Ultra-broadband microstrip directional couplers

Naeimi, Tohid; Ahmadi, Arash

doi:10.1049/iet-smt.2020.0067

Cited by 4 publications

(2 citation statements)

References 11 publications

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“…Figure 5a shows the π-type equivalent circuit of the two-port network of F d1 . The series impedance of this structure ( 1 Y is12 ), given by Equation (24), increases as the value of L in F d1 increases. The series impedance 1 Y is12 appears with a large coefficient in D 11 and D 12 according to Equation (15).…”

Section: Improving Coupling Coefficient and Directivitymentioning

confidence: 99%

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Design and analysis of a tunable broadband 180‐degree active coupler with low phase‐error and high‐directivity using staggering technique

Sadi

Nabavi

Dousti

2022

IET Circuits, Devices & Syst

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This study presents the design and analysis of a 180°tunable non-reciprocal active broadband coupler. To increase the bandwidth, the multi-section impedance transformation technique is utilised. The coupler includes two amplifiers, and three filters (phase-shifters) on the gate (drain) line, referred to as through-path (coupled-path). To achieve an accurate 180°broadband coupler, the staggering technique is utilised for designing the filters. Lumped-element analysis, adopted here for the first time to analyse the active coupler, reveals the impacts of each element on directivity, output phase-shift, and phase-error. The design and post-layout simulation of the coupler are performed in 0.18 µm CMOS technology over the frequency range of 10-20 GHz. An output phase of 180°� 1.7°, a directivity more than 27 dB, and a return loss better than 10 dB are achieved. The coupling gain is 7.7 dB at the centre frequency, the noise figure is 4.8 dB, and the power consumption is 22 mW. By tuning the bias voltage, the phase imbalance caused by process variations can be compensated. Also, a prototype of the coupler was fabricated and tested on a Rogers substrate for 8-10 GHz band, giving an output phase of 180°� 2°and a directivity >15 dB.

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Section: Improving Coupling Coefficient and Directivitymentioning

confidence: 99%

“…With increasing demand for high data rate communications, dual-or multi-band couplers have been introduced [22][23][24]. Nevertheless, further improvement of directivity, noise, resolution and phase accuracy are necessary.…”

Section: Introductionmentioning

confidence: 99%

Design and analysis of a tunable broadband 180‐degree active coupler with low phase‐error and high‐directivity using staggering technique

Sadi

Nabavi

Dousti

2022

IET Circuits, Devices & Syst

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High power, broadband, coaxial to microstrip bi‐directional coupler in the VHF/UHF band

Naeimi,

Ahmadi

2024

IET Science Measure & Tech

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Broadband couplers consist usually of multiple coupled lines that are each a quarter wave‐length long. Herein, in contrast to conventional methods, a short length of a microstrip line is coupled to a coaxial line. The length of the coupled microstrip line is small compared to the wavelength at the lowest operating frequency. The coupling is weak and the microstrip line is λ/8 at the highest operating frequency. The proposed structure resembles a pair of coupled lines with a linear coupling response. The coupling exhibits a slope of 6 dB/octave over multi‐octave bandwidth. The microstrip line is connected to a lumped element compensating network at the coupled port. The compensating network is a low‐pass circuit with a slope of −6 dB/octave. The power handling of the coupler is high due to the coaxial line and the weakly coupled microstrip line. Electromagnetic simulations and analytical formulations are presented. The broadband coupler handles nearly 1 kW of input power. Due to the weak coupling of the microstrip‐coaxial coupler, the lumped element circuit needs to handle <1.5 W. A high‐power coupler has been fabricated for the frequency range of 30 to 500 MHz. It exhibits a coupling response of 56 ± 0.4 dB.

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A novel compact directional coupler with high directivity based on CRLH transmission lines

Adab,

Ghalamkari,

Eskandari

2024

Journal of Electromagnetic Waves and Applications

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Ultra-broadband microstrip directional couplers

Cited by 4 publications

References 11 publications

Design and analysis of a tunable broadband 180‐degree active coupler with low phase‐error and high‐directivity using staggering technique

Design and analysis of a tunable broadband 180‐degree active coupler with low phase‐error and high‐directivity using staggering technique

High power, broadband, coaxial to microstrip bi‐directional coupler in the VHF/UHF band

A novel compact directional coupler with high directivity based on CRLH transmission lines

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