A Simple Circuit Approach to Improve Speed and Power Consumption in Pulse-Triggered Flip-Flops
In this paper, simple circuital techniques to design efficient pulse triggered flip-flops are presented. The proposed approach aims at considerably alleviating the detrimental effects of current contention mechanisms, occurring at critical switching nodes of the circuits. In this way,
both latency and power consumption of pulse triggered flip-flops are reduced. The proposed approach is assessed by means of simulations in 90-nm ST commercial CMOS technology. When applied to some recently proposed implicit pulse triggered flip-flop architectures, the suggested design strategy,
allows speed to be improved up to 13% and power-delay-product to be lowered down to 14%. Moreover, also the process variation tolerance is considerably improved.
Keywords: FLIP-FLOP; LOW-POWER; PULSE-TRIGGERED
Document Type: Research Article
Publication date: 01 December 2013
- The electronic systems that can operate with very low power are of great technological interest. The growing research activity in the field of low power electronics requires a forum for rapid dissemination of important results: Journal of Low Power Electronics (JOLPE) is that international forum which offers scientists and engineers timely, peer-reviewed research in this field.
- Editorial Board
- Information for Authors
- Subscribe to this Title
- Terms & Conditions
- Ingenta Connect is not responsible for the content or availability of external websites
- Access Key
- Free content
- Partial Free content
- New content
- Open access content
- Partial Open access content
- Subscribed content
- Partial Subscribed content
- Free trial content