Circuit breakers

What is claimed is: 1. An electrical breaker responsive to a fault condition for one or more battery cells, the breaker comprising: a first terminal configured to electrically connect to a battery management system; a second terminal configured to electrically connect to a first discharge resistor; a third terminal; a second discharge resistor electrically connected to the third terminal, the second discharge resistor configured to electrically connect to a first electrode of a battery cell of the one or more battery cells, the third terminal disposed between the first terminal and the second discharge resistor; and a thermally-activated switch disposed between the first terminal and the second and third terminals, wherein the switch has a first operating condition in which the first terminal is electrically connected to the second terminal, and the switch has a second condition in which the first terminal is electrically connected to the third terminal. 2. The breaker of claim 1 , further comprising the first discharge resistor, the first discharge resistor electrically connected to the second terminal. 3. The breaker of claim 1 , wherein at least one of the first and second discharge resistors comprises a positive temperature coefficient (PTC) resistor. 4. The breaker of claim 1 , wherein the thermally-activated switch comprises a bimetal switching element. 5. The breaker of claim 4 , wherein the bimetal switching element is dome-shaped. 6. An electrical device comprising the breaker of claim 1 , the device further comprising the battery management system in electrical communication with the first terminal. 7. The device of claim 6 , further comprising a second electrical breaker in parallel with the electrical breaker, the second electrical breaker having a first terminal configured to be in electrical communication with a second electrode of the battery cell and a second terminal configured to be in electrical communication with the first electrode of the battery cell. 8. The device of claim 7 , further comprising a third discharge resistor in electrical communication with the second terminal of the second breaker. 9. The device of claim 7 , wherein the second breaker is thermally coupled with the battery cell. 10. The device of claim 7 , wherein, when the battery management system is inactive or malfunctions, in a fault condition of the battery cell, electrical current passes through the second electrical breaker and bypasses the electrical breaker. 11. The device of claim 6 , further comprising a transistor having a gate in electrical communication with the battery management system, a source in electrical communication with one of a second electrode of the battery cell and the first terminal of the electrical breaker, and a drain in electrical communication with the other of the second electrode of the battery cell and the first terminal of the electrical breaker. 12. The device of claim 6 , further comprising the battery cell. 13. An electrical breaker, the breaker comprising: a first terminal configured to electrically connect to a first electrode of a battery cell; a second terminal configured to electrically connect to a battery management system; a thermally-activated switch disposed between the first terminal and the second terminal; and a resistor in parallel with the switch and configured to electrically connect to the battery management system, wherein the switch has a first operating condition in an electrically open state in which the first terminal is disconnected from the second terminal, and a second operating condition in which the first terminal is electrically connected to the second terminal, wherein, during a connection phase when an electrical connection between the electrical breaker and the battery cell is being made, the switch is in the first operating condition and a first electrical current passes through the resistor to the battery management system, wherein, during an operational phase the switch is in the second operating condition and a second electrical current passes through the switch to the battery management system, the first electrical current greater than the second electrical current. 14. The breaker of claim 13 , wherein the switch is not automatically resettable. 15. The breaker of claim 14 , wherein the switch is manually resettable. 16. The breaker of claim 13 , wherein the switch comprises a bimetallic element. 17. An electrical device comprising the breaker of claim 13 , further comprising the battery management system electrically connected to the second terminal and the resistor. 18. The electrical device of claim 17 , further comprising the battery cell electrically connected to the first terminal and the battery management system. 19. A fuse comprising: an electrical breaker comprising: a first terminal electrically connected to a first pin; a second terminal; a third terminal; a thermally-activated switch between the first terminal and the second and third terminals; and a resistor electrically connected to the third terminal and thermally coupled with the switch; a transistor electrically connected to the resistor and the third terminal, wherein, when the transistor is in a first state, current does not flow through the transistor and the breaker, and the first terminal is electrically connected to the third terminal, wherein, when the transistor is in a second state, current flows through the transistor and the resistor, the switch configured to disconnect from the third terminal and connect to the second terminal when a temperature of the resistor exceeds a predetermined threshold. 20. The fuse of claim 19 , wherein the transistor comprises an n-channel metal oxide semiconductor field effect transistor (MOSFET), a drain of the MOSFET connected to the resistor and the third terminal. 21. The fuse of claim 19 , wherein the switch comprises a bimetallic element. 22. The fuse of claim 19 , wherein the switch is not automatically resettable. 23. The fuse of claim 22 , wherein the switch is manually resettable. 24. The fuse of claim 19 , further comprising an output terminal configured to electrically connect to a load. 25. An electrical breaker responsive to a fault condition, the breaker comprising: a first terminal; a second terminal; a third terminal; a thermally-activated switch disposed between the first terminal and the second and third terminals; a resistor in parallel with the switch and in electrical communication with the second terminal; and a thyristor in parallel with the switch and in series with the resistor. 26. The breaker of claim 25 , wherein the switch has a normal operating condition in which the first terminal is electrically connected to the second terminal, and the switch has a fault condition in which the first terminal is electrically connected to both the second terminal and to the third terminal, such that in a fault condition, a majority of the current flows between the first terminal and the third terminal and a minority of the current flows between the first terminal and the second terminal. 27. The breaker of claim 25 , wherein the switch comprises a bimetallic element. 28. The breaker of claim 25 , wherein the resistor comprises a positive temperature coefficient (PTC) resistor. 29. An electrical breaker responsive t