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Crossover network for optimizing efficiency and improving response of loudspeaker system
| Details |
Inventors: Klipsch, Paul W.;
Assignee: Klipsch and Associates, Inc. (Hope, AR)
Primary Examiner: Moffitt; James W.
Assistant Examiner: Myers; Randall P.
Attorney, Agent or Firm: Wood, Herron & Evans
A small dimension low frequency loudspeaker has a folded exponential horn which provides a unitary curved sound path from an electroacoustic transducer at the throat of the horn to a volume into which sound is radiated at the mouth of the horn. The length of the horn is such that, at an exponential rate of expansion between the throat and the mouth, the mouth, when it is bounded by at least one planar surface, such as a floor, a ceiling, and/or walls of a room, has adequate area to enable reproduction of low audible frequencies. An illustrative embodiment of the low frequency loudspeaker has an effective low end cut-off frequency of 55 Hz. A loudspeaker system, including a low frequency loudspeaker as well as midrange and high frequency loudspeakers and an LC crossover network, is also disclosed. The LC crossover network includes an autotransformer which not only serves as a component to determine a crossover frequency but which also boosts the electrical signal that is input to the electroacoustic transducer of a less efficient loudspeaker. The autotransformer increases the output of the less efficient loudspeaker and accommodates its use with more efficient loudspeakers so that the overall loudspeaker system operates at optimum efficiency. An illustrative embodiment of the loudspeaker system affords 108 dB SPL output at one meter with one watt input which corresponds to about 20% overall efficiency. The smoothness of amplitude response over the range of audible frequencies that is necessary for high fidelity sound reproduction is improved by inclusion of peaking circuits in the LC crossover network of the loudspeaker system to enhance amplitude response in the regions of crossover frequencies. Side wings are additionally provided to eliminate cavities at the sides of the loudspeaker system which would otherwise cause deterioration of smoothness of amplitude response. |
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DETAILED DESCRIPTION Having described my invention, I claim: 1.
In a loudspeaker system having low, midrange, and high frequency loudspeakers and an LC crossover network, wherein at least one of said loudspeakers is less efficient than other of said loudspeakers, the improvement in said LC crossover network, comprising: an autotransformer included in said LC crossover network and connected between an amplifier and said at least one less efficient loudspeaker for boosting the audio frequency input to said at least one less efficient loudspeaker, whereby the output of said at least one less efficient loudspeaker is increased to enable use of said at least one less efficient loudspeaker with said other loudspeakers and whereby the overall loudspeaker system operates at optimum efficiency.
2.
In a loudspeaker system having at least n loudspeakers, wherein n is greater than one, and an LC crossover network dividing the audio frequency output of an amplifier into n frequency bands, each said frequency band driving a separate one of said loudspeakers, there being n-1 crossover frequencies, the improvement in said LC crossover network, comprising: at least one peaking circuit means included in said LC crossover network and resonant near at least one crossover frequency for enhancing the amplitude response of said loudspeaker system, whereby said loudspeaker system has a smooth amplitude response characteristic in the region of said at least one crossover frequency.
3.
The loudspeaker system of claim 2 wherein there are three loudspeakers, including low, midrange, and high frequency loudspeakers, and two crossover frequencies, and said LC crossover network has peaking circuit means resonant near each said crossover frequency to enhance the amplitude response of said loudspeaker system in the region of each said crossover frequency.
4.
The loudspeaker system of claim 3 wherein said crossover frequencies are approximately 400 and 6,000 Hz.
and said peaking circuit means are resonant at approximately 350, 450, 5,500, and 6,500 Hz
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