System and method for temperature based control of a power semiconductor circuit
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H02J-007/04
H02J-007/16
출원번호
US-0242266
(2008-09-30)
등록번호
US-8203315
(2012-06-19)
발명자
/ 주소
Ladurner, Markus
Illing, Robert
출원인 / 주소
Infineon Technologies AG
대리인 / 주소
Slater & Matsil, L.L.P.
인용정보
피인용 횟수 :
4인용 특허 :
3
초록▼
In a method for operating a power semiconductor circuit a power semiconductor chip is provided which includes a power semiconductor switch with a first load terminal and with a second load terminal. Further, a first temperature sensor which is thermally coupled to the power semiconductor switch and
In a method for operating a power semiconductor circuit a power semiconductor chip is provided which includes a power semiconductor switch with a first load terminal and with a second load terminal. Further, a first temperature sensor which is thermally coupled to the power semiconductor switch and a second temperature sensor are provided. The power semiconductor switch is switched OFF or kept switched OFF if the temperature difference between a first temperature of the first temperature sensor and a second temperature of the second temperature sensor is greater than or equal to a switching-OFF threshold temperature difference which depends, following an inconstant first function, on the voltage drop across the power semiconductor switch between the first load terminal and the second load terminal.
대표청구항▼
1. A method for operating a power semiconductor circuit arrangement, the method comprising: providing a power semiconductor chip comprising a power semiconductor switch with a first load terminal and with a second load terminal;providing a first temperature sensor that is thermally coupled to the po
1. A method for operating a power semiconductor circuit arrangement, the method comprising: providing a power semiconductor chip comprising a power semiconductor switch with a first load terminal and with a second load terminal;providing a first temperature sensor that is thermally coupled to the power semiconductor switch;providing a second temperature sensor;switching OFF the power semiconductor switch or keeping the power semiconductor switch switched OFF if a temperature difference between a first temperature of the first temperature sensor and a second temperature of the second temperature sensor is greater than or equal to a switching-OFF threshold temperature difference which depends, following an inconstant first function, on a voltage drop over the power semiconductor switch between the first load terminal and the second load terminal; andswitching ON the power semiconductor switch or keeping the power semiconductor switch switched ON if the temperature difference between the first temperature and the second temperature is less than or equal to a switching-ON threshold temperature difference which depends, following a second function, on the voltage drop over the power semiconductor switch between the first load terminal and the second load terminal, wherein the inconstant first function comprises a first monotonically decreasing region of temperature difference with respect to the voltage drop over the power semiconductor switch, andthe second function comprises a second monotonically decreasing region of temperature difference with respect to the voltage drop over the power semiconductor switch, wherein a value of the inconstant first function is greater than a value of the second function at a given value. 2. The method of claim 1, wherein the switching-OFF threshold temperature difference is greater than the switching-ON threshold temperature difference at any voltage drop. 3. The method of claim 1, wherein the temperature difference between the first temperature and the second temperature is represented by a first voltage, and wherein the switching-OFF threshold temperature difference is represented by a second voltage. 4. The method of claim 3, wherein the first voltage and the second voltage are fed to a comparator that keeps the power semiconductor switch switched OFF if the first voltage is greater than or equal to the second voltage. 5. The method of claim 1, wherein the power semiconductor chip, the first temperature sensor and the second temperature sensor are integrated in a common housing. 6. The method of claim 5, wherein the first temperature sensor and the second temperature sensor are integrated in the power semiconductor chip. 7. A power semiconductor circuit arrangement comprising: a power semiconductor chip comprising a power semiconductor switch with a first load terminal and with a second load terminal;a first temperature sensor that is thermally coupled to the power semiconductor switch;a second temperature sensor; andan electrical circuit designed to switch OFF the power semiconductor switch or to keep the power semiconductor switch switched OFF if a temperature difference between a first temperature of the first temperature sensor and a second temperature of the second temperature sensor is greater than or equal to a switching-OFF threshold temperature difference which depends, following an inconstant first function, on a voltage drop over the power semiconductor switch between the first load terminal and the second load terminal, wherein the electrical circuit is designed to switch ON the power semiconductor switch or to keep the power semiconductor switch switched ON if the temperature difference between the first temperature and the second temperature is less than or equal to a switching-ON threshold temperature difference which depends, following a second function, on the voltage drop over the power semiconductor switch between the first load terminal and the second load terminal,the inconstant first function comprises a first monotonically decreasing region of temperature difference with respect to the voltage drop over the power semiconductor switch, andthe second function is constant, wherein a value of the inconstant first function is greater than a value of the second function at a given value. 8. The power semiconductor circuit arrangement of claim 7, wherein the switching-OFF threshold temperature difference is greater than the switching-ON threshold temperature difference at any voltage drop. 9. The power semiconductor circuit arrangement of claim 7, wherein the temperature difference between the first temperature and the second temperature is represented by a first voltage, and wherein an actual switching-OFF threshold temperature difference is represented by a second voltage. 10. The power semiconductor circuit arrangement of claim 9, comprising a comparator with a first input and with a second input, wherein the first voltage is supplied to the first input, the second voltage is supplied to the second input, and wherein the comparator is designed to switch OFF the power semiconductor switch or to keep the power semiconductor switch switched OFF, if the first voltage is greater than or equal to the second voltage. 11. The power semiconductor circuit arrangement of claim 7, wherein the power semiconductor chip, the first temperature sensor and the second temperature sensor are integrated in a common housing. 12. The power semiconductor circuit arrangement of claim 11, wherein the first temperature sensor and the second temperature sensor are integrated in the power semiconductor chip. 13. The power semiconductor circuit arrangement of claim 7, comprising an incandescent lamp that is electrically connected to the first load terminal or to the second load terminal. 14. The power semiconductor circuit arrangement of claim 13, wherein the incandescent lamp is a lamp of a vehicle. 15. The power semiconductor circuit arrangement of claim 7, wherein the power semiconductor switch is a DMOS transistor. 16. A power semiconductor circuit arrangement comprising: a power semiconductor switch with a first load terminal, a second load terminal and a control input;a first temperature sensor thermally coupled to the power semiconductor switch;a second temperature sensor;a temperature difference evaluation unit which is designed to provide a first voltage at a first output, the first voltage representing a temperature difference between a temperature of the first temperature sensor and a temperature of the second temperature sensor;a threshold providing unit to provide a second voltage at a second output, the second voltage representing a switching-OFF threshold temperature difference from an inconstant first function at a voltage difference measured between the first load terminal and the second load terminal, wherein the first function is a switching-OFF threshold temperature difference depending on a voltage drop;a comparator unit comprising a first comparator input, a second comparator input, and a comparator output, wherein the first output is electrically connected to the first comparator input, wherein the second output is electrically connected to the second comparator input, and wherein the comparator output is electrically connected to the control input of the power semiconductor switch, wherein the comparator unit is designed to provide a signal causing the power semiconductor switch to remain or to be switched in an OFF-state, if the voltage difference between the first voltage and the second voltage implies that a temperature difference determined by the temperature difference evaluation unit is greater than or equal to a switching-OFF threshold temperature difference determined by the threshold providing unit;a further threshold providing unit to provide a third voltage at a third output, the third voltage representing a switching-ON threshold temperature difference from a second function at a voltage difference measured between the first load terminal and the second load terminal, wherein the second function is a switching-ON threshold temperature difference depending on a voltage drop; anda further comparator unit comprising a third comparator input, a fourth comparator input, and a further comparator output, wherein the first output is electrically connected to the third comparator input, wherein the third output is electrically connected to the fourth comparator input, and wherein the comparator output is electrically connected to a further control input of the power semiconductor switch, wherein the further comparator unit is designed to provide a signal causing the power semiconductor switch to remain or to be switched in an ON-state, if the voltage difference between the first voltage and the second voltage implies that a temperature difference determined by the temperature difference evaluation unit is less than or equal to a switching-ON threshold temperature difference determined by the further threshold providing unit,the inconstant first function comprises a first monotonically decreasing region of temperature difference with respect to the voltage drop over the power semiconductor switch, andthe second function comprises a second monotonically decreasing region of temperature difference with respect to the voltage drop over the power semiconductor switch, wherein a value of the inconstant first function is greater than a value of the second function at a given value. 17. The power semiconductor circuit arrangement of claim 16, further comprising a gate driving unit with an input and with an output, wherein the comparator output is electrically connected to the input of the gate driving unit, and wherein the output of the gate driving unit is electrically connected to the control input of the power semiconductor switch. 18. The power semiconductor circuit arrangement of claim 16, wherein the threshold providing unit is designed as an analog circuit. 19. The power semiconductor circuit arrangement of claim 16, wherein a predefined switching-OFF threshold temperature difference is monotonic decreasing with the voltage difference measured between the first load terminal and the second load terminal. 20. A power semiconductor circuit arrangement comprising: a power semiconductor switch with a first load terminal, a second load terminal and a control input;a first temperature sensor thermally coupled to the power semiconductor switch;a second temperature sensor;a temperature difference evaluation unit which is designed to provide a first voltage at a first output, the first voltage representing a temperature difference between a temperature of the first temperature sensor and a temperature of the second temperature sensor;a threshold providing unit to provide a second voltage at a second output, the second voltage representing a switching-OFF threshold temperature difference from an inconstant first function at a voltage difference measured between the first load terminal and the second load terminal, wherein the first function is a switching-OFF threshold temperature difference depending on a voltage drop;a comparator unit comprising a first comparator input, a second comparator input, and a comparator output, wherein the first output is electrically connected to the first comparator input, wherein the second output is electrically connected to the second comparator input, and wherein the comparator output is electrically connected to the control input of the power semiconductor switch, wherein the comparator unit is designed to provide a signal causing the power semiconductor switch to remain or to be switched in an OFF-state, if the voltage difference between the first voltage and the second voltage implies that a temperature difference determined by the temperature difference evaluation unit is greater than or equal to a switching-OFF threshold temperature difference determined by the threshold providing unit;a further threshold providing unit to provide a third voltage at a third output, the third voltage representing a switching-ON threshold temperature difference from a second function at a voltage difference measured between the first load terminal and the second load terminal, wherein the second function is a switching-ON threshold temperature difference depending on a voltage drop; anda further comparator unit comprising a third comparator input, a fourth comparator input, and a further comparator output, wherein the first output is electrically connected to the third comparator input, wherein the third output is electrically connected to the fourth comparator input, and wherein the comparator output is electrically connected to a further control input of the power semiconductor switch, wherein the further comparator unit is designed to provide a signal causing the power semiconductor switch to remain or to be switched in an ON-state, if the voltage difference between the first voltage and the second voltage implies that a temperature difference determined by the temperature difference evaluation unit is less than or equal to a switching-ON threshold temperature difference determined by the further threshold providing unit,the inconstant first function comprises a first monotonically decreasing region of temperature difference with respect to the voltage drop over the power semiconductor switch, andthe second function is constant, wherein a value of the inconstant first function is greater than a value of the second function at a given value. 21. A method for operating a power semiconductor circuit arrangement, the method comprising: providing a power semiconductor chip comprising a power semiconductor switch with a first load terminal and with a second load terminal;providing a first temperature sensor that is thermally coupled to the power semiconductor switch;providing a second temperature sensor; andswitching OFF the power semiconductor switch or keeping the power semiconductor switch switched OFF if a temperature difference between a first temperature of the first temperature sensor and a second temperature of the second temperature sensor is greater than or equal to a switching-OFF threshold temperature difference which depends, following an inconstant first function, on a voltage drop over the power semiconductor switch between the first load terminal and the second load terminal; andswitching ON the power semiconductor switch or keeping the power semiconductor switch switched ON if the temperature difference between the first temperature and the second temperature is less than or equal to a switching-ON threshold temperature difference which depends, following a second function, on the voltage drop over the power semiconductor switch between the first load terminal and the second load terminal, wherein the inconstant first function comprises a first monotonically decreasing region of temperature difference with respect to the voltage drop over the power semiconductor switch; andthe second function is constant, wherein a value of the inconstant first function is greater than a value of the second function at a given value. 22. A power semiconductor circuit arrangement comprising: a power semiconductor chip comprising a power semiconductor switch with a first load terminal and with a second load terminal;a first temperature sensor that is thermally coupled to the power semiconductor switch;a second temperature sensor; andan electrical circuit designed to switch OFF the power semiconductor switch or to keep the power semiconductor switch switched OFF if a temperature difference between a first temperature of the first temperature sensor and a second temperature of the second temperature sensor is greater than or equal to a switching-OFF threshold temperature difference which depends, following an inconstant first function, on a voltage drop over the power semiconductor switch between the first load terminal and the second load terminal, wherein the electrical circuit is designed to switch ON the power semiconductor switch or to keep the power semiconductor switch switched ON if the temperature difference between the first temperature and the second temperature is less than or equal to a switching-ON threshold temperature difference which depends, following a second function, on the voltage drop over the power semiconductor switch between the first load terminal and the second load terminal,the inconstant first function comprises a first monotonically decreasing region of temperature difference with respect to the voltage drop over the power semiconductor switch, andthe second function comprises a second monotonically decreasing region of temperature difference with respect to the voltage drop over the power semiconductor switch, wherein a value of the inconstant first function is greater than a value of the second function at a given value.
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이 특허에 인용된 특허 (3)
Barker Richard J.,GBX, Power transistor device having hot-location and cool-location temperature sensors.
Sullivan, James D., Switching incandescent lamps and other variable resistance loads with a solid state, smart, high side driver having overcurrent and temperature sensing protection circuits.
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