CN205016999U - Battery protection circuit and electrical power generating system - Google Patents
Battery protection circuit and electrical power generating system Download PDFInfo
- Publication number
- CN205016999U CN205016999U CN201520631103.8U CN201520631103U CN205016999U CN 205016999 U CN205016999 U CN 205016999U CN 201520631103 U CN201520631103 U CN 201520631103U CN 205016999 U CN205016999 U CN 205016999U
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- internal resistance
- battery
- charge
- module
- discharge
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Abstract
The utility model relates to a battery protection circuit and electrical power generating system. This battery protection circuit includes: internal resistance detection module (11), judge module (12) and prohibit charging and discharging module (13), wherein, internal resistance detection module (11) are used for detecting internal resistance of cell to export the internal resistance of cell value that detects to judge module (12), the comparison is carried out with judge module (12) predetermined internal resistance of cell value to the internal resistance of cell value that judge module (12) are used for detecting internal resistance detection module (11), is greater than when the internal resistance of cell value that detects during predetermined internal resistance of cell value, control signal is to prohibitting charging and discharging module (13) in output, prohibit that charging and discharging module (13) are used for according to control signal, prohibit charging and/or discharging the battery. This electrical power generating system, it includes foretell battery protection circuit. The utility model discloses the security of battery can improve effectively.
Description
Technical field
The utility model relates to battery protection technology, particularly a kind of battery protecting circuit and power-supply system.
Background technology
Because lithium battery has (comprising lithium ion battery and lithium polymer battery) advantage of high-energy-density and lighter weight, it is made to apply more and more extensive.But its fail safe allows people worry, the danger such as the lithium battery of damage is easily blasted, on fire, spontaneous combustion.Generally there are charging overvoltage protection, charging overcurrent protection, electric discharge overvoltage protection, electric discharge overcurrent protection etc. in current lithium battery protection circuit.Along with use battery can be aging, the lithium ion of part free state can become metal by fractional crystallization, converges crystallization in local, and time serious, meeting insulation-piercing film, causes internal short-circuit, and such lithium battery continues to use and will cause danger.Thisly agingly will the internal resistance of battery be caused to uprise, and then inside battery electrical quantity is changed, so that exceed the bearing capacity of battery, battery is occurred, and dangerous probability increases.The utility model proposes a kind of battery protecting circuit thus, mainly through detecting the electrical quantity of inside battery, and setting when inside battery electrical quantity is prescribed a time limit higher than on inside battery electrical quantity preset value, forbidding charging and discharging to battery.
Utility model content
The purpose of this utility model is the safety issue of the cell degradation caused by the battery internal resistance in order to solve prior art raises, to improve battery security.
For achieving the above object, first aspect, the utility model provides a kind of battery protecting circuit, and this battery protecting circuit comprises internal resistance detection module, judge module and forbids charge-discharge modules; Wherein, internal resistance detection module is used for detecting the internal resistance of cell, and exports the internal resistance of cell value of detection to described judge module; The internal resistance of cell value that judge module is used for the internal resistance of cell value that internal resistance detection module detected default with judge module compares, and when the internal resistance of cell value detected is greater than default internal resistance of cell value, outputs control signals to and forbids charge-discharge modules; Forbid charge-discharge modules, for according to control signal, forbid the charging to battery and/or electric discharge.
Preferably, in foregoing circuit, the determination methods that judge module uses is: internal resistance detection module exports with the form of digital signal the internal resistance of cell value detected to judge module; The internal resistance of cell value that the internal resistance of cell value detected and judge module are preset is carried out binary digit and is compared by judge module employing digital comparator, successive appraximation from highest order, until lowest order, and then completes internal resistance value judgement.
Preferably, forbid that charge-discharge modules can forbid battery charge or discharge by the connection of switch cutoff battery positive and charging circuit or discharge circuit in above-mentioned battery protecting circuit; Battery charge or discharge can also be forbidden by the connection of switch cutoff battery negative terminal and charging circuit or discharge circuit; Can also by controlling charging circuit and quit work and discharge circuit quitting work and forbids battery charge or discharge.
Second aspect, the utility model provides a kind of battery protecting circuit, and this battery protecting circuit comprises first time internal resistance detection module, stores internal resistance value module, internal resistance detection module, judge module and forbid charge-discharge modules; Wherein, first time, internal resistance detection module was for detecting the initial internal resistance of battery, and the initial cells internal resistance value of detection was inputed to storage internal resistance value module; Store internal resistance value module to be used for the initial cells internal resistance value of first time internal resistance of cell detection module acquisition to store, and export initial cells internal resistance value to judge module; Internal resistance detection module is used for detecting the internal resistance of cell, and exports the internal resistance of cell value of detection to judge module; Judge module is used for the internal resistance of cell value that internal resistance detection module detected and stores the initial cells internal resistance value stored in internal resistance value module and compare, when the internal resistance of cell value detected is greater than the initial cells internal resistance value of storage, outputs control signals to and forbid charge-discharge modules; Forbid that charge-discharge modules is for according to control signal, forbids the charging to battery and/or electric discharge.
Preferably, in foregoing circuit, judge module specifically for: when the described internal resistance of cell value detected is greater than the N times of initial cells internal resistance value of described storage, described in outputing control signals to, forbid charge-discharge modules; Wherein, described N is doubly 2 times.
Preferably, in foregoing circuit, the occurrence of N is decided by the dissimilar of battery core.
The third aspect, the utility model provides a kind of battery protecting circuit, and this battery protecting circuit comprises preferably, and another kind of battery protecting circuit comprises batch (-type) to be increased battery charging/discharging current module, voltage detection module and forbid charge-discharge modules; Wherein, batch (-type) increases the charge/discharge current that battery charging/discharging current module is used for the increase battery of interval; Voltage detection module increases the cell voltage before and after the charge/discharge current of the increase battery of battery charging/discharging current module interval for detecting described batch (-type), and be designated the first voltage (V1) and the second voltage (V2) respectively, if the difference of the first voltage (V1) and the second voltage (V2) is greater than cell voltage preset value, outputs control signals to and forbid charge-discharge modules; Forbid that charge-discharge modules is for according to described control signal, forbids the charging to battery and/or electric discharge.
Preferably, in foregoing circuit, batch (-type) increases battery charging/discharging current module can change battery voltage by the discharging current of step increase battery, also can be changed the voltage of battery by the charging current of step increase battery.
Fourth aspect, the utility model provides a kind of power-supply system, comprises above-mentioned battery protecting circuit.
Compared with prior art, battery protecting circuit of the present utility model can improve the fail safe of battery to the utility model.
Accompanying drawing explanation
Fig. 1 is the battery protecting circuit structural representation of the utility model embodiment 1;
Fig. 2 is the battery protecting circuit structural representation of the utility model embodiment 2;
Fig. 3 is the battery protecting circuit structural representation of the utility model embodiment 3.
Embodiment
Below by drawings and Examples, the technical solution of the utility model is described in further detail.
Fig. 1 is the battery protecting circuit structural representation of the utility model embodiment 1.As shown in Figure 1, this circuit comprises internal resistance detection module 11, judge module 12 and forbids charge-discharge modules 13.
Wherein, internal resistance detection module 11 pairs of internal resistances of cell detect, and export the internal resistance of cell value of detection to judge module 12; The internal resistance of cell value that internal resistance detection module 11 detects by judge module 12 and the internal resistance of cell value that judge module 12 is preset compare, and when the internal resistance of cell value detected is greater than default internal resistance of cell value, outputs control signals to and forbid charge-discharge modules 13; Forbid that charge-discharge modules 13 is according to control signal, forbids the charging to battery and/or electric discharge.
In the present embodiment, the preferred determination methods of judge module 12 is:
Export with the form of digital signal the internal resistance of cell value detected to judge module 12 by internal resistance detection module 11; Judge module 12 adopts digital comparator that the internal resistance of cell value that the internal resistance of cell value detected and judge module 12 are preset is carried out binary digit to compare, successive appraximation from highest order, until lowest order, and then completes internal resistance value and judges.
One as the utility model embodiment is improved, and forbids the connection of charge-discharge modules 13 by switch cutoff battery positive and charging circuit or discharge circuit, to realize forbidding that charge-discharge modules 13 forbids battery charge or discharge.
Another kind as the utility model embodiment improves, and forbids the connection of charge-discharge modules 13 by switch cutoff battery negative terminal and charging circuit or discharge circuit, forbids battery charge or discharge to realize stopped charge-discharge modules 13.
As another improvement of the utility model embodiment, forbid that charge-discharge modules 13 is quit work by control charging circuit or controlled discharge circuit quits work, described in realizing, forbid that charge-discharge modules 13 forbids battery charge or discharge.
The detection cell resistance that the utility model embodiment proposes, and setting is when its internal resistance increases higher than preset upper limit, forbids charge or discharge to battery simultaneously, thus improve the fail safe of battery.
Fig. 2 is the battery protecting circuit structural representation of the utility model embodiment 2.As shown in Figure 2, this battery protecting circuit comprises first time internal resistance detection module 21, stores internal resistance value module 22, internal resistance detection module 23, judge module 24 and forbid charge-discharge modules 25.
Wherein, internal resistance detection module 21 detects the initial internal resistance of battery for the first time, and the initial cells internal resistance value of detection is inputed to storage internal resistance value module 22; Store internal resistance value module 22 the initial cells internal resistance value that first time internal resistance of cell detection module 21 obtains is stored, and export initial cells internal resistance value to judge module 24; Internal resistance detection module 23 pairs of internal resistances of cell detect, and export the internal resistance of cell value of detection to judge module 24; The internal resistance of cell value that internal resistance detection module 23 detects by judge module 24 with store the initial cells internal resistance value stored in internal resistance value module 22 and compare, when the internal resistance of cell value detected is greater than the N of the initial cells internal resistance value of storage doubly, such as, when N is 2, outputs control signals to and forbid charge-discharge modules 25; Forbid that charge-discharge modules 25 is according to control signal, forbids the charging to battery and/or electric discharge.
In the present embodiment, the size of the initial cells internal resistance value multiple (N) related in judge module 24 is determined by the dissimilar of battery core, and professional should recognize that the value of N is not fixing.
The detection cell resistance that the utility model embodiment proposes, and setting is when its internal resistance increases higher than preset upper limit, forbids charge or discharge to battery simultaneously, thus improve the fail safe of battery.
Fig. 3 is the battery protecting circuit structural representation of the utility model embodiment 3.This battery protecting circuit comprises batch (-type) to be increased battery charging/discharging current module 31, voltage detection module 32 and forbids charge-discharge modules 33.
Wherein, batch (-type) increases the charge/discharge current of the increase battery of battery charging/discharging current module 31 interval; Voltage detection module 32 detects the cell voltage before and after the increase battery charging/discharging electric current of batch (-type) increase battery charging/discharging current module 31 interval, and be designated the first voltage (V1) and the second voltage (V2) respectively, if the difference of V1 and V2 is greater than cell voltage preset value, represent that the internal resistance of cell is because cell degradation becomes excessive, outputs control signals to and forbids charge-discharge modules 33; Forbid that charge-discharge modules 33 is according to control signal, forbids the charging to battery and/or electric discharge.
In the above-described embodiments, batch (-type) increases battery charging/discharging current module 31 can change battery voltage by the discharging current of step increase battery, also can be changed the voltage of battery by the charging current of step increase battery.
The detection cell voltage that the utility model embodiment proposes, and then judge the situation of change of the internal resistance of cell, and setting is when its voltage difference is higher than preset upper limit, forbids charge or discharge to battery simultaneously, thus improve the fail safe of battery.
The utility model embodiment provides a kind of electric power management circuit, comprises the battery protecting circuit as shown in Fig. 1 or Fig. 2 or Fig. 3.Wherein, battery protecting circuit can be built in inside battery, also can be built in the electric power management circuit in system, such as, Power Management Unit (PowerManagementUnit in smart mobile phone; Be called for short PMU) in, battery is protected.
Above-described embodiment; the purpose of this utility model, technical scheme and beneficial effect are further described; be understood that; the foregoing is only embodiment of the present utility model; and be not used in restriction protection range of the present utility model; all within spirit of the present utility model and principle, any amendment made, equivalent replacement, improvement etc., all should be included within protection range of the present utility model.
Claims (10)
1. a battery protecting circuit, is characterized in that, comprising: internal resistance detection module (11), judge module (12) and forbid charge-discharge modules (13); Wherein,
Described internal resistance detection module (11), for detecting the internal resistance of cell, and exports the internal resistance of cell value detected to described judge module (12);
Described judge module (12), the internal resistance of cell value preset for the internal resistance of cell value that described internal resistance detection module (11) detected and described judge module (12) compares, when the described internal resistance of cell value detected is greater than described default internal resistance of cell value, described in outputing control signals to, forbid charge-discharge modules (13);
Describedly forbid charge-discharge modules (13), for according to described control signal, forbid the charging to battery and/or electric discharge.
2. circuit according to claim 1, is characterized in that, described internal resistance detection module (11) specifically for:
The internal resistance of cell value detected is exported to judge module (12) with the form of digital signal; Described judge module (12) adopts digital comparator, the internal resistance of cell value that the internal resistance of cell value detected and described judge module (12) are preset is carried out binary digit and is compared by described digital comparator, successive appraximation from highest order, until lowest order, and then complete internal resistance value judgement.
3. circuit according to claim 1 or 2, is characterized in that, described in forbid charge-discharge modules (13) specifically for:
By the connection of switch cutoff battery positive and charging circuit or discharge circuit, described in realizing, forbid that charge-discharge modules (13) forbids battery charge or discharge.
4. circuit according to claim 1 or 2, is characterized in that, described in forbid charge-discharge modules (13) specifically for:
By the connection of switch cutoff battery negative terminal and charging circuit or discharge circuit, described in realizing, forbid that charge-discharge modules (13) forbids battery charge or discharge.
5. circuit according to claim 1 or 2, is characterized in that, described in forbid charge-discharge modules (13) specifically for:
To quit work or controlled discharge circuit quits work by controlling charging circuit, described in realizing, forbidding that charge-discharge modules (13) forbids battery charge or discharge.
6. a battery protecting circuit, it is characterized in that, comprising: first time internal resistance detection module (21), store internal resistance value module (22), internal resistance detection module (23), judge module (24) and forbid charge-discharge modules (25); Wherein,
Described first time internal resistance detection module (21), for detecting the initial internal resistance of battery, and inputs to described storage internal resistance value module (22) by the initial cells internal resistance value of detection;
Described storage internal resistance value module (22), initial cells internal resistance value for described first time internal resistance of cell detection module (21) being obtained stores, and exports described initial cells internal resistance value to described judge module (24);
Described internal resistance detection module (23), for detecting the internal resistance of cell, and exports the internal resistance of cell value detected to described judge module (24);
Described judge module (24), initial cells internal resistance value for storing in the internal resistance of cell value that described internal resistance detection module (23) detected and described storage internal resistance value module (22) compares, when the described internal resistance of cell value detected is greater than the initial cells internal resistance value of described storage, described in outputing control signals to, forbid charge-discharge modules (25);
Describedly forbid charge-discharge modules (25), for according to described control signal, forbid the charging to battery and/or electric discharge.
7. circuit according to claim 6, it is characterized in that, described judge module (24) specifically for: when the described internal resistance of cell value detected is greater than the N times of initial cells internal resistance value of described storage, charge-discharge modules (25) is forbidden described in outputing control signals to, wherein, described N is doubly 2 times.
8. a battery protecting circuit, is characterized in that, comprising: batch (-type) increases battery charging/discharging current module (31), voltage detection module (32) and forbids charge-discharge modules (33); Wherein:
Described batch (-type) increases battery charging/discharging current module (31), for the charge/discharge current of the increase battery of interval;
Described voltage detection module (32), for detecting the cell voltage before and after described batch (-type) increase battery charging/discharging current module (31) increase battery charging/discharging electric current intermittently, and be designated the first voltage (V1) and the second voltage (V2) respectively, if the difference of the first voltage (V1) and the second voltage (V2) is greater than cell voltage preset value, described in outputing control signals to, forbid charge-discharge modules (33);
Describedly forbid charge-discharge modules (33), for according to described control signal, forbid the charging to battery and/or electric discharge.
9. circuit according to claim 8, it is characterized in that, described batch (-type) increases battery charging/discharging current module (31) changes battery voltage by the discharging current of step increase battery, and/or is changed the voltage of battery by the charging current of step increase battery.
10. a power-supply system, is characterized in that, comprises battery and the battery protecting circuit as described in claim 1,6 or 8.
Priority Applications (1)
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CN201520631103.8U CN205016999U (en) | 2015-08-20 | 2015-08-20 | Battery protection circuit and electrical power generating system |
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CN201520631103.8U CN205016999U (en) | 2015-08-20 | 2015-08-20 | Battery protection circuit and electrical power generating system |
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Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105098728A (en) * | 2015-08-20 | 2015-11-25 | 无锡中星微电子有限公司 | Battery protection circuit and power source system |
CN107402352A (en) * | 2016-05-03 | 2017-11-28 | 罗伯特·博世有限公司 | Diagnostic method, the operation method of cell apparatus, the operation method of equipment and equipment |
CN112514195A (en) * | 2018-07-19 | 2021-03-16 | 日立建机株式会社 | Construction machine |
CN113156324A (en) * | 2021-03-03 | 2021-07-23 | 同济大学 | Electric vehicle battery pack end-of-life diagnosis method combined with charging pile |
-
2015
- 2015-08-20 CN CN201520631103.8U patent/CN205016999U/en not_active Withdrawn - After Issue
Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105098728A (en) * | 2015-08-20 | 2015-11-25 | 无锡中星微电子有限公司 | Battery protection circuit and power source system |
CN105098728B (en) * | 2015-08-20 | 2018-08-28 | 无锡中感微电子股份有限公司 | A kind of battery protecting circuit and power-supply system |
CN107402352A (en) * | 2016-05-03 | 2017-11-28 | 罗伯特·博世有限公司 | Diagnostic method, the operation method of cell apparatus, the operation method of equipment and equipment |
CN112514195A (en) * | 2018-07-19 | 2021-03-16 | 日立建机株式会社 | Construction machine |
CN113156324A (en) * | 2021-03-03 | 2021-07-23 | 同济大学 | Electric vehicle battery pack end-of-life diagnosis method combined with charging pile |
CN113156324B (en) * | 2021-03-03 | 2022-08-05 | 同济大学 | Electric vehicle battery pack end-of-life diagnosis method combined with charging pile |
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Granted publication date: 20160203 Effective date of abandoning: 20180828 |