A High Accuracy, Low Power, Reproducible Temperature Telemetry System |
Author(s): |
Ankur Sharma , Poornima College of Engineering ; Ankur Sharma, Poornima College of Engineering ; Gaurav Soni, poornima college of engieneering |
Keywords: |
CMOS, memory access time, SRAMs |
Abstract |
Sense amplifiers are extensively used in memory. Sense amplifiers are one of the most vital circuits in the periphery of CMOS memories. We know that memory is the heart of all digital systems. Today all worlds are demanding high speed and low power dissipation as well as small area. We know that speed and power dissipation of memory is overall depends upon the sense amplifier we used and their performance strongly affects both memory access time, and overall memory power dissipation. So it is important to design a good sense amplifier which performs well in both speed and power dissipation. In this dissertation, an implementation of a most efficient sense amplifier is done by comparing the best known sense amplifier in today. The dissertation focuses on design, simulation and performance analysis of sense amplifiers. In this thesis, current latch sense amplifier and body bias controlled current latch sense amplifier are designed and results compared. The result shows that the body bias controlled current latch sense amplifier is performing best. The result also shows a novel sense amplifier which consumes small power at same time its speed is faster than other sense amplifiers. |
Other Details |
Paper ID: IJSRDV2I9261 Published in: Volume : 2, Issue : 9 Publication Date: 01/12/2014 Page(s): 312-316 |
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