Devices and methods comprising a switch and an overload detection are disclosed. When an overload detection is detected, a first retry scheme followed by a second retry scheme different from the first retry scheme may be applied. If the overload condition persists, the switch may be disabled.
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1. A device, comprising: a switch,an overload detection circuit coupled with the switch, anda controller, the controller being configured to, when an overload state is detected by the overload detection circuit when the switch is to be closed, to open the switch,wherein, upon detection of the overlo
1. A device, comprising: a switch,an overload detection circuit coupled with the switch, anda controller, the controller being configured to, when an overload state is detected by the overload detection circuit when the switch is to be closed, to open the switch,wherein, upon detection of the overload, the controller is further configured to repeatedly retry closing the switch according to a first retry scheme,if an overload condition remains at an end of the first retry scheme, to repeatedly retry closing the switch according to at least a second retry scheme different from the first retry scheme, wherein:the first retry scheme comprises a first maximum number of retry attempts, wherein the first maximum number is greater than one, and wherein the controller is configured to wait for a first predetermined time between each retry attempt, andthe second retry scheme comprises: waiting a second predetermined time after the first retry scheme before a next closing of the switch, andperforming a second maximum number of retry attempts, wherein the second maximum number is greater than one, andif an overload condition remains at an end of at least the second retry scheme, disable the switch. 2. The device of claim 1, wherein the first retry scheme comprises closing the switch again when no overload condition is detected, and opening the switch again when an overload condition occurs after closing the switch. 3. The device of claim 1, wherein the second predetermined time is longer than the first predetermined time between closings of the switch during the first retry scheme. 4. The device of claim 1, wherein the second retry scheme further comprises repeatedly closing the switch when no overload condition is detected and opening the switch when an overload condition occurs after closing the switch. 5. The device of claim 1, wherein at least some time intervals between closings of the switch in the second retry scheme are longer than the first predetermined time between closings of the switch during the first retry scheme. 6. The device of claim 1, wherein the controller is further configured to re-enable the switch after the disabling in response to a reset. 7. The device of claim 6, wherein the reset comprises at least one of a control signal controlling the switch being in a state indicating that the switch is to opened for a predetermined time or applying a logical high-low signal to a diagnosis pin while applying a logical low signal value to a control pin controlling opening and closing of the switch. 8. The device of claim 1, wherein repeatedly retrying closing the switch according to at least a second retry scheme comprises repeatedly retry closing the switch according to the second retry scheme followed by at least one further retry scheme. 9. The device of claim 1, wherein the overload condition comprises at least one of an overcurrent, an overtemperature or a temperature rise above a predetermined threshold. 10. The device of claim 1, wherein the device is adapted to output a signal indicating an error after the overload has occurred at least upon receiving a diagnosis enable signal and at least until a reset has been applied or a predetermined time after the switch has been closed without an overload occurring. 11. The device of claim 1, wherein the second retry scheme comprises a plurality of retries of the first retry scheme, wherein: the second retry scheme comprises waiting the second predetermined time between each retry of the of the first retry scheme, wherein the second predetermined time is longer than the first predetermined time; andthe second maximum number of retry attempts equals the number of retries of the first retry scheme multiplied by the first maximum number of retry attempts in the first retry scheme. 12. A device, comprising: a power switch transistor,an overload detection circuit, anda controller, wherein the controller is adapted to: detect an overload condition and open the power switch transistorupon opening the power switch transistor due to an overload condition, determine whether an overload condition continues to exist,in response to determining an overload condition no longer exists, repeatedly close the power switch transistor up to a first predetermined number of times, wherein the first predetermined number of times includes a maximum predetermined number of times greater than one and wherein the controller is configured to wait for a first predetermined time between each closing of the power switch transistor,upon closing the power switch transistor up to a first predetermined number of times, determine whether the overload condition persists after the first predetermined number of times,in response to determining an overload condition persists, waiting a second predetermined time,closing the power switch transistor for up to a second predetermined number of times, wherein the waiting and the closing the power switch transistor for up to the second predetermined number of times is repeated a third predetermined number of times, anddisabling the power switch transistor if the overload condition persists after the third predetermined number of times. 13. A method, comprising: opening a switch when detecting an overload condition,repeatedly retrying to close the switch according to a first retry scheme,if an overload condition remains at an end of the first retry scheme, repeatedly retrying to close the switch according to at least a second retry scheme different from the first retry scheme, wherein:the first retry scheme comprises a first maximum number of retry attempts, wherein the first maximum number is greater than one, and wherein the controller is configured to wait for a first predetermined time between each retry attempt, andthe second retry scheme comprises: waiting a second predetermined time before a next closing of the switch, andperforming a second maximum number of retry attempts, wherein the second maximum number is greater than one, andif an overload condition remains at an end of the second retry scheme, disabling the switch. 14. The method of claim 13, wherein the first retry scheme comprises closing the switch again when no overload condition is detected, and opening the switch again when an overload condition occurs after closing the switch. 15. The method of claim 14, wherein the second predetermined time is longer than the first predetermined time between closings of the switch during the first retry scheme. 16. The method of claim 14, wherein the the second retry scheme comprises repeatedly closing the switch when no overload condition is detected and opening the switch when an overload condition occurs after closing the switch. 17. The method of claim 13, further comprising re-enabling the switch after the disabling in response to a reset. 18. The method of claim 17, wherein the reset comprises at least one of a control signal controlling the switch being in a state indicating that the switch is opened for a predetermined time or applying a logical high-low signal to a diagnosis pin while applying a logical low signal value to a control pin controlling opening and closing of the switch. 19. The method of claim 13, wherein the second retry scheme comprises a plurality of retries of the first retry scheme, wherein: the second retry scheme comprises waiting the second predetermined time between each retry of the of the first retry scheme, wherein the second predetermined time is longer than the first predetermined time; andthe second maximum number of retry attempts equals the number of retries of the first retry scheme multiplied by the first maximum number of retry attempts in the first retry scheme.
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이 특허에 인용된 특허 (1)
Davies Robert B. (Tempe AZ) Mietus David F. (Phoenix AZ), Multi-lead protected power device having current and boot-strap inputs.
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