IPC분류정보
국가/구분 |
United States(US) Patent
공개
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0112719
(2018-08-26)
|
공개번호 |
US-0064285
(2019-02-28)
|
우선권정보 |
CN-201710757999.8 (2017-08-29) |
발명자
/ 주소 |
- Luo, Jiechao
- Zhang, Wei
- Sun, Zhanyu
- Hou, Yizhen
- Dan, Zhimin
|
출원인 / 주소 |
- Contemporary Amperex Technology Co., Limited
|
인용정보 |
피인용 횟수 :
0 인용 특허 :
0 |
초록
▼
A relay diagnosis circuit, diagnosis method, and battery management system are disclosed in the present disclosure. The relay diagnosis circuit may include a first sampling unit, a second sampling unit, a first sampling point, a second sampling point, a reference voltage terminal, and a processor. A
A relay diagnosis circuit, diagnosis method, and battery management system are disclosed in the present disclosure. The relay diagnosis circuit may include a first sampling unit, a second sampling unit, a first sampling point, a second sampling point, a reference voltage terminal, and a processor. A first end of the first sampling unit is connected with voltage output end of the power battery pack to be measured and a first end of a relay. A second end of the first sampling unit is connected with the reference voltage terminal and the first sampling point. A first end of the second sampling unit is connected with a second end of the relay. A second end of the second sampling unit is connected with the reference voltage terminal and the second sampling point.
대표청구항
▼
1. A relay diagnosis circuit for a power battery pack, comprising: a first sampling unit, a second sampling unit, a first sampling point, a second sampling point, a reference voltage terminal, and a processor,wherein a first end of the first sampling unit is connected with voltage output end of the
1. A relay diagnosis circuit for a power battery pack, comprising: a first sampling unit, a second sampling unit, a first sampling point, a second sampling point, a reference voltage terminal, and a processor,wherein a first end of the first sampling unit is connected with voltage output end of the power battery pack to be measured and a first end of a relay, a second end of the first sampling unit is connected with the reference voltage terminal and the first sampling point, and the first sampling unit is configured to provide a first sampled signal for the first sampling point;wherein a first end of the second sampling unit is connected with a second end of the relay, a second end of the second sampling unit is connected with the reference voltage terminal and the second sampling point, and the second sampling unit is configured to provide a second sampled signal for the second sampling point; andwherein the processor is connected with the first sampling point and the second sampling point respectively, and the processor is configured to obtain a diagnosis result of the relay based on the first sampled signal and the second sampled signal. 2. The relay diagnosis circuit of claim 1, wherein the first sampling unit comprises a first switch, a first resistor network, and a second resistor network which are connected in series, wherein a first end of the first switch is connected with the voltage output end of the power battery pack to be measured and the first end of the relay, a second end of the first switch is connected with a first end of the first resistor network;wherein a second end of the first resistor network is connected with a first end of the second resistor network and the first sampling point; andwherein a second end of the second resistor network is connected with the reference voltage terminal. 3. The relay diagnosis circuit of claim 1, wherein the second sampling unit comprises a second switch, a third resistor network, and a fourth resistor network which are connected in series, wherein a first end of the second switch is connected with the second end of the relay, and a second end of the second switch is connected with a first end of the third resistor network;wherein a second end of the third resistor network is connected with a first end of the fourth resistor network and the second sampling point; andwherein a second end of the fourth resistor network is connected with the reference voltage terminal. 4. The relay diagnosis circuit of claim 1, wherein when the relay is a negative relay, the relay diagnosis circuit further comprises a voltage pull-up unit which is connected with the first sampling point and the second sampling point. 5. The relay diagnosis circuit of claim 4, wherein the voltage pull-up unit comprises a DC voltage source, a fifth resistor network, and a sixth resistor network, wherein a first end of the fifth resistor network is connected with the DC voltage source, and a second end of the fifth resistor network is connected with the first sampling point;wherein a first end of the sixth resistor network is connected with the DC voltage source, and a second end of the sixth resistor network is connected with the second sampling point; andwherein the voltage pull-up unit is configured to generate a pull-up voltage and pull the first and the second sampled signals up to positive voltage signals respectively using the pull-up voltage. 6. The relay diagnosis circuit of claim 1, wherein the relay diagnosis circuit further comprises a first analog-to-digital converter (ADC), wherein a first end of the first ADC is connected with the first sampling point and the second sampling point, a second end of the first ADC is connected with the processor, and the first ADC is configured to convert analog signals collected at the first sampling point and the second sampling point to digital signals. 7. A battery management system comprising a relay diagnosis circuit for a power battery pack, wherein the relay diagnosis circuit comprises: a first sampling unit, a second sampling unit, a first sampling point, a second sampling point, a reference voltage terminal, and a processor,wherein a first end of the first sampling unit is connected with voltage output end of the power battery pack to be measured and a first end of a relay, a second end of the first sampling unit is connected with the reference voltage terminal and the first sampling point, and the first sampling unit is configured to provide a first sampled signal for the first sampling point;wherein a first end of the second sampling unit is connected with a second end of the relay, a second end of the second sampling unit is connected with the reference voltage terminal and the second sampling point, and the second sampling unit is configured to provide a second sampled signal for the second sampling point; andwherein the processor is connected with the first sampling point and the second sampling point respectively, and the processor is configured to obtain a diagnosis result of the relay based on the first sampled signal and the second sampled signal. 8. The battery management system of claim 7, wherein the first sampling unit comprises a first switch, a first resistor network, and a second resistor network which are connected in series, wherein a first end of the first switch is connected with the voltage output end of the power battery pack to be measured and the first end of the relay, a second end of the first switch is connected with a first end of the first resistor network;wherein a second end of the first resistor network is connected with a first end of the second resistor network and the first sampling point; andwherein a second end of the second resistor network is connected with the reference voltage terminal. 9. The battery management system of claim 7, wherein the second sampling unit comprises a second switch, a third resistor network, and a fourth resistor network which are connected in series, wherein a first end of the second switch is connected with the second end of the relay, and a second end of the second switch is connected with a first end of the third resistor network;wherein a second end of the third resistor network is connected with a first end of the fourth resistor network and the second sampling point; andwherein a second end of the fourth resistor network is connected with the reference voltage terminal. 10. The battery management system of claim 7, wherein when the relay is a negative relay, the relay diagnosis circuit further comprises a voltage pull-up unit which is connected with the first sampling point and the second sampling point. 11. The battery management system of claim 10, wherein the voltage pull-up unit comprises a DC voltage source, a fifth resistor network, and a sixth resistor network, wherein a first end of the fifth resistor network is connected with the DC voltage source, and a second end of the fifth resistor network is connected with the first sampling point;wherein a first end of the sixth resistor network is connected with the DC voltage source, and a second end of the sixth resistor network is connected with the second sampling point; andwherein the voltage pull-up unit is configured to generate a pull-up voltage and pull the first and the second sampled signals up to positive voltage signals respectively using the pull-up voltage. 12. The battery management system of claim 7, wherein the relay diagnosis circuit further comprises a first analog-to-digital converter (ADC), wherein a first end of the first ADC is connected with the first sampling point and the second sampling point, a second end of the first ADC is connected with the processor, and the first ADC is configured to convert analog signals collected at the first sampling point and the second sampling point to digital signals. 13. A diagnosis method for relay diagnosis circuit used in the relay diagnosis circuit according to claim 1, the diagnosis method comprising: obtaining the first sampled signal from the first sampling point and obtaining the second sampled signal from the second sampling point; andobtaining the diagnosis result of the relay based on the first sampled signal and the second sampled signal. 14. The diagnosis method of claim 13, wherein said obtaining the first sampled signal from the first sampling point and obtaining the second sampled signal from the second sampling point comprises: having both of the first switch and the second switch in ON state to obtain the first sampled signal from the first sampling point and obtain the second sampled signal from the second sampling point. 15. The diagnosis method of claim 13, wherein said obtaining the diagnosis result of the relay based on the first sampled signal and the second sampled signal comprises: converting the first sampled signal to a first sampled voltage;converting the second sampled signal to a second sampled voltage;calculating difference between the first sampled voltage and the second sampled voltage to obtain coil-voltage-drop of the relay;comparing the coil-voltage-drop of the relay and a preset coil-voltage-drop threshold to obtain a comparison result of the coil-voltage-drop; andobtaining the diagnosis result of the relay based on the comparison result of the coil-voltage-drop.
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