
A NOVEL THREE-PHASE TO FIVE
... The first five-phase induction motor drive system was proposed in the late 1970s for adjustable speed drive applications. Since then, a considerable research effort has been in place to develop commercially feasible multiphase drive Systems .Multiphase (more than three phase) systems are the focus o ...
... The first five-phase induction motor drive system was proposed in the late 1970s for adjustable speed drive applications. Since then, a considerable research effort has been in place to develop commercially feasible multiphase drive Systems .Multiphase (more than three phase) systems are the focus o ...
Resonant circuits – measuring inductance
... We will define the resonant frequency f0 for the LCR resonant circuit (or filter) as the frequency at which the input voltage and input current are in phase. (More accurately this frequency is called the phase resonance frequency.) In the circuit shown on the following page, u1 and u2 will have 0° p ...
... We will define the resonant frequency f0 for the LCR resonant circuit (or filter) as the frequency at which the input voltage and input current are in phase. (More accurately this frequency is called the phase resonance frequency.) In the circuit shown on the following page, u1 and u2 will have 0° p ...
Capacitor Self
... specified. Any standard components available in your laboratory may be used in the design. After the design is complete, find the transfer function for the circuit and construct a gain-corner plot. Analyze the frequency response of your design with a CCA program. Plot the gain response results of th ...
... specified. Any standard components available in your laboratory may be used in the design. After the design is complete, find the transfer function for the circuit and construct a gain-corner plot. Analyze the frequency response of your design with a CCA program. Plot the gain response results of th ...
2.4 Circuits with Resistors and Capacitors
... • derive an expression for the phase angle using the arctangent in the complex plane ...
... • derive an expression for the phase angle using the arctangent in the complex plane ...
Resonance in RLC Circuits ~
... A resonant circuit, also called a tuned circuit consists of an inductor and a capacitor together with a voltage or current source. It is one of the most important circuits used in electronics. For example, a resonant circuit, in one of its many forms, allows us to select a desired radio or televisio ...
... A resonant circuit, also called a tuned circuit consists of an inductor and a capacitor together with a voltage or current source. It is one of the most important circuits used in electronics. For example, a resonant circuit, in one of its many forms, allows us to select a desired radio or televisio ...
RC and RL circuits. Given the following circuit with Vin = 10V sin(ωt
... against the log(ω) for ω = 10 to 109 rad/s. c) If the voltage across the capacitor is used as the output signal, Plot the gain of the circuit (Vc / Vin) against ω. The choice of log or linear is up to you, defend your choice based on the information it shows clearly. d) same question as c) but for V ...
... against the log(ω) for ω = 10 to 109 rad/s. c) If the voltage across the capacitor is used as the output signal, Plot the gain of the circuit (Vc / Vin) against ω. The choice of log or linear is up to you, defend your choice based on the information it shows clearly. d) same question as c) but for V ...
(EIS): Part 1 – Basic Principles
... the response can be considered linear in first approximation. The higher order terms in the Taylor series can be assumed to be negligible. ...
... the response can be considered linear in first approximation. The higher order terms in the Taylor series can be assumed to be negligible. ...
FILTER CIRCUITS
... given frequency can be controlled by adding reactive elements - capacitors and inductors. Such circuits are usually called filters because they “filter” out frequencies except those lying in a selected range. The response of any electronic circuit depends to some degree on the frequency of operation ...
... given frequency can be controlled by adding reactive elements - capacitors and inductors. Such circuits are usually called filters because they “filter” out frequencies except those lying in a selected range. The response of any electronic circuit depends to some degree on the frequency of operation ...
Active Analog Filter Laboratory
... 5. Double click on the sinusoidal source block and change the amplitude to 5. Note: The program does not need to be recompiled when changing the sinusoidal source amplitude, frequency, or off set. Set the frequency of the sinusoidal source to the calculated cutoff frequency (in rad/s). 6. Click the ...
... 5. Double click on the sinusoidal source block and change the amplitude to 5. Note: The program does not need to be recompiled when changing the sinusoidal source amplitude, frequency, or off set. Set the frequency of the sinusoidal source to the calculated cutoff frequency (in rad/s). 6. Click the ...
20/1
... b. Generate Vb (VG4) using something like Mb5 above, but PMOS. What current source do you use? What gate voltage biases it? What W/L do you use for all devices, and why? c. [240A] generate Vb from the circuit suggested in 5.19b in Razavi. What value for (W/L)5 in that figure is needed? 3. In Figure ...
... b. Generate Vb (VG4) using something like Mb5 above, but PMOS. What current source do you use? What gate voltage biases it? What W/L do you use for all devices, and why? c. [240A] generate Vb from the circuit suggested in 5.19b in Razavi. What value for (W/L)5 in that figure is needed? 3. In Figure ...
RLC Circuits Note
... Take out the 150 resistor, going back to the original low-pass filter and increase the output voltage of the generator to at least 8 VPP, to ensure that high-frequency output voltages beat any noise. Measure the output voltages when the input frequency is 20 kHz and when the input frequency is 40 ...
... Take out the 150 resistor, going back to the original low-pass filter and increase the output voltage of the generator to at least 8 VPP, to ensure that high-frequency output voltages beat any noise. Measure the output voltages when the input frequency is 20 kHz and when the input frequency is 40 ...
Lab 5
... Lab 5 – Phasors In this lab, you will build two RLC circuits and observe the magnitude and phase relationships between the various components. 1. Design two different circuits, each with an AC voltage source and at least one resistor, one inductor and one capacitor. You can make these as simple or a ...
... Lab 5 – Phasors In this lab, you will build two RLC circuits and observe the magnitude and phase relationships between the various components. 1. Design two different circuits, each with an AC voltage source and at least one resistor, one inductor and one capacitor. You can make these as simple or a ...
Transient Response
... You may have seen a count up of the time step (lower right) as the program go through the calculations as a function of time. When done, Simulation complete should appear in the lower left . A plot will be generated where the number of curves will be equal the number of voltage and current markers o ...
... You may have seen a count up of the time step (lower right) as the program go through the calculations as a function of time. When done, Simulation complete should appear in the lower left . A plot will be generated where the number of curves will be equal the number of voltage and current markers o ...
Frequency Response of Amplifiers
... Determining Lower 3dB Frequency Coupling and by-pass capacitors result in a highpass frequency response with three poles ...
... Determining Lower 3dB Frequency Coupling and by-pass capacitors result in a highpass frequency response with three poles ...
Week 2
... frequency. HSC Comparator The comparator here is used to compare input analog signals which will then output this signal as a binary signal. True Root Mean Square (TRMS) These are true RMS to DC converters. This will convert the input signals into a DC waveform which will be fed to the computer for ...
... frequency. HSC Comparator The comparator here is used to compare input analog signals which will then output this signal as a binary signal. True Root Mean Square (TRMS) These are true RMS to DC converters. This will convert the input signals into a DC waveform which will be fed to the computer for ...
Some physical problems: The driven, damped, harmonic oscillator
... 2) Set up the resistor and capacitor in series as shown and measure the magnitude and phase shift of the voltage across the capacitor as a function of frequency from 10Hz to 106 Hz. Take data on a 1-2-5-10 scale in frequency. For each frequency, you should also measure the voltage out of the functio ...
... 2) Set up the resistor and capacitor in series as shown and measure the magnitude and phase shift of the voltage across the capacitor as a function of frequency from 10Hz to 106 Hz. Take data on a 1-2-5-10 scale in frequency. For each frequency, you should also measure the voltage out of the functio ...
Bode plot
In electrical engineering and control theory, a Bode plot /ˈboʊdi/ is a graph of the frequency response of a system. It is usually a combination of a Bode magnitude plot, expressing the magnitude of the frequency response, and a Bode phase plot, expressing the phase shift. Both quantities are plotted against a horizontal axis proportional to the logarithm of frequency.