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ORCIDArnab Dey 0002
Person information
- affiliation: International Institute of Information Technology, Hyderabad (IIIT-H), Center for VLSI and Embedded Systems Technology (CVEST), India
Other persons with the same name
- Arnab Dey — disambiguation page
- Arnab Dey 0001
![[0000-0001-9046-0876]](https://devdomain4test.ir/img/orcid-mark.12x12.png "0000-0001-9046-0876")
— Côte d'Azur University, I3S-CNRS, Nice, France - Arnab Dey 0003 — Indian Institute of Technology Roorkee (IIT-R), Department of Electrical Engineering, India
- Arnab Dey 0004 — Kalyani Government Engineering College, Department of Computer Science and Engineering, India
- Arnab Dey 0005 — University of Minnesota, Electrical and Computer Engineering, Twin Cities, Minneapolis, MN, USA
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2020 – today
- 2024
[j1]Bhartipudi Sahishnavi, Arnab Dey, Anubhab Banerjee, Andleeb Zahra, Zia Abbas:
A 275 pW, 0.5 V supply insensitive gate-leakage based current/voltage reference circuit for a wide temperature range of -55 to 100 °C without using amplifiers and resistors. Microelectron. J. 150: 106277 (2024)- [c6]Chetan Mittal, Arnab Dey, Anubhab Banerjee, Ashfakh Ali, Zia Abbas:
A 0.8-V, 593-pA Trim-free Duty-cycled All CMOS Current Reference for Ultra-Low Power IoT Applications. VLSID 2024: 599-604 - 2023
- [c5]Arnab Dey, Inhee Lee, Ashfakh Ali, Arpan Jain, Abhishek Pullela, Zia Abbas:
A 162nW, 0.845pJ/step Resistance-to-Digital Converter for Miniature Battery-Powered Sensing Systems. ISCAS 2023: 1-5 - [c4]Arnab Dey, Bharadwaj Subramaniam, Ashfakh Ali, Bhartipudi Sahishnavi, Abhishek Pullela, Zia Abbas:
A 2.3nW Gate-Leakage Based Sub-Bandgap Voltage Reference with Line Sensitivity of 0.0066%/V from -40°C to 150°C for Low-Power IoT Systems. ISCAS 2023: 1-5 - [c3]Bhartipudi Sahishnavi, Sampath Kumar, Ashfakh Ali, Arnab Dey, Inhee Lee, Zia Abbas:
A 0.5V, pico-watt, 0.06%/V / 0.03%/V low supply sensitive current/voltage reference without using amplifiers and resistors. ISCAS 2023: 1-5 - [c2]Chetan Mittal, Arnab Dey, Ashfakh Ali, Khanh M. Le, Zia Abbas:
A 37nW, All-in-One Trim-Free Voltage/Current Reference Without Using Resistors and Amplifiers. MWSCAS 2023: 50-54 - [c1]Abhinav Vajrala, Dheekshith Akula, Arnab Dey, Khanh M. Le, Zia Abbas:
A 250pA, Gate-Leakage Based Trimming Free Current Reference, from -55°C to 150°C for Lower Power IoT Applications. MWSCAS 2023: 152-156
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