Perfectly-matched bandstop filters using lossy resonators

Guyette, Andrew C.; Hunter, I.C.; Pollard, R.D.; Jachowski, Douglas R.

doi:10.1109/mwsym.2005.1516646

Cited by 70 publications

(38 citation statements)

References 6 publications

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“…1, consider an impedance matrix (Fig. 2 (b)) in which two 2-port networks, N (1) and N (2) , are connected in cascade. For this purpose, let an impedance matrix of N (k) (k = 1, 2) be defined as…”

Section: Equivalent Circuitsmentioning

confidence: 99%

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Equivalent circuits and transmission zeros of the coupled square-loop resonator

Fujimoto

Murakami

Kitazawa

2007

IEICE Electron. Express

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Section: Equivalent Circuitsmentioning

confidence: 99%

“…Recently, in order to realize narrow bandstop filters like notch filters the coupled square-loop resonator was proposed in [1]. Thereafter, the design approach of such a resonator was discussed in [2]. Its approach is based on the assumption that the resonator is a lossy resonator circuit consisting of a series RLC circuit.…”

Section: Introductionmentioning

confidence: 99%

Equivalent circuits and transmission zeros of the coupled square-loop resonator

Fujimoto

Murakami

Kitazawa

2007

IEICE Electron. Express

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“…Various techniques have been proposed and developed in order to realize band-stop filter responses [1,2,7,9,[21][22][23][24][25]. The conventional technique to implement band-stop filters involves the use of shunt stubs with large circuits [1].…”

Section: Introductionmentioning

confidence: 99%

“…A new filter topology using lossy resonators has been introduced [2], where the topology can be used to partially compensate for the loss. The shortcoming of this type of filter is its large size, due to the second order resonator, which produces a single notch with an infinite attenuation.…”

Section: Introductionmentioning

confidence: 99%

A Novel Single and Dual-Band Miniaturized Matched Band-Stop Filter Using Stepped Impedance Resonator

Bakhit¹,

Wong²

2012

PIER C

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Abstract-In this paper in order to reduce the size and improve the performance of microwave filter, novel single and dual band matched band-stop filters are developed. A stepped impedance dual mode resonator is used, resulting in a much more compact size, than the conventional dual mode ring resonator that has an electrical length of 360 • . The proposed prototype is able to achieve high stop band attenuation even with low Q factor values. Moreover, for the short electrical length of this filter, the first spurious resonance occurs at 4.7 times the fundamental resonance frequency. Therefore, the proposed technique selectively removes only the fundamental resonance frequency when such a resonator is implemented. A theoretical analysis, along with an experimental prototype is proposed in order to demonstrate the feasibility of these proposed networks.

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“…A microstrip dual-mode loop resonator BSF has been developed for the aforementioned requirements [1,2]. In recent years, various topologies for microstrip dual-mode loop-resonators (DMLRs) have been reported to elucidate the mechanism of coupling between the two degenerated modes, which is mainly determined by the feed-line structure or different types of perturbation [1][2][3][4][5]. In [3][4][5], dual-mode BSFs have been illustrated to obtain high selectivity, low insertion loss and good stopband attenuation.…”

mentioning

confidence: 99%

Dual-band microstrip bandstop filter using dual-mode loop resonator

Chiou

Tai

2009

Electron. Lett.

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A dual-band bandstop filter (DBBSF) with a dual-mode loop resonator is presented. In order to allow the DBBSF to exhibit high skirt selectivity and to generate a wide rejection bandwidth a capacitive coupled-line section is introduced. By properly controlling the length of the coupled-line section and the cross-coupled capacitor, more than two finite transmission zeros were inserted at the stopband and enhanced the rejection bandwidth.Introduction: A high performance bandstop filter (BSF) is one of the most important components of microwave circuits. To meet the size requirements of modern microwave communications systems, BSFs with low insertion loss, sharp rejection and wide rejection bandwidth are in high demand. A microstrip dual-mode loop resonator BSF has been developed for the aforementioned requirements [1,2]. In recent years, various topologies for microstrip dual-mode loop-resonators (DMLRs) have been reported to elucidate the mechanism of coupling between the two degenerated modes, which is mainly determined by the feed-line structure or different types of perturbation [1][2][3][4][5]. In [3][4][5], dual-mode BSFs have been illustrated to obtain high selectivity, low insertion loss and good stopband attenuation. However, the loopresonator coupled to a thru-line is suitable for the design of narrowband BSFs. In this Letter, in order to achieve size reduction and a wide rejection bandwidth, a dual-mode BSF with a cross-coupled capacitor is proposed and a frequency-selecting coupling structure (FSCS) is implemented [6,7]. The basic FSCS is realised by using a capacitive coupled-line section between microstrip feeding lines. The rejection bandwidth is extended by the FSCS and the design of the DBBSF. Moreover, adjusting the length of the capacitive coupledlines can determine the centre frequency of the first stopband and produce three transmission zeros (TZs) which effectively enhance the rejection bandwidth. The proposed DBBSF achieves the stopband frequency at 2.1 GHz with over 100% fractional bandwidth. More than 20 dB rejection is measured from 1.1 to 3.4 GHz.

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Perfectly-matched bandstop filters using lossy resonators

Cited by 70 publications

References 6 publications

Equivalent circuits and transmission zeros of the coupled square-loop resonator

Equivalent circuits and transmission zeros of the coupled square-loop resonator

A Novel Single and Dual-Band Miniaturized Matched Band-Stop Filter Using Stepped Impedance Resonator

Dual-band microstrip bandstop filter using dual-mode loop resonator

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