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US-12627162-B2 - Protection circuit for series-connected batteries

US12627162B2US 12627162 B2US12627162 B2US 12627162B2US-12627162-B2

Abstract

A protection circuit for series-connected batteries is provided, including: a plurality of battery modules connected in series between an anode and a cathode of a battery pack, wherein each of the plurality of battery modules includes a single battery, a protection switch, and a single-battery protection module, wherein each single battery is connected in series with the corresponding protection switch, wherein each single-battery protection module is configured to generate an off signal and protect the corresponding battery module in response to the off signal; an off-signal level-shifting module, which transmits an off signal of one of the plurality of battery modules to the other battery modules; a transient-voltage suppression module, connected between the anode and cathode of the battery pack, for voltage deburring and decreasing a change rate of a total voltage across the anode and cathode of the battery pack.

Inventors

  • Chuan Xiao
  • Fengmin XIE

Assignees

  • SHENZHEN INJOINIC TECHNOLOGY CO., LTD.

Dates

Publication Date
20260512
Application Date
20230410
Priority Date
20201010

Claims (13)

  1. 1 . A protection circuit for series-connected batteries, comprising: a plurality of battery modules connected in series between an anode and a cathode of a battery pack, an off-signal level-shifting module, and a transient-voltage suppression module; wherein each battery module comprises a single battery, a protection switch, and a single-battery protection module; each single battery is connected in series with the corresponding protection switch, each single-battery protection module is configured to generate an off signal based on a detection signal of the corresponding battery module or an output signal of the off-signal level-shifting module, and to control the protection switch based on the off signal to protect the battery module; wherein the off-signal level-shifting module is connected to each of the plurality of battery modules, and is configured to transmit an off signal of one of the plurality of battery modules to other battery modules of the plurality of battery modules, to cause the other battery modules to enter a protection state; wherein the transient-voltage suppression module is connected between the anode and cathode of the battery pack, for voltage deburring and decreasing a change rate of a total voltage across the anode and cathode of the battery pack.
  2. 2 . The protection circuit for series-connected batteries according to claim 1 , wherein each single-battery protection module comprises a detection unit, and a logic processing unit, wherein each detection unit is configured to receive a detection signal and generate a corresponding protection signal, wherein each logic processing unit is connected to outputs of the corresponding detection unit and outputs of the off-signal level-shifting module, wherein each logic processing unit generates an off signal for the corresponding battery module, in response to the protection signal generated by the corresponding detection unit, or in response to off signals from other battery modules of the protection circuit.
  3. 3 . The protection circuit for series-connected batteries according to claim 2 , wherein each detection unit comprises one or more of an under-voltage detection subunit, an over-voltage detection subunit, an over-temperature detection subunit, an over-current-discharging detection subunit, and an over-current-charging detection subunit.
  4. 4 . The protection circuit for series-connected batteries according to claim 1 , wherein each battery module further comprises a bypass diode connected in parallel with an intermediate structure consisting of the corresponding single battery and protection switch; wherein an anode of each bypass diode is connected to the corresponding protection switch, wherein a cathode of the bypass diode is connected to the corresponding single battery.
  5. 5 . The protection circuit for series-connected batteries according to claim 1 , wherein each battery module further comprises a voltage divider resistor connected in parallel with the corresponding protection switch.
  6. 6 . The protection circuit for series-connected batteries according to claim 1 , wherein each battery module further comprises a bypass capacitor, which is connected in parallel with the corresponding protection switch, or in parallel with an intermediate structure consisting of the corresponding single battery and protection switch.
  7. 7 . The protection circuit for series-connected batteries according to claim 1 , wherein the off-signal level-shifting module comprises a first resistor, a second resistor, a Darlington current amplifier, and transistors, wherein each of the transistors corresponds to one of the plurality of battery modules, wherein each transistor has a first end connected to an anode of the single battery of the corresponding battery module, a second end connected to the cathode of the battery pack via the first resistor, and a control end connected to the off signal generated by the corresponding single-battery protection module, wherein a first end of the Darlington current amplifier is connected to each of the plurality of battery modules and further to the anode of the battery pack via the second resistor, wherein a second end of the Darlington current amplifier is connected to the cathode of the battery pack, wherein a control end of the Darlington current amplifier is connected to the second end of each of the transistors, wherein each of the transistor is a PNP triode, or a PMOS transistor.
  8. 8 . The protection circuit for series-connected batteries according to claim 7 , wherein the off-signal level-shifting module further comprises voltage-limiting units, each of which corresponds to one of the plurality of battery modules, wherein each of the voltage-limiting units comprises a current-limiting resistor and a Zener diode, wherein each current-limiting resistor has a first end connected to the first end of the Darlington current amplifier, and a second end connected to the corresponding battery module, wherein each Zener diode has a cathode connected to the second end of the corresponding current-limiting resistor, and an anode connected to a cathode of the single battery in the corresponding battery module.
  9. 9 . The protection circuit for series-connected batteries according to claim 7 , wherein the first end of each transistor is connected to the anode of the single battery of the corresponding battery module via a resistor, and the control end of each transistor is connected to the corresponding off signal via a resistor.
  10. 10 . The protection circuit for series-connected batteries according to claim 7 , wherein the Darlington current amplifier is replaced by an NPN triode or an NMOS transistor.
  11. 11 . The protection circuit for series-connected batteries according to claim 1 , wherein the transient-voltage suppression module comprises one or more of a capacitor, a series-parallel structure comprising a capacitor and a resistor, and a series-parallel structure comprising a capacitor and an inductor.
  12. 12 . The protection circuit for series-connected batteries according to claim 1 , wherein the protection switch in each battery module is replaced by a discharge switch and a charge switch connected in series; wherein the off-signal level-shifting module is replaced by a discharge off-signal level-shifting module and a charge off-signal level-shifting module connected in parallel, and the discharge off-signal level-shifting module receives an off signal generated by the discharge switch in any of the plurality of battery modules and transmits it to the other battery modules of the plurality of battery modules, wherein the charge off-signal level-shifting module receives an off signal generated by the charge switch in any one of the plurality of battery modules and transmits it to the other battery modules of the plurality of battery modules.
  13. 13 . The protection circuit for series-connected batteries according to claim 12 , wherein each discharge switch and each charge switch respectively comprise a plurality of switches connected in parallel.

Description

CROSS REFERENCE TO RELATED APPLICATIONS The present application is a Continuation application of PCT application No. PCT/CN2021/073572 filed on Jan. 25, 2021, which claims the benefit of CN202011078214.2 filed on Oct. 10, 2020, and CN202022245921.8 filed on Oct. 10, 2020. All the above are hereby incorporated by reference in their entirety for all purposes. FIELD OF THE INVENTION The present disclosure generally relates to integrated circuit design, and in particular to a protection circuit for series-connected batteries. BACKGROUND OF THE INVENTION With vigorous implementation of energy-saving policies and emission reduction plans, and promotion of green travel, new energy vehicles have become the new frontier, and researchers worldwide are committed to research and development of cleaner vehicles more than ever, which greatly accelerates the development of lithium-ion power batteries. However, the inherent fragility of lithium-ion batteries poses risks to lithium-ion-battery vehicles, and therefore how to achieve better protection of lithium-ion batteries has become a goal of some engineers. But, to date, there has been little progress in protection for series-connected lithium-ion batteries or battery packs, and there is no substantial breakthrough in striking a balance between cost and protection efficiency. SUMMARY OF THE INVENTION In view of the above-mentioned shortcomings of the prior art, the present disclosure provides a protection circuit for series-connected batteries that strikes a balance between cost and protection efficiency. The present disclosure provides a switch current source circuit, which at least includes: a plurality of battery modules connected in series between an anode and a cathode of a battery pack, an off-signal level-shifting module, and a transient-voltage suppression module;wherein each battery module comprises a single battery, a protection switch, and a single-battery protection module; each single battery is connected in series with the corresponding protection switch, each single-battery protection module is configured to generate an off signal based on a detection signal of the corresponding battery module or an output signal of the off-signal level-shifting module, and to control the protection switch based on the off signal to protect the battery module;wherein the off-signal level-shifting module is connected to each of the plurality of battery modules, and is configured to transmit an off signal of one of the plurality of battery modules to other battery modules of the plurality of battery modules, to cause the other battery modules to enter a protection state;wherein the transient-voltage suppression module is connected between the anode and cathode of the battery pack, for voltage deburring and decreasing a change rate of a total voltage across the anode and cathode of the battery pack. Optionally, each single-battery protection module comprises a detection unit, and a logic processing unit, wherein each detection unit is configured to receive a detection signal and generate a corresponding protection signal, wherein each logic processing unit is connected to outputs of the corresponding detection unit and outputs of the off-signal level-shifting module, wherein each logic processing unit generates an off signal for the corresponding battery module, in response to the protection signal generated by the corresponding detection unit, or in response to off signals from other battery modules of the protection circuit. Optionally, each detection unit comprises one or more of an under-voltage detection subunit, an over-voltage detection subunit, an over-temperature detection subunit, an over-current-discharging detection subunit, and an over-current-charging detection subunit. Optionally, each battery module further comprises a bypass diode connected in parallel with an intermediate structure consisting of the corresponding single battery and protection switch; wherein an anode of each bypass diode is connected to the corresponding protection switch, wherein a cathode of the bypass diode is connected to the corresponding single battery. Optionally, each battery module further comprises a voltage divider resistor connected in parallel with the corresponding protection switch. Optionally, each battery module further comprises a bypass capacitor, which is connected in parallel with the corresponding protection switch, or in parallel with an intermediate structure consisting of the corresponding single battery and protection switch. Optionally, the off-signal level-shifting module comprises a first resistor, a second resistor, a Darlington current amplifier, and transistors, wherein each of the transistors corresponds to one of the plurality of battery modules, wherein each transistor has a first end connected to an anode of the single battery of the corresponding battery module, a second end connected to the cathode of the battery pack via the first resistor, and a contro