RFFEM Simulation for EM Analysis
FEM simulation is a frequency domain technique for electromagnetic analysis of discretized geometric objects, commonly used in high-frequency antenna design.
Posts tagged: Frequency Domain
Showing 9 posts (Page 1 of 1)
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FFT: Understanding the Fast Fourier Transform
Explore the Fast Fourier Transform (FFT), an efficient algorithm for computing the Discrete Fourier Transform (DFT), its applications in signal processing and wireless technologies.
Fourier Transform vs. Laplace Transform: Key Differences Explained
Explore the core differences between Fourier and Laplace Transforms, their applications, and how they're used in signal processing for stable and unstable systems.
IFFT MATLAB: Inverse Fast Fourier Transform Explained
Explore IFFT and FFT, their differences, applications, and MATLAB examples. Learn how IFFT transforms frequency domain data to the time domain.
Phase Noise to Jitter Conversion: Formula and Calculator
Understand the relationship between phase noise and jitter with conversion formulas and a handy calculator for accurate frequency system analysis.
Spectral Analysis in Python with DSP Libraries
Learn how to perform spectral analysis in Python using DSP libraries for time and frequency domain signal analysis. Includes code examples and plots.
Spectrum Analyzer Basics for RF Engineers
Learn the fundamentals of spectrum analyzers, including block diagrams, key settings, and measurement techniques for RF signal analysis.
Spurious vs. Harmonics: Understanding RF Frequencies
Explore the difference between spurious and harmonic frequencies in RF systems, their measurement in dBc, and ideal levels for optimal performance.
Time Domain vs. Frequency Domain: Key Differences Explained
Explore the key differences between time and frequency domains in signal processing. Understand their definitions, applications, and representations to analyze signals effectively.
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