Claims
- 1. A piezoelectric power supply for a fuze assembly, comprising:
- (a) a stacked array of piezoelectric elements having opposite positive and negative faces;
- (b) a hollow enclosure for holding said stacked array of piezoelectric elements and being deformable upon receipt of a predetermined pressure impulse for transmitting the pressure impulse to said elements;
- (c) at least one capacitor capable of storing an electrical charge; and
- (d) a plurality of electrical conductor elements providing positive and negative output terminals, said capacitor being connected across said output terminals, said electrical conductor elements being composed of flexible circuits defined by lengths of flexible sheet material and conductive paths formed on one surface of said lengths of flexible sheet material, portions of said flexible circuits being interposed between said piezoelectric elements and interconnecting said corresponding positive and negative faces thereof so as to conduct electrical current to said positive and negative output terminals thereof and supply electrical charge to said capacitor upon deformation of said enclosure and piezoelectric elements by the pressure impulse.
- 2. The power supply of claim 1 wherein said piezoelectric elements are piezoelectric ceramic discs.
- 3. The power supply of claim 1 wherein said conductor elements are arranged with said piezoelectric elements so as to divide said piezoelectric elements in a plurality of groups defining separate power supply portions for providing electrical power to different electrical functions.
- 4. In a fuze assembly including a piezoelectric power supply and means for storing an electrical charge to power detonation of an explosive, said piezoelectric power supply comprising:
- (a) a stacked array of piezoelectric elements having opposite positive and negative faces;
- (b) a hollow enclosure for holding said stacked array of piezoelectric elements and being deformable upon receipt of a predetermined pressure impulse for transmitting the pressure impulse to said elements; and
- (c) a plurality of electrical conductor elements composed of flexible circuits defined by lengths of flexible sheet material and conductive paths formed on one surface of said lengths of flexible sheet material, portions of said flexible circuits being interposed between said piezoelectric elements and interconnecting said corresponding positive and negative faces thereof so as to conduct electrical current and provide positive and negative terminals connected to said electrical charge storing means for supplying electrical charge thereto upon deformation of said enclosure and piezoelectric elements by the pressure impulse.
- 5. The power supply of claim 4 wherein said piezoelectric elements are piezoelectric ceramic discs.
- 6. The power supply of claim 4 wherein said conductor elements are arranged with said piezoelectric elements so as to divide said piezoelectric elements in first and second groups defining separate power supply portions for providing electrical power to different electrical functions.
- 7. The power supply of claim 4 further comprising an electrical feed-through element disposed between and electrically connecting said positive and negative terminals to said electrical charge storing means.
- 8. In a fuze assembly including a piezoelectric power supply and first and second electrical capacitors for storing electrical charge to provide electrical power to different electrical functions, said piezoelectric power supply comprising:
- (a) a stacked array of piezoelectric elements having opposite positive and negative faces;
- (b) a hollow enclosure for holding said stacked array of piezoelectric elements and being deformable upon receipt of a predetermined pressure impulse for transmitting the pressure impulse to said elements; and
- (c) a plurality of electrical conductor elements interposed between said piezoelectric elements and interconnecting said corresponding positive and negative faces thereof so as to conduct electrical current and divide said piezoelectric elements in first and second groups defining separate power supply portions providing positive and negative terminals connected to said first and second capacitors for supplying electrical charge to said different electrical functions upon deformation of said enclosure and piezoelectric elements by the pressure impulse.
- 9. The power supply of claim 8 wherein said piezoelectric elements are piezoelectric ceramic discs.
- 10. The power supply of claim 8 wherein said conductor elements are flexible circuits.
- 11. The power supply of claim 8 further comprising a electrical feed-through element disposed between and electrically connecting said first and second power supply portions to said first and second capacitors.
- 12. The power supply of claim 11 further comprising first and second blocking diodes interposed between said respective first and second power supply portions and said corresponding first and second storage capacitors.
- 13. A piezoelectric power supply for a fuze assembly, comprising:
- (a) a stacked array of piezoelectric elements having opposite positive and negative faces;
- (b) a hollow enclosure for holding said stacked array of piezoelectric elements and being deformable upon receipt of a predetermined pressure impulse for transmitting the pressure impulse to said elements; and
- (c) a plurality of electrical conductor elements composed of flexible circuits defined by lengths of flexible sheet material and conductive paths formed on one surface of said lengths of flexible sheet material, portions of said flexible circuits being interposed between said piezoelectric elements and interconnecting said corresponding positive and negative faces thereof so as to conduct electrical current upon deformation of said enclosure and piezoelectric elements by the pressure impulse;
- (d) said conductor elements also being arranged with said piezoelectric elements so as to divide said piezoelectric elements into first and second groups defining separate power supply portions and to provide first and second sets of positive and negative output terminals for supplying separate electrical charges to said first and second sets of output terminals.
BACKGROUND OF THE INVENTION
The Government has rights in this invention pursuant to Contract No. F08635-85-C-0151, awarded by the Department of the Air Force.
US Referenced Citations (22)
Foreign Referenced Citations (1)
Number |
Date |
Country |
2043340 |
Mar 1972 |
DEX |