Fault-tolerant solid state power controller

The invention claimed is: 1. A solid state power controller for delivering power to a load, comprising: a set of sections, wherein each section comprises: at least one power switching block and wherein each power switching block includes a set of power switching elements, and a plurality of gate circuits, each gate circuit disposed at a gate of a corresponding power switching element, each gate circuit includes (i) a gate-to-source resistor and (ii) a first fuse and a gate resistor connected in series wherein the gate resistor and the gate-to-source resistor are both connected directly to the gate and wherein in each section, the first fuses of the gate circuits are connected together; and protection circuitry, wherein the protection circuitry is configured to prevent a fault occurring in one power switching block from propagating to the other sections, to other power switching blocks, or to the load wherein the protection circuitry includes the plurality of gate circuits and a second fuse, the second fuse being connected to sources of the set of power switching elements and configured to isolate the section and the at least one power switching block from the load and other sections, when a short circuit to ground occurs in the section. 2. The solid state power controller of claim 1 , wherein the fault is a short circuit. 3. The solid state power controller of either of claim 1 , wherein the fault is characterized as a current of the solid state power controller exceeding a predetermined threshold. 4. The solid state power controller of claim 3 , wherein the current flows through at least one of the power switching blocks and the load. 5. The solid state power controller of claim 1 , wherein a power switching element from the set of power switching elements is selected from the group consisting of a metal-oxide semiconductor field-effect transistor, a junction field effect transistor, a bipolar junction transistor, an insulated gate bipolar junction transistor, a triac, and a thyristor. 6. A solid state power controller for delivering power to a load, comprising: sets of power switching elements; and first, second, and third protection circuits and a plurality of gate circuits, each protection circuit comprises a gate circuit of the plurality of gate circuits, each gate circuit disposed at a gate of a corresponding power switching element, each gate circuit includes (i) a gate-to-source resistor and (ii) a first fuse and a gate resistor connected in series wherein the gate resistor and the gate-to-source resistor are both connected directly to the gate and wherein the first fuses of the gate circuits are connected together; wherein the first protection circuit is configured to isolate a first fault occurring on a power line of a first set of power switching elements from reaching a second set of power switching elements, wherein the second protection circuit is configured to isolate a second fault occurring in the second set of power switching elements from reaching the first set of power switching elements and a third set of power switching elements, and wherein the first, second, and third protection circuits each further comprise a second fuse, each second fuse being connected to sources of a corresponding set of power switching elements and configured to isolate the corresponding set of power switching elements from the load and the other sets of power switching elements when a short circuit to ground occurs. 7. The solid state power controller of claim 6 , wherein the third protection circuit is configured to isolate a third fault occurring in a power switching element included in the third set of power switching elements from reaching the first set of power switching elements and the second set of power switching elements. 8. The solid state power controller of claim 7 , wherein the first, second, and third faults are each a short circuit. 9. The solid state power controller of either of claim 7 , wherein the first, second, and third faults are each a current of the solid state power controller exceeding a predetermined threshold. 10. The solid state power controller of claim 9 , wherein the current flows through at least one set of the sets of power switching elements, one of the second fuses, and the load when propagating through the solid state power controller. 11. The solid state power controller of claim 10 , wherein the power switching elements are selected from the group consisting of a metal-oxide semiconductor field-effect transistor, a junction field effect transistor, a bipolar junction transistor, an insulated gate bipolar junction transistor, a triac, and a thyristor. 12. A solid state power controller for delivering power to a load, comprising: a power switching block and wherein the power switching block includes a set of power switching elements; and protection circuitry comprising a gate circuit disposed at each gate of each power switching element, the gate circuit includes (i) a gate-to-source resistor and (ii) a first fuse and a gate resistor connected in series wherein the gate resistor and the gate-to-source resistor are both connected directly to the gate and the first fuses of the gate circuits are connected together and wherein the protection circuitry is configured to prevent a fault occurring in a power switching element of the set of power switching elements from propagating to other power switching elements of the set of power switching element, and wherein the protection circuitry further comprises a second fuse connected to sources of the set of power switching elements and configured to isolate the power switching block from the load and any other power switching blocks, when a short circuit to ground occurs in the power switching block. 13. The solid state power controller of claim 12 , wherein the protection circuitry is further configured to prevent the fault from propagating to the load. 14. The solid state power controller of either of claim 12 , further comprising other power switching blocks. 15. The solid state power controller of claim 14 , wherein the protection circuitry is further configured to prevent the fault from propagating to the other power switching blocks. 16. The solid state power controller of claim 12 , further comprising an overvoltage protection circuit configured to protect the set of power switching elements. 17. The solid state power controller of claim 16 , further comprising a controller configured to drive the set of power switching elements.