. Determine the dc current gain βDC and the emitter current IE for a transistor where IB =50 μA and IC=3.65 mA.
. Determine the dc current gain βDC and the emitter current IE for a transistor where...
2. (15 pts) An npn bipolar junction transistor is biased in the forward-active region. The common-base current gain, α 0.95. The input emitter current is IE-4.6 mA. a) Calculate the collector current Ic b) Calculate the common-emitter current gain, B c) Calculate the base current IB IB
Solve 11 and 12
1. (10 pts.) A base current Is of 0.048 mA is applied to the transistor in the Figure below. A voltage of 3.6 V is measured across resistor Re. Determine the emitter current le and the transistor pox 100 kn Van IE: 12.(15 pts.) For the NPN transistor circuit bhown,cakculate la, l and Va says that pa-oTV when the transistor is ON. (Given ?. 150) Use the usual approximation, which cC CE 200 kQ IB: Ic:...
1) Calculate the value of the base current
IB. (in μA)
2) Calculate the value of the base collector current
IC. (In mA)
3) Calculate the value of the collector-emitter voltage
VCE. (In V)
Required information In the circuit below: RB = 820 kN, Vcc = 12 V, RC = 3 kN2, and Bdc = 100. Note: The transistor is silicon. Vcc w Rc Re Bdc
Common-emitter amplifier?
(10 pts) Consider a common-emitter amplifier with emitter resistor shown below. DC voltage sources VBB and Vcc bias the transistor at lc-1mA. Let β-100. Determine the overall voltage gain Gv 2. VCC 10 k2 Vsig VBB
(10 pts) Consider a common-emitter amplifier with emitter resistor shown below. DC voltage sources VBB and Vcc bias the transistor at lc-1mA. Let β-100. Determine the overall voltage gain Gv 2. VCC 10 k2 Vsig VBB
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Question 2 CIRCUIT A2 (2.5 Marks) + Ver Rc Ic с IR Fig. 2: CIRCUIT A.2 Statement: Sketching relevant output (Vc-Ic) 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.2 (denoting the type Circuit A2). Assume the following: Vcc= 24 volt; Rc = 5.0 k; RB = 1500 k and B = 125. Required...
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Question 3 CIRCUIT B1 (2.5 Marks) + Vcc Rc IRC > IC RB Ів + VCE IE FIG. 3: CIRCUIT B1 Statement: Sketching relevant output (Vc-Ic) 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.3 (denoting the type Circuit B1). Assume the following: Vcc= 20 volt; Rc = 2.5 k; RB = 350 k...
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Question 4 CIRCUIT B2 (2.5 Marks) +Vcc Rc IRC Vic RB Ів Vc VB VE RE IE FIG.4: CIRCUIT B2 Statement: Sketching relevant output (Vc-Ic) 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: Vcc= 24 volt; Rc = 5.0 k; RE = 1000 ohm; RB...
Electronics1. It's a multiple choices question. use the formula
sheet if needed (the last picture).
Question 3 CIRCUIT B1 (2.5 Marks) + VC Rc IRC < + RB IC IB V ce → IE FIG. 3: CIRCUIT B1 Statement: Sketching relevant output (V-Ic) 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.3 (denoting the type Circuit B1). Assume the following: Vcc= 20 volt; Rc = 2.5 k; RB...
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Must show all work, thank you
Question 1 CIRCUIT A.1 (2.5 Marks) + Vcc RB IB Rc Vc VB Fig. 1: CIRCUIT A.1 Statement: Sketching relevant output (Vc-Ic) 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.1 (denoting the type Circuit A1). Assume the following: Vcc= 12 volt; Rc = 3.6 k; RB = 500 k and a = 0.9....
please choose one of the answer choices above.
Must show all work, thank you
Question 5 CIRCUIT C1 (2.5 Marks) Statement: Sketching relevant output (Vc-Ic) 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.5 (denoting the type Circuit C1). Assume the following: Vcc= 18 volt; Rc = 1.5 k; RB1 = 75 k; RB2 = 3.6 k; V CESat = 1 volt; and a = 0.99338. +Vcc VIC...