Keyphrases
Nonlinear Analysis
83%
Stability Evaluation
83%
Quadrature Voltage-controlled Oscillator
83%
Frequency Tracking Loop
83%
Injection Locking
83%
Low Noise Amplifier
83%
65nm CMOS
83%
Rectenna
83%
Low Jitter
83%
IoT Applications
83%
Heterojunction Bipolar Transistors
83%
High Electron Mobility Transistor
83%
V-band
83%
Stacked Power Amplifier
83%
Injection-locked Frequency Divider
83%
Low DC Power
83%
Wide Locking Range
83%
Gallium Arsenide
83%
Transformer Coupling
83%
Dual-linear Polarization
55%
CMOS Process
48%
Jitter
41%
Phase Noise
41%
Stacked Transistors
33%
Common Gate
33%
Range Sensitivity
27%
Polarized Antenna
27%
Injector
27%
Input Power
27%
DC Bias
27%
Oscillation
27%
Excellent Sensitivity
27%
Rectifier
27%
Current Reuse
27%
Locking Range
27%
90-nm CMOS Technology
27%
Powers of 5
27%
Division Ratio
27%
High Division
27%
Subharmonics
20%
Quadrature Error
20%
Power Output
20%
Control Voltage
20%
Quadrature Accuracy
20%
Locking Frequency
20%
Self-injection
20%
Coupling Method
20%
Fractional Bandwidth
20%
Microwave Oscillations
16%
GaAs pHEMT Process
16%
Minimum Noise Figure
16%
Nonlinear Stability Analysis
16%
1-dB Compression Point
16%
Capacitance Model
16%
Small-signal Gain
16%
Common-source Stage
16%
Linear Circuits
16%
Nonlinear Circuits
16%
Low Frequency Oscillation
16%
Stability Analysis
16%
3-dB Bandwidth
16%
Interstage
16%
Common-source Amplifier
16%
Common Emitter Configuration
16%
Common-emitter
16%
Maximum Output Power
16%
Common Base
16%
Power Performance
16%
Power Added Efficiency
16%
Chip Size
16%
Maximum Power
16%
High Output
16%
Power Amplifier
16%
DC-DC Power Conversion
13%
Polarized Cells
13%
Two-port
13%
Incident Wave
13%
RF Power
13%
Power Conversion Efficiency
13%
RF-DC
13%
Received Power
13%
Hexahedron
13%
Power Density
13%
Engineering
Gallium Arsenide
100%
Coupling Transformer
83%
V-Band
83%
Bipolar Transistor
83%
Power Amplifier
83%
Polarized Antenna
83%
Voltage-Controlled Oscillator
83%
Heterojunctions
83%
Tracking Loop
83%
Internet-Of-Things
83%
Nonlinear Analysis
83%
Multistage
83%
Low Noise Amplifier
83%
Power Conversion Efficiency
41%
Phase Noise
41%
Incident Wave
41%
Received Power
41%
Power Density
41%
Stability Analysis
33%
Input Power
27%
Fractional Bandwidth
20%
Output Power
20%
Power Added Efficiency
16%
Amplifier
16%
Maximum Output Power
16%
Linear Circuit
16%
Db Compression Point
16%
Db Bandwidth
16%
Nonlinear Circuit
16%
Signal Gain
16%
Simulated Result
16%
Measured Output
16%
Noise Figure
16%