Dihedral loudspeakers with variable dispersion circuits
First Claim
1. A loudspeaker comprising two coaxial driver combinations, each including a high frequency driver and a lower frequency driver, the two coaxial driver combinations located at a dihedral angle relative to each other to direct sound energy away from each other, and the two coaxial driver combinations being substantially the interaural distance apart,a first crossover circuit connected to the pair of high frequency drivers and a second crossover circuit connected to the pair of lower frequency drivers, means to control the amplitude of one high frequency driver relative to the other high frequency driver and means to control the amplitude of one lower frequency driver relative to the other lower frequency driver,wherein the lower frequency drivers are in series with each other and with the lower frequency crossover circut, said means to control the amplitude of one lower frequency driver comprising a capacitive shunt and variable resistance means in the shunt, said shunt across said one lower frequency driver,and wherein the high frequency drivers are electrically in parallel with each other, the means to control the amplitude of one high frequency driver comprising variable resistance means in series with said one high frequency driver.
1 Assignment
0 Petitions
Accused Products
Abstract
A dihedral loudspeaker for use in mirror image stereophonic loudspeaker systems combines a pair of coaxial drivers with variable dispersion circuits and a high frequency delay network. The variable dispersion circuits decrease the amplitude of the electric signal to the indirect or ambient firing coaxial drivers relative to the direct firing drivers. Each coaxial driver combination comprises a high frequency driver in front of a low or mid-range frequency driver. The pair of coaxial driver combinations in each loudspeaker are substantially identical and each is effectively almost a point source of sound energy. The pair of coaxial drivers are located in dihedral baffles of the loudspeaker approximately the interaural distance apart. The variable dispersion circuits allow the loudspeakers to be adjusted such that listeners outside of the area between and in front of the loudspeakers hear an illusion of the sound image coming from the space between the loudspeakers.
17 Citations
7 Claims
-
1. A loudspeaker comprising two coaxial driver combinations, each including a high frequency driver and a lower frequency driver, the two coaxial driver combinations located at a dihedral angle relative to each other to direct sound energy away from each other, and the two coaxial driver combinations being substantially the interaural distance apart,
a first crossover circuit connected to the pair of high frequency drivers and a second crossover circuit connected to the pair of lower frequency drivers, means to control the amplitude of one high frequency driver relative to the other high frequency driver and means to control the amplitude of one lower frequency driver relative to the other lower frequency driver, wherein the lower frequency drivers are in series with each other and with the lower frequency crossover circut, said means to control the amplitude of one lower frequency driver comprising a capacitive shunt and variable resistance means in the shunt, said shunt across said one lower frequency driver, and wherein the high frequency drivers are electrically in parallel with each other, the means to control the amplitude of one high frequency driver comprising variable resistance means in series with said one high frequency driver.
Specification