Группа авторов

Electrical and Electronic Devices, Circuits, and Materials


Скачать книгу

Conclusion References

      7  Index

      8  Also of Interest

      9  End User License Agreement

      List of Illustrations

      1 Chapter 1Figure 1.1 (a) The virtually fabricated p-MOSFET device structure (b) The output...Figure 1.2 TCAD Simulated (a) Ge p-FinFET device with fractionally SiGe filled s...Figure 1.3 The MOD-FinFET structure with dual source extensions [30].Figure 1.4 Comparisons of (a) Id-Vg (Transfer characteristics) and; (b) Id-Vd (O...

      2 Chapter 2Figure 2.1 Schematic of double gate (a) hetero structure (b) homostructure tunne...Figure 2.2 Energy band-diagram (OFF-State and ON-State) for homo DG -TFET contai...Figure 2.3 Energy band-diagram (OFF-State and ON-State) for hetero structure DG ...Figure 2.4 Transfer characteristic of homo structure double gate TFET.Figure 2.5 Transfer characteristic of hetero structure double gate TFET.Figure 2.6 Comparision of ambipolar current vs. applied gate drive voltage (VGS)...Figure 2.7 Device transfer characteristics for double gate N- TFET hetero struct...Figure 2.8 Sensitivity of transconductance (gm) with applied gate voltage (VGS) ...Figure 2.9 3D - transconductance (gm), cut-frequency (fT) and applied gate drive...Figure 2.10 3D - transconductance (gm), cut-frequency (fT) and applied gate driv...Figure 2.11 The varibility of C-V characteristics with applied gate drive voltag...Figure 2.12 3D - transconductance (gm), GBW and applied gate drive voltage (VGS)...Figure 2.13 3D - transconductance (gm), GBW and applied gate drive voltage (VGS)...Figure 2.14 Transconductance efficiency, gm/IDS with applied gate voltage (VGS) ...Figure 2.15 Sensitivity of delay time with applied gate voltage (VGS) and compar...Figure 2.16 Sensitivity of power delay product (PDP) with applied gate voltage (...

      3 Chapter 3Figure 3.1 (a) The development of supercapacitors in different countries [Reprod...Figure 3.2 Schematic diagram of (a) an electrostatic capacitor, (b) an electric ...Figure 3.3 Strategies for improving the energy density of supercapacitors [Repro...Figure 3.4 Mechanism of ion transport in PEO [Reproduced with permission from Re...Figure 3.5 Types of additive based polymer electrolytes.Figure 3.6 (a) CV curves of the all-solid-state supercapacitor with B-GPE under ...Figure 3.7 Ragone plot of the SSC based on two GPEs (a) and the capacitance rete...Figure 3.8 (a) Cyclic voltammograms obtained at 50 mV/s, (b) Capacitance retenti...Figure 3.9 (a) Specific capacitance of Cell#1 and Cell#2 versus charge–discharge...Figure 3.10 (a) Comparison of charge–discharge curves at current for EDLC I, EDL...Figure 3.11 Ragone plots (gravimetric specific energy versus specific power) for...Figure 3.12 (a) CV curves at 10 mV s-1 and (b) GCD curves at 1mA cm-2 of NPG@PAN...

      4 Chapter 4Figure 4.1 Tunable filter replacing filter bank [5] (a) Receiver system with mul...Figure 4.2 Layout of the hairpin bandpass filter.Figure 4.3 (a) S21 and (b) S11 of hairpin bandpass filter.Figure 4.4 Fractal DGS (Back/GND) portion of hairpin bandpass filter.Figure 4.5 Simulated return loss characteristics (a) S21 and (b) S11 of haripin ...Figure 4.6 Comparison of simulated response (a)S21 (b) S11 of bandpass filter wi...Figure 4.7 Testing/measurement of fabricated hairpin bandpass filter with fracta...Figure 4.8 Comparison of simulated and measured result (a) S21 and (b) S11 of ha...Figure 4.9 Hairpin bandpass filter with fractal DGS with varactor diodes.Figure 4.10 (a) S21 of tunable hairpin bandpass filter with fractal DGS (b) magn...Figure 4.11 (a) S11 of tunable hairpin bandpass filter with fractal DGS (b) magn...

      5 Chapter 5Figure 5.1 GaAs-based HEMTs crosssection view.Figure 5.2 The schematic view of InP-based HEMTs.Figure 5.3 The schematic view of GaN-based HEMTs.Figure 5.4 Demonstration of the standard GaN Wurtzite structure lattice: (a) N-f...Figure 5.5 AlGaN/GaN heterostructure energy band diagram, (a). Before contact, (...

      6 Chapter 6Figure 6.1 (a) Circuit for the experimental set-up, (b) Complete set-up for the ...Figure 6.2 Voltage-time plots for source, resistor and sample (a) before denatur...Figure 6.3 Demonstration of (a) checking non-linearity in vRt plot, m1 and m2...Figure 6.4 Current-voltage characteristics showing the concept of hysteresis-lin...Figure 6.5 (a) Current-voltage characteristics for different concentrations of f...Figure 6.6 for different concentration of food (albumin and milk) in samples fit...Figure 6.7 Plots of vsupplyt, vRt and vsamplet for (a) 103.30 mg/mL (al...Figure 6.8 Sm for different concentration of food (albumin and milk) in samples ...Figure