RLC Series circuit experiment part-3|Electrical Engineering Lab| lab task
Circuit RLC
COMMENTS
Experiment No.13 The Series RLC Resonance Circuit
we will find a new phenomenon called "resonance" in the series RLC circuit. Consider now the driven series RLC circuit shown in Figure 1. Applying Kirchhoff’s loop rule, we obtain
RLC Resonant Circuit - University of Iowa
EXPERIMENTE11: RLC Resonant Circuit Objectives: • Learn about resonance. • Measure resonance curves for an RLC circuit. • Investigate the relationships between voltage and current in circuits containing inductance and capacitance, when alternating voltages are applied. • Test the frequency dependence of capacitive and inductive reactance.
11. The Series RLC Resonance Circuit - Hunter College
Thus far we have studied a circuit involving a (1) series resistor R and capacitor C circuit as well as a (2) series resistor R and inductor L circuit. In both cases, it was simpler for the actual experiment to replace the battery and switch with a signal generator producing a square wave.
EXPERIMENT 7: Resonance in RLC Circuits - National Instruments
EXPERIMENT7: Resonance in RLC Circuits Objectives: • Study the phenomenon of resonance in RLC circuits. • Determine the resonant frequency and bandwidth of the given network using a sinusoidal response. Equipment: NI – ELVIS Resistors ( 1 KW) Capacitors (1 mF, 0.01 mF) Inductors (25mH, 33mH) Theory:
Experiment 4: Damped Oscillations and Resonance in RLC Circuits
In the first part of this lab, you will experiment with an underdamped RLC circuit and find the decay constant, β, and damped oscillation frequency, ω1, for the transient, unforced oscillations in the system.
Experiment 7: Undriven & Driven RLC Circuits - MIT OpenCourseWare
This is an example of resonance in a mechanical system. In this lab we will explore its electrical analog – the RLC (resistor, inductor, capacitor) circuit – and better understand what happens when it is undriven and when it is driven above, below and at the resonant frequency. The Details: Oscillations
UNIVERSITY OF NORTH CAROLINA AT CHARLOTTE
In this experiment the student will investigate resonance in RLC networks by • Determining the theoretical parameters of series and parallel networks, • Comparing the theoretical results to experimental results.
Experiment 12: AC Circuits - RLC Circuit
In this lab we will study an RLC circuit with an AC source to create a resonant system. You are given a resistor, an inductor and a capacitor with nominal values of R = 12 k , L = 0.1 H, and C = 10 nF, respectively. Using the inductance meter / multimeter measure the values of R, L and C and compare them with the given values.
Labs 4 RLC Resonant Circuits - Montana State University
Highly tuned RLC tank circuits play a major role in electronics and communications. In these experiments you will investigate the frequency response of two RLC circuits that produce a low-pass and a bandpass filter.
9. EXPERIMENT E9: THE RLC CIRCUIT - HCC Learning Web
In this experiment, you will measure the electric current, voltage, reactance, impedance, and understand the resonance phenomenon in an alternating-current circuit, which consists of an inductor, a resistor, and a capacitor in series.
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VIDEO
COMMENTS
we will find a new phenomenon called "resonance" in the series RLC circuit. Consider now the driven series RLC circuit shown in Figure 1. Applying Kirchhoff’s loop rule, we obtain
EXPERIMENT E11: RLC Resonant Circuit Objectives: • Learn about resonance. • Measure resonance curves for an RLC circuit. • Investigate the relationships between voltage and current in circuits containing inductance and capacitance, when alternating voltages are applied. • Test the frequency dependence of capacitive and inductive reactance.
Thus far we have studied a circuit involving a (1) series resistor R and capacitor C circuit as well as a (2) series resistor R and inductor L circuit. In both cases, it was simpler for the actual experiment to replace the battery and switch with a signal generator producing a square wave.
EXPERIMENT 7: Resonance in RLC Circuits Objectives: • Study the phenomenon of resonance in RLC circuits. • Determine the resonant frequency and bandwidth of the given network using a sinusoidal response. Equipment: NI – ELVIS Resistors ( 1 KW) Capacitors (1 mF, 0.01 mF) Inductors (25mH, 33mH) Theory:
In the first part of this lab, you will experiment with an underdamped RLC circuit and find the decay constant, β, and damped oscillation frequency, ω1, for the transient, unforced oscillations in the system.
This is an example of resonance in a mechanical system. In this lab we will explore its electrical analog – the RLC (resistor, inductor, capacitor) circuit – and better understand what happens when it is undriven and when it is driven above, below and at the resonant frequency. The Details: Oscillations
In this experiment the student will investigate resonance in RLC networks by • Determining the theoretical parameters of series and parallel networks, • Comparing the theoretical results to experimental results.
In this lab we will study an RLC circuit with an AC source to create a resonant system. You are given a resistor, an inductor and a capacitor with nominal values of R = 12 k , L = 0.1 H, and C = 10 nF, respectively. Using the inductance meter / multimeter measure the values of R, L and C and compare them with the given values.
Highly tuned RLC tank circuits play a major role in electronics and communications. In these experiments you will investigate the frequency response of two RLC circuits that produce a low-pass and a bandpass filter.
In this experiment, you will measure the electric current, voltage, reactance, impedance, and understand the resonance phenomenon in an alternating-current circuit, which consists of an inductor, a resistor, and a capacitor in series.