Refer to the following circuit (Qi is a generic transistor), assuming ß = 200 when the...
Need help with E-H 4. Refer to the following circuit (Qi is a generic transistor), assuming B = 200 when the transistor is in the active region. R1 47kg R3 33.3ko 12V Vcc Q1 R2 12k R4 1.0kΩ (a) If R, is open, calculate VB, VE, Vc. (b) If R is short, calculate 1b, IE and Vc. (c) If R2 is short, calculate IE and Vc. (d) If R3 is short, calculate VB, Ic, and Ib. (e) If both Rj...
Need help with all A-H 4. Refer to the following circuit (Qi is a generic transistor), assuming B = 200 when the transistor is in the active region. R1 47kg R3 33.3ko 12V Vcc Q1 R2 12k R4 1.0kΩ (a) If R, is open, calculate VB, VE, Vc. (b) If R is short, calculate 1b, IE and Vc. (c) If R2 is short, calculate IE and Vc. (d) If R3 is short, calculate VB, Ic, and Ib. (e) If both...
Refer to the following circuit (Q1 is a generic transistor), assuming β = 200 when the transistor is in the active region. (1) If both R1 and R3 are short, calculate IB, IC, and IE. (2) If R4 is short, calculate IB, VC, and IE. (3) If both R2 and R3 are open, calculate IB, IC, and IE. (4) If R1, R2 are swapped, calculate IB, IC, and IE. R1 47ΚΩ R3 3.3kΩ 12V Vcc Q1 T R2 12kΩ R4...
Refer to the following circuit (Q1 is a generic transistor), assuming β = 200 when the transistor is in the active region. (a) If R1 is open, calculate VB, VE, VC. (b) If R1 is short, calculate IB, IE and VC. (c) If R2 is short, calculate IE and VC. (d) If R3 is short, calculate VB, IC, and IB. R1 47ΚΩ R3 3.3kΩ 12V Vcc Q1 R2 12kΩ R4 1.0kΩ
Refer to the following circuit (Q1 is a generic transistor), assuming B = 200 when the transistor is in the active region. If both R, and Rs are short, calculate Is, lo and le 47k If Reis short, calculate 13, Vc and lę If both Ryand Rare open, calculate le, Ic, and le If Ry, Ry are swapped, calculate ls, lo and I R1 R3 3.3k 12V Vcc Q1 R2 12k R4 1.0k
Refer to the following circuit (Q, is a generic transistor), assuming B = 200 when the transistor is in the active region. If R, is open, calculate VB, VEVO R3 If R, is short, calculate le, le and Vc 3.3k $47ko If R is short, calculate le and Vc If R, is short, calculate Vic, and I 12V Q1 Vcc R1 R2 3120 R4 1.0k
Given Beta=100. c. What region of operation is the BJT operating in? How do you know? Hint: compare the voltages at the Base, Collector, and Emitter. d. Calculate theoretical calculations for VB, VC, VE, IB, IC, and IE V1 12E R4 470k R1 22k 01 Qbreakn R3 270k R2 16k 0
A four-resistor circuit is shown in the figure. The values of the resistors are as follows: Ri=10 Ohms, Rz=R3=6 Ohms, R4=2 Ohms. What is the equivalent resistance Reg for this circuit? R M R3 R3 R3 > O 0.50 ohms O 2.00 ohms 0 3.33 ohms 0 5.25 ohms o 7.50 ohms Question 8 5 pts The circuit shown in the figure below contains three resistors (R1, R2, and R3) and three batteries (VA. VB, and Vc). The resistor values...
ENG 301 Electronics I Homework 2 1 Refer to Figure 1. Assume ß 50 and VBE(on) 0.7 V for all BJTs in the circuit. For Ri 12 kN and Rc 10 k2, find the differential voltage gain (Ad) of the differential amplifier taken as one- sided output at vc +10 V Rc +10 V IREPR -10 V Figure 1 2. Vcc +12 V RCI= 10 k2 R3= 15 k2 67.3 k2 Ris Cci Q1 Cc2 CC3 R4= 45 k2 R2...
Problem 2 Consider the feedback amplifier circuit on Figure P2. The DC current gain of transistor Q3 is -100 1. What type of feedback (or what feedback topology) do we have on the circuit in Figure P2? 2. Draw the A-circuit. Express and compute the open-loop voltage gain A at mid-band frequency 3, Draw the γ-circuit. Express and compute the feedback factor γ 4. Express and compute the overall gain of the feedback amplifier Ap Express and compute the input...