Your search keyword '"Coplanar waveguide (CPW)"' showing total 9 results

1. Two CMOS Wilkinson Power Dividers Using High Slow-Wave and Low-Loss Transmission Lines.

Author

Pakasiri, Chatrpol, Teng, Wei-Sen, and Wang, Sen

Subjects

POWER dividers, ELECTRIC lines, COMPLEMENTARY metal oxide semiconductors, INSERTION loss (Telecommunication), METALS

Abstract

This work presents two Wilkinson power dividers (WPDs) using multi-layer pseudo coplanar waveguide (PCPW) structures. The PCPW-based WPDs were designed, implemented, and verified in a standard 180 nm CMOS process. The proposed PCPW features high slow-wave and low-loss performances compared to other common transmission lines. The two WPDs are based on the same PCPW structure parameters in terms of line width, spacing, and used metal layers. One WPD was realized in a straight PCPW-based layout, and the other WPD was realized in a meandered PCPW-based layout. Both the two WPDs worked up to V-band frequencies, as expected, which also demonstrates that the PCPW guiding structure is less susceptible to the effects of meanderings on the propagation constant and characteristic impedance. The meandered design shows that the measured insertion losses were about 5.1 dB, and its return losses were better than 17.5 dB at 60 GHz. In addition, its isolation, amplitude imbalance, and phase imbalance were 18.5 dB, 0.03 dB, and 0.4°, respectively. The core area was merely 0.2 mm × 0.23 mm, or 1.8 × 10−3λo2. [ABSTRACT FROM AUTHOR]

Published

2024

2. Coplanar Waveguide (CPW) Loaded with Symmetric Circular and Polygonal Split-Ring Resonator (SRR) Shapes.

Author

Harnsoongnoen, Supakorn, Srisai, Saksun, and Kongkeaw, Pongsathorn

Subjects

*RESONATORS, *MICROWAVE circuits, *TELECOMMUNICATION systems, *ANTENNAS (Electronics), *METAMATERIALS

Abstract

This paper investigates the performance of coplanar waveguide (CPW) structures loaded with symmetric circular and polygonal split-ring resonators (SRRs) for microwave and RF applications, leveraging their unique electromagnetic properties. These properties make them suitable for metamaterials, sensors, filters, resonators, antennas, and communication systems. The objectives of this study are to analyze the impact of different SRR shapes on the transmission characteristics of CPWs and to explore their potential for realizing compact and efficient microwave components. The CPW-SRR structures are fabricated on a dielectric substrate, and their transmission properties and spectrogram are experimentally characterized in the frequency range of 4 GHz to 10 GHz with the rotation angles of the SRR gap. The simulation results demonstrate that the resonant frequencies and magnitude of the transmission coefficient of the CPW-SRR structures are influenced by the geometry of the SRR shapes and the rotation angles of the SRR gap, with certain shapes exhibiting enhanced performance characteristics compared to others. Moreover, the symmetric circular and polygonal SRRs offer design flexibility and enable the realization of miniaturized microwave components with improved performance metrics. Overall, this study provides valuable insights into the design and optimization of CPW-based microwave circuits utilizing symmetric SRR shapes, paving the way for advancements in the miniaturization and integration of RF systems. [ABSTRACT FROM AUTHOR]

Published

2024

3. A Single-Layer Multimode Metasurface Antenna with a CPW-Fed Aperture for UWB Communication Applications.

Author

Jiang, Shu, Liu, Zhiqiang, Yang, Huijun, and Sun, Dongquan

Subjects

APERTURE antennas, ANTENNAS (Electronics), IMPEDANCE matching, CURRENT distribution, BANDWIDTHS

Abstract

A single-layer multimode metasurface antenna is proposed with a coplanar waveguide (CPW)-fed aperture. The ultra-wideband (UWB) performance is implemented based on a three-step evolution process with the aid of characteristic mode analysis (CMA). Considering the efficient excitation with a fixed feeding structure, the metasurface modal current variation at different frequencies is analyzed and optimized, in addition to that at the resonant frequency. Correspondingly, the metasurface is firstly designed utilizing an array of 4 × 4 patches. Then, the 1 × 3 and the 1 × 1 parasitic patch arrays are located near the edge patches. Finally, every patch is split into two by a center slot along the current distribution of the required polarization. Four resonant modes of the metasurface become more desirable step by step and can be efficiently excited over the entire band. To enhance the impedance matching level, a pair of 5-stage gradient transitions are added to the CPW-fed slot. The slot mode combined with the four modes further improves the bandwidth. The experimental results demonstrate that the proposed antenna exhibits a 3 dB gain bandwidth of over 74% (4.0–8.7 GHz) with a peak gain of 8.2 dBi. The overall dimensions of the prototype are 1.40λ0 × 1.40λ0 × 0.075λ0 (λ0 is the free-space wavelength at 6 GHz). [ABSTRACT FROM AUTHOR]

Published

2023

4. A Substrate Integrated Waveguide-Based W-Band Antenna for Microwave Power Transmission.

Author

Liu, Liang, Yang, Yu, Yu, Chuan, Li, Shifeng, Wu, Hao, Sun, Limin, and Meng, Fanbao

Subjects

MICROWAVE power transmission, SUBSTRATE integrated waveguides, COPLANAR waveguides, MICROWAVE antennas, APERTURE antennas, SLOT antennas, REFLECTANCE

Abstract

A W-band slot array antenna based on a substrate integrated waveguide (SIW) for microwave power transmission (MPT) is proposed in this paper. By size optimization, the transition from the rectifier element to the antenna is limited to a small size. It realizes a compact arrangement of the radiating slots, which not only improves the aperture efficiency of the antenna but also makes it easy to integrate into a large-scale array. For antenna testing, a coplanar waveguide–SIW–rectangular waveguide transition structure is added at the end of the antenna, and an antenna with this transition structure is processed by PCB printing technology and measured. The measured reflection coefficient is less than −10 dB at 90–96 GHz, the aperture efficiency is greater than 60% at 93.5–94.5 GHz, the maximum gain is 13.2 dB at 93.5 GHz, and the aperture efficiency is 79%. The test results of the antenna show that the antenna has a good performance and can be applied to the MPT system as a rectenna. [ABSTRACT FROM AUTHOR]

Published

2022

5. Reconfigurable Coplanar Waveguide (CPW) and Half-Mode Substrate Integrated Waveguide (HMSIW) Band-Stop Filters Using a Varactor-Loaded Metamaterial-Inspired Open Resonator.

Author

Hinojosa, Juan, Saura-Ródenas, Adrián, Alvarez-Melcon, Alejandro, and Martínez-Viviente, Félix L.

Subjects

*COPLANAR waveguides, *MICROWAVE communication systems, *METAMATERIALS, *RESONATORS, *DIODES

Abstract

An open ring resonator (ORR) loaded with a varactor diode is designed and implemented in order to achieve high-performance tunable band-stop filters in planar technology with a compact size. This varactor-loaded ORR (VLORR) is versatile. It allows a shunt connection with different planar waveguide sections. In this paper, it has been connected to a coplanar waveguide (CPW) and a half-mode substrate integrated waveguide (HMSIW). As a reverse bias voltage is applied to the VLORR, a continuous tuning over the resulting stop-band can be achieved. To illustrate the possibilities of the VLORR, three prototypes have been designed, fabricated, and characterized. The three prototypes show an outstanding performance, with a rejection level at the resonant frequency and a tuning range greater than 12 dB and 85%, respectively. This VLORR has high potential value in microwave communication systems to eliminate unwanted signals. [ABSTRACT FROM AUTHOR]

Published

2018

6. CPW Fed Compact UWB 4-Element MIMO Antenna with High Isolation.

Author

Yin, Wenfei, Chen, Shaoxiang, Chang, Junjie, Li, Chunhua, Khamas, Salam K., and Falcone, Francisco

Subjects

*MONOPOLE antennas, *ANTENNAS (Electronics), *IMPEDANCE matching, *STATISTICAL correlation, *ULTRA-wideband devices

Abstract

In the paper, an extremely compact multiple-input-multiple-output (MIMO) antenna is proposed for portable wireless ultrawideband (UWB) applications. The proposed prototype consists of four monopole antenna elements, which are placed perpendicularly to achieve polarization diversity. In addition, the mutual coupling between antenna elements is suppressed by designing the gap between the radiation element and the ground plane. Moreover, a matching stub has been connected to the feedline to ensure impedance matching in high frequency. Both simulated and measured results indicate that the proposed antenna has a bandwidth of 3–20 GHz, with a high isolation better than 17 dB. In addition, the designed MIMO antenna offers excellent radiation characteristics and stable gain over the whole working band. The envelope correlation coefficient (ECC) is less than 0.1, which shows that the antenna can meet the polarization diversity characteristics well. [ABSTRACT FROM AUTHOR]

Published

2021

7. Compact Ultra-Wideband Phase Inverter Using Microstrip-CPW-Slotline Transitions.

Author

Mohyuddin, Wahab, Lee, Gwan Hui, Woo, Dong Sik, Choi, Hyun Chul, and Kim, Kang Wook

Subjects

IMPEDANCE matching, INSERTION loss (Telecommunication), COPLANAR waveguides, MICROSTRIP transmission lines

Abstract

A planar ultra-wideband phase inverter, which consists of a series of transitions between microstrip, coplanar waveguide, and slotline, is designed and implemented. This compact-sized phase inverter can be used to generate wideband 180° phase differential signals, especially at high microwave frequencies up to millimeter-waves. The design is based on the impedance matching and smooth field transformation between the transitional stages. The fabricated transition has dimensions of 7.36 mm × 5.08 mm, and provides ultra-wide frequency bandwidth from 13 GHz to 38 GHz with low insertion loss of better than 2 dB within ±5° phase deviation and with return loss of greater than 10 dB. [ABSTRACT FROM AUTHOR]

Published

2021

8. Reconfigurable coplanar waveguide (CPW) and half-mode substrate integrated waveguide (HMSIW) band-stop filters using a varactor-loaded metamaterial-inspired open resonator

Author

Ministerio de Economía, Industria y Competitividad, Fundación Séneca, Fondo Europeo de Desarrollo Regional‏, Hinojosa Jiménez, Juan, Saura Ródenas, Adrián, Melcón Álvarez, Alejandro, Martínez Viviente, Felix Lorenzo, Ministerio de Economía, Industria y Competitividad, Fundación Séneca, Fondo Europeo de Desarrollo Regional‏, Hinojosa Jiménez, Juan, Saura Ródenas, Adrián, Melcón Álvarez, Alejandro, and Martínez Viviente, Felix Lorenzo

Abstract

An open ring resonator (ORR) loaded with a varactor diode is designed and implemented in order to achieve high-performance tunable band-stop filters in planar technology with a compact size. This varactor-loaded ORR (VLORR) is versatile. It allows a shunt connection with different planar waveguide sections. In this paper, it has been connected to a coplanar waveguide (CPW) and a half-mode substrate integrated waveguide (HMSIW). As a reverse bias voltage is applied to the VLORR, a continuous tuning over the resulting stop-band can be achieved. To illustrate the possibilities of the VLORR, three prototypes have been designed, fabricated, and characterized. The three prototypes show an outstanding performance, with a rejection level at the resonant frequency and a tuning range greater than 12 dB and 85%, respectively. This VLORR has high potential value in microwave communication systems to eliminate unwanted signals.

Published

2017

9. Reconfigurable Coplanar Waveguide (CPW) and Half-Mode Substrate Integrated Waveguide (HMSIW) Band-Stop Filters Using a Varactor-Loaded Metamaterial-Inspired Open Resonator.

Author

Hinojosa J, Saura-Ródenas A, Alvarez-Melcon A, and Martínez-Viviente FL

Abstract

An open ring resonator (ORR) loaded with a varactor diode is designed and implemented in order to achieve high-performance tunable band-stop filters in planar technology with a compact size. This varactor-loaded ORR (VLORR) is versatile. It allows a shunt connection with different planar waveguide sections. In this paper, it has been connected to a coplanar waveguide (CPW) and a half-mode substrate integrated waveguide (HMSIW). As a reverse bias voltage is applied to the VLORR, a continuous tuning over the resulting stop-band can be achieved. To illustrate the possibilities of the VLORR, three prototypes have been designed, fabricated, and characterized. The three prototypes show an outstanding performance, with a rejection level at the resonant frequency and a tuning range greater than 12 dB and 85%, respectively. This VLORR has high potential value in microwave communication systems to eliminate unwanted signals., Competing Interests: The authors declare no conflict of interest.

Published

2017