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Given collector resistance = 2kΩ, load resistance = 5kΩ, collector capacitance = 1μF, emitter capacitance = 20μF, collector current = 2mA, source resistance = 2kΩ. If the effect of blocking capacitor is ignored, find the applicable cut-off frequency.
- a)22.73 Hz
- b)612 Hz
- c)673Hz
- d)317 Hz
Correct answer is option 'B'. Can you explain this answer?
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Most Upvoted Answer
Given collector resistance = 2kΩ, load resistance = 5kΩ, c...
The collector resistance is a parameter used in the design and analysis of transistor amplifier circuits. It represents the resistance connected to the collector terminal of the transistor.
If the collector resistance is given as 2k, it means that a resistor with a resistance value of 2 kilohms is connected to the collector terminal of the transistor. This resistor is typically used to provide a load for the transistor and to set the operating point of the circuit.
The specific value of the collector resistance will depend on the particular circuit design and requirements. It can be chosen based on factors such as desired voltage gain, power dissipation, and stability of the circuit.
If the collector resistance is given as 2k, it means that a resistor with a resistance value of 2 kilohms is connected to the collector terminal of the transistor. This resistor is typically used to provide a load for the transistor and to set the operating point of the circuit.
The specific value of the collector resistance will depend on the particular circuit design and requirements. It can be chosen based on factors such as desired voltage gain, power dissipation, and stability of the circuit.
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Given collector resistance = 2kΩ, load resistance = 5kΩ, c...
RC = 2kΩ, RL = 5kΩ, CC = 1μF, CB = 10μF, CE = 20μF, RS = 2 kΩ
hie = 1kΩ, IC = 2mA
fL1 = 1/2πCC(RC+RL) = 22.73 Hz
fL2 = gm/2πCE = IC/2πCEVT = 612 Hz
Since fL2 > 4fL1, hence fL2 is the correct answer.
hie = 1kΩ, IC = 2mA
fL1 = 1/2πCC(RC+RL) = 22.73 Hz
fL2 = gm/2πCE = IC/2πCEVT = 612 Hz
Since fL2 > 4fL1, hence fL2 is the correct answer.
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Given collector resistance = 2kΩ, load resistance = 5kΩ, collector capacitance = 1μF, emitter capacitance = 20μF, collector current = 2mA, source resistance = 2kΩ. If the effect of blocking capacitor is ignored, find the applicable cut-off frequency.a)22.73 Hzb)612 Hzc)673Hzd)317 HzCorrect answer is option 'B'. Can you explain this answer?
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Given collector resistance = 2kΩ, load resistance = 5kΩ, collector capacitance = 1μF, emitter capacitance = 20μF, collector current = 2mA, source resistance = 2kΩ. If the effect of blocking capacitor is ignored, find the applicable cut-off frequency.a)22.73 Hzb)612 Hzc)673Hzd)317 HzCorrect answer is option 'B'. Can you explain this answer? for Electronics and Communication Engineering (ECE) 2024 is part of Electronics and Communication Engineering (ECE) preparation. The Question and answers have been prepared according to the Electronics and Communication Engineering (ECE) exam syllabus. Information about Given collector resistance = 2kΩ, load resistance = 5kΩ, collector capacitance = 1μF, emitter capacitance = 20μF, collector current = 2mA, source resistance = 2kΩ. If the effect of blocking capacitor is ignored, find the applicable cut-off frequency.a)22.73 Hzb)612 Hzc)673Hzd)317 HzCorrect answer is option 'B'. Can you explain this answer? covers all topics & solutions for Electronics and Communication Engineering (ECE) 2024 Exam. Find important definitions, questions, meanings, examples, exercises and tests below for Given collector resistance = 2kΩ, load resistance = 5kΩ, collector capacitance = 1μF, emitter capacitance = 20μF, collector current = 2mA, source resistance = 2kΩ. If the effect of blocking capacitor is ignored, find the applicable cut-off frequency.a)22.73 Hzb)612 Hzc)673Hzd)317 HzCorrect answer is option 'B'. Can you explain this answer?.
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