open Circuit ◽  
Location Tracking ◽  
Harmonic Suppression ◽  
Split Ring ◽  
X Band ◽  
Low Phase Noise

Sensors in the medical field to detect specific tissues, such as radars, must provide accurate signals from frequency generators. In order to supply an accurate frequency signal, the oscillator must have a low phase noise. Therefore, the resonator used in the oscillator must provide a high QL. Therefore, in this paper, we have proposed a low-phase-noise X-band oscillator that used a resonator with a high value of QL as a sensor for tissue-locating applications. The resonator had a split-ring structure and consisted of an open-loaded, T-type stub with a high-QL; such high-QL levels were enabled by controlling the length of the open-circuit in the T-type stub. This led to the generation of only low-phase noise in the proposed oscillator. Experimental results showed that, at an operating frequency of 10.08 GHz, the output power was 18.66 dBm, the second harmonic suppression was −34.40 dBc, and the phase noise was −138.13 dBc/Hz at an offset of 100 kHz. This proposed oscillator can be used as a sensor to detect the location of tissues during laparoscopic surgery.

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