Nima Shahpari scite author profile

SummaryLow‐voltage high‐precision comparators are the main building blocks of many low‐power mixed‐mode electronic devices. In this paper, a rail‐to‐rail high‐precision comparator is introduced. The proposed comparator uses 2 parallel input P‐type metal‐oxide‐semiconductor pairs with a dynamic level shifter to ensure rail‐to‐rail operation. Moreover, the proposed circuit incorporates a rail‐to‐rail offset cancellation circuit. The offset cancellation circuit works based on a time domain bulk‐tuned negative feedback loop. The proposed comparator and offset cancellation circuits are designed to work correctly when the input common mode voltage varies from rail to rail. The rail‐to‐rail scheme allows the use of the proposed comparator in nanometer technologies, where the acceptable input range is limited. The proposed circuit was simulated in a standard 180 nm complementary metal‐oxide‐semiconductor technology, and the results proved the rail‐to‐rail comparison ability in addition to the rail‐to‐rail offset cancellation function. The overall power consumption of the comparator was only increased by 11% compared with the conventional non–rail‐to‐rail approach. The maximum clock frequency of the proposed circuit is 833 MHz, which is slightly more than its counterpart at similar operation conditions.

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A 12-Bit Low-Input Capacitance SAR ADC With a Rail-to-Rail Comparator

Shahpari

Habibi

Malcovati

et al. 2023

IEEE Access

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Corrigendum to ‘‘A Multilevel Memristor-CMOS memory cell as A ReRAM’’ [Microelectron. J. 46 (2015) 1283–1290]

Rabbani

Dehghani

Shahpari

2016

Microelectronics Journal

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Nima Shahpari

A multilevel memristor–CMOS memory cell as a ReRAM

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A rail‐to‐rail low‐power latch comparator with time domain bulk‐tuned offset cancellation for low‐voltage applications

A 12-Bit Low-Input Capacitance SAR ADC With a Rail-to-Rail Comparator

Corrigendum to ‘‘A Multilevel Memristor-CMOS memory cell as A ReRAM’’ [Microelectron. J. 46 (2015) 1283–1290]

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