Selective protection circuit and method, and power supply system
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H02H-007/26
H02J-009/00
G05F-003/20
H01H-073/18
H01H-083/10
H02H-003/07
H02M-001/088
출원번호
US-0676196
(2017-08-14)
등록번호
US-10177561
(2019-01-08)
우선권정보
CN-2015 1 0082383 (2015-02-15)
발명자
/ 주소
Zhang, Zhenxing
Xu, Jiansheng
출원인 / 주소
Huawei Technologies Co., Ltd.
대리인 / 주소
Leydig, Voit & Mayer, Ltd.
인용정보
피인용 횟수 :
0인용 특허 :
4
초록▼
A selective protection circuit includes a current-limiting module and a control module, where the current-limiting module includes a switch unit, and the switch unit includes a first end, a second end, and a control end; the first end is connected to a positive electrode of a bus voltage of an HVDC
A selective protection circuit includes a current-limiting module and a control module, where the current-limiting module includes a switch unit, and the switch unit includes a first end, a second end, and a control end; the first end is connected to a positive electrode of a bus voltage of an HVDC power supply, and the second end is connected to a positive electrode of a power supply of a voltage pre-regulator circuit in a load branch connected to the current-limiting module; the control end is connected to the control module; and the control module is configured to output a control signal to the control end when a value of a total current flowing through the switch unit is greater than or equal to a preset threshold, so as to switch off the switch unit.
대표청구항▼
1. A selective protection circuit, comprising: a current-limiting circuit; anda control circuit,wherein the selective protection circuit is included in a power supply that supplies power to at least two parallel load branches, wherein each load branch of the at least two parallel load branches compr
1. A selective protection circuit, comprising: a current-limiting circuit; anda control circuit,wherein the selective protection circuit is included in a power supply that supplies power to at least two parallel load branches, wherein each load branch of the at least two parallel load branches comprises one voltage pre-regulator circuit;wherein the current-limiting circuit comprises a switch unit, and the switch unit comprises a first end, a second end, and a control end;wherein the first end is connected to a positive electrode of a bus voltage of the power supply, and the second end is connected to a positive electrode of a power supply of a voltage pre-regulator circuit in a load branch connected to the current-limiting circuit; or the first end is connected to a negative electrode of a bus voltage of the power supply, and the second end is connected to a negative electrode of a power supply of a voltage pre-regulator circuit in a load branch connected to the current-limiting circuit;wherein the control end is connected to the control circuit; andwherein the control circuit is configured to output a control signal to the control end when a value of a total current flowing through the switch unit is greater than or equal to a preset threshold, so as to switch off the switch unit, wherein the preset threshold is greater than a maximum value of an operating current flowing through the switch unit. 2. The selective protection circuit according to claim 1, wherein: the current-limiting circuit is located in a first load branch of the at least two parallel load branches, and a load branch connected to the current-limiting circuit is the first load branch; orthe at least two parallel load branches are connected to the power supply by using at least two power distribution units (PDUs), the current-limiting circuit is located in a first PDU of the at least two PDUs, and a load branch connected to the current-limiting circuit is the load branch connected to the first PDU. 3. The selective protection circuit according to claim 1, wherein the current-limiting circuit further comprises a unidirectional conduction unit and an inductor, and when the unidirectional conduction unit is on, a current flowing through the unidirectional conduction unit flows in a direction from a positive electrode of the unidirectional conduction unit to a negative electrode of the unidirectional conduction unit;the positive electrode of the unidirectional conduction unit is connected to the negative electrode of the power supply of the voltage pre-regulator circuit in the load branch connected to the current-limiting circuit;the negative electrode of the unidirectional conduction unit is connected to the positive electrode of the power supply of the voltage pre-regulator circuit in the load branch connected to the current-limiting circuit; andone end of the inductor is connected to the negative electrode of the unidirectional conduction unit, and the other end is connected to the positive electrode of the power supply of the voltage pre-regulator circuit in the load branch connected to the current-limiting circuit. 4. The selective protection circuit according to claim 3, wherein the current-limiting circuit is located in a first load branch of the at least two parallel load branches, and when the voltage pre-regulator circuit is a boost circuit, the inductor is integrated with an inductor of the voltage pre-regulator circuit. 5. The selective protection circuit according to claim 3, wherein: the control circuit is further configured to output another control signal to the control end after a first preset time period after the switch unit is switched off, so that the switch unit enters a hiccup current-limiting state, wherein the first preset time period is less than or equal to a time period in which the inductor supplies, when the switch unit is switched off and by using electric energy stored in the inductor, power to a load in the load branch connected to the current-limiting circuit. 6. The selective protection circuit according to claim 1, wherein: a bus of the power supply supplies power to the control circuit. 7. The selective protection circuit according to claim 1, wherein the switch unit is a field effect transistor or a power transistor. 8. A method, applied to a scenario in which a power supply is used to supply power, wherein the power supply supplies power to at least two parallel load branches, and each load branch of the at least two parallel load branches comprises one voltage pre-regulator circuit; and the method comprises: detecting a value of a total current flowing through a target channel, wherein the target channel refers to a channel between a positive electrode of a bus voltage of the power supply and a positive electrode of a power supply of a voltage pre-regulator circuit in one load branch of the at least two parallel load branches, or a channel between a negative electrode of a bus voltage of the power supply and a negative electrode of a power supply of a voltage pre-regulator circuit in one load branch of the at least two parallel load branches; andin response to the value of the total current being greater than or equal to a preset threshold, controlling to shut down the target channel, wherein the preset threshold is greater than a maximum value of an operating current flowing through the target channel. 9. The method according to claim 8, wherein after the controlling to shut down the target channel, the method further comprises: after a first preset time period, controlling to periodically conduct and shut down the target channel, wherein both the first preset time period and a time period in which the target channel is shut down during periodic conduction and shutdown of the target channel are less than or equal to a time period in which there is no power outage in a load in a load branch connected using the target channel, when the target channel is shut down. 10. The method according to claim 9, wherein after the controlling to periodically conduct and shut down the target channel, the method further comprises: after a second preset time period, when the value of the total current is still greater than or equal to the preset threshold, controlling to shut down the target channel; orafter a second preset time period, when the value of the total current is less than the preset threshold, controlling to conduct the target channel,wherein the second preset time period is greater than or equal to duration of a power-on phase of the target channel. 11. The method according to claim 8, wherein the controlling to shut down the target channel comprises: after a third preset time period, if the value of the total current is still greater than or equal to the preset threshold, controlling to shut down the target channel, wherein the third preset time period is greater than or equal to duration of a lightning current in the target channel. 12. A power supply system, comprising: a selective protection circuit; anda power supply, wherein the power supply supplies power to at least two parallel load branches, and each load branch of the at least two parallel load branches comprises one voltage pre-regulator circuit;wherein the selective protection circuit comprises a current-limiting circuit and a control circuit, wherein the current-limiting circuit comprises a switch unit, and the switch unit comprises a first end, a second end, and a control end;wherein the first end is connected to a positive electrode of a bus voltage of the power supply, and the second end is connected to a positive electrode of a power supply of a voltage pre-regulator circuit in a load branch connected to the current-limiting circuit; or the first end is connected to a negative electrode of a bus voltage of the power supply, and the second end is connected to a negative electrode of a power supply of a voltage pre-regulator circuit in a load branch connected to the current-limiting circuit;wherein the control end is connected to the control circuit; andwherein the control circuit is configured to output a control signal to the control end when a value of a total current flowing through the switch unit is greater than or equal to a preset threshold, so as to switch off the switch unit, wherein the preset threshold is greater than a maximum value of an operating current flowing through the switch unit. 13. The power supply system circuit according to claim 12, wherein: the current-limiting circuit is located in a first load branch of the at least two parallel load branches, and a load branch connected to the current-limiting circuit is the first load branch; orthe at least two parallel load branches are connected to the power supply by using at least two power distribution units (PDUs), the current-limiting circuit is located in a first PDU of the at least two PDUs, and a load branch connected to the current-limiting circuit is the load branch connected to the first PDU. 14. The power supply system circuit according to claim 12, wherein the current-limiting circuit further comprises a unidirectional conduction unit and an inductor, and when the unidirectional conduction unit is on, a current flowing through the unidirectional conduction unit flows in a direction from a positive electrode of the unidirectional conduction unit to a negative electrode of the unidirectional conduction unit;the positive electrode of the unidirectional conduction unit is connected to the negative electrode of the power supply of the voltage pre-regulator circuit in the load branch connected to the current-limiting circuit;the negative electrode of the unidirectional conduction unit is connected to the positive electrode of the power supply of the voltage pre-regulator circuit in the load branch connected to the current-limiting circuit; andone end of the inductor is connected to the negative electrode of the unidirectional conduction unit, and the other end is connected to the positive electrode of the power supply of the voltage pre-regulator circuit in the load branch connected to the current-limiting circuit. 15. The power supply system circuit according to claim 12, wherein the current-limiting circuit is located in a first load branch of the at least two parallel load branches, and when the voltage pre-regulator circuit is a boost circuit, the inductor is integrated with an inductor of the voltage pre-regulator circuit. 16. The power supply system circuit according to claim 12, wherein: the control circuit is further configured to output another control signal to the control end after a first preset time period after the switch unit is switched off, so that the switch unit enters a hiccup current-limiting state, wherein the first preset time period is less than or equal to a time period in which the inductor supplies, when the switch unit is switched off and by using electric energy stored in the inductor, power to a load in the load branch connected to the current-limiting circuit. 17. The power supply system circuit according to claim 12, wherein: a bus of the power supply supplies power to the control circuit. 18. The power supply system circuit according to claim 12, wherein the switch unit is a field effect transistor or a power transistor.
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