Andrea Morici scite author profile

Andrea Morici

5Publications

7Citation Statements Received

12Citation Statements Given

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Affiliations

Infineon Technologies (Germany), Marche Polytechnic University, Infineon Technologies (Austria)

Publications

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A 3.6mW 90 nm CMOS 2.4 GHz receiver front-end design for IEEE 802.15.4 WSNs

Morici

Rodriguez

Rusu

et al. 2009

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In this paper a low-power design of an integrated RF receiver for Wireless Sensor Networks (WSNs) in 90 nm CMOS technology is proposed. The receiver is IEEE 802.15.4 physical specifications compliant. It is designed to operate in ISM band at 2.45 GHz center frequency. Target devices for this kind of transceiver are low-cost battery powered smart embedded devices and sensors. The receiver is designed to reduce the count of external components in the final system, integrating on silicon the balun for single-ended to differential conversion. The receiver is composed of an inductorless Low Noise Amplifier (LNA), a buffer stage, I and Q passive mixers and Variable Gain Amplifiers (VGAs) that also act as second order filters. A novel integration of balun into the LNA is described. The system is designed to have direct conversion from RF to 6 MHz low-IF. Voltage supply is 1.2 V with a current consumption of 3 mA including necessary biasing networks, and the total power consumption is 3.6 mW. The complete voltage gain is more than 41.5 dB with a Noise Figure (NF) of 12.6 dB. The receiver layout exhibits an area of only 0.12 mm 2 . Simulations are provided, including mismatch scenarios.

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A fully monolithic integrated anisotropic magnetoresistance based angle sensor for automotive

Witschnig

Morici

Schaffer

et al. 2013

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Radiation damage in soft ferromagnetic materials for enhanced inductor cores operating in extreme environments

Baccaro¹,

Ghisolfi²,

Mannarino³

et al. 2012

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2.4GHZ WIRELESS ELECTROMYOGRAPH SYSTEM WITH STATISTICALLY OPTIMAL AUTOMATIC GAIN CONTROL - Design and Performance Analysis

Morici¹,

Biagetti²,

Turchetti³

2009

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Efficient Synthesis of Piano Tones with Damped Bessel Functions

Biagetti

Crippa

Turchetti

et al. 2007

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In this paper a novel technique for efficient synthesis of waveforms generated by musical instruments is presented. This methodology represents single tones produced by musical instruments as a series of orthogonal Bessel functions, similarly to an additive synthesis that, instead, uses sinusoidal partials. Bessel functions possess a pitch that slowly varies with time, and are thus suited to model musical tones that usually exhibit similar characteristics.A comparative listening test has been performed, and the synthetically created piano sounds have been compared to those generated by traditional additive synthesis. Bessel-based synthesis generally achieved a higher score than the sinusoidal-based approach.The limited amount of memory resources used makes this technique suitable to be implemented on a digital signal processor.

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Andrea Morici

A 3.6mW 90 nm CMOS 2.4 GHz receiver front-end design for IEEE 802.15.4 WSNs

A fully monolithic integrated anisotropic magnetoresistance based angle sensor for automotive

Radiation damage in soft ferromagnetic materials for enhanced inductor cores operating in extreme environments

2.4GHZ WIRELESS ELECTROMYOGRAPH SYSTEM WITH STATISTICALLY OPTIMAL AUTOMATIC GAIN CONTROL - Design and Performance Analysis

Efficient Synthesis of Piano Tones with Damped Bessel Functions

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