Claims
- 1. A mass loaded, length expander, sonar transducer for operation in one of three modes including low frequency, high frequency, simultaneous low and high frequency operation comprising
- A. a low frequency transducer comprising:
- (i) a low frequency resonant ferroelectric driver arranged on the principal transducer axis and designed for vibration in a longitudinal mode during low frequency operation,
- (ii) a composite head mass including a unitary rigid member, arranged on said principal axis outwardly of said low frequency driver for providing a low frequency force transformer and piston for efficient bidirectional coupling of low frequency waves with the water,
- (iii) a low frequency tail mass, more massive than said head mass, arranged on said principal axis inwardly of said low frequency driver for reactively loading said low frequency driver for vibration in a longitudinal mode with said composite head mass incurring relatively large excursions, and said tail mass relatively small excursions during low frequency operation,
- (iv) a stress rod engaging to said unitary rigid member for attaching said head mass to said tail mass for sustaining a compressive stress on said low frequency driver throughout operation,
- B. said composite head mass, comprising a plural set of tail mass mounted, high frequency transducers comprising
- (i) a set of high frequency resonant ferroelectric drivers arranged on secondary axes parallel to said principal axis and designed for vibration in a longitudinal mode during high frequency operation,
- (ii) a set of discrete high frequency head masses, arranged on said secondary axes outwardly of said high frequency drivers for providing force transformers and pistons for efficient bidirectional coupling of low and high frequency waves with the water,
- (iii) a unitary, rigid, high frequency tail mass consisting of said unitary rigid member arranged on said principal axis inwardly of said set of high frequency drivers, said high frequency tail mass being more massive than said high frequency head masses for reactively loading said set of high frequency drivers for vibration in a longitudinal mode with said high frequency head masses incurring relatively large excursions and said unitary high frequency tail mass incurring relatively small excursions during high frequency operation, and
- (iv) a set of stress rods, each attaching a high frequency head mass to said unitary rigid member of said unitary high frequency tail mass for maintaining a compressive stress on each of said high frequency drivers,
- said unitary rigid member in providing the head mass of the lower frequency driver, and the common tail mass and means for support of the high frequency driver providing enhanced tail mass to head mass ratios at both low and high frequencies,
- said low frequency drivers when excited, driving said composite head mass including said set of high frequency head masses as a virtual single unit, and said high frequency drivers when excited, driving each member of said set of high frequency head masses separately.
- 2. The dual frequency sonar transducer set forth in claim 1 wherein
- said set of high frequency resonators has n.sup.2 members, where n is an integer greater than one.
- 3. The dual frequency sonar transducer set forth in claim 1 wherein
- said set of high frequency resonators has m.times.n members, where m and n are unequal integers.
- 4. A mass loaded, length expander, sonar transducer for operation in one of three modes including low frequency, high frequency, simultaneous low and high frequency operation comprising
- A. a low frequency tonpilz transducer comprising:
- (i) a low frequency resonant ferroelectric driver,
- (ii) a composite head mass including a unitary rigid member, arranged outwardly of said low frequency driver for efficient bidirectional coupling of low frequency waves with the water,
- (iii) a low frequency tail mass, more massive than said head mass, arranged inwardly of said low frequency driver,
- (iv) a stress rod affixed to said unitary rigid member for attaching said head mass to said tail mass,
- B. said composite head mass, comprising a plural set of tail mass mounted, high frequency tonpilz transducers comprising
- (i) a set of high frequency resonant ferroelectric drivers,
- (ii) a set of discrete high frequency head masses, arranged outwardly of said high frequency drivers for efficient bidirectional coupling of low and high frequency waves with the water,
- (iii) a unitary, rigid, high frequency tail mass consisting of said unitary rigid member arranged inwardly of said set of high frequency drivers, said high frequency tail mass being more massive than said high frequency head masses, and
- (iv) a set of stress rods, each attaching a high frequency head mass to said unitary rigid member of said unitary high frequency tail mass for maintaining a compressive stress on each of said high frequency drivers,
- said unitary rigid member in providing the head mass of the lower frequency driver, and the common tail mass and means for support of the high frequency driver providing enhanced tail mass to head mass ratios at both low and high frequencies,
- said low frequency drivers when excited, driving said composite head mass including said set of high frequency head masses as a virtual single unit, and said high frequency drivers when excited, driving each member of said set of high frequency head masses separately.
CROSS REFERENCE TO RELATED APPLICATION
This application is a Continuation-In-Part of U.S. application Ser. No. 07/288,489, filed Dec. 22, 1988, now abandoned, on the invention of Stearns, Erickson and Izzo, entitled "DUAL FREQUENCY SONAR TRANSDUCER ASSEMBLY".
US Referenced Citations (2)
Number |
Name |
Date |
Kind |
3952216 |
Madison et al. |
Apr 1976 |
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4373143 |
Lindberg |
Feb 1983 |
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Continuation in Parts (1)
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Number |
Date |
Country |
Parent |
288489 |
Dec 1988 |
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