RF/Microwave Engineering and Applications in Energy Systems. Abdullah Eroglu

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measurement and simulation results.Table 8.11 Summary of bandpass responses.

      6 Chapter 9Table 9.1 Field components, cutoff frequency, and dispersion relation for re...Table 9.2 Field components, cutoff frequency, and dispersion relation for re...Table 9.3 Cutoff frequency and dispersion relation for rectangular waveguide...Table 9.4 Standard rectangular waveguide dimensions.Table 9.5 TE mn modes for WR‐430.Table 9.6 TE mn modes for WR‐430 waveguide filled with a magnetically gyrot...Table 9.7 TE mn modes for WR‐430 waveguide filled with a magnetically gyrotr...Table 9.8 TE mn and TM mn modes for WR‐430 waveguide filled with positively u...Table 9.9 TE mn and TM mn modes for WR‐430 waveguide filled with negatively u...

      7 Chapter 10Table 10.1 Intermodulation frequencies and corresponding amplitudes.Table 10.2 Summary of IM product frequencies.Table 10.3 DC bias circuit design equations.Table 10.4 Final component values for the amplifier.

      8 Chapter 11Table 11.1 Antenna parameter comparison for aluminum wire half‐wave dipole a...Table 11.2 Slot antenna parameter calculations.

      9 Chapter 12Table 12.1 Comparison of ZigBee, 6LoWPAN, Wi‐Fi, and Bluetooth.Table 12.2 RFID tags and communication distance.Table 12.3 Differences between active and passive RFID tags.

      10 Chapter 13Table 13.1 Calculated dimensions for the meander antenna.

      List of Illustrations

      1 Chapter 1Figure 1.1 Vector representation.Figure 1.2 (a) Representation of vectors

and
for dot product. (b) Repres...
Figure 1.3 Unit vector representation in a Cartesian coordinate system.Figure 1.4 Representation of vector
in a Cartesian coordinate system.
Figure 1.5 Representation of vector
in a cylindrical coordinate system.
Figure 1.6 Representation of vector
in a cylindrical coordinate system.
Figure 1.7 Representation of vector
in a spherical coordinate system.
Figure 1.8 Representation of vector
in a spherical coordinate system.
Figure 1.9 Illustration of differential length, area, and volume in a Cartes...Figure 1.10 Illustration of differential length, area, and volume in a cylin...Figure 1.11 Illustration of differential length, area, and volume in a spher...Figure 1.12 Vector
along the curve.
Figure 1.13 Path for line integral Example 1.1.Figure 1.14 Illustration of surface integral.Figure 1.15 Illustration of gradient.Figure 1.16 Illustration of divergence theorem.Figure 1.17 Geometry of Example 1.4.Figure 1.18 Illustration of Stokes' theorem.Figure 1.19 Geometry of Example 1.5.Figure 1.20 Geometry for Problem 1.9.Figure 1.21 Geometry for Problem 1.10.

      2 Chapter 2Figure 2.1 Transfer characteristics: (a) passive component; (b) active compo...Figure 2.2 Conductor with uniform cross section.Figure 2.3 Representation of the resistor equivalent model: (a) ideal resist...Figure 2.4 Frequency characteristics of (a) ideal resistor and (b) nonideal ...Figure 2.5 Figure for Example 2.1.Figure 2.6 Resonance frequency plot for Example 2.1.Figure 2.7 (a) Two conductor capacitor. (b) HF model of capacitor.Figure 2.8 Equivalent parallel circuit.Figure 2.9 Plot of Z( f ) versus frequency.Figure 2.10 Flux through each turn.Figure 2.11 HF effects of an RF inductor.Figure 2.12 HF model of an RF air core inductor.Figure 2.13 Equivalent series circuit.Figure 2.14 The HF characteristics of the inductor in Example 2.3.Figure 2.15 (a) Air core inductor. (b) Toroidal inductor.Figure 2.16 HF characteristics' response of air core inductor.Figure 2.17 Quality factor of air core inductor versus frequency.Figure 2.18 (a) Magnetic flux in toroidal magnetic core; (b) geometry of tor...Figure 2.19 (a) Rectangular spiral inductor. (b) Layout of current filaments...Figure 2.20 Toroidal transformer.Figure 2.21 Energy diagram of a semiconductor [5].Figure 2.22 The performance comparison of WBG semiconductors for RF [9].Figure 2.23 Family tree for power devices.Figure 2.24 Typical layer structure of (a) Si BJT and (b) InP/InGaAs HBT tra...Figure 2.25

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