CN105675997B - Vehicle battery pack dynamic insulation resistance detection device - Google Patents

Abstract

The invention discloses a kind of Vehicular battery group dynamic insulation resistor detecting devices, including be electrically connected with battery electrode reference circuit, for the voltage in measuring basis circuit first survey volt circuit and second survey volt circuit, as the triode and control unit of switch element, wherein, reference circuit includes the charging end being sequentially connected in series, reference resistance, current-limiting resistance and high-voltage capacitance, and the high-voltage capacitance other end is electrically connected with the cathode of battery pack；The level signal of triode reception control unit, cut-off or conducting, to control the charge or discharge of reference circuit mesohigh capacitor；First survey volt circuit is connected electrically in the front end of reference resistance, feeds back to control unit for the front voltage of measuring basis resistance, and by front voltage；Second survey volt circuit is connected electrically in the rear end of reference resistance, for the rear end voltage of measuring basis resistance, and by rear end Voltage Feedback to control unit.

Description

Vehicular battery group dynamic insulation resistor detecting device

Technical field

The present invention relates to a kind of Vehicular battery group dynamic insulation resistor detecting devices.

Background technique

The power of new-energy automobile is mainly provided by battery pack, relatively high based on the general voltage of battery pack, and battery pack Electric current when charge and discharge is bigger.Therefore, during battery set charge/discharge, if the positive or negative pole of battery pack and vehicle body are sent out Raw short circuit is easy to cause a hidden trouble to personal safety.Therefore, it is of great significance to the research of battery pack safety, works as battery It when the positive or negative pole and vehicle body of group have short-circuit hidden danger, can be found, and made corresponding by insulation resistance detection in time Processing, to reduce safety accident be of great significance.Currently, batteries of electric automobile group insulating resistor detecting circuit Design is typically complex, and reaction speed is slow, and dynamic response is poor, and be easy to cause battery management system (BMS) Damage.

Summary of the invention

The present invention provides a kind of Vehicular battery group dynamic insulation resistor detecting device, with one in solving the above problems It is a.

Vehicular battery group dynamic insulation resistor detecting device, including be electrically connected with battery electrode reference circuit, be used for First of voltage in measuring basis circuit surveys volt circuit and the second survey volt circuit, the triode as switch element and control Unit, wherein reference circuit includes the charging end being sequentially connected in series, reference resistance, current-limiting resistance and high-voltage capacitance, high-voltage capacitance The other end is electrically connected with the cathode of battery pack；The level signal of triode reception control unit, cut-off or conducting, to control benchmark The charge or discharge of circuit mesohigh capacitor；First survey volt circuit is connected electrically in the front end of reference resistance, for measuring basis electricity The front voltage of resistance, and front voltage is fed back into control unit；Second survey volt circuit is connected electrically in the rear end of reference resistance, uses In the rear end voltage of measuring basis resistance, and by rear end Voltage Feedback to control unit.

In the present invention, the resistance value of reference resistance and current-limiting resistance is known.When control unit exports low level, three poles Pipe cut-off, the electric current of charging end pass sequentially through reference resistance and current-limiting resistance to high-voltage capacitor charging.At this point it is possible to pass through first The front voltage V1 that volt circuit measures reference resistance is surveyed, the rear end voltage V2 of reference resistance is measured by the second survey volt circuit.? During the charging, it can be obtained by the way that Ohm's law is instant: (V1-V2)/R1=(V2-Vc)/(R2-Rx)；It is controlling When unit processed output high level, triode ON, high-voltage capacitance will back discharge, at this point, measuring reference resistance front end simultaneously Voltage V1' and rear end voltage V2', then obtained by Ohm's law: (V1'-V2')/R1=(V2'-Vc')/(R2+Rx), it will be above-mentioned Two formulas are subtracted each other it follows that Rx=Δ V2*R1/ (Δ V1- Δ V2)-R2.

In some embodiments, reference circuit further includes diode D1 and diode D2, diode D1 and diode D2 Series aiding connection connection, the cathode of diode D1 is electrically connected with charging end, the plus earth of diode D2, the anode of diode D1 with And the cathode of diode D2 is attempted by the rear end of reference resistance.

As a result, when insulation resistance is serially connected on the anode of battery pack, battery anode electric current followed by insulation resistance, Diode D2, current-limiting resistance and high-voltage capacitance flow back to battery electrode again, so that closed circuit is formed, when high-voltage capacitance is full of After electricity, the electric current in circuit is zero, can ignore the pressure drop of diode D2 at this time, then the voltage of high-voltage capacitance is equal to battery pack Total voltage, therefore, high-voltage capacitance can play the role of for battery pack being isolated with vehicle body under normal circumstances, and can balance Voltage between the ungrounded end of equivalent insulation resistance and the total negative terminal of battery pack keeps the anode of high-voltage capacitance and equivalent insulation resistance non- Voltage between ground terminal is approximately zero, prevents the voltage of battery pack itself from generating additional electric current, so that calculate The numerical value of insulation resistance is more accurate.In addition, charge in high-voltage capacitance can be promptly when the fast quick-recovery of insulation resistance is normal It is discharged by diode D1 into the circuit of charging end.

In some embodiments, the base stage of triode is electrically connected with the control unit by resistance R3, triode The front end that collector is attempted by reference resistance by drawing high resistance, the emitter ground connection of triode.Control unit can be to as a result, Triode issues high level or low level comes so that triode ON or cut-off, when triode ON, the charge of high-voltage capacitance It can be discharged by triode into low-voltage circuit, when triode cut-off, charging end is by drawing high resistance, reference resistance and limit Leakage resistance is to high-voltage capacitor charging.At this point, drawing high the conducting electric current breakdown that resistance can prevent triode to be electrically charged end.

In some embodiments, the first survey volt circuit includes resistance R5, amplifier E1 and resistance R6, one end of resistance R5 It is connected electrically between charging end and reference resistance, the other end is electrically connected with the positive input terminal of amplifier E1, and bearing for amplifier E1 is defeated The output end for entering end and amplifier E1 is shorted, and one end of resistance R6 is electrically connected with the output end of amplifier E1, the other end and control Unit electrical connection.Second survey volt circuit includes resistance R7, amplifier E2 and resistance R8, and one end of resistance R7 is connected electrically in benchmark electricity Between resistance and current-limiting resistance, the other end is electrically connected with the positive input terminal of amplifier E2, the negative input end and amplifier of amplifier E2 The output end of E2 is shorted, and one end of resistance R8 is electrically connected with the output end of amplifier E2, and the other end is electrically connected with control unit A.

The amplifier E1 that the front voltage of reference resistance can survey volt circuit by first as a result, carries out signal with then anti- It feeds control unit, the amplifier E2 that the rear end voltage of reference resistance can survey volt circuit by second carries out signal with then anti- It feeds control unit.

Detailed description of the invention

Fig. 1 be one embodiment of the invention mode battery pack under normal circumstances when dynamic insulation resistor detecting device connection Circuit diagram；

Fig. 2 is the dynamic insulation resistance detection that insulation resistance occurs when on battery electrode in an embodiment of the present invention Device circuit schematic diagram；

Fig. 3 is the circuit of the resistor detecting device of dynamic insulation of the insulation resistance generation among battery pack when some position Schematic diagram；

Fig. 4 is dynamic insulation resistor detecting device circuit diagram of insulation resistance generation when on battery anode.

Specific embodiment

The invention will now be described in further detail with reference to the accompanying drawings.

Fig. 1 to Fig. 4 schematically shows the battery pack dynamic insulation resistor detecting device of one embodiment of the present invention Circuit theory.

As shown in Figure 1, battery pack under normal circumstances when dynamic insulation resistor detecting device circuit connection schematic diagram.It fills Electric end Vcc, reference resistance R1, current-limiting resistance R2, high-voltage capacitance C and battery pack Vpack cathode be sequentially connected in series, form benchmark Circuit 1.At this point, circuit is not constituted between battery pack Vpack and high-voltage capacitance C, voltage and battery pack on high-voltage capacitance C Voltage between the total negative terminal of Vpack is zero, therefore, high-voltage capacitance C under normal circumstances (i.e. the anode of battery pack Vpack or In the case that cathode is not short-circuited) it can play the role of for battery pack Vpack being isolated with vehicle body, prevent battery pack Vpack Voltage be loaded directly on vehicle body, bring harm to the person.

It, can be in reference circuit 1 in order to preferably control the charge and discharge process of high-voltage capacitance C in conjunction with shown in Fig. 1 and Fig. 4 The front end of reference resistance R1 be electrically connected triode Q as switch element, the base stage of triode Q passes through resistance R3 and control list First A electrical connection, the emitter ground connection of triode Q, the collector of triode Q are attempted by the front end of reference resistance R1, at this time due to The voltage of charging end Vcc can be divided to triode Q first, and the high pressure that triode Q will not be electrically charged end Vcc in order to prevent is hit It wears, is concatenated between charging end Vcc and the collector of triode Q and draw high resistance R4, drawing high resistance R4 can fill in charging end Vcc In electric process, by the voltage of charging end Vcc, so as to protect triode Q well.

When control unit A issue low level voltage signal to triode Q when, triode Q cut-off, charging end Vcc electric current according to It is secondary flow through draw high resistance R4, reference resistance R1 and current-limiting resistance R2 give high-voltage capacitance C charging；When control unit A issues high electricity When flat voltage signal is to triode Q, triode Q conducting, the electric current of high-voltage capacitance C flows through current-limiting resistance R2 and reference resistance R1 To triode Q, discharged over the ground by the emitter of triode Q.

In conjunction with shown in Fig. 1 and Fig. 4, first, which surveys volt circuit 2, includes resistance R5, amplifier E1 and resistance R6, wherein resistance One end of R5 is connected to the front end of reference resistance R1, the positive input terminal of the other end connection amplifier E1 of resistance R5, amplifier E1 Negative input end and the output end of amplifier E1 short circuit is connect by conducting wire, form voltage follower, the output end of amplifier E1 Be electrically connected by resistance R6 with control unit A, the front voltage signal V1 of reference resistance R1 by amplifier E1 carry out voltage with Then, control unit A is fed back to；Second to survey volt circuit 3 include resistance R7, amplifier E2 and resistance R8, wherein resistance R7 One end is connected to the rear end of reference resistance R1, and the positive input terminal of the other end connection amplifier E2 of resistance R7, amplifier E2's is negative Input terminal connect short circuit by conducting wire with the output end of amplifier E2, forms voltage follower, and the output end of amplifier E2 passes through Resistance R7 is electrically connected with control unit A, after the rear terminal voltage signal V2 of reference resistance R1 carries out voltage follow by amplifier E2, Feed back to control unit A.

In the present embodiment, control unit A is single-chip microcontroller, exports high electricity frequency or low electric frequency voltage by the pin 3 of single-chip microcontroller Signal controls the on or off of triode Q to triode Q；The pin 1 of single-chip microcontroller, which is received, surveys the feedback of volt circuit 2 from first Voltage signal, realize reference resistance R1 front voltage V1 acquisition；The pin 2 of single-chip microcontroller, which is received, surveys volt circuit 3 from second Feedback voltage signal, realize the rear end reference resistance R1 voltage V2 acquisition.

As shown in Fig. 2, when short circuit occurs for the cathode of battery pack Vpack (between the cathode and vehicle body of battery pack Vpack When insulation resistance Rx is not infinity), one end of insulation resistance Rx is electrically connected with high-voltage capacitance C, other end ground connection.At this point, high Circuit is not constituted between piezoelectric battery group Vpack and high-voltage capacitance C, the voltage, the ungrounded end insulation resistance Rx on high-voltage capacitance C with And the voltage between the total negative terminal of battery pack Vpack is zero, that is, high-voltage capacitance C and the ungrounded end equivalent insulation resistance Rx it Between voltage be zero, to play the role of for battery pack Vpack being isolated with vehicle body, prevent the voltage of battery pack Vpack from directly adding It is downloaded on vehicle body, brings harm to the person.

As shown in Fig. 2, control unit A exports low level to triode Q, triode Q ends at this time, the electricity of charging end Vcc Stream flows through reference resistance R1, current-limiting resistance R2 and insulation resistance Rx and charges to high-voltage capacitance C, at this point, due to reference resistance R1 And the resistance value of current-limiting resistance R2 is it is known that can be measured by being connected electrically in the first survey volt circuit 2 of the front end reference resistance R1 The front voltage V1 of reference resistance R1, and the voltage signal of front voltage V1 is fed back into control unit A, and pass through electric connection The second survey volt circuit 3 in the rear end reference resistance R1 measures the rear end voltage V2 of reference resistance R1, and V2 voltage signal is fed back Give control unit A；Therefore, according to Ohm's law it can be concluded that following calculation formula (1): (V1-V2)/R1=(V2-Vc)/(R2+ Rx), due in formula (1) Vc and Rx be unknown parameter, therefore, it is necessary to further by the discharge process of high-voltage capacitance C come Obtain calculated result.

As shown in Fig. 2, control unit A exports high level to triode Q, when triode Q is connected, high-voltage capacitance C is reversely put The charge of electricity, high-voltage capacitance C can be discharged by current-limiting resistance R2 and reference resistance R1 and by triode Q to low-voltage circuit Charge, at this point, measuring the front voltage V1' and rear end electricity of R1 respectively using the first survey volt circuit 2 and the second survey volt circuit 3 V2' is pressed, according to Ohm's law it can be concluded that following calculation formula (2): (V1'-V2')/R1=(V2'-Vc')/(R2+Rx), by Can have bigger capacitance in high-voltage capacitance C, and the resistance value of reference resistance R1 it is bigger (generally up to 200K Ω with On), therefore, the charge and discharge electrical time constant of high-voltage capacitance C is bigger, can generally be up to 100 milliseconds to 5 seconds, therefore, can recognize It is triode Q during of short duration by the end of conducting, the voltage at the both ends high-voltage capacitance C is held essentially constant, that is, formula (1) In Vc be equal to formula (2) in Vc', i.e. Vc=Vc', formula (1), which is subtracted formula (2), as a result, can obtain formula (3): Rx=Δ V2*R1/ (Δ V1- Δ V2)-R2.Therefore, the resistance value of insulation resistance Rx can be calculated according to formula (3).

As shown in figure 3, the circuit of the resistor detecting device of dynamic insulation when short circuit occurs for somewhere in battery pack Vpack Schematic diagram.Diode D1 and diode D2 is accessed in reference circuit 1, diode D1 is concatenated in the same direction with diode D2 (i.e. diode D1 and diode D2 cathode towards identical), the cathode of diode D1 is electrically connected with charging end Vcc, diode D2 Plus earth, the anode of diode D1 and the cathode of diode D2 and the rear end for being connected in reference resistance R1.At this point, insulated electro The part formation one that is short-circuited for hindering Rx, diode D2, current-limiting resistance R2, high-voltage capacitance C and battery pack Vpack is closed back Road.

As shown in figure 3, since the voltage of battery pack Vpack is generally relatively high, even battery pack Vpack is only by portion When dividing short circuit, the voltage for being short-circuited part is also much higher than the voltage of charging end Vcc, and therefore, in charging end, Vcc gives high-voltage capacitance C Before charging is with the front voltage V1 of measuring basis resistance R1, the part that battery pack Vpack is short-circuited will be returned by the closure (insulation resistance Rx, diode D2, current-limiting resistance R2, high-voltage capacitance C and battery pack Vpack are short-circuited part formation on road Closed circuit) automatically charge to high-voltage capacitance C, so that the voltage Vc's and insulation resistance Rx at the both ends high-voltage capacitance C is non- The voltage (less than the total voltage of battery pack Vpack) of ground terminal and battery pack Vpack cathode is basic in several time constants Keep equal；After high-voltage capacitance C is fully charged, the electric current in circuit gradually becomes zero, and therefore, high-voltage capacitance C, which can be balanced, to be worked as The voltage between insulation resistance Rx and the total negative terminal of battery pack Vpack is measured, keeps the anode of high-voltage capacitance C and equivalent insulation resistance Rx non- Voltage between ground terminal is zero, prevents the voltage of battery pack Vpack itself from generating additional electric current, so that calculate The numerical value of insulation resistance Rx is more accurate.

If in driving conditions, by of short duration destruction, i.e., absolutely the insulation resistance Rx of battery pack Vpack and vehicle body is only merely Edge resistance Rx occur transience exception (i.e. insulation resistance Rx disappears with transience occur, then insulation resistance Rx restore just Often), at this point, the voltage due to the both ends high-voltage capacitance C is higher than the voltage (voltage of charging end Vcc is generally 5V) of charging end Vcc, Therefore, before charging end Vcc charges to high-voltage capacitance C with the front voltage V1 of measuring basis resistance R1, on high-voltage capacitance C Charge can also be discharged readily through diode D1 into the circuit of charging end Vcc even if in the case where triode Q cut-off, In favor of the normal measurement of insulation resistance Rx.The mode and insulated electro of detection insulation resistance Rx when battery pack Vpack is short-circuited Rx is hindered there is a situation where the detection mode in battery pack Vpack cathode short circuit is identical, is repeated no more.

As shown in figure 4, the circuit theory of the resistor detecting device of the dynamic insulation for battery pack Vpack anode when short-circuit Figure.Diode D1 and diode D2 is equally accessed in reference circuit 1, diode D1 is concatenated in the same direction with diode D2 (i.e. diode D1 and diode D2 cathode towards identical), the cathode of diode D1 is electrically connected with charging end Vcc, diode D2 Plus earth, the anode of diode D1 and the cathode of diode D2 and the rear end for being connected in reference resistance R1.At this point, insulated electro It hinders Rx, diode D2, current-limiting resistance R2, high-voltage capacitance C and battery pack Vpack and forms a closed circuit.

As shown in figure 4, can generally be much higher than the electricity of charging end Vcc since the voltage of battery pack Vpack is generally relatively high Pressure, therefore, before charging end Vcc charges to high-voltage capacitance C with the front voltage V1 of measuring basis resistance R1, battery pack The positive electrode current of Vpack is followed by insulation resistance Rx, diode D2, current-limiting resistance R2 to high-voltage capacitance C, then from high-voltage capacitance C flows back to the cathode of battery pack Vpack, charges so as to form closed circuit to high-voltage capacitance C, so that the electricity at the both ends high-voltage capacitance C The voltage at the ungrounded end and battery pack Vpack cathode of pressing Vc and insulation resistance Rx keeps phase in several time constants substantially Deng；After high-voltage capacitance C is fully charged, the electric current in circuit gradually becomes zero, at this point, the total voltage of battery pack Vpack is equal to height The voltage of voltage capacitance C, therefore, high-voltage capacitance C can play between balance equivalent insulation resistance Rx and the total negative terminal of battery pack Vpack Voltage, make the voltage zero between the anode of high-voltage capacitance C and the ungrounded end equivalent insulation resistance Rx, make battery pack Vpack The voltage of itself cannot generate additional electric current, so that the numerical value of the insulation resistance Rx calculated is more accurate.

If in driving conditions, by of short duration destruction, i.e., absolutely the insulation resistance Rx of battery pack Vpack and vehicle body is only merely Edge resistance Rx occur transience exception (i.e. insulation resistance Rx disappears with transience occur, then insulation resistance Rx restore just Often), at this point, the voltage due to the both ends high-voltage capacitance C is higher than the voltage (voltage of charging end Vcc is generally 5V) of charging end Vcc, Therefore, before charging end Vcc charges to high-voltage capacitance C with the front voltage V1 of measuring basis resistance R1, on high-voltage capacitance C Charge can be discharged readily through diode D1 into the circuit of charging end Vcc in the case where triode Q ends, in favor of The normal measurement of insulation resistance Rx.The mode and insulation resistance of detection insulation resistance Rx when battery pack Vpack anode is short-circuited Rx is repeated no more there is a situation where the detection mode in battery pack Vpack cathode short circuit is identical.

Above-described is only some embodiments of the present invention.For those of ordinary skill in the art, not Under the premise of being detached from the invention design, various modifications and improvements can be made, these belong to protection model of the invention It encloses.

Claims (1)

1. A vehicle battery pack dynamic insulation resistance detection device, characterized in that it comprises a reference circuit (1) electrically connected to the negative electrode of the battery pack Vpack, and a first pressure measuring circuit (2) for measuring the voltage in the reference circuit (1). ) and the second pressure measuring circuit (3), the transistor Q as the switching element and the control unit A, wherein, The reference circuit (1) includes a charging terminal Vcc, a reference resistor R1, a current limiting resistor R2 and a high-voltage capacitor C connected in series in sequence, and the other end of the high-voltage capacitor C is electrically connected to the negative electrode of the battery pack Vpack, and the reference circuit (1) ) also includes a diode D1 and a diode D2, the diode D1 and the diode D2 are connected in series in the same direction, the cathode of the diode D1 is electrically connected to the charging terminal Vcc, the anode of the diode D2 is grounded, the anode of the diode D1 and all The cathode of the diode D2 is connected to the rear end of the reference resistor R1 in parallel; The triode Q receives the level signal of the control unit A, and is turned off or turned on to control the charging or discharging of the high-voltage capacitor C in the reference circuit (1); The first pressure measuring circuit (2) is electrically connected to the front end of the reference resistor R1, and is used for measuring the front end voltage V1 of the reference resistor R1, and feeding back the front end voltage V1 to the control unit A; The first pressure measuring circuit (2) includes a resistor R5, an amplifier E1 and a resistor R6, one end of the resistor R5 is electrically connected between the pull-up resistor R4 and the reference resistor R1, and the other end is connected to the positive input of the amplifier E1 The terminal is electrically connected, the negative input terminal of the amplifier E1 is short-circuited with the output terminal of the amplifier E1, one end of the resistor R6 is electrically connected to the output terminal of the amplifier E1, and the other end is electrically connected to the control unit A; The second pressure measuring circuit (3) is electrically connected to the back end of the reference resistor R1, and is used to measure the back end voltage V2 of the reference resistor R1, and feed back the back end voltage V2 to the control unit A; The second pressure measuring circuit (3) includes a resistor R7, an amplifier E2 and a resistor R8, one end of the resistor R7 is electrically connected between the reference resistor R1 and the current limiting resistor R2, and the other end is connected to the positive input of the amplifier E2 The negative input end of the amplifier E2 is electrically connected to the output end of the amplifier E2, one end of the resistor R8 is electrically connected to the output end of the amplifier E2, and the other end is electrically connected to the control unit A.