The Shure BETA 52A is a dynamic supercardioid instrument microphone expertly designed for capturing kick drums, acoustic bass, bass amplifiers, and other low-frequency instruments. It features a contoured frequency response tailored to accurately capture the sonic character and attack of bass-heavy signals, delivering the punch and clarity needed in professional audio environments.
Key Features
Tailored Frequency Response
Optimized for Low Frequencies: The BETA 52A’s frequency response is customized to capture the nuances of bass drums and other low-frequency instruments, ensuring rich, full-bodied sound reproduction.
Superior Sound Isolation
Supercardioid Polar Pattern: This microphone features a supercardioid polar pattern that provides the highest gain before feedback, effectively minimizing off-axis noise and ensuring clear, focused audio capture.
High Output Performance
Neodymium Magnet: Equipped with a neodymium magnet, the BETA 52A offers higher gain levels compared to standard elements, resulting in powerful and precise sound output.
Durable and User-Friendly Design
Built-in Locking Stand Adapter
Integrated Adapter with XLR Connector: The built-in locking stand adapter with an XLR connector simplifies installation, making it easy to place the microphone inside a kick drum or on other instruments.
Secure Placement: The adapter ensures secure and stable positioning during performances and recordings.
Rugged Construction
Steel Mesh Grille: The durable steel mesh grille protects the microphone element from damage, ensuring long-lasting performance in demanding environments.
Applications
Kick Drums: Captures the depth and attack essential for a punchy kick drum sound.
Acoustic and Electric Bass: Suitable for both acoustic and electric bass instruments, providing clear and articulate sound reproduction.
Bass Amplifiers: Ideal for miking bass amps, delivering the low-end presence needed for live and studio settings.
The Shure BETA 52A dynamic supercardioid instrument microphone is a reliable choice for professionals seeking high-quality, robust, and accurate low-frequency sound capture in various musical and recording applications.
