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In one general aspect, an apparatus can include an overcurrent protection device. The apparatus can include an overvoltage protection device coupled to the overcurrent protection device and configured to cause the overcurrent protection device to decrease a current through the overvoltage protection

In one general aspect, an apparatus can include an overcurrent protection device. The apparatus can include an overvoltage protection device coupled to the overcurrent protection device and configured to cause the overcurrent protection device to decrease a current through the overvoltage protection device after a breakdown voltage of the overvoltage protection device increases in response to heat.

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1. An apparatus, comprising: an input terminal;an output terminal;an overcurrent protection device coupled with the input terminal and the output terminal, the overcurrent protection device being configured to control a current through the overcurrent protection device in response to a control volta

1. An apparatus, comprising: an input terminal;an output terminal;an overcurrent protection device coupled with the input terminal and the output terminal, the overcurrent protection device being configured to control a current through the overcurrent protection device in response to a control voltage; andan overvoltage protection device coupled to the overcurrent protection device and the output terminal, the overvoltage protection device being configured to cause the overcurrent protection device to decrease the current through the overcurrent protection device in response to thermally induced changes in a clamping voltage of the overvoltage protection device. 2. The apparatus of claim 1, further comprising: a control circuit coupled to the overcurrent protection device and coupled to the overvoltage protection device, the control voltage being controlled based on a thermal response of the control circuit. 3. The apparatus of claim 1, wherein the overvoltage protection device is configured to cause the overcurrent protection device to decrease the current in response to the clamping voltage of the overvoltage protection device exceeding a triggering breakdown voltage while the overvoltage protection device is in a breakdown state. 4. The apparatus of claim 1, wherein the overvoltage protection device is configured to cause the overcurrent protection device to decrease the current via a feedback signal produced based on a voltage across the overvoltage protection device. 5. The apparatus of claim 1, further comprising: a voltage divider coupled in parallel to the overvoltage protection device and including at least one resistor, the overvoltage protection device configured to cause the overcurrent protection device to decrease the current based on a feedback voltage produced via the voltage divider. 6. The apparatus of claim 1, further comprising: a voltage divider coupled in parallel to the overvoltage protection device and including at least one resistor and a plurality of diodes,the overcurrent protection device being saturated when the overcurrent protection device decreases the current through the overvoltage protection device. 7. The apparatus of claim 1, further comprising: a voltage divider coupled in parallel to the overvoltage protection device and including at least one resistor and a plurality of diodes. 8. The apparatus of claim 1, further comprising: a voltage divider integrated into a package with the overvoltage protection device and the overcurrent protection device, the voltage divider being thermally coupled to at least one of the overvoltage protection device or the overcurrent protection device. 9. The apparatus of claim 1, wherein the overcurrent protection device has a first terminal configured to be coupled to a power source, the overcurrent protection device has a second terminal coupled to the overvoltage protection device. 10. The apparatus of claim 1, wherein the overcurrent protection device includes a junction field effect transistor device that has a channel disposed between a power source and the overvoltage protection device. 11. The apparatus of claim 1, wherein the overvoltage protection device includes a zener diode, the clamping voltage of the zener diode having a positive temperature coefficient. 12. The apparatus of claim 1, further comprising: a control circuit thermally coupled to at least one of the overvoltage protection device or the overcurrent protection device, heat from the at least one of the overvoltage protection device or overcurrent device causes the control circuit to reduce the control voltage at which current through the overcurrent protection device is decreased. 13. The apparatus of claim 12, wherein the control circuit includes at least one of a negative temperature coefficient device, a positive temperature coefficient device, or a plurality of diodes. 14. The apparatus of claim 1, wherein the overcurrent protection device includes a semiconductor switching device configured to change from an on-state to a current-limiting state, the overcurrent protection device is configured to decrease the current while in the current-limiting state based on voltage feedback to a control pin of the semiconductor switching device. 15. A method, comprising: receiving, via an overcurrent protection device, a current at an overvoltage protection device while the overvoltage protection device is in a breakdown state;producing a feedback voltage based on the current and based on a breakdown voltage of the overvoltage protection device;providing the feedback voltage to the overcurrent protection device coupled to the overvoltage protection device; andchanging the overcurrent protection device from an on-state to a current-limiting state or reducing a current limit of the current-limiting state in response to a temperature change of the overvoltage protection device. 16. The method of claim 15, further comprising: modifying a current limit of the current-limiting state in response to a change in the breakdown voltage of the overvoltage protection device. 17. The method of claim 15, wherein the breakdown voltage of the overvoltage protection device exceeds a triggering breakdown voltage when the breakdown voltage changes from a first voltage below the triggering breakdown voltage to a second voltage above the triggering breakdown voltage. 18. The method of claim 15, wherein a temperature of the overvoltage protection device increases in response to the current through the overvoltage protection device, the breakdown voltage of the overvoltage protection device increases in response to the increase in temperature until the breakdown voltage exceeds a triggering breakdown voltage. 19. The method of claim 15, wherein heat from at least one of the overvoltage protection device or the overcurrent device causes a control circuit to reduce a triggering breakdown voltage. 20. The method of claim 15, wherein the current through the overvoltage protection device is decreased in response to the changing of the overcurrent protection device from the on-state to the current-limiting state. 21. The method of claim 15, wherein the changing is performed at a first time, the current through the overvoltage protection device is decreased in response to the changing, at the first time, of the overcurrent protection device from the on-state to the current-limiting state, the temperature of the overvoltage protection device decreases in response to the decrease in current, the breakdown voltage of the overvoltage protection device falls below a triggering breakdown voltage in response to the decrease in temperature, the method further comprising:changing, at a second time after the first time, the overcurrent protection device from the current-limiting state to the on-state in response to the breakdown voltage of the overvoltage protection device falling below the triggering breakdown voltage. 22. The method of claim 15, wherein the current received at the overvoltage protection device is associated with an overvoltage event. 23. An apparatus, comprising: a first terminal configured to receive a supply voltage;a second terminal configured to provide the supply voltage to a circuit load;an overvoltage protection device coupled with the second terminal, the overvoltage protection device having a voltage limit configured to increase in response to an increase in temperature of the overvoltage protection device;an overcurrent protection device coupled to the first terminal, the second terminal and the overvoltage protection device, the overcurrent protection device being biased to an on-state; anda control circuit operatively coupled with the overvoltage protection device, the control circuit being configured to provide, to the overcurrent protection device, at least a portion of a voltage across the overvoltage protection device, at least the portion of the voltage across the overvoltage protection device is configured to trigger the overcurrent protection device to change from the on-state to a current-limiting state, or reducing a current limit of the current-limiting state in response to temperature changes of the overvoltage protection device. 24. The apparatus of claim 23, wherein the at least the portion of the voltage across the overvoltage protection device is configured to trigger the overcurrent protection device to change from the on-state to a current-limiting state when the voltage limit increases in response to heat and exceeds a triggering threshold voltage. 25. The apparatus of claim 23, wherein the control circuit includes a voltage divider coupled in parallel to the overvoltage protection device, the overcurrent protection device includes a junction field effect transistor device, and the overvoltage protection device includes a zener diode. 26. The apparatus of claim 23, wherein the control circuit is configured to reduce a triggering threshold voltage of the overcurrent protection device in response to heat from at least one of the overcurrent protection device or the overvoltage protection device. 27. The apparatus of claim 23, wherein the overcurrent protection device includes a semiconductor device configured to change from the on-state to a current-limiting state or reduce its current limiting state in response to a control voltage. 28. The apparatus of claim 23, wherein the control circuit includes a zener diode configured to change from a voltage regulation state to a shorted state.