Antonio D. Martinez-Perez scite author profile

Antonio D. Martinez-Perez

5Publications

22Citation Statements Received

35Citation Statements Given

How they've been cited

How they cite others

Affiliations

Universidad de Zaragoza, University of Nottingham, Institute of Engineering

Publications

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A Highly Linear Low-Noise Transimpedance Amplifier for Indoor Fiber-Wireless Remote Antenna Units

et al. 2019

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This article presents an optimized design of a low-noise transimpedance amplifier (TIA) with high linearity for use in the downlink receiver of a remote antenna unit (RAU). The aim of this design is to be used in a cost-effective indoor distributed antenna system (DAS) for WLAN transmission using a mixed fiber-wireless system. The circuit topology consists of a fully differential shunt–shunt feedback TIA with digitally programmable transimpedance. An open-loop gain compensation technique is used to maintain stability and constant bandwidth (BW). The TIA has been fabricated in 65 nm CMOS technology with a 1.2 V voltage supply. The total power consumption of the TIA is 6 mW. A complete electrical and optical characterization with a 1550 nm PIN photodiode has been performed to demonstrate the reliable 54 Mb/s 802.11a WLAN transmission achieved with an error vector magnitude (EVM) lower than 3% for a 20 dB optical input range.

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Methodology for Performance Optimization in Noise- and Distortion-Canceling LNA

Martinez-Perez

Gimeno

Flandre

et al. 2019

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Impact of non-idealities on passive polyphase filter performance

Martinez-Perez

Morte

Aznar

et al. 2017

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High-frequency resonant gate driver for GaN HEMTs

Yan

Martinez-Perez

Castellazzi

2015

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CMOS Linear Laser Driver for Intermediate Frequency over Fiber (IFoF) Links

et al. 2023

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The main objective of the proposed linear laser driver (LLD) is to reduce signal distortion in an analog direct modulation laser configuration used for intermediate frequency over fiber links. This work draws on an open-loop configuration featuring two differential pair blocks in a cascade arrangement to achieve a bandwidth measurement of 415 MHz at the half-power point, a total harmonic distortion of 4.57% for a fundamental frequency of 100 MHz, and an amplitude of 100 mVpp. The LLD provides a gain of 12.3 dB for a differential output and an output impedance of 46 Ω. The design, layout, and integration correspond to the process design kit for TSMC 65-nm CMOS technology. Experimental results show the advantage over other previously reported laser drivers.

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