System and method having a first and a second operating mode for driving an electronic switch
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H03K-017/082
G05F-001/567
H02H-005/04
G05F-001/573
H03K-017/08
출원번호
US-0595308
(2015-01-13)
등록번호
US-9602097
(2017-03-21)
발명자
/ 주소
Feldtkeller, Martin
출원인 / 주소
Infineon Technologies Austria AG
대리인 / 주소
Slater Matsil, LLP
인용정보
피인용 횟수 :
0인용 특허 :
10
초록▼
An electronic switch is connected in series with a load dependent on an input signal. The electronic switch is operated in a first operation mode for a first time period after a signal level of the input signal has changed from an off-level to an on-level. The first operation mode includes driving t
An electronic switch is connected in series with a load dependent on an input signal. The electronic switch is operated in a first operation mode for a first time period after a signal level of the input signal has changed from an off-level to an on-level. The first operation mode includes driving the electronic switch dependent on a voltage across the load and dependent on a temperature of the electronic switch. The electronic switch is operated in a second operation mode after the first time period. The second operation mode includes driving the electronic switch dependent on the temperature according to a hysteresis curve.
대표청구항▼
1. An electronic circuit comprising: a drive circuit configured to be coupled to a control terminal of an electronic switch, the drive circuit configured to operate the electronic switch in a first operation mode for a first time period, wherein the first time period comprises a time period that sta
1. An electronic circuit comprising: a drive circuit configured to be coupled to a control terminal of an electronic switch, the drive circuit configured to operate the electronic switch in a first operation mode for a first time period, wherein the first time period comprises a time period that starts from when a signal level of an input signal has changed from an off-level to an on-level and ends after an expiration of a first predetermined delay time after the first time period starts, wherein the first operation mode comprises driving the electronic switch dependent on a voltage across a load coupled to the electronic switch and dependent on a temperature of the electronic switch, andoperate the electronic switch in a second operation mode after the first time period ends, wherein the second operation mode comprises driving the electronic switch dependent on the temperature according to a hysteresis curve. 2. The electronic circuit of claim 1, wherein the drive circuit in the first operation mode is configured to operate the electronic switch in a first current limiting mode in which the current through the electronic switch is limited to a first current limit. 3. The electronic circuit of claim 2, wherein the drive circuit in the first operation mode is further configured to operate the electronic switch in a second current limiting mode in which current through the electronic switch is limited to a second current limit higher than the first current limit, when in the first current limiting mode, the temperature rises above a first temperature threshold and a load voltage meets a first condition. 4. The electronic circuit of claim 1, wherein the drive circuit is further configured to operate the electronic switch in the second operation mode before the end of the first time period when the temperature rises above a given temperature threshold but a load voltage does not meet a condition associated with an increase of the temperature above the given temperature threshold. 5. The electronic circuit of claim 1, wherein, in the second operation mode, the drive circuit is further configured to: drive the electronic switch in a third current limiting mode in which current through the electronic switch is limited to a third current limit; andswitch the electronic switch off when in the third current limiting mode the temperature rises above a third temperature threshold until the temperature decreases to a temperature that is below the third temperature threshold. 6. The electronic circuit of claim 5, wherein the drive circuit is further configured to: generate a status signal indicating that the third current limit has been reached when a load current reaches the third current limit; andgenerate a status signal indicating that the electronic switch has been switched off when the electronic switch is switched off when in the second operation mode the temperature rises above the third temperature threshold. 7. The electronic circuit of claim 1, further comprising the electronic switch. 8. An electronic circuit comprising: a drive circuit configured to be coupled to a control terminal of an electronic switch, the drive circuit configured to operate the electronic switch in a first operation mode for a first time period after a signal level of an input signal has changed from an off-level to an on-level, wherein the first operation mode comprises driving the electronic switch dependent on a voltage across a load coupled to the electronic switch and dependent on a temperature of the electronic switch, andoperate the electronic switch in a second operation mode after the first time period ends, wherein the second operation mode comprises driving the electronic switch dependent on the temperature according to a hysteresis curve, wherein the drive circuit in the first operation mode is configured to operate the electronic switch in a first current limiting mode in which the current through the electronic switch is limited to a first current limit, andthe drive circuit in the first operation mode is further configured to operate the electronic switch in a second current limiting mode in which current through the electronic switch is limited to a second current limit higher than the first current limit, when in the first current limiting mode, the temperature rises above a first temperature threshold and a load voltage meets a first condition. 9. The electronic circuit of claim 8, wherein the drive circuit in the first operation mode is further configured to switch the electronic switch off when the temperature rises above a second temperature threshold that is higher than the first temperature threshold and when the load voltage meets a second condition different from the first condition. 10. The electronic circuit of claim 9, wherein the drive circuit is further configured to operate the electronic switch in the second operation mode before the end of the first time period when the temperature in the first current limiting mode rises above the first temperature threshold and the load voltage does not meet the first condition, or when the temperature in the second current limiting mode rises above the second temperature threshold and the load voltage does not meet the second condition. 11. The electronic circuit of claim 8, wherein the load voltage meets the first condition when the load voltage is above a first voltage threshold and/or an increase of the load voltage over time is above a first voltage increase threshold. 12. The electronic circuit of claim 11, wherein the load voltage meets a second condition when the load voltage is above a second voltage threshold that is higher than the first voltage threshold and/or an increase of the load voltage over time is above a second voltage increase threshold higher than the first voltage increase threshold. 13. The electronic circuit of claim 12, further comprising a supply voltage source configured to provide a supply voltage to a series circuit with the electronic switch and the load, wherein: the first voltage threshold is selected from a range of between 0.15 times and 0.3 times the supply voltage; andthe second voltage threshold is selected from a range of between 0.3 times and 0.6 times the supply voltage. 14. The electronic circuit of claim 12, wherein a ratio between the second voltage threshold and the first voltage threshold is higher than a ratio between the second current limit and the first current limit. 15. The electronic circuit of claim 8, wherein the drive circuit is further configured to: switch the electronic switch off for a given time period when the temperature rises above a second temperature threshold higher than the first temperature threshold, anddrive the electronic switch in the first current limit after the given time period. 16. The electronic circuit of claim 8, further comprising the electronic switch. 17. An electronic circuit comprising: a drive circuit configured to be coupled to a control terminal of an electronic switch, the drive circuit configured to operate the electronic switch in a first operation mode for a first time period after a signal level of an input signal has changed from an off-level to an on-level, wherein the first operation mode comprises switching the electronic switch off when a temperature of the electronic switch reaches a first temperature threshold, wherein the drive circuit is further configured in the first operation mode to operate the electronic switch in a first current limiting mode in which current through the electronic switch is limited to a first current limit, wherein when in the first current limiting mode, the temperature rises above a third temperature threshold and a load voltage meets a first condition, andoperate the electronic switch in a second current limiting mode in which current through the electronic switch is limited to a second current limit higher than the first current limit; andoperating the electronic switch in a second operation mode after the first time period, wherein the second operation mode comprises driving the electronic switch dependent on the temperature according to a hysteresis curve, wherein the electronic switch is switched off when the temperature of the electronic switch reaches a second temperature threshold lower than the first temperature threshold. 18. The electronic circuit of claim 17, wherein the drive circuit is further configured in the first operation mode to switch the electronic switch off for a given time period when the temperature of the electronic switch reaches the first temperature threshold. 19. The electronic circuit of claim 17, wherein the drive circuit is further configured in the second operation mode to again switch the electronic switch on when the temperature of the electronic switch reaches a third temperature that corresponds to a second temperature minus a given hysteresis value. 20. The electronic circuit of claim 17 wherein the drive circuit is further configured to operate the electronic switch in the second operation mode before an end of the first time period when the temperature rises above a given temperature threshold but a voltage across a load coupled to the electronic switch does not meet a condition associated with an increase of the temperature above the given temperature threshold. 21. The electronic circuit of claim 17, further comprising the electronic switch.
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