| Description |
1 online resource : illustrations |
| Series |
Advances in mechanical engineering research |
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Advances in mechanical engineering research
|
| Contents |
ADVANCES IN MECHANICAL ENGINEERING RESEARCH. VOLUME 1; ADVANCES IN MECHANICAL ENGINEERING RESEARCH. VOLUME 1; LIBRARY OF CONGRESS CATALOGING-IN-PUBLICATION DATA; CONTENTS; PREFACE; Chapter 1: HETEROGENEOUS CIRCUITS INSIGHTS THROUGH SUBSTRATE COUPLING: NOISES AND PARASITES; ABSTRACT; I. INTRODUCTION; II. ABOUT DEVICE MODELLING AND CHARACTERIZATION; Brief Recalls on the Heterojunction Bipolar Transistor (HBT); The HBT Modelling; Concerning SiGeC; Electrical Second Order Characteristic; III. OSCILLATOR DESIGN CONSIDERATIONS; VCOs Topographies; Results and Discussion; VCO Sensitivity Functions |
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Static Sensitivity FunctionsVCO Spurious Side-Bands due to Substrate Perturbation; IV. NEW DEVELOPMENTS ON THE IMPULSE SENSITIVITY FUNCTION; ISF Principle (Including Basic but Useful Recalls); At Zero Crossing; At the Peaks; V. SMART POWER INTEGRATED CIRCUITS; LDMOS Structures; ON-State Characteristics; LDMOS Modeling; Implementation of the Model into SPICE; Deep Trench Isolation; Substrate Coupling in 3D Integration; Impact of Substrate Coupling Induced by 3D-IC Architecture on CMOS Devices; Impact of TSV and RDL; Impact of TSV; Impact of TSV and RDL; Impact of TSV and RDL on CMOS |
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VI. SUBSTRATE NOISESubstrate Noise Propagation in Low or High Resistivity Silicon Substrate; MODELING METHODOLOGY; Ground and Substrate Noise Modeling; Developed Tools; Application Developed For Ground and Power Supply Bounce Effects; Substrate Extraction; Brief Recall of the Method; Basic Rules to Reduce Digital Power Supply Network Ringing; Comparative Substrate Isolation Study on a Virtual test Case Study; VII. STOCHASTIC BEHAVIOUR OF THE PERTURBATIONS OF THE DIGITAL BLOCKS; Methodology; Numerical Experiences and Discussion; VIII. ON DEVICE DEFECTS; CONCLUSION; REFERENCES |
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Chapter 2: MONITORING OF ASH FOULING AND INTERNAL SCALE DEPOSITS IN PULVERIZED COAL FIRED BOILERSABSTRACT; INTRODUCTION; SIMULATION OF FURNACE SLAGGING AND SUPERHEATER FOULING; Furnace Wall Slagging; Simulation of Superheater Fouling; MONITORING OF THERMAL -- HYDRAULIC OPERATING CONDITIONS; Boiler Efficiency; Fuel Mass Flow Rate at Steady-State Conditions; Slagging of Furnace Waterwalls and Fouling of Superheaters; Mass Flow Rate of Live Steam and Furnace Wall Effectiveness at Steady -State Conditions; RESULTS; MONITORING OF INTERNAL SCALE DEPOSITS; DESIGN OF THE FLUX-TUBE |
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ON-LINE MONITORING OF WATER-WALL TUBESTEST CASES; BOILER TESTS; CONCLUSIONS; REFERENCES; Chapter 3: PHONONS IN LOW DIMENSIONAL STRUCTURES; ABSTRACT; 1. INTRODUCTION; 2. EFFECTIVE MASS APPROXIMATION; 2.1. Electron States in an Infinitely Deep Quantum Well; 2.2. Electron States in Quantum Wells; 2.3. Electron States in Quantum Dots; 3. PHONONS; 3.1. Acoustic Phonons; 3.2. Optical Phonons; 4. PLASMONS; 5. RELAXATION PROCESSES AND DEPHASING; 5.1. Quantum Wells; 5.2. Quantum Dots; CONCLUSIONS; ACKNOWLEDGMENTS; REFERENCES |
| Bibliography |
Includes bibliographical references and index |
| Notes |
Print version record |
| Subject |
Mechanical engineering.
|
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mechanical engineering.
|
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TECHNOLOGY & ENGINEERING -- Military Science.
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Mechanical engineering
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| Form |
Electronic book
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| Author |
Malach, David E
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| ISBN |
9781617613760 |
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1617613762 |
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