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The ac equivalent circuit for an amplifier is shown in Fig. P13.59. Assume the capacitors have...
All questions refer to textbook problem 13.59. For questions 7-11, a 2 kq unbypassed Re is...
All questions refer to textbook problem 13.59. For questions 7-11, a 2 kq unbypassed Re is added to the ac circuit. Assume the Q-point and small-signal parameters are unchanged. Note the CE amplifier with Reis in section 14.2 What is Rin with the Rę added? 72.6 k 2 38.5 ko 100k 264.5 k 2 Question 10 (1 point) All questions refer to textbook problem 13.59. For questions 7-11, a 2 kq unbypassed Rę is added to the ac circuit. Assume...
Q1. For the cascade amplifier circuit shown in Fig (1): a) What are the functions of the capacitors C, C2 and C3? And w...
Q1. For the cascade amplifier circuit shown in Fig (1): a) What are the functions of the capacitors C, C2 and C3? And what are the functions of the capacitors Cs and CE? b) What are the functions of the resistors RD and Rc? c) Draw the DC biasing circuits for each stage. d) Find loa, VGsa, VDs and gm for the JFET stage (you may use either mathematical or graphical methods) e) Calculate l, Ic, le and Ve for...
gm = 1.6 mS, r(pi)= 62.5 kOhm, ro= 1.875 MOhm, Rin= 39.2 kOhm, Rout= 37.6 kOhm,...
gm = 1.6 mS, r(pi)= 62.5 kOhm, ro= 1.875 MOhm, Rin= 39.2 kOhm,
Rout= 37.6 kOhm, Av = -59, Av with RE added = -14.6, RiB with RE
added = 264.5 kOhm
The ac equivalent circuit for an amplifier is shown in Fig. P13.59. Assume the capacitors have infinite value, R = 750 12, RB = 100 k12, Rc = 62 k22, and R3 = 100 k12. Calculate the voltage gain and input resistance for the amplifier if the BJT...
For good rating provide correct and full solution 6.11 The CE amplifier of Fig. P6.11 utilizes the feedback-bias sch...
For
good rating provide correct and full solution
6.11 The CE amplifier of Fig. P6.11 utilizes the feedback-bias scheme. Assume the BJT is biased at le--l mA, and has β,-150, V, 75 V, r,-300Q, f 500 MHz, and C-0.3 pF. Estimate a andf- if R.e -1.0 k2. Rc- 10 kf2, and R, 100 kS2. Hint: beware that both C^ and Rg are subject to the Miller effect. sig FIGURE P6.11
6.11 The CE amplifier of Fig. P6.11 utilizes the feedback-bias...
please answer this ASAP Answer the following questions for the below BJT amplifier circuit. Assume capacitors...
please answer this ASAP
Answer the following questions for the below BJT amplifier circuit. Assume capacitors are short in the signal circuit. Use Vr 25 mV,B = 100, Vpo = 0.7 V, and Ignore the early effect in the bias and signal circuits Find the Bias parameters of the amplifier circuit a) b) Find the small signal parameters of the amplifier. c) Draw the small signal equivalent circuit. Find the open loop voltage gain (Ayo), voltage gain (A,), total circuit...
3 Question 2 (2 points) All questions refer to a "simplified" CE amplifier that has no...
3 Question 2 (2 points) All questions refer to a "simplified" CE amplifier that has no Rg at all, and no C3 The other components are: R1 100 Ω, RB-200 k , RC-5 kQ, R3 10 kr. The amplifier has input and output coupling capacitors C1 C2 10 μF. There is no CL. The bias circuit gives 1c"# 1.5 mA. The transistor has β = 120, ro-50 kQ, Cu-2 pF and C,-12 pF. You can neglect rx. What is the...
Rsig/2 Figure P8.45 8.46 Find the voltage gain and the input resi amplifier shown in Fig. P8.46 a...
Rsig/2 Figure P8.45 8.46 Find the voltage gain and the input resi amplifier shown in Fig. P8.46 assuming β = 100. resistance of the +5 V 25 x1 0 02 250 Ω 250 Ω Rin 0.2 mA Figure P8.46
Rsig/2 Figure P8.45 8.46 Find the voltage gain and the input resi amplifier shown in Fig. P8.46 assuming β = 100. resistance of the +5 V 25 x1 0 02 250 Ω 250 Ω Rin 0.2 mA Figure P8.46
We design a voltage amplifier using a BJT following the plan laid down in the handout "Notes on common emitter...
We design a voltage amplifier using a BJT following the plan laid down in the handout "Notes on common emitter transistor amplifier 8 IN RB Design an amplifier with a Gain VoutVinl30 Assume the transistor gain is B 100. Let Vcc 15 V Choose VCE Vcc-VCE.Sat Choose Ic.o-10 mA. 1. Determine values of resistors Rc, RE, and RB so that the gain is essentially independent of the value of β 2. State and satisfy the load-line relation between lc.a and...
Q.A. 2 -Statement: DC biasing of a CE amplifier circuit is as in Fig.2 Assume the...
Q.A. 2 -Statement: DC biasing of a CE amplifier
circuit is as in Fig.2 Assume the parameters, VCC
= 12 volt, RE = 450 ohm; = 100; RL = 2250 ohm, RC =1000 ohm and
source resistance and Rs = 2500 ohm. Also, the device emitter
resistance re is negligible.
The amplifier is excited by a source, vs(t) = Vm × sin(2ft)
with Vm = 500 mV peak and f = 5500 Hz; and, coupling and by-pass
capacitors can...
4. For the amplifier in the figure below use the parameters in the table: +Vcc Re VBE- 0.7V, Ri- ...
4. For the amplifier in the figure below use the parameters in the table: +Vcc Re VBE- 0.7V, Ri- 1002, R1-160k2, R2-320k2 R3-200k2, R6-40 k2, Rc-60k2, Vcc- 12V, Ry Do a) Draw the DC equivalent circuit and calculate the Q-point. c) Draw the AC equivalent circuit with the small signal model for the transistor. d) Calculate the voltage gain, Av-Vo/vi. Assume ro infinite. e) Draw the circuit to find the amplifier input resistance (Rin). Calculate Rin f Draw the circuit...
All questions refer to textbook problem 13.59. For questions 7-11, a 2 kq unbypassed Re is added to the ac circuit. Assume the Q-point and small-signal parameters are unchanged. Note the CE amplifier with Reis in section 14.2 What is Rin with the Rę added? 72.6 k 2 38.5 ko 100k 264.5 k 2 Question 10 (1 point) All questions refer to textbook problem 13.59. For questions 7-11, a 2 kq unbypassed Rę is added to the ac circuit. Assume...
Q1. For the cascade amplifier circuit shown in Fig (1): a) What are the functions of the capacitors C, C2 and C3? And what are the functions of the capacitors Cs and CE? b) What are the functions of the resistors RD and Rc? c) Draw the DC biasing circuits for each stage. d) Find loa, VGsa, VDs and gm for the JFET stage (you may use either mathematical or graphical methods) e) Calculate l, Ic, le and Ve for...
gm = 1.6 mS, r(pi)= 62.5 kOhm, ro= 1.875 MOhm, Rin= 39.2 kOhm,
Rout= 37.6 kOhm, Av = -59, Av with RE added = -14.6, RiB with RE
added = 264.5 kOhm
The ac equivalent circuit for an amplifier is shown in Fig. P13.59. Assume the capacitors have infinite value, R = 750 12, RB = 100 k12, Rc = 62 k22, and R3 = 100 k12. Calculate the voltage gain and input resistance for the amplifier if the BJT...
For
good rating provide correct and full solution
6.11 The CE amplifier of Fig. P6.11 utilizes the feedback-bias scheme. Assume the BJT is biased at le--l mA, and has β,-150, V, 75 V, r,-300Q, f 500 MHz, and C-0.3 pF. Estimate a andf- if R.e -1.0 k2. Rc- 10 kf2, and R, 100 kS2. Hint: beware that both C^ and Rg are subject to the Miller effect. sig FIGURE P6.11
6.11 The CE amplifier of Fig. P6.11 utilizes the feedback-bias...
please answer this ASAP
Answer the following questions for the below BJT amplifier circuit. Assume capacitors are short in the signal circuit. Use Vr 25 mV,B = 100, Vpo = 0.7 V, and Ignore the early effect in the bias and signal circuits Find the Bias parameters of the amplifier circuit a) b) Find the small signal parameters of the amplifier. c) Draw the small signal equivalent circuit. Find the open loop voltage gain (Ayo), voltage gain (A,), total circuit...
3 Question 2 (2 points) All questions refer to a "simplified" CE amplifier that has no Rg at all, and no C3 The other components are: R1 100 Ω, RB-200 k , RC-5 kQ, R3 10 kr. The amplifier has input and output coupling capacitors C1 C2 10 μF. There is no CL. The bias circuit gives 1c"# 1.5 mA. The transistor has β = 120, ro-50 kQ, Cu-2 pF and C,-12 pF. You can neglect rx. What is the...
Rsig/2 Figure P8.45 8.46 Find the voltage gain and the input resi amplifier shown in Fig. P8.46 assuming β = 100. resistance of the +5 V 25 x1 0 02 250 Ω 250 Ω Rin 0.2 mA Figure P8.46
Rsig/2 Figure P8.45 8.46 Find the voltage gain and the input resi amplifier shown in Fig. P8.46 assuming β = 100. resistance of the +5 V 25 x1 0 02 250 Ω 250 Ω Rin 0.2 mA Figure P8.46
We design a voltage amplifier using a BJT following the plan laid down in the handout "Notes on common emitter transistor amplifier 8 IN RB Design an amplifier with a Gain VoutVinl30 Assume the transistor gain is B 100. Let Vcc 15 V Choose VCE Vcc-VCE.Sat Choose Ic.o-10 mA. 1. Determine values of resistors Rc, RE, and RB so that the gain is essentially independent of the value of β 2. State and satisfy the load-line relation between lc.a and...
Q.A. 2 -Statement: DC biasing of a CE amplifier
circuit is as in Fig.2 Assume the parameters, VCC
= 12 volt, RE = 450 ohm; = 100; RL = 2250 ohm, RC =1000 ohm and
source resistance and Rs = 2500 ohm. Also, the device emitter
resistance re is negligible.
The amplifier is excited by a source, vs(t) = Vm × sin(2ft)
with Vm = 500 mV peak and f = 5500 Hz; and, coupling and by-pass
capacitors can...
4. For the amplifier in the figure below use the parameters in the table: +Vcc Re VBE- 0.7V, Ri- 1002, R1-160k2, R2-320k2 R3-200k2, R6-40 k2, Rc-60k2, Vcc- 12V, Ry Do a) Draw the DC equivalent circuit and calculate the Q-point. c) Draw the AC equivalent circuit with the small signal model for the transistor. d) Calculate the voltage gain, Av-Vo/vi. Assume ro infinite. e) Draw the circuit to find the amplifier input resistance (Rin). Calculate Rin f Draw the circuit...
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