Blar i NTNU Open på forfatter "Naderi, Kebria"
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A Fully Tunable Low-power Low-noise and High Swing EMG Amplifier with 8.26 PEF
Naderi, Kebria; Habibzadeh Tonekabony Shad, Erwin; Molinas Cabrera, Maria Marta; Heidari, Ali (Chapter, 2020)In this paper, a low-noise low-power bio-potential amplifier for electromyogram (EMG) signals have designed and simulated in a commercially available 0.18 μm CMOS technology. In the first stage, a tunable band low-noise ... -
High Input Impedance Capacitively-coupled Neural Amplifier and Its Boosting Principle
Habibzadeh Tonekabony Shad, Erwin; Naderi, Kebria; Molinas Cabrera, Maria Marta (Chapter, 2020)This article proposes a technique for increasing the input impedance of conventional capacitively-coupled neural amplifiers based on careful examination of its analytical model. Following the precise derivation of the input ... -
A Power Efficient Low-noise and High Swing CMOS Amplifier for Neural Recording Applications
Naderi, Kebria; Habibzadeh Tonekabony Shad, Erwin; Molinas Cabrera, Maria Marta; Heidari, Ali (Peer reviewed; Journal article, 2020)In this paper, a power efficient, low-noise and high swing capacitively-coupled amplifier (CCA) for neural recording applications is proposed. The use of current splitting technique and current scaling technique in a current ... -
A Power-Efficient Low-noise and High Swing CMOS Amplifier for Neural Recording Applications
Naderi, Kebria; Habibzadeh Tonekabony Shad, Erwin; Molinas Cabrera, Maria Marta; Heidari, Ali (Chapter, 2020)In this paper, a power efficient, low-noise and high swing capacitively-coupled amplifier (CCA) for neural recording applications is proposed. The use of current splitting technique and current scaling technique in a current ... -
A Very Low SEF Neural Amplifier by Utilizing a High Swing Current-Reuse Amplifier
Naderi, Kebria; Habibzadeh Tonekabony Shad, Erwin; Molinas, Marta Maria Cabrera; Heidari, Ali; Ytterdal, Trond (Chapter, 2020)Although current-reuse amplifier has been widely used in biomedical applications because of their low input-referred thermal noise, they don't have high output swing and their gain is limited. In this article, a rail-to-rail ...