Claims
- 1. In an electrical system having a voltage source and a load connected in series with the source through a power bus, an improved thermostatic device adapted to activate or inactivate said load connected in series in said bus comprising a high voltage control device comprising a housing, molten sulfur contained within said housing, means for effecting heat exchange with said molten sulfur, at least two spaced electrodes contained within said liquid and each of said electrodes extending from said housing.
- 2. A circuit as defined in claim 1 wherein the means for effecting heat exchange in the high voltage control device is a heat exchanger adapted to raise or lower the temperature of the molten sulfur within the control device.
- 3. A high voltage control device comprising
- (a) a housing;
- (b) an aprotic liquid contained within said housing, said aprotic liquid
- (1) at low fields, having a specific resistivity which decreases with increasing temperature according to an exponential dependence characteristic of semiconductors, and having a first fixed specific resistivity A at a first predetermined temperature below the viscosity transition temperature,
- (2) at high fields, below the viscosity transition temperature, having a specific resistivity markedly lower than that at low fields, and having a second fixed specific resistivity B at said first predetermined temperature, and
- (3) at high fields, above the viscosity transition temperature, having a specific resistivity substantially higher than that at the same high fields below the viscosity transition temperature, but having such specific resistivity at a value below that at low fields, and having a third fixed specific resistivity C at a second predetermined temperature above the viscosity transition temperature,
- (c) means for effecting heat exchange with said liquid,
- (d) at least two spaced electrodes contained within said liquid and each of said electrodes extending from said housing, and
- (e) means for operating said high voltage control device whereby the specific resistivity of said aprotic liquid changes from one of said first, second, or third fixed specific resistivity to another of said first, second, or third fixed specific resistivity.
- 4. A high voltage control device as recited in claim 3 wherein the aprotic liquid is molten sulfur.
- 5. A high voltage control device as recited in claim 3 wherein the aprotic liquid is S.sub.2 Cl.sub.2.
- 6. A high voltage control device as recited in claim 3 wherein the aprotic liquid is a mixture of molten sulfur and sulfur monochloride.
- 7. A high voltage control device as recited in claim 3 wherein the specific resistivity of said aprotic liquid is switched from A to B to C.
- 8. A spark triggering device comprising a high voltage control device comprising
- a housing, an aprotic liquid contained within said housing, means for effecting heat exchange with said liquid, at least two spaced electrodes contained within said liquid and each of said electrodes extending from said housing,
- a voltage source applied across said device adapted to provide a potential below the breakdown field strength of the aprotic liquid contained therein and
- means for inducing electrical breakdown of the liquid.
Government Interests
The invention herein described was made in the course of or under a contract or subcontract thereunder with the U.S. Navy.
US Referenced Citations (2)
Number |
Name |
Date |
Kind |
1863253 |
Pol in |
Jun 1932 |
|
2802157 |
Kordesch et al. |
Aug 1957 |
|
Non-Patent Literature Citations (1)
Entry |
Steunenberg et al., "Electrical Conductivity of Liquid Sulfur and Sulfur-Phosphorus Mixes", Sulfur Research Trends; pp. 190-200; American Chemical Society; Feb., 1971. |