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E-raamat: Analog Organic Electronics: Building Blocks for Organic Smart Sensor Systems on Foil

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This book provides insight into organic electronics technology and in analog circuit techniques that can be used to increase the performance of both analog and digital organic circuits. It explores the domain of organic electronics technology for analog circuit applications, specifically smart sensor systems. It focuses on all the building blocks in the data path of an organic sensor system between the sensor and the digital processing block. Sensors, amplifiers, analog-to-digital converters and DC-DC converters are discussed in detail. Coverage includes circuit techniques, circuit implementation, design decisions and measurement results of the building blocks described.

This book provides insight into organic electronics technology and in analog circuit techniques used to increase the performance of analog and digital organic circuits. It explores the domain of organic electronics technology for analog circuit applications.
1 Introduction
1(14)
1.1 Prologue
1(1)
1.2 Origin and Driving Force
2(1)
1.3 Key Benefits and Challenges
3(1)
1.4 Applications
4(4)
1.4.1 Flexible Active-Matrix Displays
4(2)
1.4.2 RFID Tags
6(1)
1.4.3 Sensor Applications
7(1)
1.4.4 Other Applications
8(1)
1.5 Organic Smart Sensor Systems
8(3)
1.5.1 Smart Sensor Systems
8(1)
1.5.2 Proposed Architecture
8(3)
1.6 Outline of This Work
11(4)
References
12(3)
2 Organic Thin-Film Transistor Technology: Properties and Functionality
15(44)
2.1 Thin-Film Transistors
16(1)
2.2 Organic Semiconductors
17(5)
2.2.1 Pentacene
18(2)
2.2.2 Working Principle
20(1)
2.2.3 Alternative Organic Semiconductors
20(2)
2.3 Production Techniques
22(5)
2.3.1 Vacuum Thermal Evaporation
23(1)
2.3.2 Vapor-Phase Deposition
24(1)
2.3.3 Solution-Based Deposition
24(1)
2.3.4 Inkjet Printing
25(1)
2.3.4 Self-Aligned Transistors
25(2)
2.4 Technology in This Work
27(13)
2.4.1 3-Contact OTFT
27(3)
2.4.2 4-Contact OTFT
30(6)
2.4.3 Features of the 4-contact OTFT
36(4)
2.5 Non-Ideal Behavior
40(5)
2.5.1 Process-Induced Influences
41(2)
2.5.2 Environmental Influences
43(2)
2.6 Organic Transistor Modeling
45(1)
2.7 Other Components
46(5)
2.7.1 Resistors
46(4)
2.7.2 Capacitors
50(1)
2.7.3 Inductors
51(1)
2.8 Conclusion
51(8)
References
52(7)
3 Amplifier Design
59(34)
3.1 Application Field
60(1)
3.2 Topology
60(16)
3.2.1 Single-Ended Amplifier
61(2)
3.2.2 Differential Amplifier
63(1)
3.2.3 Load Transistor
64(10)
3.2.4 Circuit Techniques
74(2)
3.3 Designs
76(15)
3.3.1 Single-Stage Amplifier
76(5)
3.3.2 3-Stage Operational Amplifier
81(4)
3.3.3 Improved Amplifier
85(4)
3.3.4 Comparator
89(2)
3.4 Conclusion
91(2)
References
92(1)
4 A/D Conversion
93(18)
4.1 Application Field
93(1)
4.2 ADC Architecture
94(4)
4.2.1 Flash ADC
94(1)
4.2.2 Integrating ADC
95(1)
4.2.3 SAR ADC
96(1)
4.2.4 Oversampled ΔΣ ADC
97(1)
4.2.5 Discussion
98(1)
4.3 Design of a ΔΣ ADC
98(8)
4.3.1 Analog First-Order Filter
99(1)
4.3.2 Analog Second-Order Filter
100(1)
4.3.3 Comparator
101(2)
4.3.4 Level Shifter
103(2)
4.3.5 Simulation Results
105(1)
4.3.6 Measurement Results
105(1)
4.4 Discussion
106(2)
4.5 Conclusion
108(3)
References
108(3)
5 Sensors
111(18)
5.1 Application Field
111(1)
5.2 State-Of-The-Art
112(2)
5.2.1 Temperature Sensors
112(1)
5.2.2 Chemical Sensors
113(1)
5.2.3 Pressure Sensors
113(1)
5.2.4 Other Sensors
114(1)
5.3 Touch Pad Architectures
114(2)
5.3.1 Resistive Touch Pad
115(1)
5.3.2 Capacitive Touch Pad
115(1)
5.4 Designs
116(7)
5.4.1 1-Dimensional Touch Sensor
117(3)
5.4.2 2-Dimensional Touch Sensor
120(3)
5.5 Discussion
123(2)
5.6 Conclusion
125(4)
References
126(3)
6 DC-DC Conversion
129(32)
6.1 Application Field
130(2)
6.1.1 Dual-VT Technology
130(1)
6.1.2 Depleted Transistors
131(1)
6.1.3 Specifications
131(1)
6.2 Topology
132(12)
6.2.1 Up- and Down-Conversion
132(3)
6.2.2 Inductive Converters
135(2)
6.2.3 Capacitive Converters
137(7)
6.3 Designs
144(12)
6.3.1 Design 1
144(5)
6.3.2 Design 2
149(4)
6.3.3 Design 3
153(3)
6.4 Discussion
156(2)
6.5 Conclusion
158(3)
References
159(2)
7 Conclusions
161(2)
7.1 General Conclusions
161(2)
Index 163
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