Low frequency response of common emitter amplifier
Summary
TLDRThe video script discusses a lecture on low-frequency response, shock monitors, and amplifier usage in medical equipment. It covers the effects of planning and bypass capacitors on heart response, common emitter amplifier circuits, and their design challenges. The lecture also explores the impact of cutting capacitors on low-frequency response and provides practical solutions for electronic engineering students.
Takeaways
- 🎓 The lecture is being delivered by a professor from Ujjain Hospital, focusing on Electronics and Telecommunication Engineering.
- 📈 The lecture discusses the effects of planning and bypass capacitors on heart rate variability.
- 🔌 It mentions the use of BJT (Bipolar Junction Transistor) and operational amplifiers in designing circuits for monitoring heart rate variability.
- 📊 The session will help students analyze the impact of bypass capacitors on low-frequency heart rate variability.
- 💡 The lecture introduces the concept of common emitter amplifier circuits and their role in signal processing.
- 📚 The professor discusses the design problems associated with bypass capacitors and their effects on low-frequency responses.
- 🔬 The lecture includes practical demonstrations using a 200 figure one meter amplifier and a positive divider.
- 📈 The script mentions the importance of understanding the cutting capacitor and its effect on the circuit's performance.
- 🌐 The lecture covers the application of these concepts in real-world scenarios, such as medical equipment and signal processing.
- 📝 The session also discusses the mathematical calculations involved in determining the size of bypass capacitors and their impact on circuit performance.
Q & A
What is the topic of the lecture discussed in the transcript?
-The lecture is about the low-frequency response of a common-emitter amplifier using BJT (Bipolar Junction Transistor) and analyzing the effects of planning and bypass capacitors on the low-frequency response.
What are the learning outcomes of the session mentioned in the transcript?
-Students will be able to analyze the effect of bypass capacitors on the low-frequency response of a common-emitter amplifier using BJT.
What components are involved in the common-emitter amplifier circuit described?
-The circuit involves resistors, bypass capacitors, and cutting capacitors, with outputs taken from the collector of the transistor.
What is the purpose of a bypass capacitor in a low-frequency amplifier circuit?
-The bypass capacitor is used to stabilize the DC operating point and improve the amplifier's low-frequency response by allowing AC signals to pass while blocking DC.
What happens when the value of the bypass capacitor is increased?
-Increasing the value of the bypass capacitor lowers the cut-off frequency, which enhances the low-frequency response of the amplifier.
How is the low-frequency cut-off frequency (f1) calculated in the transcript?
-The low-frequency cut-off frequency is calculated using the formula: f1 = 1 / (2 * π * R * C), where R is the resistance and C is the capacitance.
What effect does the cutting capacitor have on the low-frequency response?
-The cutting capacitor, when adjusted, alters the low-frequency response, impacting the overall amplification at lower frequencies.
What is the significance of the common-emitter amplifier in electronics?
-The common-emitter amplifier is significant because it provides voltage amplification and is commonly used in analog circuits for signal amplification.
How does bypassing the emitter resistor affect the amplifier?
-Bypassing the emitter resistor with a capacitor increases the gain of the amplifier by eliminating the negative feedback effect of the resistor at low frequencies.
What are the main factors influencing the low-frequency response of a common-emitter amplifier?
-The main factors influencing the low-frequency response are the values of the bypass capacitors, cutting capacitors, and the resistances in the circuit.
Outlines
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