Acoustic device having active drivers mounted to a passive radiator diaphragm

The invention claimed is: 1. An acoustic device comprising: an acoustic enclosure having walls defining an acoustic chamber; a first passive radiator diaphragm disposed in an opening of a first wall of the acoustic enclosure and configured to move parallel to a first axis that extends through a center of mass of the first passive radiator diaphragm and orthogonal to the first wall in response to a pressure change in the acoustic chamber; a second passive radiator diaphragm disposed in an opening of a second wall of the acoustic enclosure and configured to move parallel to a second axis that extends through a center of mass of the second passive radiator diaphragm and orthogonal to the second wall in response to a pressure change within the acoustic chamber; a first active driver assembly disposed in an opening in the first passive radiator diaphragm and protruding into the acoustic enclosure in a direction toward the second wall; and a plurality of second active drivers assemblies each disposed in an opening in the second passive radiator diaphragm and protruding into the acoustic enclosure in a direction toward the first wall, each of the second active driver assemblies being laterally offset from the second axis, wherein a sum of a distance by which the first active driver assembly protrudes into the acoustic enclosure and a distance by which one of the second active driver assemblies protrudes into the enclosure is greater than a separation of the first and second walls, wherein a first passive radiator assembly has a moving mass equal to a mass of the first passive radiator diaphragm and a mass of the first active driver assembly, and wherein a second passive radiator assembly has a moving mass equal to a mass of the second passive radiator diaphragm and a mass of each of the second active driver assemblies, and wherein the moving mass of the first passive radiator assembly is substantially equal to the moving mass of the second passive radiator assembly. 2. The acoustic device of claim 1 , wherein, for each of the second active driver assemblies, a moment between a center of the second passive radiator diaphragm and a center of mass of the active driver assembly is substantially equal to a moment between the center of the second passive radiator diaphragm and each of the other active driver assemblies. 3. The acoustic device of claim 1 , wherein a motion of the first passive radiator diaphragm and a motion of the second passive radiator diaphragm produce sound waves that are acoustically in phase and wherein a motion of the first passive radiator diaphragm and a motion of the second passive radiator diaphragm are mechanically out of phase. 4. The acoustic device of claim 1 wherein the first and second axes are parallel. 5. The acoustic device of claim 1 wherein the first and second axes are colinear. 6. The acoustic device of claim 1 , further comprising a compliant coupling mechanism that couples the first active driver assembly to the second passive radiator diaphragm. 7. The acoustic device of claim 1 , further comprising a compliant coupling mechanism that couples the first active driver assembly to at least one of the walls of the acoustic enclosure. 8. The acoustic device of claim 1 , wherein each of the second active driver assemblies include a back enclosure to acoustically seal the active driver assembly from the acoustic chamber. 9. The acoustic device of claim 1 wherein the lateral offset of each of the second drive assemblies is equal to the lateral offset of each of the other second active driver assemblies. 10. The acoustic device of claim 1 wherein the first wall and the second wall are parallel to each other. 11. The acoustic device of claim 1 wherein the mass of the first active driver assembly is substantially equal to a sum of the masses of the second active driver assemblies. 12. An acoustic device comprising: an acoustic enclosure having walls defining an acoustic chamber; a first passive radiator diaphragm disposed in an opening of a first wall of the acoustic enclosure and configured to move parallel to a first axis that extends through a geometrical center of the first passive radiator diaphragm and orthogonal to the first wall in response to a pressure change in the acoustic chamber; a second passive radiator diaphragm disposed in an opening of a second wall of the acoustic enclosure and configured to move parallel to a second axis that extends through a geometrical center of the second passive radiator diaphragm and orthogonal to the second wall in response to a pressure change within the acoustic chamber, the first and second walls of the acoustic enclosure being parallel to each other; a first active driver assembly disposed in an opening in the first passive radiator diaphragm, protruding into the acoustic enclosure in a direction toward the second wall and having a geometrical center on the first axis; and a plurality of second active drivers assemblies each disposed in an opening in the second passive radiator diaphragm and protruding into the acoustic enclosure in a direction toward the first wall, each of the second active driver assemblies having a geometrical center that is laterally offset from the second axis, wherein a sum of a distance by which the first active driver assembly protrudes into the acoustic enclosure and a distance by which one of the second active driver assemblies protrudes into the enclosure is greater than a separation of the first and second walls, and wherein a sum of a moving mass of the first passive radiator diaphragm and a mass of the first active driver assembly is substantially equal to a sum of a moving mass of the second passive radiator diaphragm and a mass of each of the second active driver assemblies. 13. The acoustic device of claim 12 wherein the lateral offset of each of the second active driver assemblies is equal to the lateral offset of each of the other second active driver assemblies. 14. The acoustic device of claim 12 , further comprising a compliant coupling mechanism that couples the first active driver assembly to the second passive radiator diaphragm. 15. The acoustic device of claim 12 , further comprising a compliant coupling mechanism that couples the first active driver assembly to at least one of the walls of the acoustic enclosure. 16. The acoustic device of claim 12 , wherein each of the second active driver assemblies include a back enclosure to acoustically seal the active driver assembly from the acoustic chamber. 17. An acoustic device comprising: an acoustic enclosure having walls defining an acoustic chamber; a first passive radiator diaphragm disposed in an opening of a first wall of the acoustic enclosure and configured to move parallel to a first axis that extends through a center of mass of the first passive radiator diaphragm and orthogonal to the first wall in response to a pressure change in the acoustic chamber; a second passive radiator diaphragm disposed in an opening of a second wall of the acoustic enclosure and configured to move parallel to a second axis that extends through a center of mass of the second passive radiator diaphragm and orthogonal to the second wall in response to a pressure change within the acoustic chamber; a first active driver assembly secured to a surface of the first passive radiator diaphragm and configured to radiate acoustic energy in a direction parallel to the first axis and through an opening in the second passive radiator diaphragm, the first active driver assembly protruding into the acoustic enclosure in a direction