Abstract
This paper presents a novel approach to design robust Source Coupled Logic (SCL) for implementing ultra low power circuits. In this paper, we propose two different source coupled logic structures and analyze the performance of these structures with STSCL (Sub-threshold SCL). The first design under consideration is DTPMOS as load device which analyses the performance of Dynamic Threshold SCL (DTSCL) Logic with previous source coupled logic for ultra low power operation. DTSCL circuits exhibit a better power-delay Performance compared with the STSCL Logic. It can be seen that the proposed circuit provides 56% reduction in power delay product. The second design under consideration uses basic current mirror active load device to provide required voltage swing. Current mirror source coupled logic (CMSCL) can be used for high speed operation. The advantage of this design is that it provides 54% reduction in power delay product over conventional STSCL. The main drawback of this design is that it provides a higher power dissipation compared to other source coupled logic structures. The proposed circuit provides lower sensitivity to temperature and power supply variation, with a superior control over power dissipation. Measurements of test structures simulated in 0.18 μm CMOS technology shows that the proposed DTSCL logic concept can be utilized successfully for bias currents as low as 1 pA. Measurements show that existing standard cell libraries offer a good solution for ultra low power SCL circuits. Cadence Virtuoso schematic editor and Spectre Simulation tools have been used.
Highlights
The ever increasing attention on power consumption in circuit design has motivated a significant investigation of optimum design for minimizing energy or power for a given performance constraint
The first design under consideration is DTPMOS as load device which analyses the performance of Dynamic Threshold Source Coupled Logic (SCL) (DTSCL) Logic with previous source coupled logic for ultra low power operation
This paper explores performance comparison of two source coupled logic structures with previously available Sub Threshold Source Coupled Logic (STSCL) gates for implementing ultra-low-power digital systems
Summary
The ever increasing attention on power consumption in circuit design has motivated a significant investigation of optimum design for minimizing energy or power for a given performance constraint. Reduction in ION IOFF results in degradation of reliability and power efficiency of the circuit, requiring special design techniques to implement robust logic operations [9]. This paper explores performance comparison of two source coupled logic structures with previously available Sub Threshold Source Coupled Logic (STSCL) gates for implementing ultra-low-power digital systems. In this approach, the power consumption and maximum speed of operation can be adjusted linearly through the tail bias current of each gate over a very wide range [11,12], efficiently decoupling the decision of output voltage swing from power dissipation and delay.
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