Audio Technology Midrange
The custom midrange driver from Audio Technology is designed to deliver high fidelity sound reproduction in the midrange frequency spectrum, typically between 200 Hz and 4 kHz. This driver is engineered to provide a balanced sound profile, making it suitable for various audio applications, including home theater systems, professional audio setups, and high-end speaker designs.
The construction of the driver typically features a lightweight cone made from advanced materials, allowing for rapid response and reduced distortion. The voice coil is often designed to handle high power levels while maintaining thermal stability, ensuring that the driver can perform effectively under various operating conditions.
In terms of electrical characteristics, the driver may exhibit a nominal impedance of 4 or 8 ohms, making it compatible with a wide range of amplifiers. The frequency response curve is a critical aspect of the driver’s performance, showcasing its ability to reproduce sound accurately across the designated frequency range. Detailed plots illustrating the frequency response can provide insights into the driver’s efficiency and performance characteristics.
Additionally, the midrange driver may incorporate advanced technologies such as a phase plug or optimized surround design, which can enhance dispersion and improve overall sound quality. The mounting options for the driver are typically versatile, allowing for integration into various cabinet designs, whether sealed or ported.
In summary, the Audio Technology custom midrange driver represents a sophisticated component in audio engineering, offering exceptional sound reproduction capabilities and flexibility in application. The shared images and performance plots serve to highlight its unique attributes and potential uses in high-fidelity audio systems.I recently worked with an Audio Technology custom midrange driver. Since not many of us get a chance to work with drivers like this one I thought I post some pic and plots if case anyone found it interesting.. 🔗 External reference
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