For these 2 questions, determine which single-transistor amplifier configuration you would use, and why. Choose the best answer from those given. For some questions, it's possible more than one answer is accepted. The sign of the gain doesn't matter. A voltage buffer with gain as close to one as possible, Rin 2 100 ka with Road = 2 kn, and Rut s 100 2. CD. cC or CD is suited for this application, but CD is better for the high Rin- cs. With a low Rp to give the low gain, a CS would meet these specifications with the easiest design. cc. cc or CD is suited for this application, but CC will give a gain closer to one, lower Rutr and the specified Ri, is easily achievable. cC or CD is suited for this application, and either would work equally well here. Question 10 For these 2 questions, determine which single-transistor amplifier configuration you would use, and why. The sign of the gain doesn't matter. Choose the best answer from those given. For some questions, it's possible more than one answer is accepted A voltage amplifier with gain = 100 and Rin A = 1 kn. CB. High gain requires CB or CE, and CB has low Rin- OCG. CG has high gain and a low Rin typically z 1 ka. cs. cs has high gain, and Rin could be achieved by simply setting Rg = 1 kM. CE. High gain requires CB or CE, and CE could achieve this Ri, with a relatively low r, (r_pi) design.

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Question 9
For these 2 questions, determine which single-transistor amplifier configuration you
would use, and why. Choose the best answer from those given. For some questions,
it's possible more than one answer is accepted. The sign of the gain doesn't matter.
A voltage buffer with gain as close to one as possible, Rin 2 100 ka with R1ad = 2 kn,
and Rut S 100 2.
CD. CC or CD is suited for this application, but CD is better for the high Rin-
cS. With a low Rp to give the low gain, a Cs would meet these specifications with
the easiest design.
cc. cC or CD is suited for this application, but CC will give a gain closer to one,
lower Rput and the specified R;n is easily achievable.
CC or CD is suited for this application, and either would work equally well here.
Question 10
For these 2 questions, determine which single-transistor amplifier configuration you
would use, and why. The sign of the gain doesn't matter. Choose the best answer
from those given. For some questions, it's possible more than one answer is accepted
A voltage amplifier with gain = 100 and Rin = 1 kn.
CB. High gain requires CB or CE, and CB has low Rin-
CG. CG has high gain and a low Rin typically z 1 ka.
cs. cs has high gain, and Rin could be achieved by simply setting Rg = 1 kn.
CE. High gain requires CB or CE, and CE could achieve this Rin with a relatively
low r, (r_pi) design.
Transcribed Image Text:Question 9 For these 2 questions, determine which single-transistor amplifier configuration you would use, and why. Choose the best answer from those given. For some questions, it's possible more than one answer is accepted. The sign of the gain doesn't matter. A voltage buffer with gain as close to one as possible, Rin 2 100 ka with R1ad = 2 kn, and Rut S 100 2. CD. CC or CD is suited for this application, but CD is better for the high Rin- cS. With a low Rp to give the low gain, a Cs would meet these specifications with the easiest design. cc. cC or CD is suited for this application, but CC will give a gain closer to one, lower Rput and the specified R;n is easily achievable. CC or CD is suited for this application, and either would work equally well here. Question 10 For these 2 questions, determine which single-transistor amplifier configuration you would use, and why. The sign of the gain doesn't matter. Choose the best answer from those given. For some questions, it's possible more than one answer is accepted A voltage amplifier with gain = 100 and Rin = 1 kn. CB. High gain requires CB or CE, and CB has low Rin- CG. CG has high gain and a low Rin typically z 1 ka. cs. cs has high gain, and Rin could be achieved by simply setting Rg = 1 kn. CE. High gain requires CB or CE, and CE could achieve this Rin with a relatively low r, (r_pi) design.
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