Model and Design of Improved Current Mode Logic Gates
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Model and Design of Improved Current Mode Logic Gates

Model and Design of Improved Current Mode Logic Gates


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International Edition


About the Book

CHAPTER 1 INTRODUCTION
1.1 Background1.2 Available Literature 1.2.1 Various CML topologies1.2.2 Modeling and Design Approaches1.2.3 System Application1.3 Organization of the Book
CHAPTER 2 CML GATES: BASIC CONCEPTS
2.1 Introduction2.2 Basic Concepts2.3 Differential CML Gates2.3.1 Operation of the differential CML inverter 2.3.2 Analysis of the differential CML inverter 2.3.2.1 Static model2.3.2.2 Delay model2.3.3 Design of the differential CML inverter2.3.4 Realization of the basic gates2.4 Single-ended CML Gates2.4.1 Operation of the PFSCL inverter 2.4.2 Analysis of the PFSCL inverter 2.4.2.1 Static model2.4.2.2 Delay model2.4.3 Design of the PFSCL inverter2.4.4 Realization of the basic gates2.5 Concluding Remarks
CHAPTER 3 DIFFERENTIAL CML GATES WITH MODIFIED PDN
3.1 Introduction3.2 Literature Survey3.3 New Appraoch3.4 Improved Combinational Gates with Modified PDN3.4.1 Operation of the improved XOR gate3.4.2 Analysis of the improved XOR gate3.4.2.1 Static model3.4.2.2 Delay model3.4.3 Design of the improved XOR gate3.4.4 Performance comparison3.4.4.1 High speed design3.4.4.2 Power efficient design3.4.4.3 Low power design3.5 Improved Sequential Gates with Modified PDN 3.5.1 Operation of the improved D latch3.5.2 Analysis of the improved D latch 3.5.2.1 Static model3.5.2.2 Delay model3.5.3 Design of the improved D latch3.5.4 Performance comparison3.5.4.1 High speed design3.5.4.2 Power efficient design3.5.4.3 Low power design3.6 Concluding Remarks
CHAPTER 4 CML GATES WITH MODIFIED CURRENT SOURCE
4.1 Introduction4.2 Survey of the Current Source Modifications4.3 Dynamic Current Source4.3.1 Existing NN-dynamic current source4.3.2 New NP-dynamic current source4.4 Improved Differential CML Gates with NP-dynamic current source4.4.1 Operation of the D-MCML-NP inverter4.4.2 Design of the D-MCML-NP inverter4.4.3 Power consumption analysis4.5 Improved PFSCL Gates with NN-dynamic current source 4.5.1 Operation of the D-PFSCL-NN inverter 4.5.2 Design of the D-PFSCL-NN inverter 4.5.3 Power consumption analysis4.6 Improved PFSCL Gates with NP- dynamic current source4.6.1 Operation of the D-PFSCL-NP inverter4.6.2 Design of the D-PFSCL-NP inverter4.6.3 Power consumption analysis4.7 Multi-stage Applications4.7.1 Existing self-timed buffer4.7.2 Improved self-timed buffer4.8 Performance Comparison4.8.1 Performance comparison of the differential D-CML gates4.8.2 Performance comparison of the D-PFSCL gates4.9 Concluding Remarks
CHAPTER 5 CML GATES WITH MODIFIED LOAD
5.1 Introduction5.2 Available Loads5.3 New load (NP-Load)5.3.1 Analysis of the NP-load5.3.2 Resistance of the NP-load5.4 Improved Differential CML Gates with Modified Load5.4.1 Operation of the MCML-CC inverter5.4.2 Analysis of the MCML-CC inverter5.4.2.1 Static model5.4.1.1 Delay model5.4.3 Design of the MCML-CC inverter5.4.4 Perf
About the Author:

Dr. Kirti Gupta received B.Tech. in Electronics and Communication Engineering from Indira Gandhi Institute of Technology, Delhi in 2002, M. Tech. in Information Technology from School of Information Technology in 2006. She received her Ph.D. in Electronics and Communication Engineering from Delhi Technological University, in 2016. Since 2002, she is with Bharati Vidyapeeth's College of Engineering, New Delhi and is presently serving as Professor in the same institute. A life member of ISTE, and senior member of IEEE, she has published more than 100 research papers in international, national journals and conferences. Her teaching and research interest is in digital VLSI design.

Dr. Neeta Pandey received her M.E. in Microelectronics from Birla Institute of Technology and Sciences, Pilani in 1991 and Ph.D. from Guru Gobind Singh Indraprastha University, Delhi in 2009. She has served in Central Electronics Engineering Research Institute, Pilani, Indian Institute of Technology, Delhi, Priyadarshini College of Computer Science, Noida and Bharati Vidyapeeth's College of Engineering, Delhi in various capacities. At present, she is a professor in the ECE department, Delhi Technological University. Her teaching and research interests include analog and digital VLSI design.

A life member of ISTE, and senior member of IEEE, USA, she has coauthored over 100 papers in international, national journals of repute and conferences.

Dr. Maneesha Gupta is currently a Professor at the Electronics & Communication Engineering Department of the Netaji Subhas University of Technology, India. She received her B.E. in Electronics & Communication Engineering from the Government Engineering College, Jabalpur in 1981, M.E. in Electronics & Communication Engineering from the same university in 1983, and her PhD. in Electronics Engineering (Analysis, Synthesis & Applications of Switched Capacitor Circuits) from the Indian Institute of Technology, Delhi in 1990.

Her teaching and research interests include switched capacitor circuits and analog signal processing. Dr. Gupta has co-authored over 150 research papers in the above areas in various international/national journals and conferences.


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Product Details
  • ISBN-13: 9789811509841
  • Publisher: Springer
  • Publisher Imprint: Springer
  • Height: 234 mm
  • No of Pages: 171
  • Spine Width: 10 mm
  • Weight: 322 gr
  • ISBN-10: 9811509840
  • Publisher Date: 02 Dec 2020
  • Binding: Paperback
  • Language: English
  • Returnable: Y
  • Sub Title: Differential and Single-Ended
  • Width: 156 mm


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