A Bootstrapped 250-nm GaN MMIC N-Path Filter With a 31 dBm In-Band P1dB

Netanel Desta; Emanuel Cohen

doi:10.1109/LSSC.2024.3358083

A Bootstrapped 250-nm GaN MMIC N-Path Filter With a 31 dBm In-Band P1dB

Research output: Contribution to journal › Article › peer-review

Abstract

This work presents a second-order parallel N-path bandpass filter implemented in 250-nm depletion-mode GaN process leveraging an integrated baseband bootstrapping technique for high in-band linearity performance. The bootstrap circuit improves in-band compression by 20 dB by preventing the opening of the gate parasitic diode of the GaN switch. The filter achieves in-band P1dB of 31 dBm for a 26 MHz bandwidth around 1 GHz center frequency along with 2 dB insertion loss between 0.3-1.8 GHz with an out-of-band rejection of 16 dB. The chip occupies an area of 9.2 mm2 and consumes 4.9 Watt.

Original language	English
Pages (from-to)	1
Number of pages	1
Journal	IEEE Solid-State Circuits Letters
DOIs	https://doi.org/10.1109/LSSC.2024.3358083
State	Accepted/In press - 2024

Keywords

Band-pass filters
Bootstrap
Filtering theory
GaN
Linearity
Logic gates
N-path filter
Radio frequency
Switches
Transistors

ASJC Scopus subject areas

Electrical and Electronic Engineering

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10.1109/LSSC.2024.3358083

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title = "A Bootstrapped 250-nm GaN MMIC N-Path Filter With a 31 dBm In-Band P1dB",

abstract = "This work presents a second-order parallel N-path bandpass filter implemented in 250-nm depletion-mode GaN process leveraging an integrated baseband bootstrapping technique for high in-band linearity performance. The bootstrap circuit improves in-band compression by 20 dB by preventing the opening of the gate parasitic diode of the GaN switch. The filter achieves in-band P1dB of 31 dBm for a 26 MHz bandwidth around 1 GHz center frequency along with 2 dB insertion loss between 0.3-1.8 GHz with an out-of-band rejection of 16 dB. The chip occupies an area of 9.2 mm2 and consumes 4.9 Watt.",

keywords = "Band-pass filters, Bootstrap, Filtering theory, GaN, Linearity, Logic gates, N-path filter, Radio frequency, Switches, Transistors",

author = "Netanel Desta and Emanuel Cohen",

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year = "2024",

doi = "10.1109/LSSC.2024.3358083",

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N2 - This work presents a second-order parallel N-path bandpass filter implemented in 250-nm depletion-mode GaN process leveraging an integrated baseband bootstrapping technique for high in-band linearity performance. The bootstrap circuit improves in-band compression by 20 dB by preventing the opening of the gate parasitic diode of the GaN switch. The filter achieves in-band P1dB of 31 dBm for a 26 MHz bandwidth around 1 GHz center frequency along with 2 dB insertion loss between 0.3-1.8 GHz with an out-of-band rejection of 16 dB. The chip occupies an area of 9.2 mm2 and consumes 4.9 Watt.

AB - This work presents a second-order parallel N-path bandpass filter implemented in 250-nm depletion-mode GaN process leveraging an integrated baseband bootstrapping technique for high in-band linearity performance. The bootstrap circuit improves in-band compression by 20 dB by preventing the opening of the gate parasitic diode of the GaN switch. The filter achieves in-band P1dB of 31 dBm for a 26 MHz bandwidth around 1 GHz center frequency along with 2 dB insertion loss between 0.3-1.8 GHz with an out-of-band rejection of 16 dB. The chip occupies an area of 9.2 mm2 and consumes 4.9 Watt.

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KW - Logic gates

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A Bootstrapped 250-nm GaN MMIC N-Path Filter With a 31 dBm In-Band P1dB

Abstract

Keywords

ASJC Scopus subject areas

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