초록 ▼

A circuit and method for controlling two or more electric relays, wherein at least one of the relays are rated to handle a higher voltage level while at least one of the relays are rated to handle a lower voltage level. A controller selectively activates the relays such that the higher voltage rated

A circuit and method for controlling two or more electric relays, wherein at least one of the relays are rated to handle a higher voltage level while at least one of the relays are rated to handle a lower voltage level. A controller selectively activates the relays such that the higher voltage rated relay(s) open before but close after the lower voltage rated relay(s) within the system.

대표청구항 ▼

What is claimed is: 1. An electric relay circuit for providing current to a load, comprising: at least one first relay, said first relay rated for a first voltage level; at least one second relay connected in series with said first relay, said at least one second relay rated for a second voltage le

What is claimed is: 1. An electric relay circuit for providing current to a load, comprising: at least one first relay, said first relay rated for a first voltage level; at least one second relay connected in series with said first relay, said at least one second relay rated for a second voltage level that is less than said first voltage level; and a controller that selectively activates said first relay and said second relay so that said second relay closes before said first relay closes, wherein the current is substantially switched to the load through said at least one first relay when said at least one first relay is closed. 2. The circuit of claim 1, wherein said controller selectively deactivates said first relay and said second relay so that said second relay opens after said first relay opens. 3. The circuit of claim 1, further comprising a plurality of lower-voltage relays connected in series with said first relay, each of said lower-voltage relays being rated for a voltage level that is less than said first voltage level. 4. The circuit of claim 3, wherein said controller includes a first transistor that controls said first relay and a second transistor that controls said plurality of lower-voltage relays. 5. The circuit of claim 3, wherein said controller includes a first transistor that controls said first relay and a plurality of transistors that correspond to said plurality of lower-voltage relays, each of said plurality of transistors controlling a corresponding one of said plurality of lower-voltage relays. 6. The circuit of claim 1, further comprising at least a first power source connected in series with said first relay and at least a second power source connected in series with said second relay such that said first and second power sources are connected in series to a load when said first and second relays are closed. 7. The circuit of claim 6, wherein said first and second power sources are batteries. 8. The circuit of claim 1, wherein said controller includes a fist transistor that controls said first relay and a second transistor that controls said second relay. 9. The circuit of claim 1, further comprising a power filter connected in parallel with said first and second relays in series. 10. The circuit of claim 9, wherein said power filter comprises at least one capacitance connected in parallel with said first and second relays in series. 11. The circuit of claim 10, wherein said at least one capacitance comprises two capacitances connected to each other in series. 12. The circuit of claim 9, wherein a load is driven by a voltage across said power filter. 13. The circuit of claim 1, wherein an end node of said series of first and second relays is grounded. 14. The circuit of claim 11, wherein a center node of said series of first and second relays is grounded, and a center node between said two capacitances is grounded. 15. The circuit of claim 1, further comprising means for opening said first relay prior to opening said at least one second relay upon disruption of an electric current driving said first and second relays. 16. The circuit of claim 15, wherein said means comprises: a zener diode connected to said first relay, and a resistance and a capacitance connected to said at least one second relay. 17. A method for selectively connecting a plurality of power sources to a load comprising the steps of: closing at least one first relay that is connected in series to a first power source, said first relay being rated for a first voltage level; and subsequent to closing said first relay, closing a second relay that is connected in series to said first power source and to a second power source, said second relay being rated for a second voltage level that is greater than said first voltage level, to connect said first and second power sources in series to a load, wherein the current is substantially switched to the load through said at least one first relay when said at least one first relay is closed. 18. The method of claim 17, further comprising the steps: opening said second relay; and subsequent to opening said second relay, opening said at least one first relay. 19. An electric circuit, comprising: a first relay connected in series with a first power source and a load, said first relay being rated for a first voltage level; a plurality of lower-voltage relays each connected in series with a plurality of corresponding additional power sources, said lower-voltage relays being rated for one or more voltage levels lower than said first voltage level, wherein said series of lower-voltage relays is coupled between said first power source and ground; and a controller configured to selectively close said plurality of lower-voltage relays and subsequently close said first relay to connect said first power source and said additional power sources to a load, wherein the current is substantially switched to the load through said first relay when said first relay is closed. 20. The electric circuit of claim 19, wherein said controller is further configured to selectively open said first relay and subsequently open said plurality of lower-voltage relays to disconnect said first power source and said additional power sources from said load.