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Minimizing the Noise in Low-Current Sensing by MOSFET PN-Junction Diode Feedback

Minimizing the Noise in Low-Current Sensing by MOSFET PN-Junction Diode Feedback 150 150
Author(s): Ehsan Semsar Parapari, Marco Bennati, Michele Biondi, Marco Crescentini, Federico Thei

Abstract:

This letter proposes a transimpedance amplifier (TIA) architecture that minimizes noise for continuous-time (CT) low-current sensing. The approach leverages a MOSFET to realize a pure PN-junction diode as the TIA feedback element, such that MOS channel conduction is completely suppressed. Therefore, channel-induced noise contributions associated with conventional MOS-based feedback TIAs …

Published in: IEEE Solid-State Circuits Letters
Page(s): 1 – 1
Year of Publication: 2026
Electronic ISSN: 2573-9603
DOI: 10.1109/LSSC.2026.3692971
Publisher: IEEE

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A Complementary Positive Feedback-Assisted Current Mirror-Based Level Shifter for Energy-Efficient Level Conversion for Wide Voltage Ranges

A Complementary Positive Feedback-Assisted Current Mirror-Based Level Shifter for Energy-Efficient Level Conversion for Wide Voltage Ranges 150 150
Author(s): Shin Han, Gicheol Shin, Jongmin Lee, Yoonmyung Lee

Abstract:

A complementary positive feedback-assisted current mirror-based level shifter (CPFLS) is proposed to reliably convert subthreshold signals to higher voltages. By adopting a positive feedback structure, the CPFLS mitigates the delay degradation and short-circuit current issues inherent in a prior art, WCMLS, due to its negative feedback design. Additionally, the CPFLS …

Published in: IEEE Journal of Solid-State Circuits
Page(s): 1 – 11
Year of Publication: 2026
Electronic ISSN: 1558-173X
DOI: 10.1109/JSSC.2026.3687258
Publisher: IEEE

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Comparative analysis of sense amplifier circuits for hybrid CMOS-MTJ CIM architecture

Comparative analysis of sense amplifier circuits for hybrid CMOS-MTJ CIM architecture 150 150
Author(s): Yashvardhan Singh, Siddharth Penumatsa, Prashanth Barla

Abstract:

Spin-transfer torque magnetic tunnel junction (STT-MTJ) is widely recognized as a promising device for computation-in-memory (CIM) architecture due to its advantages such as simple non-volatile structure, CMOS compatibility and scalability. In spite of the advantages, achieving a reliable and efficient sensing of STT-MTJ remains a design challenge. This work presents …

Published in: IEEE Journal on Exploratory Solid-State Computational Devices and Circuits
Page(s): 1 – 1
Year of Publication: 2026
Electronic ISSN: 2329-9231
DOI: 10.1109/JXCDC.2026.3690460
Publisher: IEEE

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A 760 mVPP-Input-Range, 103.6dB-SNDR Direct-Digitization Sensor Readout With Pseudo-Differential Integrator and Impedance-Equalized RDAC

A 760 mVPP-Input-Range, 103.6dB-SNDR Direct-Digitization Sensor Readout With Pseudo-Differential Integrator and Impedance-Equalized RDAC 150 150
Author(s): Kaiwen Zhou, Jianhong Zhou, Yijie Li, Yuying Li, Tian Dong, Zhiliang Hong, Jiawei Xu

Abstract:

A high-precision, direct-digitization sensor readout (DD-RO) based on a continuous-time delta-sigma modulator (CT- $\Delta \Sigma $ M) is presented. The proposed DD-RO incorporates several key innovations to enhance performance. First, a pseudo-differential current-balancing integrator (PD-CBI) significantly extends the linear input range, whereas its intrinsically limited common-mode input range and CMRR are …

Published in: IEEE Journal of Solid-State Circuits
Page(s): 1 – 13
Year of Publication: 2026
Electronic ISSN: 1558-173X
DOI: 10.1109/JSSC.2026.3686843
Publisher: IEEE

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A 3.47 NEF 175.2-dB FoMs Direct Digitization Front-End Featuring Delta Amplification Noise-Shaping SAR ADC for Biosignal Acquisition

A 3.47 NEF 175.2-dB FoMs Direct Digitization Front-End Featuring Delta Amplification Noise-Shaping SAR ADC for Biosignal Acquisition 150 150
Author(s): Kyeongwon Jeong, Can Livanelioglu, Jiawei Liao, Inhee Lee, Taekwang Jang

Abstract:

This article presents a direct-digitization interface for ExG bio-signals’ readout that simultaneously achieves a high dynamic range (DR) and a low noise-efficiency factor (NEF). The proposed delta amplification (DA) and feedback cancellation technique reduce both the input and output ranges of the first amplifier, thus allowing the use of a …

Published in: IEEE Journal of Solid-State Circuits
Page(s): 1 – 12
Year of Publication: 2026
Electronic ISSN: 1558-173X
DOI: 10.1109/JSSC.2026.3685168
Publisher: IEEE

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An 18.3-μW 108.3-dB DR Discrete-Time Delta-Sigma Modulator Using a Loop Filter Auto-Shift Technique

An 18.3-μW 108.3-dB DR Discrete-Time Delta-Sigma Modulator Using a Loop Filter Auto-Shift Technique 150 150
Author(s): Cong Wei, Ziqiang Peng, Lijie Huang, Jinze Lai, Rongshan Wei, Xiaoqiang Lu, Zhichao Tan

Abstract:

This article presents a discrete-time, third-order, single-loop, 17-level delta-sigma modulator (DSM) for high-dynamic-range sensor measurement applications, which employs a loop filter auto-shift (LFAS) technique. It uses an on-chip 1.5-bit Schmitt monitor to determine whether the input amplitude is large or small. The DSM automatically shifts to loop filter A for …

Published in: IEEE Journal of Solid-State Circuits
Page(s): 1 – 11
Year of Publication: 2026
Electronic ISSN: 1558-173X
DOI: 10.1109/JSSC.2026.3684106
Publisher: IEEE

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A 40k-Pixel Multimodal Biophysiology Monitoring Platform With 10k Concurrent Electrophysiology Channels and a Mixer-Embedded ΣΔ Impedance Sensor

A 40k-Pixel Multimodal Biophysiology Monitoring Platform With 10k Concurrent Electrophysiology Channels and a Mixer-Embedded ΣΔ Impedance Sensor 150 150
Author(s): Hangxing Liu, Fuze Jiang, Jingjing Zang, Marco Saif, Thomas Burger, Stephan C. F. Neuhauss, Hua Wang

Abstract:

Understanding complex physiological processes requires the ability to monitor multiple biological modalities concurrently, as electrical, ionic, and biochemical processes are tightly coupled and cannot be holistically described by single-mode sensors. This article presents a 40 nm CMOS multimodal cellular physiology monitoring platform that integrates 40 960 reconfigurable pixels at $10.8~\mu $ m pixel pitch. …

Published in: IEEE Journal of Solid-State Circuits
Page(s): 1 – 12
Year of Publication: 2026
Electronic ISSN: 1558-173X
DOI: 10.1109/JSSC.2026.3684715
Publisher: IEEE

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A 16× Interleaved 32-GS/s 8b Hybrid ADC With Self-Tracking Inter-Stage Gain Achieving 44.3-dB SFDR at 20.9-GHz Input

A 16× Interleaved 32-GS/s 8b Hybrid ADC With Self-Tracking Inter-Stage Gain Achieving 44.3-dB SFDR at 20.9-GHz Input 150 150
Author(s): Hongzhi Liang, Jun Chang, Yixiao Luo, Li Dang, Haolin Han, Yi Shen, Dengquan Li, Shubin Liu, Ruixue Ding, Zhangming Zhu

Abstract:

This article presents a 32-GS/s 16-channel hierarchical time-interleaved (TI) hybrid analog-to-digital converter (ADC). The prototype utilizes the intrinsic high-speed quantization of time-domain (TD) ADC to reduce the interleaving factor. By incorporating hierarchical sampling and a cascode sampler, the compact TI-ADC achieves 44.3-dB spurious-free dynamic range (SFDR) at 20.9-GHz input. …

Published in: IEEE Journal of Solid-State Circuits
Page(s): 1 – 11
Year of Publication: 2026
Electronic ISSN: 1558-173X
DOI: 10.1109/JSSC.2026.3680919
Publisher: IEEE

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A Continuous-Time Zoom Sensor Readout Frontend With Fast Tracking and Floating-Gm-CCO Integrator

A Continuous-Time Zoom Sensor Readout Frontend With Fast Tracking and Floating-Gm-CCO Integrator 150 150
Author(s): Haoyang Luo, Zongnan Wang, Jiarui Wang, Bingrui Li, Zilong Shen, Yang Liu, Xiaojie Duan, Yuan Wang, Xiyuan Tang

Abstract:

Emerging edge applications processing weak signals in noisy environments demand sensor readout frontends with low noise, low power, high dynamic range (DR), and high input impedance. This article presents a zoom sensor readout frontend design that can track signals with rapid changes over a wide DR with high energy efficiency. …

Published in: IEEE Journal of Solid-State Circuits
Page(s): 1 – 12
Year of Publication: 2026
Electronic ISSN: 1558-173X
DOI: 10.1109/JSSC.2026.3677053
Publisher: IEEE

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