Constant-beamwidth loudspeaker array
First Claim
1. A loudspeaker system for receiving an incoming electrical signal and generating a sound field, the sound field being directional and having a substantially constant beamwidth across an operational frequency range, the loudspeaker system comprising:
- a housing;
a curved mounting plate having an outer surface forming at least a portion of an exterior wall of the housing, where the outer surface has constant curvature over a range of angles from −
A at a first end of the mounting plate to +A at a second end of the curved mounting plate in a plane perpendicular to the outer surface, where the range of angles are measured from a point spaced away from the curved mounting plate and on an axis perpendicular to a center of the curved mounting plate;
an array of speaker drivers disposed within the housing and sequentially mounted on the curved mounting plate between the first end and the second end along a linear arc in the plane perpendicular to the outer surface, each speaker driver of the array being mounted on the curved mounting plate at a respective angle Ax that is greater than angle −
A and less than angle +A and being mounted on the curved mounting plate to produce acoustic waves in a radially outward direction away from the linear arc; and
a plurality of attenuation circuits coupled to the array of speaker drivers so that each speaker driver of the array of speaker drivers is included in one of the attenuation circuits based on the respective angle Ax, where each of the attenuation circuits is configured to independently receive and attenuate the incoming electrical signal with a predetermined quantized attenuation value so that each speaker driver included in a respective one of the attenuation circuits is substantially equally attenuated.
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Accused Products
Abstract
A loudspeaker is provided for receiving an incoming electrical signal and transmitting an acoustical signal that is directional and has a substantially constant beamwidth over a wide frequency range. The loudspeaker may include a curved mounting plate that has curvature over a range of angles. The loudspeaker may include an array of speaker drivers coupled to the mounting plate. Each speaker driver may be driven by an electrical signal having a respective amplitude that is a function of the speaker driver'"'"'s respective location on the mounting plate. The function may be a Legendre function. Alternatively, the loudspeaker may include a flat mounting plate. In this case, the respective electrical signal driving each speaker may have a phase delay that virtually positions the speaker onto a curved surface.
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Citations
41 Claims
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1. A loudspeaker system for receiving an incoming electrical signal and generating a sound field, the sound field being directional and having a substantially constant beamwidth across an operational frequency range, the loudspeaker system comprising:
- a housing;
a curved mounting plate having an outer surface forming at least a portion of an exterior wall of the housing, where the outer surface has constant curvature over a range of angles from −
A at a first end of the mounting plate to +A at a second end of the curved mounting plate in a plane perpendicular to the outer surface, where the range of angles are measured from a point spaced away from the curved mounting plate and on an axis perpendicular to a center of the curved mounting plate;
an array of speaker drivers disposed within the housing and sequentially mounted on the curved mounting plate between the first end and the second end along a linear arc in the plane perpendicular to the outer surface, each speaker driver of the array being mounted on the curved mounting plate at a respective angle Ax that is greater than angle −
A and less than angle +A and being mounted on the curved mounting plate to produce acoustic waves in a radially outward direction away from the linear arc; and
a plurality of attenuation circuits coupled to the array of speaker drivers so that each speaker driver of the array of speaker drivers is included in one of the attenuation circuits based on the respective angle Ax, where each of the attenuation circuits is configured to independently receive and attenuate the incoming electrical signal with a predetermined quantized attenuation value so that each speaker driver included in a respective one of the attenuation circuits is substantially equally attenuated. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14)
- a housing;
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15. A loudspeaker system for receiving an electrical signal and generating a sound field, the sound field being directional and having a substantially constant beamwidth across an operational frequency range, comprising:
- a mounting plate having an outer surface that is continuously curved between a first end and a second end, where the outer surface has a convex side and a concave side;
an array of speaker drivers sequentially mounted on the mounting plate in a linear arc between the first end and the second end to produce acoustic waves outwardly from the convex side of the outer surface of the mounting plate;
where the speaker drivers of the array are about equally spaced apart from each other and extend from the first end to the second end; and
each of the speaker drivers of the array are included in any one of a plurality of attenuation circuits based on positioning on the mounting plate of the speaker drivers, each of the attenuation circuits configured to receive the electrical signal, and each of the attenuation circuits independently configured with a predetermined quantized attenuation value to attenuate the electrical signal to a predetermined level and supply a respective attenuated electrical signal to each of the respective speaker drivers. - View Dependent Claims (16, 17, 18, 19, 20, 21)
- a mounting plate having an outer surface that is continuously curved between a first end and a second end, where the outer surface has a convex side and a concave side;
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22. A loudspeaker system for receiving an electrical signal and generating a sound field, the sound field being directional and having a substantially constant beamwidth across an operational frequency range, comprising:
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an enclosure having an internal cavity; a curved mounting plate having a planar outer surface, wherein the planar outer surface forms at least a portion of an exterior wall of the enclosure; and an array of speaker drivers positioned within the internal cavity and coupled to the curved mounting plate in a curved line, where each speaker driver of the array is coupled to the curved mounting plate at a respective angle Ax measured from a point on an axis running through the center of the curved mounting plate and perpendicular to the curved mounting plate and where each speaker driver of the array is coupled to the curved mounting plate to produce acoustic waves radially outwardly from the curved line; where each speaker driver is powered by a respective driving electrical signal that has a respective attenuation level that is a function of the speaker driver'"'"'s respective angle Ax, and a respective phase delay. - View Dependent Claims (23, 24, 25, 26, 27, 28, 29, 30, 31)
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32. A loudspeaker system for receiving an electrical signal and generating a sound field, the sound field being directional and having a substantially constant beamwidth across an operational frequency range, the loudspeaker system comprising:
- a mounting plate having a curved outer surface, where the outer surface has continuous curvature over a range of angles from −
A at a first end of the mounting plate to +A at a second end of the mounting plate in a plane perpendicular to the outer surface, where the range of angles are measured from a point spaced away from the mounting plate and on an axis perpendicular to a center of the mounting plate;
an array of speaker drivers sequentially mounted on the mounting plate between the first end and the second end, where each speaker driver of the array is mounted on the mounting plate along a linear arc in the plane at a respective angle Ax that is greater than angle −
A and less than angle +A, and where each speaker driver of the array is mounted on the mounting plate to produce acoustic waves in a radially outward direction away from the linear arc;
a plurality of sub-arrays of speaker drivers of the array of speaker drivers, where each sub-array includes a subset of the array of speaker drivers based on a respective position of each speaker driver on the mounting plate; and
a plurality of attenuation circuits respectively coupled to the sub arrays of speaker drivers so that each of the speaker drivers in any one of the sub arrays are included in one of the attenuation circuits, each of the attenuation circuits configured to independently receive and attenuate the incoming electrical signal with a predetermined quantized attenuation value so that each speaker driver of each sub array responds to a driving electrical signal derived from the attenuated incoming electrical signal to generate a respective acoustic output having a respective sound pressure level. - View Dependent Claims (33, 34, 35, 36, 37)
- a mounting plate having a curved outer surface, where the outer surface has continuous curvature over a range of angles from −
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38. A method of constructing a loudspeaker system for receiving an incoming electrical signal and transmitting an acoustical signal, the acoustical signal being directional and having a substantially constant beamwidth across an operational frequency range, the method comprising:
- selecting a coverage angle for a loudspeaker system to exhibit constant beamwidth operation;
fabricating a mounting plate having an outer surface, a first end, a second end, and a constant curvature measured from a point on a line perpendicular to and running though the center of the outer surface, where the curvature has an angle that is about equal to the coverage angle;
mounting an array of speaker drivers in a linear arc to the mounting plate, where each speaker driver of the array is mounted at a respective angle Ax measured from the line, a first speaker driver of the array is mounted at either the first end or the second end at a largest respective angle Ax, and a second speaker driver of the array is mounted at a smallest respective angle Ax and separated from the first speaker driver by a distance D;
determining a respective attenuation level for each speaker driver based on the position on the mounting plate; and
fabricating a plurality of attenuation circuits that provide each speaker driver with a respective driving signal, where the respective driving signal is the incoming electrical signal that is independently attenuated by one of the attenuation circuits to the respective determined attenuation level for the speaker driver. - View Dependent Claims (39, 40)
- selecting a coverage angle for a loudspeaker system to exhibit constant beamwidth operation;
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41. A loudspeaker system, the loudspeaker system comprising:
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a housing having at least a partially-curved exterior; an input terminal configured to receive an incoming electrical signal; a mounting plate having a planar outer surface that forms at least a portion of the partially-curved exterior; a circuit coupled to the input terminal that includes an array of speaker drivers, where the array of speaker drivers is disposed within the housing and is coupled to the planar outer surface of the mounting plate; where the circuit is biased with a delay to place the array of speaker drivers in a virtual arc with a curvature over a range of angles from −
A to +A in a plane perpendicular to the planar outer surface, and biased with an attenuation so that each speaker driver of the array of speaker drivers is configured to receive a driving electrical signal based on the incoming electrical signal that causes a respective speaker driver of the array of speaker drivers to generate a respective acoustic output with a respective sound pressure level that is based on a respective angle Ax of the respective speaker driver that is greater than angle −
A and less than angle +A, and respective acoustic outputs from the array of speaker drivers are configured to combine to form a directional sound field having a substantially constant beamwidth across an operational frequency range where the directional sound field is directed in a radially outward direction away from the virtual arc.
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Specification