6- find the suitable total voltage (V'T) for the circuit diagram shown in Figure (f) R1=30 IT=10A R4=30 Fig. f VT=? R3=30 R2=30
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- In an R-L parallel circuit, ET=480 volts, R=16, and XL=24. Find PF.Derive the Vout of the circuit shown in Figure 3 below in terms of V1, V2, R1and Rf. States all your assumptions. (Show steps by steps)Sketch the DC equivalent circuit Determine IDQ and VDSQ Determine VD and VS Show the details of your work Thanks!
- Virtual Lab: circuits and Kirchoff’s rules Go to: https://phet.colorado.edu/it/simulation/circuit-construction-kit-dc-virtual-labBuild each of the circuits in the figures, with the designed characteristics.For each of the circuits, show the calculations to find the current and the potential difference in eachelement of the circuit.In building the circuit in Figure 1) through the simulator, adjust the small resistance of the battery tozero and put in series a small resistance as required from the design.For instance, for E1 you will need abattery with V = 6V and you will need to put in series a small resistance of 0.5 Ω to simulate the smallresistance in a battery.Figure 1)Figure 2)Determine VGS and VDS for the FET circuit in figure. Assume this particular FET has minimum value of ID(on) = 500mA at VGS = 6V and VGS(th) = 2V. Also, (b) Identify the type of FET device used in the circuit diagram.Need help with this Question The D-MOSFET circuit shown in Figure Q1(b) has IDSS = 3 mA and VGS(off) =−8 V. Given the following:R1 = 50 kΩR2 = 150 kΩRD = 1 kΩRS = 2 kΩVDD = +10 VVSS = −10 VDetermine VGS, ID and VDS.
- Figure Q. 3(b) shows an op amp circuit for linear amplifier application. (i) Determine the value of current I3.(ii) Find the value of R if the output current, Io is given as 2 mA.(iii) Explain what will happen to output voltages, V01 and V02 if the supplyvoltages, +VCC and -VCC are connected to +10V and -10V.Find the Thévenin equivalent resistance seen byresistor R3 in the circuit of Figure P3.23. Compute theThévenin (open-circuit) voltage and the Norton(short-circuit) current when R3 is the load.Find the Thévenin equivalent resistance seen byresistor R3 in the circuit of Figure P3.5. Compute the Thévenin (open-circuit) voltage and the Norton(short-circuit) current when R3 is the load.
- Q4: Find Rab for the circuit in figure belowGiven this thevenin equivalent circuit, we now plug up a load resistor that is 500 ohms. How would you calculate output voltage and output current given this load resistor?Consider the two circuit diagrams below. These two circuits are equivalent infunction but are drawn to appear differently. In circuit diagram 1, nodes ? through ?are labelled. Redraw circuit diagram 2 with these nodes labelled to demonstrate thisequivalency.