Keyphrases
45 Nm CMOS Technology
66%
Amplifier Design
20%
Butterworth
20%
Cascode
63%
Characteristic Polynomial
20%
Characteristic Roots
26%
Circuit Simulator
20%
Current Harmonics
20%
DC-DC
36%
DC-DC Converter
60%
Drain Current
68%
Drain-source Voltage
30%
Dual-band VCO
40%
Duty Cycle Detector
30%
Eigenvalues
20%
Frequency Stability Analysis
40%
GHz Range
20%
Hard Target
20%
Harmonic Distortion
30%
Integrated Transformer
40%
Inverse Chebyshev Filter
20%
IoT Applications
20%
LC Resonator
20%
Load Current
20%
Low Noise Amplifier
20%
Low-band
20%
Moderate Inversion
100%
Modes Swapping
20%
Modified Bessel Function
55%
MOS Transistor
65%
Operating Point
46%
Oscillation Mode
30%
Periodic Steady State
26%
Power Stage
63%
QZ Algorithm
26%
Real Pole
20%
Relaxation Oscillations
26%
Relaxation Process
26%
Resonant Mode
20%
Resonator
20%
Root Locus
60%
Root Locus Method
26%
Self-oscillating
40%
Steady-state Operation
20%
Strong Inversion
35%
Third Harmonic
21%
Transfer Function
26%
Transistor
33%
Wake-up
20%
Weak Inversion
26%
Engineering
Active Inductor
10%
Amplifier
33%
Battery Voltage
20%
Bessel Function
56%
Buck Converter
26%
Butterworth
20%
Chebyshev Filter
20%
Current Drain
73%
Current Harmonic
20%
Current Load
20%
DC-to-DC Converter
65%
Dead Time
40%
Design Result
13%
Duty Cycle
30%
Eigenvalue
10%
Feedback Control
11%
Feedback Signal
16%
Flatness
20%
Harmonic Distortion
30%
Harmonics
36%
Intermodulation
23%
Internet-Of-Things
20%
Low Noise Amplifier
20%
Low-Frequency Band
10%
Lower Limit
20%
Metal-Oxide-Semiconductor Field-Effect Transistor
10%
Nonlinear Distortion
10%
Nonlinear Effect
20%
Operating Point
35%
Oscillator
70%
Output Power
10%
Output Voltage
16%
Phase Noise
10%
Power Stage
63%
Relaxation Process
15%
Resonator
30%
Root Locus
60%
Saturation Region
20%
Signal Amplitude
13%
Sinusoidal Voltage
16%
Source Voltage
46%
Stability Analysis
40%
State Operation
13%
Strong Inversion
53%
Switching Network
10%
Transfer Function
26%
Transient Analysis
20%
Transients
10%
Upper Limit
20%
Varactor
13%