Design of Low Leakage Arithmetic Logic circuit Using Efficient Power Gating Schemes

This paper presents a new realization of synthetic transformer using off the shelf active blocks. This proposed transformer is designed using operational transconductance amplifier (OTA), voltage differencing current conveyor (VDCC), resistor and capacitor. Use of VDCC helps to utilizes benefits of both voltage differencing unit and current conveyor. The working of proposed circuit is verified through simulations in LTSPICE using TSMC 180nm process characteristics. The proposed circuit offers the feature of adjusting primary and secondary self-inductances and mutual inductance independently. The bias current of the VDCC is used to control the primary and secondary self-inductance and mutual inductance of synthetic transformer.

show abstract

“…Figure 2 shows a coupled tuned circuit [7]. The mutually coupled circuit's equation matrix is provided as [2]:…”

Section: Basic Review Of Synthetic Transformermentioning

confidence: 99%

“…magnetic coupling between them. Although both coils are physically separated, but there is mutual inductance between the two [2]. Despite the absence of physical connection, the circuit is magnetic coupled and it provides excellent electrical isolation.…”

mentioning

confidence: 99%

Synthetic Transformer using Operational Transconductance Amplifier (OTA) and Voltage Differencing Current Conveyor (VDCC)

Yadav

Aggrawal

2022

IJEER

View full text Add to dashboard Cite

show abstract

Design and Leakage Power Optimization of 6T Static Random Access Memory Cell Using Cadence Virtuoso

Banu

Gupta

2022

IJEER

View full text Add to dashboard Cite

Reduction of Leakage power at nano meter regime has become a challenging factor for VLSI designers. This is owing to the need for low-power, battery-powered portable pads, high-end gadgets and various communication devices. Memories are made up of Static RAM and Dynamic RAM. SRAM has had a tremendous impact on the global VLSI industry and is preferred over DRAM because of its low read and write access time. This research study proposes a new method has been proposed of 6T Static Random Access Memory cell to decrease the leakage current at various technologies. Three source biasing methods are used to minimize the 6T SRAM cell leakage power. The three methods are NMOS diode clamping, PMOS diode clamping and NMOS-PMOS diode clamping at 45 nm and 90 nm technology nodes. This paper also emphasizes on the implementation of 6T SRAM cell using Multiple Threshold CMOS (MTCMOS) technique at 45nm technology. The simulation is achieved and various power dissipations are analyzed at supply voltage of 0.9 V and 0.45 V for 90 nm and 45 nm technology respectively using cadence virtuoso tool. PMOS clamping has shown the reduction in an average power by 82.19% than compared to other two proposed techniques.

show abstract

Design of Low Leakage Arithmetic Logic circuit Using Efficient Power Gating Schemes

Cited by 2 publications

References 12 publications

Synthetic Transformer using Operational Transconductance Amplifier (OTA) and Voltage Differencing Current Conveyor (VDCC)

Synthetic Transformer using Operational Transconductance Amplifier (OTA) and Voltage Differencing Current Conveyor (VDCC)

Design and Leakage Power Optimization of 6T Static Random Access Memory Cell Using Cadence Virtuoso

Contact Info

Product

Resources

About