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Radio Systems Engineering [electronic resource] : A Tutorial Approach / by H�ector J. De Los Santos, Christian Sturm, Juan Pontes.

By: De Los Santos, H�ector J [author.].
Contributor(s): Sturm, Christian [author.] | Pontes, Juan [author.] | SpringerLink (Online service).
Material type: materialTypeLabelBookPublisher: Cham : Springer International Publishing : Imprint: Springer, 2015Description: XVI, 253 p. 218 illus., 28 illus. in color. online resource.Content type: text Media type: computer Carrier type: online resourceISBN: 9783319073262.Subject(s): Engineering | Electronics | Microelectronics | Electrical engineering | Electronic circuits | Engineering | Circuits and Systems | Communications Engineering, Networks | Electronics and Microelectronics, InstrumentationAdditional physical formats: Printed edition:: No titleDDC classification: 621.3815 Online resources: Click here to access online
Contents:
The Logical Effort Method -- Design in the Energy-Delay Space -- Flip-Flop Optimized Design -- Analysis and Comparison in the Energy-Delay-Area Domain -- Energy Efficiency Versus Clock Slope -- Hold Time Issues and Impact of variations on Flip-Flop Topologies -- Ultra-Fast and Energy-Efficient Pulsed Latch Topologies.
In: Springer eBooksSummary: This book is intended for readers who already have knowledge of devices and circuits for radio-frequency (RF) and microwave communication and are ready to study the systems engineering-level aspects of modern radio communications systems. The authors provide a general overview of radio systems with their components, focusing on the analog parts of the system and their non-idealities. Based on the physical functionality of the various building blocks of a modern radio system, block parameters are derived, which allows the examination of their influence on the overall system performance. The discussion is complemented by tutorial exercises based on the Agilent SystemVue electronic system-level (ESL) design software. With these tutorials, readers gain practical experience with realistic design examples of radio transmission systems for communications and radar sensing. The tutorials cover state-of-the-art system standards and applications and consider the characteristics of typical radio-frequency hardware components. For all tutorials, a comprehensive description of the tasks, including some hints to the solutions, is provided. The readers are then able  to perform these tasks independently. A complete set of simulation models and solutions to the tutorial exercises is given. Offers readers a deeper understanding of the theory discussed through numerous, practical examples; Provides detailed coverage of the performance of real radio frequency hardware components and the persisting limits in system design; Integrates use of a state-of-the-art software tool for electronic system-level design.
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The Logical Effort Method -- Design in the Energy-Delay Space -- Flip-Flop Optimized Design -- Analysis and Comparison in the Energy-Delay-Area Domain -- Energy Efficiency Versus Clock Slope -- Hold Time Issues and Impact of variations on Flip-Flop Topologies -- Ultra-Fast and Energy-Efficient Pulsed Latch Topologies.

This book is intended for readers who already have knowledge of devices and circuits for radio-frequency (RF) and microwave communication and are ready to study the systems engineering-level aspects of modern radio communications systems. The authors provide a general overview of radio systems with their components, focusing on the analog parts of the system and their non-idealities. Based on the physical functionality of the various building blocks of a modern radio system, block parameters are derived, which allows the examination of their influence on the overall system performance. The discussion is complemented by tutorial exercises based on the Agilent SystemVue electronic system-level (ESL) design software. With these tutorials, readers gain practical experience with realistic design examples of radio transmission systems for communications and radar sensing. The tutorials cover state-of-the-art system standards and applications and consider the characteristics of typical radio-frequency hardware components. For all tutorials, a comprehensive description of the tasks, including some hints to the solutions, is provided. The readers are then able  to perform these tasks independently. A complete set of simulation models and solutions to the tutorial exercises is given. Offers readers a deeper understanding of the theory discussed through numerous, practical examples; Provides detailed coverage of the performance of real radio frequency hardware components and the persisting limits in system design; Integrates use of a state-of-the-art software tool for electronic system-level design.

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