Vahid Baghi Rahin Articles List

List of Articles Vahid Baghi Rahin

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1 - A New 2-input CNTFET-Based XOR Cell With Ultra-Low Leakage Power For Low-Voltage and Low-Power Full Adders
Amir Baghi Rahin Vahid Baghi Rahin
20.1001.1.23223871.1398.10.37.2.6

The XOR gate is one of the basic building blocks in the Full Adder (FA) circuit, whose performance improvements can lead to improved Full Adder. For this purpose, in this paper, a new low voltage XOR cell based on Carbon Nanotube Field Effect Transistor (CNTFET) is prop More

The XOR gate is one of the basic building blocks in the Full Adder (FA) circuit, whose performance improvements can lead to improved Full Adder. For this purpose, in this paper, a new low voltage XOR cell based on Carbon Nanotube Field Effect Transistor (CNTFET) is proposed. The main design goals for this new circuit are low power dissipation, low leakage current and full voltage swing at a low supply voltage (Vdd = 0.5 V). Several XOR circuits were completely simulated using HSPICE with 32nm CMOS and 32nm CNTFET technologies at a low supply voltage. The proposed XOR circuit is compared with the previously known circuits and its outstanding performance is shown. Simulations show that the new low voltage XOR has lower power dissipation, less leakage current and lower PDP than other XOR circuits, and is resistant to process variations. Based on the results obtained at Vdd=0.5 V ,frequency=250 MHz and Cload=3.5 fF, the proposed XOR shows propagation delay of 149.05 ps, power consumption of 716.72 pW, leakage power of 25.1 pW and PDP of 10.683x10-21 J. The proposed XOR can be used well in low voltage and low power Full Adder circuits. Manuscript profile
Open Access Article
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2 - A 0.5 V Operational Transconductance Amplifier Based on Dynamic Threshold-Voltage MOSFET and Floating Gate MOSFET Inverters in 180 nm CMOS Technology
Amir Baghi Rahin Vahid Baghi Rahin
20.1001.1.23223871.1403.15.60.1.6

This paper presents a fully differential operational transconductance amplifier (OTA) based on the dynamic threshold-voltage MOSFET and floating gate MOSFET (DT/FGMOS) inverter with a supply voltage of 0.5 V. The proposed inverter in the structure of this OTA is a combi More

This paper presents a fully differential operational transconductance amplifier (OTA) based on the dynamic threshold-voltage MOSFET and floating gate MOSFET (DT/FGMOS) inverter with a supply voltage of 0.5 V. The proposed inverter in the structure of this OTA is a combination of the dynamic threshold-voltage MOSFET (DTMOS) technique (for all PMOS transistors) and the floating gate MOSFET (FGMOS) (for all NMOS transistors) in n-well process. In this circuit, feedforward and feedback paths have been used to limit the common-mode gain. The first stage has feedforward paths to eliminate the common-mode and the second stage has the common-mode feedback to stabilize the common-mode output voltage on Vdd/2. Based on the post-layout simulation results, the proposed OTA showed a gain of 61 dB with a unity gain frequency (UGF) of 1.1 MHz under 13 pF load capacitors. With the studies performed by Monte Carlo analysis, it was found that the OTA based on the proposed inverter can perform well under process variations and device mismatches. The proposed circuit in 180 nm CMOS technology occupies an area of 0.182 mm2 from the chip. Its power consumption is 17 µW and it can be used in low voltage and low power applications including portable equipment. According to studies, the use of DTMOS and FGMOS techniques can lead to the effective reduction of the threshold voltage of transistors and the good performance of the proposed OTA at low voltage. Manuscript profile
Open Access Article
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3 - Ultra low voltage and low power 4-2 compressor using FinFET transistors
Amir Baghi Rahin Vahid Baghi Rahin
20.1001.1.23223871.1397.9.33.3.2

A compressor is basic building blocks of many arithmetic circuits. Design of smaller area, low power consumption and high speed compressor is always in demand. As the channel length approaches nanometer scale, the use of MOSFET as the basic device in compressor now has More

A compressor is basic building blocks of many arithmetic circuits. Design of smaller area, low power consumption and high speed compressor is always in demand. As the channel length approaches nanometer scale, the use of MOSFET as the basic device in compressor now has reaching its performance limits such as average power dissipation and speed. In this paper, a 1-bit full adder cell using FinFET transistor based on PTM 32nm process model with 0.6 V supply voltage for mobile applications is proposed. Then, the proposed full adder cell is used in the structure of compressor and performance of the proposed 4: 2 compressor is evaluated with the simulation results obtained from HSPICE. The main parameters of proposed compressor such as power compression, delay, power-delay product (PDP) and energy-delay product (EDP) were measured and its superior performance has been proved by various simulations. Also, in comparison of MOSFET based compressor, the number of transistors is decreased to 42. Manuscript profile

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List of Articles Vahid Baghi Rahin