Passive impact sensor for high velocity projectiles
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F42C-001/10
F42C-019/07
G01P-015/08
F42C-001/00
출원번호
US-0277387
(2016-09-27)
등록번호
US-10228225
(2019-03-12)
발명자
/ 주소
White, Ryan D.
Stokes, Michael D.
Freeman, Bruce
출원인 / 주소
Raytheon Company
대리인 / 주소
Gifford, Eric A.
인용정보
피인용 횟수 :
0인용 특허 :
13
초록▼
A passive impact sensor for a projectile configured to explode, destroy with kinetic energy, embed or pass through an object with a closing velocity greater than 1,000 m/s. The passive impact sensor includes an energy generating system comprised of a crystalline structure that stores latent polarize
A passive impact sensor for a projectile configured to explode, destroy with kinetic energy, embed or pass through an object with a closing velocity greater than 1,000 m/s. The passive impact sensor includes an energy generating system comprised of a crystalline structure that stores latent polarized electrical energy. The crystalline structure is responsive to an impact generated shock wave that propagates at least partially through the crystalline structure to consume and depolarize the crystalline structure and release at least a portion of the stored energy to generate a voltage pulse across output terminals. An onboard antenna is configured to transmit an RF pulse responsive to the voltage pulse (direct or integrated) external to the impact sensor (and projectile) before the sensor is destroyed by the shock wave. Multiple energy generating systems can be positioned either together or fore and aft and their voltage pulses summed to transmit the RF pulse. The benefits of this device include the ability to determine impact force, impact velocity, impact angle, target mass, target density, and direct or glancing impact.
대표청구항▼
1. A passive impact sensor, comprising: a first energy generating system comprised of a crystalline structure that stores latent polarized electrical energy;a first pair of output terminals coupled to the first energy generating system, said crystalline structure responsive to an impact generated sh
1. A passive impact sensor, comprising: a first energy generating system comprised of a crystalline structure that stores latent polarized electrical energy;a first pair of output terminals coupled to the first energy generating system, said crystalline structure responsive to an impact generated shock wave that propagates at least partially through the crystalline structure to consume and depolarize the crystalline structure and release at least a portion of the stored energy to generate a voltage pulse across the output terminals; andan antenna configured to transmit an RF pulse responsive to the voltage pulse. 2. The passive impact sensor of claim 1, wherein the crystalline structure is configured such that upon the release of all of the stored energy the generated voltage pulse is at least 10 KV. 3. The passive impact sensor of claim 1, wherein the crystalline structure comprises a ferroelectric ceramic. 4. The passive impact sensor of claim 1, wherein the voltage pulse is directly transmitted as the RF pulse, wherein a pulse integral denotes total energy released as an indicator of force of impact, a height of the RF pulse denotes a max energy release rate from the crystalline structure as an indicator of force of impact, a rise time of the RF pulse denotes an energy release rate as an indicator of impact velocity and a width of the RF pulse denotes energy release duration as an indicator of force of impact. 5. The passive impact sensor of claim 1, further comprising a storage element configured to store energy in the voltage pulse and then to release the stored energy in the RF pulse, wherein a height of the RF pulse denotes total energy released from the crystalline structure as an indicator of force of impact. 6. The passive impact sensor of claim 1, wherein the onboard antenna is configured to transmit the RF pulse at a center frequency of less than 400 MHz. 7. The passive impact sensor of claim 1, wherein the sensor is configured to transmit the RF pulse for impact velocities in excess of 1,000 m/s. 8. The passive impact sensor of claim 1, further comprising: a second energy generating system comprised of a crystalline structure that stores latent polarized electrical energy, said second energy generating system co-located with said first energy generating system;a second pair of output terminals coupled to the second energy generating system, said crystalline structure responsive to the same impact generated shock wave that propagates at least partially through the crystalline structure to consume and depolarize the crystalline structure and release at least at least a portion of the stored energy to generate a voltage pulse across the output terminals;a storage element configured to store energy in the voltage pulse and then to release the stored energy in a peak voltage pulse,said onboard antenna configured to transmit the RF pulse as a sum of the voltage pulse and the peak voltage pulse. 9. The passive impact sensor of claim 8, further comprising: a third energy generating system comprised of a crystalline structure that stores latent polarized electrical energy, said third energy generating system positioned aft of said first and second energy generating systems;a third pair of output terminals coupled to the third energy generating system, said crystalline structure responsive to the same impact generated shock wave that propagates at least partially through the crystalline structure to consume and depolarize the crystalline structure and release at least at least a portion of the stored energy to generate a delayed voltage pulse across the output terminals;said onboard antenna configured to transmit the RF pulse as a sum of the voltage pulse, the peak voltage pulse and the delayed voltage pulse. 10. The passive impact sensor of claim 1, further comprising: a second energy generating system comprised of a crystalline structure that stores latent polarized electrical energy, said second energy generating system co-located with said first energy generating system;a second pair of output terminals coupled to the second energy generating system, said crystalline structure responsive to the same impact generated shock wave that propagates at least partially through the crystalline structure to consume and depolarize the crystalline structure and release at least at least a portion of the stored energy to generate a voltage pulse across the output terminals;said onboard antenna configured to transmit the RF pulse as a sum of the voltage pulses. 11. The passive impact sensor of claim 10, further comprising: one or more storage elements configured to store energy in either each said voltage pulse or the sum and then to release the stored energy in a peak voltage pulse,said onboard antenna configured to transmit the peak voltage pulse as the RF pulse. 12. The passive impact sensor of claim 1, further comprising: one or more crush plates positioned to forward and aft of the crystalline structure. 13. A passive impact sensor, comprising: a projectile configured to explode, destroy with kinetic energy, embed or pass through an object with a closing velocity greater than 1,000 m/s;a first energy generating system comprised of a crystalline structure that stores latent polarized electrical energy and a first pair of output terminals, said crystalline structure responsive to an impact generated shock wave that propagates at least partially through the crystalline structure to consume and depolarize the crystalline structure and release at least a portion of the stored energy to generate a voltage pulse across the output terminals; andan antenna configured to transmit an RF pulse responsive to the voltage pulse external to the impact sensor before the projectile is destroyed. 14. The passive impact sensor of claim 13, wherein the onboard antenna is configured to transmit the RF pulse at a center frequency of less than 400MHz. 15. The passive impact sensor of claim 13, further comprising: a second energy generating system comprised of a crystalline structure that stores latent polarized electrical energy, said second energy generating system co-located with said first energy generating system at a forward position on the projectile;a second pair of output terminals coupled to the second energy generating system, said crystalline structure responsive to the same impact generated shock wave that propagates at least partially through the crystalline structure to consume and depolarize the crystalline structure and release at least at least a portion of the stored energy to generate a voltage pulse across the output terminals;a storage element configured to store energy in the voltage pulse and then to release the stored energy in a peak voltage pulse,said onboard antenna configured to transmit the RF pulse as a sum of the voltage pulse and the peak voltage pulse. 16. The passive impact sensor of claim 15, further comprising: a third energy generating system comprised of a crystalline structure that stores latent polarized electrical energy, said third energy generating system positioned aft of said first and second energy generating systems on the projectile;a third pair of output terminals coupled to the third energy generating system, said crystalline structure responsive to the same impact generated shock wave that propagates at least partially through the crystalline structure to consume and depolarize the crystalline structure and release at least at least a portion of the stored energy to generate a delayed voltage pulse across the output terminals;said onboard antenna configured to transmit the RF pulse as a sum of the voltage pulse, the peak voltage pulse and the delayed voltage pulse. 17. The passive impact sensor of claim 13, further comprising: a second energy generating system comprised of a crystalline structure that stores latent polarized electrical energy, said second energy generating system co-located with said first energy generating system;a second pair of output terminals coupled to the second energy generating system, said crystalline structure responsive to the same impact generated shock wave that propagates at least partially through the crystalline structure to consume and depolarize the crystalline structure and release at least at least a portion of the stored energy to generate a voltage pulse across the output terminals;said onboard antenna configured to transmit the RF pulse as a sum of the voltage pulses. 18. The passive impact sensor of claim 13, further comprising: an explosive warhead, wherein said voltage pulse is coupled to the explosive warhead to detonate the explosive warhead on impact.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (13)
Calico, Steve E.; Holt, Shad L.; Dickens, James C.; Walter, John W., Explosive-driven electric pulse generator and method of making same.
Kiefer, Karl F.; Heermann, Doug; Krug, Eric; Ajupova, Guinara, Hypervelocity impact detection method and system for determining impact location in a detection surface.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.