Design of a four stages VCO using a novel delay circuit for operation in distributed band frequencies

Gogoi, Mriganka; Dutta, Pradip

doi:10.2298/fuee2204469g

Facta Univ Electron Energ

2022

DOI: 10.2298/fuee2204469g

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Design of a four stages VCO using a novel delay circuit for operation in distributed band frequencies

Mriganka Gogoi

Pradip Dutta

Abstract: The manuscript proposes a novel architecture of a delay cell that is implemented in 4-stage VCO which has the ability to operate in two distributed frequency bands. The operating frequency is chosen based on the principle of carrier mobility and the transistor resistance. The VCO uses dual delay input techniques to improve the frequency of operation. The design is implemented in Cadence 90nm GPDK CMOS technology and simulated results show that it is capable of operating in dual frequency band… Show more

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2024

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A wide tuning range CMOS differential ring VCO using an active inductor for wireless applications

Alijani,

Javanmardi,

Abrishamifar

2024

Circuit Theory & Apps

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A differential ring voltage‐controlled oscillator (DRVCO) is proposed in this paper as one of the critical blocks in communication systems. It consists of four stages of delay cells connected in a chain, creating a ring structure with auxiliary path interconnections. The oscillation frequency of the DRVCO can be controlled by adjusting the tuning voltage that controls the charging current. To achieve the desired performance for wireless applications, the Wu active inductor, which is a low‐noise and high‐quality factor active inductor, is employed in each delay cell for the first time. Using an active inductor provides a wide tuning range and also allows for proper phase noise and low power consumption. The proposed circuit is designed and simulated using standard 180‐nm CMOS technology with a 1.8‐V voltage source (VDD). The circuit is designed to achieve a tuning range of 2.15 GHz with a center frequency oscillation of 2.745 GHz, over the control voltage variation of 1.4 V (0 to 1.4 V). To achieve the desired performance, the circuit consumes an average power of 1.99 mW. It achieves a phase noise of − 91.2 dBc/Hz at 1 MHz offset frequency, indicating effective noise suppression. The figure of merit (FoM) for the circuit is − 156.9 dBc/Hz, representing its overall performance. The final layout of the circuit estimates an area of 0.00072 mm2. Various analyses, including Monte–Carlo simulations, PVT (process, voltage, temperature) variation analysis, and other relevant analyses, have been performed to ensure the reliable performance of the proposed circuit.

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A wide tuning range CMOS differential ring VCO using an active inductor for wireless applications

Alijani,

Javanmardi,

Abrishamifar

2024

Circuit Theory & Apps

View full text Add to dashboard Cite

show abstract

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Design of a four stages VCO using a novel delay circuit for operation in distributed band frequencies

Cited by 1 publication

References 31 publications

A wide tuning range CMOS differential ring VCO using an active inductor for wireless applications

A wide tuning range CMOS differential ring VCO using an active inductor for wireless applications

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