default search action
Google
Google Scholar
Semantic Scholar
Internet Archive Scholar
CiteSeerX
ORCIDCheng Huang 0004
Person information
- affiliation: Iowa State University, Ames, IA, USA
Other persons with the same name
- Cheng Huang — disambiguation page
- Cheng Huang 0001
![[0000-0003-3769-7211]](https://dblp.uni-trier.de./img/orcid-mark.12x12.png "0000-0003-3769-7211")
— University of Waterloo, Department of Electrical and Computer Engineering, Ontario, Canada - Cheng Huang 0002 — Microsoft Research, Redmond, WA, USA
- Cheng Huang 0003 — Sichuan University, Chengdu, China
- Cheng Huang 0005 — Southeast University, National ASIC Center, Nanjing, China
- Cheng Huang 0006 — Harbin University of Science and Technology, Heilongjiang Provincial Key Laboratory of Complex Intelligent System and Integration, Harbin, China
- Cheng Huang 0007 — Shanghai Jiao Tong University, UM-SJTU Joint Institute, Shanghai, China
- Cheng Huang 0008 — Cranfield University, School of Aerospace, Transport and Manufacturing, Cranfield, UK
Refine list
refinements active!
zoomed in on ?? of ?? records
view refined list in
export refined list as
2020 – today
- 2024
[j15]Jianqiang Jiang, Junyao Tang, Lei Zhao, Chenchang Zhan, Cheng Huang:
A 63% Efficiency 1.29-W Single-Link Multiple-Output (SLiMO) Isolated DC-DC Converter Using FPC Micro-Transformer With Local Voltage and Global Power Regulations. IEEE J. Solid State Circuits 59(3): 804-816 (2024)- [j14]Junyao Tang, Lei Zhao, Cheng Huang:
A Through-Power-Link Hysteretic-Controlled Capacitive Isolated DC-DC Converter With Enhanced Efficiency and Common-Mode Transient Immunity. IEEE J. Solid State Circuits 59(5): 1543-1555 (2024) - [j13]Lei Zhao, Junyao Tang, Kang Wei, Cheng Huang:
A 4-Phase DAB Current-Mode Hysteretic Controlled Buck Converter With Relaxed Inductor Requirements and Enhanced DC and Dynamic Performance. IEEE J. Solid State Circuits 59(5): 1556-1566 (2024) - [j12]Yi Tan, Cheng Huang, Hiroki Ishikuro:
Design of Dual Lower Bound Hysteresis Control in Switched-Capacitor DC-DC Converter for Optimum Efficiency and Transient Speed in Wide Loading Range for IoT Application. IEEE J. Solid State Circuits 59(6): 1823-1834 (2024) - [j11]Lei Zhao, Junyao Tang, Xin Zhang, Kang Wei, Raveesh Magod, Cheng Huang:
A 96.1% Efficiency Single-Inductor Multiple-Output (SIMO) Buck Converter With 2.1-A/ns Transient Speed and 2.2-A Maximum Current Capacity. IEEE J. Solid State Circuits 59(8): 2545-2556 (2024) - [c21]Junyao Tang, Jianqiang Jiang, Lei Zhao, Xin Zhang, Kang Wei, Cheng Huang:
A Monolithic 3-Level Single-Inductor Multiple-Output Buck Converter with State-Based Non-Linear Control Capable of Handling 1A/1.5ns Transient with On-Die LC. CICC 2024: 1-2 - [c20]Gang Liu, Han Wu, Chen Hu, Cheng Huang, Xun Liu, Junmin Jiang:
31.9 An 85-264Vac to 3-4.2Vdc 1.05W Capacitive Power Converter with Idle Power Reduction and 4-Phase 1/10X SC Converter Achieving 5.11mW Quiescent Power and 78.2% Peak Efficiency. ISSCC 2024: 1-3 - [c19]Yi Tan, Jianqiang Jiang, Cheng Huang, Hiroki Ishikuro:
Orthogonal Decomposition Based Digital Controller Design for Hybrid Converter. MWSCAS 2024: 1378-1382 - 2023
- [j10]Junyao Tang, Lei Zhao, Cheng Huang:
A Wireless Hysteretic Controlled Wireless Power Transfer System With Enhanced Efficiency and Dynamic Response for Bioimplants. IEEE J. Solid State Circuits 58(4): 1160-1171 (2023) - [c18]Shengnan Zhou, Xiangyu Mao, Cheng Huang, Rui Paulo Martins, Yan Lu:
A 23-nA Quiescent Current Output-Capacitorless LDO Regulator for IoT Devices. ASICON 2023: 1-4 - [c17]Jianqiang Jiang, Junyao Tang, Lei Zhao, Chenchang Zhan, Cheng Huang:
SLiMO: A 61.8% Efficiency Single-Link Multiple-Output Isolated DC-DC Converter Using Low-Cost FPC Micro- Transformer with Local Voltage and Global Power Regulation. CICC 2023: 1-2 - [c16]Muhammad Rizwan Khan, Kang Wei, Xin Zhang, Cheng Huang:
A Single-Inductor 4-Phase Hybrid Switched-Capacitor Topology for Integrated 48V-to-1V DC-DC Converters. ISCAS 2023: 1-5 - 2022
- [j9]Madhav Pathak, Shuo Xie, Cheng Huang, Ratnesh Kumar:
High-Voltage Triboelectric Energy Harvesting Using Multi-Shot Energy Extraction in 70-V BCD Process. IEEE Trans. Circuits Syst. II Express Briefs 69(5): 2513-2517 (2022) - [j8]Xun Liu, Junmin Jiang, Cheng Huang, Philip K. T. Mok:
Design Techniques for High-Efficiency Envelope-Tracking Supply Modulator for 5th Generation Communication. IEEE Trans. Circuits Syst. II Express Briefs 69(6): 2586-2591 (2022) - [j7]Xun Liu, Junmin Jiang, Cheng Huang, Philip K. T. Mok:
Loop Analysis and Stability Considerations of Hybrid PA Supply Modulators. IEEE Trans. Circuits Syst. II Express Briefs 69(10): 4143-4147 (2022) - [c15]Lei Zhao, Junyao Tang, Cheng Huang:
A Fully In-Package 4-Phase Fixed-Frequency DAB Hysteretic Controlled DC-DC Converter with Enhanced Efficiency, Load Regulation and Transient Response. CICC 2022: 1-2 - [c14]Si Yuan Sim, Junmin Jiang, Cheng Huang:
A Half-Bridge GaN Driver with Real-Time Digital Calibration for VGS Ringing Regulation and Slew-Rate Optimization in 180nm BCD. ISCAS 2022: 1492-1496 - [c13]Junyao Tang, Lei Zhao, Cheng Huang:
A 68.3% Efficiency Reconfigurable 400-/800-mW Capacitive Isolated DC-DC Converter with Common-Mode Transient Immunity and Fast Dynamic Response by Through-Power-Link Hysteretic Control. ISSCC 2022: 1-3 - 2021
- [c12]Muhammad Rizwan Khan, Farasat Munir, Cheng Huang:
An IoT-enabled Automated Tight-Glycemic-control System for Intensive Care. BioCAS 2021: 1-6 - [c11]Shuo Xie, Junyao Tang, Cheng Huang:
A 94.1% Efficiency 20-180W GaN-Based Full-Bridge Wireless Power Receiver for High-Power Wireless Chargers. ISCAS 2021: 1-4 - [c10]Junyao Tang, Lei Zhao, Cheng Huang:
A Wireless Power Transfer System with Up-to-20% Light- Load Efficiency Enhancement and Instant Dynamic Response by Fully Integrated Wireless Hysteretic Control for Bioimplants. ISSCC 2021: 470-472
2010 – 2019
- 2018
- [j6]Cheng Huang, Toru Kawajiri, Hiroki Ishikuro:
A 13.56-MHz Wireless Power Transfer System With Enhanced Load-Transient Response and Efficiency by Fully Integrated Wireless Constant-Idle-Time Control for Biomedical Implants. IEEE J. Solid State Circuits 53(2): 538-551 (2018) - [j5]Xun Liu, Cheng Huang, Philip K. T. Mok:
A High-Frequency Three-Level Buck Converter With Real-Time Calibration and Wide Output Range for Fast-DVS. IEEE J. Solid State Circuits 53(2): 582-595 (2018) - 2016
- [j4]Cheng Huang, Toru Kawajiri, Hiroki Ishikuro:
A Near-Optimum 13.56 MHz CMOS Active Rectifier With Circuit-Delay Real-Time Calibrations for High-Current Biomedical Implants. IEEE J. Solid State Circuits 51(8): 1797-1809 (2016) - [c9]Cheng Huang, Toru Kawajiri, Hiroki Ishikuro:
A wireless power transfer system with enhanced response and efficiency by fully-integrated fast-tracking wireless constant-idle-time control for implants. VLSI Circuits 2016: 1-2 - [c8]Xun Liu, Cheng Huang, Philip K. T. Mok:
A 50MHz 5V 3W 90% efficiency 3-level buck converter with real-time calibration and wide output range for fast-DVS in 65nm CMOS. VLSI Circuits 2016: 1-2 - 2015
- [j3]Cheng Huang, Philip K. T. Mok:
A Delay-Line-Based Voltage-to-Duty-Cycle Controller for High-Frequency PWM Switching Converters. IEEE Trans. Circuits Syst. II Express Briefs 62-II(8): 751-755 (2015) - [c7]Cheng Huang, Toru Kawajiri, Hiroki Ishikuro:
A near-optimum 13.56 MHz active rectifier with circuit-delay real-time calibrations for high-current biomedical implants. CICC 2015: 1-4 - [c6]Xun Liu, Cheng Huang, Philip K. T. Mok:
Dynamic performance analysis of 3-level integrated buck converters. ISCAS 2015: 2093-2096 - [c5]Junmin Jiang, Yan Lu, Cheng Huang, Wing-Hung Ki, Philip K. T. Mok:
20.5 A 2-/3-phase fully integrated switched-capacitor DC-DC converter in bulk CMOS for energy-efficient digital circuits with 14% efficiency improvement. ISSCC 2015: 1-3 - 2013
- [j2]Cheng Huang, Philip K. T. Mok:
An 84.7% Efficiency 100-MHz Package Bondwire-Based Fully Integrated Buck Converter With Precise DCM Operation and Enhanced Light-Load Efficiency. IEEE J. Solid State Circuits 48(11): 2595-2607 (2013) - [j1]Cheng Huang, Philip K. T. Mok:
A 100 MHz 82.4% Efficiency Package-Bondwire Based Four-Phase Fully-Integrated Buck Converter With Flying Capacitor for Area Reduction. IEEE J. Solid State Circuits 48(12): 2977-2988 (2013) - [c4]Cheng Huang, Lin Cheng, Philip K. T. Mok, Wing-Hung Ki:
High-side NMOS power switch and bootstrap driver for high-frequency fully-integrated converters with enhanced efficiency. ISCAS 2013: 693-696 - [c3]Cheng Huang, Philip K. T. Mok:
An 82.4% efficiency package-bondwire-based four-phase fully integrated buck converter with flying capacitor for area reduction. ISSCC 2013: 362-363 - 2012
- [c2]Xiaocheng Jing, Philip K. T. Mok, Cheng Huang, Fan Yang:
A 0.5V nanoWatt CMOS voltage reference with two high PSRR outputs. ISCAS 2012: 2837-2840 - 2011
- [c1]Cheng Huang, Philip K. T. Mok:
Cross-Regulation-Suppression control scheme for CCM Single-Inductor-Dual-Output buck converter with ordered-power-distributive control. ISCAS 2011: 1612-1615
Coauthor Index
manage site settings
To protect your privacy, all features that rely on external API calls from your browser are turned off by default. You need to opt-in for them to become active. All settings here will be stored as cookies with your web browser. For more information see our F.A.Q.
Unpaywalled article links
Add open access links from 
to the list of external document links (if available).
Privacy notice: By enabling the option above, your browser will contact the API of unpaywall.org to load hyperlinks to open access articles. Although we do not have any reason to believe that your call will be tracked, we do not have any control over how the remote server uses your data. So please proceed with care and consider checking the Unpaywall privacy policy.
Archived links via Wayback Machine
For web page which are no longer available, try to retrieve content from the 
of the Internet Archive (if available).
Privacy notice: By enabling the option above, your browser will contact the API of archive.org to check for archived content of web pages that are no longer available. Although we do not have any reason to believe that your call will be tracked, we do not have any control over how the remote server uses your data. So please proceed with care and consider checking the Internet Archive privacy policy.
Reference lists
Add a list of references from 
, 
, and 
to record detail pages.
load references from crossref.org and opencitations.net
Privacy notice: By enabling the option above, your browser will contact the APIs of crossref.org, opencitations.net, and semanticscholar.org to load article reference information. Although we do not have any reason to believe that your call will be tracked, we do not have any control over how the remote server uses your data. So please proceed with care and consider checking the Crossref privacy policy and the OpenCitations privacy policy, as well as the AI2 Privacy Policy covering Semantic Scholar.
Citation data
Add a list of citing articles from and to record detail pages.
load citations from opencitations.net
Privacy notice: By enabling the option above, your browser will contact the API of opencitations.net and semanticscholar.org to load citation information. Although we do not have any reason to believe that your call will be tracked, we do not have any control over how the remote server uses your data. So please proceed with care and consider checking the OpenCitations privacy policy as well as the AI2 Privacy Policy covering Semantic Scholar.
OpenAlex data
Load additional information about publications from 
.
Privacy notice: By enabling the option above, your browser will contact the API of openalex.org to load additional information. Although we do not have any reason to believe that your call will be tracked, we do not have any control over how the remote server uses your data. So please proceed with care and consider checking the information given by OpenAlex.
last updated on 2024-12-23 20:35 CET by the dblp team
all metadata released as open data under CC0 1.0 license
see also: Terms of Use | Privacy Policy | Imprint
dblp was originally created in 1993 at:
since 2018, dblp has been operated and maintained by:
the dblp computer science bibliography is funded and supported by:
