An ignition circuit for a detonator is disclosed. The circuit includes an igniter, a transient voltage suppressor (TVS), an energy source and a switch, all electrically connected in series with each other. Current flow through the igniter sufficient to ignite the igniter is prevented until an igniti
An ignition circuit for a detonator is disclosed. The circuit includes an igniter, a transient voltage suppressor (TVS), an energy source and a switch, all electrically connected in series with each other. Current flow through the igniter sufficient to ignite the igniter is prevented until an ignition voltage is applied across the TVS that is equal to or greater than the breakdown voltage of the TVS.
대표청구항▼
1. An ignition circuit for a detonator, comprising: an igniter, a transient voltage suppressor (TVS), an energy source and a switch, all electrically connected in series with each other;wherein current flow through the igniter sufficient to ignite the igniter is prevented until an ignition voltage i
1. An ignition circuit for a detonator, comprising: an igniter, a transient voltage suppressor (TVS), an energy source and a switch, all electrically connected in series with each other;wherein current flow through the igniter sufficient to ignite the igniter is prevented until an ignition voltage is applied across the TVS that is equal to or greater than the breakdown voltage of the TVS; andwherein the igniter and the TVS conduct a same induced current when present, the current having a driving voltage sufficient to overcome the breakdown voltage of the TVS, for all voltage conditions across the TVS that produces a current flow through the TVS;wherein the breakdown voltage across the TVS in a first direction is the same as the breakdown voltage across the TVS in the opposite direction. 2. The ignition circuit of claim 1, wherein the TVS is disposed directly between the igniter and the switch. 3. The ignition circuit of claim 1, wherein the igniter comprises a bridgewire. 4. The ignition circuit of claim 1, wherein the igniter comprises a semiconductor bridge. 5. The ignition circuit of claim 1, further comprising a resistor electrically connected in parallel across the series-connected energy source and switch, and electrically connected in parallel across the series-connected TVS and igniter. 6. The ignition circuit of claim 1, further comprising: a resistor electrically connected in parallel across the series-connected energy source and switch, and electrically connected in parallel across the series-connected TVS and igniter. 7. The ignition circuit of claim 1, further comprising: a circuit board having the TVS surface mounted thereon;wherein the circuit board with the surface-mounted TVS is so dimensioned as to be insertable through a space defined by an opening of a standard size one-quarter inch diameter detonator shell. 8. The ignition circuit of claim 7, wherein an unobstructed through-air dielectric breakdown voltage between the surface-mounted TVS and an interior wall of the detonator shell is greater than the breakdown voltage of the TVS. 9. The ignition circuit of claim 8, further comprising: a resistor electrically connected in parallel across the series-connected energy source and switch, and electrically connected in parallel across the series-connected TVS and igniter;wherein the resistor is surface mounted on the circuit board. 10. The ignition circuit of claim 1, wherein upon closure of the switch the energy source has sufficient energy to generate a voltage across the terminals of the TVS in excess of the breakdown voltage of the TVS, and to generate sufficient current flow to ignite the igniter. 11. The ignition circuit of claim 10, wherein upon closure of the switch the energy source further has sufficient energy to permanently damage the TVS. 12. The ignition circuit of claim 10, where in the event of the switch being closed the energy source further has sufficient energy to generate an ignition voltage to ignite the igniter that is equal to or greater than 1.1 times the breakdown voltage of the TVS. 13. The ignition circuit of claim 12, where in the event of the switch being open the breakdown voltage of the TVS is sufficient to prevent the igniter from firing upon the occurrence of a stray voltage across the terminals of the TVS equal to or less than the breakdown voltage of the TVS. 14. The ignition circuit of claim 1, further comprising: a plug having the TVS integrally molded therein;wherein the plug with the integrally-molded TVS is so dimensioned as to be insertable through a space defined by an opening of a standard size one-quarter inch diameter detonator shell. 15. The ignition circuit of claim 1, wherein the TVS has a breakdown voltage of 200 volts. 16. An ignition circuit for a detonator, comprising: an igniter, a transient voltage suppressor (TVS), an energy source and a switch, all electrically connected in series with each other;wherein current flow through the igniter sufficient to ignite the igniter is prevented until an ignition voltage is applied across the TVS that is equal to or greater than the breakdown voltage of the TVS;wherein the igniter, the TVS, the energy source and the switch, all conduct a same induced current when present and having a driving voltage sufficient to overcome the breakdown voltage of the TVS, for all voltage conditions across the TVS that produces a current flow through the TVS;wherein the breakdown voltage across the TVS in a first direction is the same as the breakdown voltage across the TVS in the opposite direction.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (6)
Olsen Charles R. (307 Conestoga Way ; Suite 37 Eagleville PA 19408), Electropyrotechnic link.
Hansen David D. ; Woodbury Mark B. ; Chandler Virginia E. ; Monk David B. ; Miller ; II Harry W. ; Pratt Gerold W., High pressure resistant initiator with integral metal oxide varistor for electro-static discharge protection.
Hansen David D. (Clearfield UT), Inflator socket pin collar for integrated circuit initaitor with integral metal oxide varistor for electro-static discha.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.