Ieee Journal of Solid-state Circuits
Overview
The IEEE Journal of Solid-State Circuits (JSSC) is a prestigious peer-reviewed publication that focuses on the design, analysis, and implementation of integrated circuits and systems. It covers a wide range of topics including analog, digital, and mixed-signal circuits, as well as emerging technologies and applications. JSSC serves as a platform for researchers, engineers, and practitioners to exchange innovative ideas and advancements in the field of solid-state circuits.
Details
Details
Abbr.
IEEE J Solid-State Circuits
Start
1966
End
Continuing
Frequency
Monthly, 1991-
p-ISSN
0018-9200
Country
United States
Language
English
Metrics
Metrics
h-index / Ranks: 437
236
SJR / Ranks: 653
2876
CiteScore / Ranks: 1162
11.00
JIF / Ranks: 1377
5.4
Recent Articles
1.
Wang W, Yu Z, Zou Y, Woods J, Chari P, Su Y, et al.
IEEE J Solid-State Circuits
. 2025 Jan;
59(11):3599-3611.
PMID: 39830594
Miniature bioelectronic implants promise revolutionary therapies for cardiovascular and neurological disorders. Wireless power transfer (WPT) is a significant method for miniaturization, eliminating the need for bulky batteries in today's devices....
2.
Jang M, Hays M, Yu W, Lee C, Caragiulo P, Ramkaj A, et al.
IEEE J Solid-State Circuits
. 2024 Oct;
59(4):1123-1136.
PMID: 39391047
This paper presents a data-compressive neural recording IC for single-cell resolution high-bandwidth brain-computer interfaces. The IC features wired-OR lossy compression during digitization, thus preventing data deluge and massive data movement....
3.
Yang X, Ballini M, Sawigun C, Hsu W, Weijers J, Putzeys J, et al.
IEEE J Solid-State Circuits
. 2023 Oct;
58(4):949-960.
PMID: 37840542
The current demand for high-channel-count neural-recording interfaces calls for more area- and power-efficient readout architectures that do not compromise other electrical performances. In this paper, we present a miniature 128-channel...
4.
So E, Yeon P, Chichilnisky E, Arbabian A
IEEE J Solid-State Circuits
. 2023 May;
57(11):3429-3441.
PMID: 37138581
Single modality wireless power transfer has limited depth for mm-sized implants across air / tissue or skull / tissue interfaces because they either suffer from high loss in tissue (RF,...
5.
Bialek H, Binaie A, Ahasan S, Sadagopan K, Johnston M, Krishnaswamy H, et al.
IEEE J Solid-State Circuits
. 2023 Mar;
57(9):2611-2625.
PMID: 36937788
Wake-up receivers (WuRX) present an opportunity to reduce average power consumption of IoT transceivers, however achieving sensitivity and interferer tolerance while providing wideband matching and sharing an antenna interface present...
6.
Shin U, Ding C, Zhu B, Vyza Y, Trouillet A, Revol E, et al.
IEEE J Solid-State Circuits
. 2023 Feb;
57(11):3243-3257.
PMID: 36744006
Closed-loop neural interfaces with on-chip machine learning can detect and suppress disease symptoms in neurological disorders or restore lost functions in paralyzed patients. While high-density neural recording can provide rich...
7.
Song M, Huang Y, Visser H, Romme J, Liu Y
IEEE J Solid-State Circuits
. 2023 Feb;
57(12):3656-3668.
PMID: 36743394
This paper presents an implantable impulse-radio ultra-wideband (IR-UWB) wireless telemetry system for intracortical neural sensing interfaces. A 3-dimensional (3-D) hybrid impulse modulation that comprises phase shift keying (PSK), pulse position...
8.
He Y, Corradi F, Shi C, Ven S, Timmermans M, Stuijt J, et al.
IEEE J Solid-State Circuits
. 2023 Feb;
57(10):3058-3070.
PMID: 36741239
This paper presents a bio-inspired event-driven neuromorphic sensing system (NSS) capable of performing on-chip feature extraction and "send-on-delta" pulse-based transmission, targeting peripheral-nerve neural recording applications. The proposed NSS employs event-based...
9.
Xu Z, Khalifa A, Mittal A, Nasrollahpourmotlaghzanjani M, DAS D, Onabajo M, et al.
IEEE J Solid-State Circuits
. 2022 Dec;
57(11):3324-3335.
PMID: 36467393
This paper presents a fully integrated RF energy harvester (EH) with 30% end-to-end power harvesting efficiency (PHE) and supports high output voltage operation, up to 9.3V, with a 1.07 GHz...
10.
Yu Z, Chen J, He Y, Alrashdan F, Avants B, Singer A, et al.
IEEE J Solid-State Circuits
. 2022 Oct;
57(3):818-830.
PMID: 36275505
This paper presents a hardware platform including stimulating implants wirelessly powered and controlled by a shared transmitter for coordinated leadless multisite stimulation. The adopted novel single-transmitter, multiple-implant structure can flexibly...