The XTB40-4 Audio Exciter from the Xtreme Series is designed to deliver exceptional bass performance and robust durability. With its German-engineered precision, this exciter is built for applications demanding high sensitivity and significant displacement, providing an outstanding audio experience.
Highlights of the XTB40-4 Audio Exciter
- Extended bass response: Frequency range from 25 Hz to 1 kHz
- High power handling with a long-term max power of 160 W
- Robust aluminum body and black steel suspension for enhanced durability
- Exceptional motor efficiency factor (β) of 14.9 dB
Product details XTB40-4 Audio Exciter
XTB40-4 Audio Exciter – High-performance exciter tailored for delivering powerful bass and exceptional sound quality.
The XTB40-4 Audio Exciter is crafted to achieve unparalleled bass performance with its advanced design and robust construction. It features a 4-layer, 40 mm voice coil and a nominal impedance of 4 Ohms, making it capable of handling a substantial power input of up to 160 W. Its extended frequency range of 25 Hz to 1 kHz ensures deep and dynamic bass reproduction.
This exciter is designed for precision and durability, featuring an aluminum body and black steel suspension. Its mechanical Xmax of ±5.0 mm enables significant displacement, producing rich and powerful sound while maintaining low distortion. With a total height of 31.0 mm and an outer diameter of 65.0 mm, the XTB40-4 is ideal for demanding audio applications in professional setups and high-quality sound systems.
Optimized to minimize harmonic and intermodulation distortions, the XTB40-4 is the perfect choice for audiophiles and professionals seeking premium bass performance and reliability in audio design projects.
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FAQ about the Xcite Products
What is the difference between 4Ohm and 8Ohm Exciters?
Simple answer:
Xcite offers both 4Ohm and 8Ohm exciters to suit various project needs. The choice depends on your setup. Usually, 4Ohm is preferred for the final configuration, such as using 1x 4Ohm, 2x 8Ohm in parallel, or 4x 4Ohm in a serial-parallel combination. If you need guidance, how to wire several exciters, check out the .
Advanced answer:
Looking in detail, 8Ohm exciters have a lighter voice coil due to a smaller winding diameter, which slightly enhances high frequencies although the inductivity is higher.
Why is a low distortion design important?
Simple answer:
At higher volumes, all loudspeakers naturally produce distortion due to non-linearities in their voice coil, magnet, and stiffness design. The exciter design plays a crucial role in determining the level of distortion—a well-designed exciter minimizes it. For panel speakers, distortion is more complex than in traditional speakers, as the exciter is the primary source of distortion, while the panel and construction amplify it. Xcite units are engineered to produce low distortion, ensuring minimal distortion in the source of the final assembly.
Advanced answer:
Distortions in panel speakers arise from three sources: the exciter, the panel and assembly, with the exciter being the primary contributor. These distortions primarily include harmonic and intermodulation distortions caused by non-linearities in Bl(x) and Kms(x) of the exciter. By filtering the sound pressure using the inverse fundamental frequency response, the influence of the panel’s radiation can be removed, isolating all distortion at the system's input - the exciter. This technique, known as Equivalent Input Harmonic Distortion (EIHD), enables precise analysis of distortions at the exciter level. Xcite uses advanced simulations to identify and optimize the root causes of Bl(x) and Kms(x) non-linearities, minimizing distortion and delivering high-performance results. For detailed measurements, refer to our datasheets.
What is Motor Efficiency Factor β?
Simple answer:
Motor efficiency factor β measures how efficiently the exciter converts electrical power into mechanical force. A higher value directly translates to greater sensitivity per Watt. Xcite represents this factor on a logarithmic scale to compare the performance of various products, including 4Ohm and 8Ohm exciters. Simply put, a 1dB higher motor efficiency factor means 1dB more in the passband.
Advanced answer:
Motor efficiency factor is determined by the motor design and influenced by factors such as coil winding layout, material resistivity, and magnetic field strength. Notably, it remains independent of the wire length and cross-sectional area of the wire, allowing for direct comparisons between 4Ohm and 8Ohm exciters. In our datasheets, we express the motor efficiency factor β logarithmically, highlighting differences in passband efficiency per Watt across exciters. This enables a clear evaluation of exciter performance in various configurations. For detailed insights, consult our measurement graphs with the corresponding motor efficiency factor for each product.