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Crossover network components were attached onto three sides of this block.
A crossover network routes the different frequencies to the appropriate drivers.
However, while crossover networks have many benefits, it also have drawbacks.
Drive unit performance is fine-tuned through expensive and sophisticated crossover networks.
Bi-amping typically consists of a crossover network and two or more drivers.
The crossover network was designed to maximize high frequency performance and minimize phase shift.
For convenience, a built-in crossover network is included.
From this point, connections are made to the loudspeaker drivers - usually through audio crossover networks.
Crossover network for optimizing efficiency and improving response of loudspeaker system.
Full-range drivers re-create natural sound without any crossover network.
There is a combining network akin to a loudspeaker crossover network.
Paradigm(R) designs and makes drive units with ideal response characteristics which allow for minimal crossover networks.
Multi-element frequency- and phase-coherent crossover networks are purpose-designed for each model.
All Sonique loudspeakers incorporate high quality components throughout, including the all-important crossover network.
A crossover network, either passive or active, filters the band of frequencies to be handled by the woofer and other speakers.
For example, the crossover networks are well engineered to minimise the adverse effects of phase errors and other anomalies that often negatively affect quality.
Duntech has been careful with its crossover network, so the impedance (Figure 5) never dips below 3.6-ohms, making this a nominally 4-ohms design.
Further, only aircore, low loss inductors and very low distortion, polypropylene capacitors are used in the crossover network.
Integral bi-amplification and crossover networks distribute the optimal frequencies to the high and low drivers for superior performance over component systems.
The integral crossover network offers a special pass-through connector for satellite cabinets that caps off the lows at 150 Hz.
Higher-end models may employ multiple armature drivers, dividing the frequency ranges between them using a passive crossover network.
If at all noticeable, benefits of bi-amping cannot be realized if passive crossover networks of a speaker system are not removed.
A crossover network, set at 500 Hz, remains necessary to adjust for back-to-front interference causing loss in output at low frequencies.
But the crossover network can also have functions like attenuation of a driver, and equalization of the driver's response and impedance.
F6 can be used for motor suppression and in-line chokes as well as loud speaker crossover network energy storage inductors.