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Lecture
Low-power Radio Design for the IoT
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Related lectures (30)
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Basic Principles of Oscillators
Covers the fundamental principles of oscillators, including signal generators, OPAMP RC oscillator circuits, and multivibrators.
Colpitts and Cross-coupled Oscillators
Covers the analysis of Colpitts and Cross-coupled oscillators, focusing on nonlinear effects and phase noise.
Oscillators: Definition and Conditions
Explores the definition and conditions of oscillators, emphasizing the Barkhausen criterion for oscillation and practical implementation.
Harmonic Oscillator: LC Resonator Analysis
Analyzes an LC resonator as a harmonic oscillator, discussing transient behavior, oscillations in charge and current, and the interplay between electrical and magnetic energy.
Function Generator and Oscillator
Explores autonomous circuits for generating periodic signals and the principles behind oscillators and signal generators.
Non-Harmonic Oscillators: Dynamics and Resonance
Explores non-harmonic oscillators dynamics, including forced oscillations and damped oscillations.
Oscillators: Definition and Conditions
Covers the definition and conditions of oscillators, focusing on the Barkhausen criterion for oscillation.
Harmonic Oscillators: Definitions and Dynamics
Covers the definitions and dynamics of harmonic oscillators, including ladder operators and coherent states.
Forced Oscillations: Damping, Resonance, and Coupling
Explores forced oscillations in mechanical and electrical systems, damping, resonance, and coupling of oscillators.
Mechanics: Oscillator Harmonics
Explores harmonic oscillators' behavior under various damping conditions, covering Newton's laws, complex numbers, and Euler's formula.
