Silicon Optoelectronic Integrated Circuits,9783540405184

Silicon Optoelectronic Integrated Circuits

by
ISBN13: 9783540405184
ISBN10: 3540405186
Format: Hardcover
Pub. Date: 2004-01-01
Publisher(s): Springer Verlag
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Summary

Explains the circuit design of silicon optoelectronic integrated circuits (OEICs), which are central to advances in wireless and wired telecommunications. The essential features of optical absorption are summarized, as is the device physics of photodetectors and their integration in modern bipolar, CMOS, and BiCMOS technologies. This information provides the basis for understanding the underlying mechanisms of the OEICs described in the main part of the book. In order to cover the topic comprehensively, Silicon Optoelectronic Integrated Circuits presents detailed descriptions of many OEICs for a wide variety of applications from various optical sensors, smart sensors, 3D-cameras, and optical storage systems (DVD) to fiber receivers in deep-sub-m CMOS. Numerous detailed illustrations help to elucidate the material.

Table of Contents

List of Symbols
xiii
Basics and Theory
1(24)
Basics of Optical Absorption
1(4)
Photons and their Properties
1(1)
Optical Absorption of Important Semiconductor Materials
2(2)
Photogeneration
4(1)
Semiconductor Equations
5(3)
Important Models for Photodetectors
8(17)
Carrier Drift
8(5)
Carrier Diffusion
13(3)
Quantum Efficiency and Responsivity
16(5)
Equivalent Circuit of a Photodiode
21(4)
Integrated Silicon Photodetectors
25(62)
Integrated Detectors in Bipolar Technology
25(9)
Bipolar Processes
25(3)
Integrated Detectors in Standard Bipolar Technology
28(3)
Integrated Detectors in Modified Bipolar Technology
31(3)
CMOS-Integrated Photodetectors
34(38)
One-Well CMOS Processes
35(1)
Twin-Well CMOS Processes
35(1)
Integrated Detectors in Standard CMOS Processes
36(5)
Spatially-Modulated-Light Detector
41(2)
PIN Photodiode
43(15)
Charge-Coupled-Device Image Sensors
58(4)
Active-Pixel Sensors
62(4)
Amorphous-Silicon Detectors
66(2)
CMOS-Integrated Bipolar Phototransistors
68(3)
Photonic Mixer Device
71(1)
BiCMOS-Integrated Detectors
72(15)
BiCMOS Processes
72(7)
BiCMOS-Integrated Photodiodes
79(8)
Detectors in Thin Crystalline Silicon Films
87(8)
Photodiodes in Silicon-on-Insulator
87(5)
Silicon on Sapphire
92(1)
Polyimide Bonding
93(2)
SiGe Photodetectors
95(6)
Heteroepitaxial Growth
95(1)
Absorption Coefficient of SiGe Alloys
96(1)
SiGe/Si PIN Hetero-Bipolar-Transistor Integration
96(5)
Design of Integrated Optical Receiver Circuits
101(46)
Circuit Simulators and Transistor Models
101(5)
Layout and Verification Tools
106(1)
Design of OEICs
107(3)
Transimpedance Amplifier
110(37)
Frequency Response
111(4)
Phase and Group Delay
115(3)
Stability and Compensation
118(1)
Bandwidth of Transistor Transimpedance Amplifier Circuit
118(3)
Bandwidth Limit of Integrated Transimpedance Amplifiers
121(2)
New π-Model for Integrated Transimpedance Amplifier
123(10)
Shunt-Shunt Feedback
133(4)
Input and Output Resistance
137(2)
Noise and Sensitivity
139(8)
Examples of Optoelectronic Integrated Circuits
147(178)
Digital CMOS Circuits
147(8)
Synchronous Circuits
147(6)
Asynchronous Circuits
153(2)
Digital BiCMOS Circuits
155(1)
Laser Driver Circuits
155(3)
Analog Circuits
158(166)
Bipolar Circuits
159(3)
Two-dimensional CMOS Imagers
162(10)
Optical Distance Measurement Circuits
172(4)
Three-dimensional CMOS Cameras
176(3)
Smart Pixel Sensors
179(13)
CMOS Optical Sensors
192(16)
BiCMOS Optical Sensors
208(4)
CMOS Circuits for Optical Storage Systems
212(10)
BiCMOS Circuits for Optical Storage Systems
222(18)
Continuous-Mode Fiber Receivers
240(43)
Receiver for Wireless Infrared Communication
283(8)
Hybrid Receivers
291(2)
Speed Enhancement Techniques
293(13)
Plastic-Optical-Fiber Receivers
306(4)
Burst-Mode Optical Receivers
310(4)
Deep-sub-μm Receivers
314(3)
Comparison of Fiber Receivers
317(3)
Special Circuits
320(4)
Summary
324(1)
References 325(22)
Index 347

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