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
Homework Answers
Add Answer to:
Given Beta=100.
c. What region of operation is the BJT operating in? How do you
know?...
Need help with all A-H 4. Refer to the following circuit (Qi is a generic transistor),...
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...
Need help with E-H 4. Refer to the following circuit (Qi is a generic transistor), assuming...
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...
Refer to the following circuit (Q1 is a generic transistor), assuming β = 200 when the...
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 (Qi is a generic transistor), assuming ß = 200 when the...
Refer to the following circuit (Qi is a generic transistor), assuming ß = 200 when the transistor is in the active region. R1 47ΚΩ R3 3.3ΚΩ 12V Vcc Q1 R2 12k2 R4 1.0kΩ (a) If R, is open, calculate VB, VE, Vc. (15 points) (b) If R, is short, calculate IB, Ig and Vc. (15 points) (c) If R2 is short, calculate le and Vc. (15 points) (d) If Rz is short, calculate VB, Ic, and IB. (15 points) (e)...
ASAP! Question 1 [Soalan 1] (a) Describe the condition when a npn BJT transistor operates in...
ASAP!
Question 1 [Soalan 1] (a) Describe the condition when a npn BJT transistor operates in saturation condition and what are the terminal currents and voltages conditions during saturation. [Terangkan keadaan bila satu transistor BJT npn beroperasi dalam keadaan tepu dan apakah keadaan arus dan voltan terminal semasa tepu. ] (20 Marks/Markah) (b) Consider the BJT transistor circuit in Figure 1. If Bpc = 100 and VBE = 0.65V, calculate: [Pertimbangkan litar transistor BJT dalam Rajah 1. Jika Bpc =...
Electronics1. It's a multiple choices question. use the formula sheet if needed (the last picture). Question...
Electronics1. It's a multiple choices question. use the formula
sheet if needed (the last picture).
Question 4 CIRCUIT B2 (2.5 Marks) +Voc R ler Vic RS IB Vc V. RE FIG.4: CIRCUIT B2 Statement: Sketching relevant output (VIC) characteristics decide on Q-point coordinates and DC load-line details: That is, determine DC operating conditions of the NPN-BJT/Si circuit of Fig. 4 (denoting the type Circuit B2). Assume the following: Vor = 24 volt; Rc = 5.0 k; Re = 1000 ohm:...
Use Exact Analysis Use 4 decimal places, no commas. a. VCC = 15V b. R1 =...
Use Exact Analysis Use 4 decimal places, no commas. a. VCC = 15V b. R1 = 55 kΩ c. R2 = 15 kΩ d. RC = 2.5 kΩ e. RE = 1.5 kΩ f. RS = 15 Ω g. RL = 500 Ω h. βDC = 50 i. βac = 100 Single-stage, voltage-divider biased, common-emitter with **C1 and C2 are coupling capacitors. C3 is bypass capacitor Given: A. VB = [a] V ; B. VE = [b] V ; C....
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...
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...
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 (Qi is a generic transistor), assuming ß = 200 when the transistor is in the active region. R1 47ΚΩ R3 3.3ΚΩ 12V Vcc Q1 R2 12k2 R4 1.0kΩ (a) If R, is open, calculate VB, VE, Vc. (15 points) (b) If R, is short, calculate IB, Ig and Vc. (15 points) (c) If R2 is short, calculate le and Vc. (15 points) (d) If Rz is short, calculate VB, Ic, and IB. (15 points) (e)...
ASAP!
Question 1 [Soalan 1] (a) Describe the condition when a npn BJT transistor operates in saturation condition and what are the terminal currents and voltages conditions during saturation. [Terangkan keadaan bila satu transistor BJT npn beroperasi dalam keadaan tepu dan apakah keadaan arus dan voltan terminal semasa tepu. ] (20 Marks/Markah) (b) Consider the BJT transistor circuit in Figure 1. If Bpc = 100 and VBE = 0.65V, calculate: [Pertimbangkan litar transistor BJT dalam Rajah 1. Jika Bpc =...
Electronics1. It's a multiple choices question. use the formula
sheet if needed (the last picture).
Question 4 CIRCUIT B2 (2.5 Marks) +Voc R ler Vic RS IB Vc V. RE FIG.4: CIRCUIT B2 Statement: Sketching relevant output (VIC) characteristics decide on Q-point coordinates and DC load-line details: That is, determine DC operating conditions of the NPN-BJT/Si circuit of Fig. 4 (denoting the type Circuit B2). Assume the following: Vor = 24 volt; Rc = 5.0 k; Re = 1000 ohm:...
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