Basic AC
... An AC circuit has a 5 Meg ohm resistor R1 connected in series with a 10 Meg ohm resistor R2, across a 200 Vac source. Calculate Rt,I,E1,E2,P1,P2 ...
... An AC circuit has a 5 Meg ohm resistor R1 connected in series with a 10 Meg ohm resistor R2, across a 200 Vac source. Calculate Rt,I,E1,E2,P1,P2 ...
Electrical oscillations and tuned circuits
... Figure 2(a) shows an acceptor filter where frequencies of 1/[2√(LC)] will be passed by the filter. Figure 2(b) shows a rejector filter where all frequencies except those of frequency 1/2π√(LC) will be passed by the filter. Figure 2(b) ...
... Figure 2(a) shows an acceptor filter where frequencies of 1/[2√(LC)] will be passed by the filter. Figure 2(b) shows a rejector filter where all frequencies except those of frequency 1/2π√(LC) will be passed by the filter. Figure 2(b) ...
Part 2 - UniMAP Portal
... Important terms – roll-off (rate of transition where the magnitude ratio decreases relative to the frequency – dB/decade); phase shift (between input & output signal) ...
... Important terms – roll-off (rate of transition where the magnitude ratio decreases relative to the frequency – dB/decade); phase shift (between input & output signal) ...
Data Transmission and Encoding
... Differential Manchester Midbit transition is clocking only Transition at start of a bit period represents zero No transition at start of a bit period represents one Note: this is a differential encoding scheme Used by IEEE 802.5 ...
... Differential Manchester Midbit transition is clocking only Transition at start of a bit period represents zero No transition at start of a bit period represents one Note: this is a differential encoding scheme Used by IEEE 802.5 ...
Electronics II. 3. measurement : Tuned circuits
... a) Calculate the f0 resonance (band-stop) frequency using the provided formula and values. b) Use the function generator to provide a 10 Vpp sinewave to the input of the double T. Measure the transfer function (Vout vs frequency) between 20Hz and 20kHz. Use more detailed sampling in places where the ...
... a) Calculate the f0 resonance (band-stop) frequency using the provided formula and values. b) Use the function generator to provide a 10 Vpp sinewave to the input of the double T. Measure the transfer function (Vout vs frequency) between 20Hz and 20kHz. Use more detailed sampling in places where the ...
Laboratory Exercise 5
... An important consideration when calculating the quality factor of a resonance is the intrinsic resistance of the inductor. As was seen in the lab 3, real inductors always have a DC resistance, which is the resistance of their windings, which is in series with the inductor. This resistance, RL, this ...
... An important consideration when calculating the quality factor of a resonance is the intrinsic resistance of the inductor. As was seen in the lab 3, real inductors always have a DC resistance, which is the resistance of their windings, which is in series with the inductor. This resistance, RL, this ...
SPS9. Students will investigate the properties of waves.
... • Alternating Current: Electric current that reverses its direction of flow • Direct Current: Electric current that flows in only one direction (batteries) ...
... • Alternating Current: Electric current that reverses its direction of flow • Direct Current: Electric current that flows in only one direction (batteries) ...
Digital Representation of Audio Information
... Data collected and spectrogram computed by H.L. Fournier Note frequency dependence on of decay time. ...
... Data collected and spectrogram computed by H.L. Fournier Note frequency dependence on of decay time. ...
Video Transcript - Rose
... This is a bandreject filter with a center frequency of 1 radian per second. We want to scale the circuit to make the center frequency shift to 100,000 radians per second. We assume that there is a one-nanofarad capacitor available for the new circuit. Let’s try to analyze the circuit in s domain. Th ...
... This is a bandreject filter with a center frequency of 1 radian per second. We want to scale the circuit to make the center frequency shift to 100,000 radians per second. We assume that there is a one-nanofarad capacitor available for the new circuit. Let’s try to analyze the circuit in s domain. Th ...