Claims
- 1. A bandpass woofer loudspeaker system comprising an enclosure having a partition dividing said enclosure into a first chamber and a second chamber, said first chamber being sealed and said second chamber having a passive radiating port communicating with air outside said enclosure, a driver comprising a transducer of the type having a diaphragm with front and rear sides, said driver mounted in the partition, and wherein said bandpass woofer loudspeaker system has a plurality of design variables including the following:
- Mmd=moving mass of the driver in kilograms
- fc=the resonance of the driver in the first sealed chamber
- MAS=acoustic moving mass of the driver
- CAT=acoustic compliance of the driver suspension and the first sealed chamber
- R0=the acoustic resistance of a moving coil of the driver
- MAP2=the acoustic mass of the passive radiating port
- CA2=acoustic compliance of the second chamber having the passive radiating port
- and wherein there are defined a first tuning ratio Q.sub.mc, a second tuning ratio Q.sub.tc, and a third tuning ratio Q.sub.tp dependent upon the values of said variables as follows: ##EQU4## and wherein said bandpass loudspeaker system is constructed such that said variables result in said first tuning ratio Q.sub.mc having a value in excess of 5.0, said second tuning ratio Q.sub.tc falling within a range of from about 0.75 to about 1.25, and said third tuning ratio Q.sub.tp falling within a range of from about 0.75 to about 1.25.
- 2. A bandpass woofer loudspeaker system in accordance with claim 1 wherein the system has a further plurality of design variables including
- fp=resonance of port mass against vented chamber
- Sd=driver cone area
- Cms=compliance of driver suspension
- Re=driver voice coil DC resistance
- Bl=driver motor force factor
- V1=volume of sealed chamber
- V2=volume of vented chamber
- and wherein said bandpass loudspeaker system is constructed such that Q.sub.tc, Q.sub.tp, Q.sub.mc are specified or selected within the values set forth in claim 1, and the variables fc, fp, Sd, Cms and Re are also specified or selected, and the values for Bl, Mmd, V1, V2 and MAP2 area calculated using the first, second and third tuning ratios.
- 3. A bandpass woofer loudspeaker system in accordance with claim 1 wherein said passive radiating port comprises a vent tube having a varying cross sectional area which varies continuously from inside to outside the enclosure and which increases monotonically from a minimum value between the ends of the vent tube to a larger cross section at at least one end thereof, the varying cross sectional area of said vent tube being defined by an opening or port in the wall of the enclosure, at least a first disk or plate having an area larger than the minimum value, and means mounting said first disk or plate substantially perpendicular to and extending beyond said vent tube, and at a predetermined distance from said one end of the vent tube to configure said vent tube at said one end as an opening extending substantially around the periphery of said disk.
- 4. A bandpass woofer loudspeaker system in accordance with claim 3 including a flow guide attached to the at least first disk and substantially centered on the vent tube, said flow guide comprising an inverted circular funnel configuration having concave sides to essentially fill and block a stagnant, non-laminar air flow.
- 5. A bandpass woofer loudspeaker in accordance with claim 4 including a second disk having an area larger than the minimum value, and means mounting said second disk substantially perpendicular to and extending beyond said vent tube, and at a predetermined distance from an end of said vent tube opposite said one end to configure said vent tube at said opposite end as an opening extending substantially around the periphery of said second disk, and including a second flow guide attached to said second disk and substantially centered on the vent tube.
- 6. A bandpass woofer loudspeaker in accordance with any of claims 1 through 5, wherein said bandpass loudspeaker system is constructed such that the ratio of fc to fp lies within a range from about 0.75 to about 1.25.
- 7. A bandpass woofer loudspeaker in accordance with claim 6 wherein the tuning frequency fc is less than 50 Hz, and the driver cone area Sd is less than 0.050 square meters.
- 8. A bandpass woofer loudspeaker in accordance with claim 6 wherein the tuning frequency fc is less than 100 Hz, the driver cone area Sd is less than 0.050 square meters, and tuning ratio Q.sub.mc is greater than 10.
- 9. A bandpass woofer loudspeaker in accordance with claim 6 wherein the tuning ratio Q.sub.mc is greater than or equal to 1/10th the tuning frequency multiplied by the driver cone area divided by 0.050.
- 10. In combination, a bandpass woofer loudspeaker as defined in any of claims 1 through 5 configured to function as a sub-woofer, and combined with a plurality of satellite loudspeakers, and wherein the Q.sub.tc of the sub-woofer lies within a range of greater than 75% but less than 110% of a tuning ratio Q.sub.tc of the satellite loudspeakers.
- 11. A bandpass woofer loudspeaker in accordance with claim 10 wherein the tuning frequency fc is less than 50 Hz, and the driver cone area Sd is less than 0.050 square meters.
- 12. A bandpass woofer loudspeaker in accordance with claim 10 wherein the tuning frequency fc is less than 100 Hz, the driver cone area Sd is less than 0.050 square meters, and tuning ratio Q.sub.mc is greater than 10.
- 13. A bandpass woofer loudspeaker in accordance with claim 10 wherein the tuning ratio Q.sub.mc is greater than or equal to 1/10th the tuning frequency multiplied by the driver cone area divided by 0.050.
- 14. A bandpass woofer loudspeaker in accordance with claim 5 further including a connector extending along a central portion of the vent tube and connecting said first and second flow guides.
- 15. A bandpass woofer loudspeaker in accordance with any of claims 1 through 5 or 10 wherein the tuning frequency fc is less than 50 Hz, and the driver cone area Sd is less than 0.050 square meters.
- 16. A bandpass woofer loudspeaker in accordance with any of claims 1 through 5 or 14 wherein the tuning frequency fc is less than 100 Hz, the driver cone area Sd is less than 0.050 square meters, and tuning ratio Q.sub.mc is greater than 10.
- 17. A bandpass woofer loudspeaker in accordance with any of claims 1 through 5 or 14 wherein the tuning ratio Q.sub.mc is greater than or equal to 1/10th the tuning frequency multiplied by the driver cone area divided by 0.050.
- 18. A method of configuring a single-vented bandpass woofer loudspeaker system to operate satisfactorily in smaller enclosure volumes with only moderate loss of efficiency, wherein the loudspeaker system is of the type having an enclosure with a partition dividing the enclosure into a first chamber and a second chamber, with the first chamber being sealed and the second chamber having a passive radiating port communicating with air outside the enclosure, a partition mounting a driver of the moving coil transducer type, the bandpass woofer loudspeaker system having a plurality of design variables including the following:
- Mmd=moving mass of the driver in kilograms
- fc=the resonance of the driver in the first sealed chamber
- MAS=acoustic moving mass of the driver
- CAT=acoustic compliance of the driver suspension and the first sealed chamber
- R0=the acoustic resistance of the moving coil of the driver
- MAP2=the acoustic mass of the passive radiating port
- CA2=acoustic compliance of the second chamber having the passive radiating port
- comprising the steps of defining a first tuning ratio Q.sub.mc, a second tuning ratio Q.sub.tc and a third tuning ratio Q.sub.tp as follows: ##EQU5## and controlling the design variables such that Q.sub.mc has a value in excess of 5.0, Q.sub.tc has a value falling within a range of from about 0.75 to about 1.25, and Q.sub.tp has a value following within a range of from about 0.75 to about 1.25.
- 19. A method in accordance with claim 18 wherein the loudspeaker system is of the type having a plurality of further design variables including
- fp=resonance of port mass against vented chamber
- Sd=driver cone area
- Cms=compliance of driver suspension
- Re=driver voice coil DC resistance
- Bl=driver motor force factor
- V1=volume of sealed chamber
- V2=volume of vented chamber
- and comprising a step of specifying the values of Q.sub.tc, Q.sub.tp, and Q.sub.mc within the ranges set forth in claim 8, a step of specifying the variables fc, fp, Sd, Cms and Re, and further comprising a step of calculating the values for Bl, Mmd, V1, V2 and MAP2 using the first, second and third tuning ratios.
- 20. A method in accordance with claims 18 or 19 including the steps of controlling the tuning frequency fc to be less than 50 Hz and controlling the driver cone area Sd to be less than 0.050 square meters.
- 21. A method in accordance with claims 18 or 19 including the steps of controlling the tuning frequency fc to be less than 100 Hz, the driver cone area Sd to be less than 0.050 square meters, and the tuning ratio Q.sub.mc to be greater than 10.
- 22. A method in accordance with claims 18 or 19 including the step of controlling the tuning ratio Q.sub.mc to be greater than or equal to 1/10th the tuning frequency multiplied by the driver cone area divided by 0.050.
CROSS REFERENCE TO RELATED APPLICATIONS
This application, to the extent of common subject matter and concepts, is a continuation-in-part of application Ser. No. 07/954,697, filed Sep. 30, 1992, for Bandpass Sub-Woofer Having Paired Face-to-Face Drivers, now abandoned.
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Number |
Name |
Date |
Kind |
4284860 |
Leach, Jr. et al. |
Aug 1981 |
|
5009281 |
Yokoyama et al. |
Apr 1991 |
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5147986 |
Cockrum et al. |
Sep 1992 |
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Continuation in Parts (1)
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Number |
Date |
Country |
Parent |
954697 |
Sep 1992 |
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