A source circuit is used to drive a load with resistance RL = 30?. The Thevenin...

Design the circuit of a source follower JFET amplifier biasing circuit with load RL and input...

Design the circuit of a source follower JFET amplifier biasing circuit with load RL and input voltage internal resistance RS that having a gain of +0.2. The specification of the circuit is given as below: Supply voltage, VCC = +12 V; Input impedance, Zi = 10 k; cut-off frequency from source capacitor, fLS = 40 Hz; cut-off frequency from gate capacitor, fLG = 4 Hz; VGSQ = -2.86 V; IDSS = 16 mA and Vp = -4 V

(15-17)         An AC series RL circuit has a source RMS voltage of 100 V, an inductance...

(15-17)         An AC series RL circuit has a source RMS voltage of 100 V, an inductance of 50 mH, and a resistance of 10 W. The AC source operates at 60 Hz. 15.         For this circuit, which of the following is true? Group of answer choices The current leads the source voltage. The current lags the source voltage. The current and source voltage are in phase. None of the above. Which of the following for this circuit has the greater...

why a higher transmission voltage is advantageous. Source voltage = 5V Line resistance = 1 Ohm...

why a higher transmission voltage is advantageous. Source voltage = 5V Line resistance = 1 Ohm Load resistance = 4 Ohm Calculate the following for each Current in the circuit Power dissipated by the line resistance Power dissipated in the load Total power delivered Ratio of power lost due to line resistance to power dissipated in the load

2. AC supply voltage V= 230 Vrms at 60 Hz is connected to a RL load...

2. AC supply voltage V= 230 Vrms at 60 Hz is connected to a RL load of resistance, R = 10 ohms and inductance, L= 20 mH. Predicts the current lagging and power loss due to lagging effect.

Imagine a perfect voltage source V that has an internal resistance of r, if we connect...

Imagine a perfect voltage source V that has an internal resistance of r, if we connect that source to a resistive load R. A known equation for power delivered to the load is (VLoad2/R). What maximum power P is able to be delivered to the load?

The instantaneous power consumed by a load has a max value of 1600 W and a...

The instantaneous power consumed by a load has a max value of 1600 W and a minimum value of -400 W. The load voltage amplitude is |V |=100 V. (a) Find a possible value for the RL circuit that will be equivalent of this load. (b) Find the complex power that this load consumes in the form of S = P + jQ. (c) Find the maximum instantaneous power th

A full-wave rectifier has a 120 V rms, 60 Hz ac source. The load is a...

A full-wave rectifier has a 120 V rms, 60 Hz ac source. The load is a series inductance, resistance and dc voltage source, with L = 100 mH, R = 10 Ω, and Vdc = 50 V. a). Determine an expression for load current. b). Determine the power absorbed by the dc voltage source. c). Determine the power absorbed by the resistance. d). Determine the power factor of the source.

A 47mH inductor in series with a resistance of 32? is connected to a source whose...

A 47mH inductor in series with a resistance of 32? is connected to a source whose voltage is V = 321V cos 150?t,where t is in seconds. (a) Determine the maximum current in the circuit. Imax = (b) Determine the maximum and rms voltages across the inductor. V Lmax = (c) V Lrms = (d) Determine the average power dissipation. Pav = (e) Determine the maximum and average energy stored in the magnetic field of the inductor. U Lmax =...

A generator with rms voltage of rms = 120 V drives an RLC circuit at frequency...

A generator with rms voltage of rms = 120 V drives an RLC circuit at frequency f = 60 Hz. The load resistance R and reactance values of the inductor L and the capacitor C of the circuit are given by R = 50 , XL = 50 , XC = 150 , respectively What is the impedance of the circuit? What is the peak current amplitude in the circuit? What is the phase angle  of the circuit? The...

Reorganize resistance, R and inductance, L equivalent from a transformer secondary circuit for a resistive load...

Reorganize resistance, R and inductance, L equivalent from a transformer secondary circuit for a resistive load and explain inductive loss how is associated in the secondary circuit of the transformer?