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Here's what ChatGPT says:
You
In electronic circuits, sometimes electrolytic capacitors are bypassed by smaller film caps. Why? What is the merit here?
ChatGPT
Bypassing electrolytic capacitors with smaller film capacitors is often done to improve high-frequency response and reduce the equivalent series resistance (ESR) of the circuit. Film capacitors have lower ESR and better high-frequency characteristics compared to electrolytic capacitors, making them more effective in filtering out noise and improving signal integrity. This combination helps to enhance the overall performance of the circuit, especially in applications where high-frequency signals are critical.
You
How is the value for ratio determined? Is there a rule of thumb?
ChatGPT
The choice of the ratio between electrolytic capacitors and film capacitors in bypassing is often based on the specific requirements of the circuit and the frequencies involved. While there isn't a strict rule of thumb applicable to all cases, some general guidelines exist.
A common approach is to use a film capacitor with a value in the range of 0.01 μF to 0.1 μF for bypassing electrolytic capacitors. The exact value depends on factors such as the frequency range of interest, the capacitance of the electrolytic capacitor being bypassed, and the specific application requirements.
It's essential to consider the impedance characteristics of both capacitors at the frequencies of interest. The goal is to create a combination that effectively filters out noise and provides a low-impedance path for high-frequency signals.
Experimentation and simulation can be valuable tools in determining the optimal ratio for a given circuit, as the ideal values can vary based on the specific design and performance goals.
You
Does this apply to an audio path too, cos human hearing is not particularly high frequency.
ChatGPT
Yes, the concept of bypassing electrolytic capacitors with film capacitors can also apply to audio circuits. While human hearing is not particularly sensitive to extremely high frequencies, the audio signal path can still benefit from effective filtering and improved impedance characteristics.
In audio applications, the focus may be on enhancing the mid-range frequencies and addressing any potential distortion or noise that could affect the overall audio quality. Choosing appropriate values for film capacitors in parallel with electrolytic capacitors can help achieve better high-frequency response, reduce distortion, and improve the clarity of the audio signal.
Again, the specific values and ratios may depend on the characteristics of the audio circuit, the components used, and the desired audio performance. Experimentation and careful consideration of the frequency response requirements in the audible range can guide the selection of capacitor values for optimal results in audio applications.
ChatGPT can make mistakes. Consider checking important information.
It dropped ESR and ESL as parameters in RF. scenarios and rail decoupling, adding that paralleling caps in audio path is pursued rather by musicians and audiophiles.
