6.7: Condenser Mic Principle

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Condenser Mic Principle

Condenser microphones, also known as capacitor microphones, use a diaphragm (front plate) mounted close to a backplate, forming a capacitor. Between these two plates is dielectric material, which allows capacitance to change as the diaphragm moves. When sound waves hit the diaphragm, the spacing and dielectric properties shift, causing fluctuations in capacitance that generate the microphone’s signal.

Because the signal from a condenser (capacitor) capsule is extremely low-level, these microphones require an external source of power to operate. This is commonly provided through phantom power, which is a DC voltage (typically 48 volts) applied to the microphone through its connecting cable.

Phantom Power Sources

Mixing consoles or audio interfaces: Phantom power is often supplied directly through the XLR cable from the console or preamp.
Internal batteries: Some condenser microphones require a battery in order to operate.
External power supplies: Certain high-end or vintage condenser mics use dedicated power units which are plugged into an AC wall outlet.
USB condenser microphones: In this case, phantom power is provided by the computer itself through the USB cable.

Types of Condenser Microphones

There are two main types of condenser microphone capsules:

Externally polarized condensers: These rely on phantom power (or another external supply) to charge the capacitor element. They are highly sensitive and common in professional studio microphones.
Pre-polarized condensers (Electret microphones): These have a permanent charge built into the capsule material so there is no need for external phantom power.. They are generally smaller, more affordable, and commonly found in lavaliers, headsets, and consumer electronics. Despite being compact, electret mics can offer excellent performance in many applications.

This combination of a movable diaphragm, dielectric material, and powering system (phantom power) allows condenser mics to deliver the high sensitivity and broad frequency response that make them a standard choice in studios and professional recording environments.

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