![Solution: Determine the frequency of oscillation given VBB = 12 V Solution: Determine the frequency of oscillation given VBB = 12 V](https://pinoybix.org/wp-content/uploads/2024/06/Electronic-Circuit-Analysis-and-Design-Oscillator-Problem-Determine-the-frequency-of-oscillation-given-VBB-12-V-370x297.png)
Tag: electronic circuits solution
![Solution: Determine the frequency of oscillation given VBB = 12 V Solution: Determine the frequency of oscillation given VBB = 12 V](https://pinoybix.org/wp-content/uploads/2024/06/Electronic-Circuit-Analysis-and-Design-Oscillator-Problem-Determine-the-frequency-of-oscillation-given-VBB-12-V-370x297.png)
![Solution: Refer to this figure. Determine the frequency of oscillation Solution: Refer to this figure. Determine the frequency of oscillation](https://pinoybix.org/wp-content/uploads/2024/06/Electronic-Circuit-Analysis-and-Design-Oscillator-Problem-Refer-to-this-figure.-Determine-the-frequency-of-oscillation-370x297.png)
Solution: Refer to this figure. Determine the frequency of oscillation
![Solution: Calculate the resonant frequency of this oscillator Solution: Calculate the resonant frequency of this oscillator](https://pinoybix.org/wp-content/uploads/2024/06/Electronic-Circuit-Analysis-and-Design-Oscillator-Problem-Calculate-the-resonant-frequency-of-this-oscillator-370x297.png)
Solution: Calculate the resonant frequency of this oscillator
![Solution: Refer to this figure. Calculate the resonant frequency Solution: Refer to this figure. Calculate the resonant frequency](https://pinoybix.org/wp-content/uploads/2024/06/Electronic-Circuit-Analysis-and-Design-Oscillator-Problem-Calculate-the-resonant-frequency-370x297.png)
Solution: Refer to this figure. Calculate the resonant frequency
![Solution: Calculate the change in gain of the feedback amplifier Solution: Calculate the change in gain of the feedback amplifier](https://pinoybix.org/wp-content/uploads/2024/06/Electronic-Circuit-Analysis-and-Design-Negative-Feedback-Problem-Calculate-the-change-in-gain-of-the-feedback-amplifier-370x297.png)
Solution: Calculate the change in gain of the feedback amplifier
![Solution: Determine the input and output impedance with feedback Solution: Determine the input and output impedance with feedback](https://pinoybix.org/wp-content/uploads/2024/06/Electronic-Circuit-Analysis-and-Design-Negative-Feedback-Problem-Determine-the-input-and-output-impedance-with-feedback-370x297.png)
Solution: Determine the input and output impedance with feedback
![Solution: This circuit is known as a ________ filter, and the fc is ________ Solution: This circuit is known as a ________ filter, and the fc is ________](https://pinoybix.org/wp-content/uploads/2024/06/Electronic-Circuit-Analysis-and-Design-Filter-Problem-This-circuit-is-known-as-a-________-filter-and-the-fc-is-________-370x297.png)
Solution: This circuit is known as a ________ filter, and the fc is ________
![Solution: Refer to the given figure. Calculate the output voltage Solution: Refer to the given figure. Calculate the output voltage](https://pinoybix.org/wp-content/uploads/2024/06/Electronic-Circuit-Analysis-and-Design-OP-AMP-Problem-Calculate-the-output-voltage-370x297.png)
Solution: Refer to the given figure. Calculate the output voltage
![Solution: Refer to the given figure. Determine the output voltage, Vout Solution: Refer to the given figure. Determine the output voltage, Vout](https://pinoybix.org/wp-content/uploads/2024/06/Electronic-Circuit-Analysis-and-Design-OP-AMP-Problem-Determine-the-output-voltage-Vout-370x297.png)
Solution: Refer to the given figure. Determine the output voltage, Vout
![Solution: The rate of change of the output voltage in response to a single pulse input Solution: The rate of change of the output voltage in response to a single pulse input](https://pinoybix.org/wp-content/uploads/2024/06/Electronic-Circuit-Analysis-and-Design-OP-AMP-Problem-The-rate-of-change-of-the-output-voltage-in-response-to-a-single-pulse-input-370x297.png)