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Build this voltage divider below in Multisim. divi der Vortage Vout - 5V Vin= 50N Show...
Sketch the output Vout of the following circuits as a function of Vin. Mark and expressx- and y- intercepts in terms of parameters given in the drawing. (Hint: voltage divider) Vin Vref-AW R2 Vout VEE
Sketch the output Vout of the following circuits as a function of Vin. Mark and expressx- and y- intercepts in terms of parameters given in the drawing. (Hint: voltage divider) Vin Vref-AW R2 Vout VEE
Sketch Vout at DC as a function of input voltage at DC for-5 V < Vin < 5V. Assume an ideal silicon diode. R1 10k R2 D1 10k
Sketch Vout at DC as a function of input voltage at DC for-5 V < Vin < 5V. Assume an ideal silicon diode. R1 10k R2 D1 10k
Build an Op-Amp Circuit Network. Note you only have a power source of 5V available. You have a voltage signal that latches at a constant 1.5V. Create a difference circuit to produce an output voltage of 2V. Put P/Ns and element values in your design. Show your work. From part a)’s output voltage, assign that now as a reference voltage (Vref) to compare to an analog sensor signal (Vin) that can range between 0V – 5V. Make sure your circuit...
Vin - 5V, nom (15.02V) Vout = 15V, nom R9 > 10K nok <Pload Boost Switching Regulator Ventri I=0 --> (45.1 ohms) (2.058V) 2.3 R10 5K Vin 5v, nom ZR7 2.2k (5.14V) ET < R1 2.7k (2.947V) Vin = 5V, nom R8 1.2k (2.061V) I=0 UJA TLC272 Da, Db, D3c I=0 --> 1N914 3 diodes in series! 70 D2 (2.421V) ID2? --> 1N914 on the diagram. Using DC measured values, to ground, are shown in these measured values, determine: 1....
A MOSFET is wired as a common-source amplifier as shown below.
The input voltage vIN is the total of the source for
biasing the circuit at its operating point (vBIAS), and
a small signal ac source providing the signal that we want to
amplify (vin). The total output voltage is
vO.
a) Assume VDD = 5?, VIN = 2?, and ? = 4?Ω
in the circuit and the MOSFET parameters are K =
0.5??/?2, VTH 1?, and ? = 0.05V-1....
1) An input step voltage Vin(t)=10 u(t) Volt is applied to the circuit shown below. The initial voltage on the capacitor is zero. Using Laplace transform techniques, calculate the resulting output voltage Vout(t). R1 R2 Vout 2000 Vin c1 1000 1uF R3 1000
The two circuits you will model in Multisim and then build on the protoboard are the RC and RL circuits shown in Figures 5 and 6 below. In all cases, make the voltage supply the time reference voltage as indicated in Equation 18 (18) Keep in mind that Vso and o will not be the same for both circuits. The RC Circuit The RC Circuit is shown in Figure 5. The capacitor will have a sinusoidal voltage drop given by...
a) { 10 points} For the circuit given below, VDD = 5V, Vtn-1V, and 101-1mA Vour(t) is the instantaneous voltage at the output node. Assume λ vour(t) VIN 2V - Plot vour(t), for vin(t) -0.5sin(wt) on the graph given below. Hint: Firs you need to find gain of the amplifier 5.5 4.5 3.5 2.5 0.5 1PM -0.5 1.5 2.5 3.5 4.5 5.5 0.5 1.5 2.5 Plot vour(t) for vin t)0.75sin(t) on the graph given below 4.5 3.5p... 1.5 0.5 in...
in the ercun of if a range is to be added to the voltage divider. Show the new va age der witn apptopriale resistane The tolot vesiance rent la ML of the diu ider ist。 be up p てer Rn LV earg Suito 剥▼
in the ercun of if a range is to be added to the voltage divider. Show the new va age der witn apptopriale resistane The tolot vesiance rent la ML of the diu ider ist。 be...