+10 V 4.3 Determine the voltage at points Vc V, and VcE in the circuit shown in Figure P4.3 when ...
RE -3.3k2 Figure 5. Vbe-0.7V (active), Vce 0.2V (saturation), p-100 For the circuit shown in Figure 5: a) If V oV DC, find the DC bias point for Q1? b) Draw the small signal equivalent circuit and evaluate the small signal AC voltage gain. c) Sketch le vs Vce and show the operating point for the transistor. d) How would you change the bias to obtain maximum signal swing?
D. For the transistor circuit shown in Figure 7, assuming that the transistor is in the forward active mode, and B = 100 and VBE = 0.7V, calculate Base current 1B Collector current Ic (iii) Emitter current le (iv) Collector to emitter voltage Vce and (v) Voltage across the 2009 resistor v 3 80022 10 kV W VCE VBE مت + + 1 2001} 1 1
(13 points) For the transistor in the circuit shown below, VBE(on) = 0.7 V, Vce(sat) = 0.2 V, and B = 100. Determine the value of the collector current. +5 V R=1.2 ko R =33 k2 -5 V
Problem 4a (15 points) For the transistor circuit shown in the figure, calculate the value of the output voltage given β 49 and VBE-0.7V. Problem 4b (10 points) The charge entering an electric element (part) is shown in the figure. Find the current at t- 1.5 sec, t-2.5 sec and t 10 sec 30 0 246810 12 Problem 3 (25 points) For the circuit shown in the Figure, use the Mesh Analysis method, to find the value of the branch...
The following ciruits has_ biasing scheme Find lE Find VE and VB . Find Vc and VcE +10 V Find Cb and Cc! Draw an AC equivalent circuit . circuitqent . Find AC input voltage at Find AC voltage gain (A) . Ca 2kQ the base (Vin_b) B-100 10kO . Find the output AC voltage 100 mV @1 KHz 3 kS2 The following ciruits has_ biasing scheme Find lE Find VE and VB . Find Vc and VcE +10 V...
Problem 4 (20 %) For the circuit shown in Figure 4 determine IB, IC, and VC. Data VCC=9 V VBB=4 V R2= 165 k R1= 2.5 k Transistor Assume VBE ≈ 0.7 V and =150 Derive all the results. Give the answers with the preestablished prefix. FAVOR DIBUJAR LOS CIRCUITOS Problem 4 (206) For the circuit shown in Figure 4 determine IB, I, and Vc. Data Ve=9 V V=4V R = 165 kg R=2.5k_2 Transistor Assume VE 0.7 V and...
Question 1 (4 points) Voc 3 Rc RB13 The voltage-divider bias circuit shown has Rc = 2 k12, RE = 400 12, RB1 = 300 k22, RB2 = 100 ks and Vcc = 25 V. Assume that VBE = 0.7 V and B = 90. Determine the Q- point (Ic and VCE) for the bias circuit. OVCE = 5.91 V Ic = 3.09 mA OVCE = 12.07 V Ic = 2.40 mA O VCE = 14.22 V Ic = 4.48...
For the underdamped circuit shown in the accompanying figure, determine the voltage v(t) if the initial conditions on the storage elements are i_(0) = 4 A and vc(O) = 10 V. il(0) 2H] v(t) 50 Tuco) 1/40 F Please put all numbers as integers. Click here to enter or edit your answer v(t) =
4.9 Determine R1 and R2 to obtain a zero quiescent output voltage for the circuit shown in Figure P4.9 when the transistor has a β 200 and Va,--0.6V. (Assume RB-10 kQ) o Y out +8V 4.9 Determine R1 and R2 to obtain a zero quiescent output voltage for the circuit shown in Figure P4.9 when the transistor has a β 200 and Va,--0.6V. (Assume RB-10 kQ) o Y out +8V
a. What is the equivalent resistance in the circuit shown in the figure? b. If V = 10 V, what is the total current supplied by the battery to the circuit? c. What is the voltage between points A and B in the circuit? (Hint: Find the equivalent resistance between points A and B and then use Ohm’s law i. What is the equivalent resistance in the circuit shown in the figure? ii. If V = 10 V, what is...