CN202205862U - Simulating device of battery pack - Google Patents

Abstract

The utility model discloses a simulating device of battery pack, which comprises a switch power supply and a plurality of direct current power supplies; the switch power supply is used for converting the externally input alternative current into direct current to output; the input ends of the plurality of direct current power supplies are connected with the output ends of the alternative current power supplies; the output end of each direct current power supply of the plurality of direct current power supplies is connected with a corresponding detected system; in addition, at least one direct current power supply of the plurality of direct current power supplies is an adjustable direct current power supply; the output part of each direct current power supply is used for simulating one battery unit of the battery pack; each direct current power supply is used for adjusting the voltage value of the direct current output by the switch power supply into the output voltage value of the simulated battery unit; in addition, the adjustable direct current power supply is further used for simulating various working states of the battery pack by adjusting the voltage.

Description

Simulator for battery packs

technical field

The utility model relates to the field of electronic technology, in particular to a simulation device of a battery pack.

Background technique

Power batteries are a research hotspot in new energy technologies today, among which new material batteries such as lithium batteries have become an important part of current new energy batteries. However, due to the characteristics of lithium-ion and other new material batteries, a protection management system must be added when charging and discharging, so as to ensure the normal charging/discharging of the battery. As the demand for battery power supply continues to increase, many battery modules must be composed of multiple single batteries in parallel/series to form a power battery pack. Before using these battery packs, it is necessary to ensure the protection and management system of these battery packs. Function and performance are normal.

In order to determine whether the protection management system of the battery pack can work normally, the protection management system can be detected through the battery pack connected to the protection management system; however, because the voltage of many power battery packs (for example, commonly used lithium battery packs) is difficult to adjust Therefore, it is not possible to conveniently and accurately detect whether the various functions and performances of the protection management system are normal.

At present, in order to protect and manage power battery packs used in series with multiple cells, special battery pack protection system testing equipment is required, but these devices are not easy to use due to their large size and high cost.

Aiming at the problem in the related art that the protection management system of the battery pack cannot be detected in a simple manner, no effective solution has been proposed yet.

Utility model content

Aiming at the problem that the protection and management system of the battery pack cannot be detected in a simple way in the related art, the utility model proposes a battery pack simulation device, which can effectively detect the protection and management system of the battery pack in a simple way, And it has the advantages of small size, low cost and low complexity.

The technical scheme of the utility model is achieved in that:

According to an embodiment of the present invention, a simulation device for a battery pack is provided, which is used for simulating a battery pack and testing a battery pack protection management system.

The battery pack simulation device according to the present invention includes: a switching power supply, which is used to convert the externally input AC power into DC power and output it; a plurality of DC power supplies, the input terminals of the multiple DC power supplies are commonly connected to the AC power supply The output terminal of each DC power supply in the plurality of DC power supplies is connected to the corresponding connection part of the detected system, and at least one DC power supply in the plurality of DC power supplies is an adjustable DC power supply; each The DC power supply is used to simulate a battery unit in the battery pack, wherein each DC power supply is used to adjust the voltage value of the DC power output by the switching power supply to the output voltage value of the simulated battery unit; and, the adjustable The DC power supply is further used to simulate the working mode of the battery pack through voltage regulation.

The device may also include a plurality of load modules corresponding to the plurality of DC power supplies, and each load module is connected in parallel with the output end of the corresponding DC power supply for stabilizing the output voltage of the corresponding DC power supply.

Preferably, the above-mentioned load module may be a resistor.

Specifically, the voltage adjustment range of the adjustable DC power supply satisfies the following condition: V1<V<V2, wherein the voltage adjustment range of the adjustable DC power supply is V1 to V2, and V is the battery unit simulated by the DC power supply output voltage value.

In addition, when the voltage of the adjustable DC power supply is gradually increased within the range of V1 to V2, the simulation device is used to simulate the charging mode of the battery pack; when the voltage of the adjustable DC power supply is within the range of V1 to V2 The simulator is used to simulate the discharge mode of the battery pack when the range is adjusted to taper off.

The device may further include: at least one voltmeter, each voltmeter is connected in parallel with an output terminal of an adjustable output power supply, and is used to display the voltage value of the output terminal of the adjustable DC power supply.

With the help of the above technical solution, by setting a switching power supply and multiple adjustable and non-adjustable DC power supplies, the effect of isolation protection of the battery pack can be improved, the working stability of each simulated battery unit can be improved, and the The size and cost of small equipment, when the device of the present invention replaces the battery pack and is connected to the protection management system, it can flexibly simulate various working states of the battery (static voltage, charging, discharging, overcharging, overdischarging, etc.), to achieve The purpose of comprehensively testing the battery pack protection management system.

Description of drawings

Fig. 1 is a block diagram of a simulation device of a battery pack according to the present invention;

FIG. 2 is a block diagram of a specific structural example of a simulation device for a battery pack according to the present invention.

Detailed ways

Aiming at the problems of large volume, high cost and difficult management of the battery pack protection and management equipment in the related art, this application proposes a voltage-based two-level isolation, which can make the system conversion safer and more stable, and by adopting a range-adjustable The DC power supply can accurately simulate the charging/discharging of the battery pack and other scenarios to achieve the purpose of comprehensive testing. Moreover, due to the use of multiple DC power supplies, the isolated output can be simulated as individual cells, which can improve the performance of each DC power supply. Simulate the operational stability of the battery cells and reduce the selection criteria for the multiplexed DC power supply.

Embodiments of the present utility model will be described in detail below.

According to an embodiment of the present invention, a simulation device for a battery pack is provided, which is used for simulating a battery pack and testing a battery pack protection management system.

As shown in Figure 1, the simulation device according to the battery pack of the present utility model comprises:

A switching power supply 11, the switching power supply is used to convert the externally input alternating current into direct current and output it;

Multiple DC power supplies 21 to 2n, for the battery pack protection management system, the output part of the multiple DC power supplies can be regarded as the analog output of the battery, wherein the input terminals of the multiple DC power supplies are commonly connected to the output terminals of the AC power supply , the output end of each DC power supply in the multiple DC power supplies is connected to the corresponding connecting part of the system to be detected, and at least one DC power supply in the multiple DC power supplies is an adjustable DC power supply; that is, the DC power supply replaces The battery unit that should have been connected to the connection part of the system under test was removed.

The output part of each DC power supply is used to simulate a battery cell in the battery pack, wherein each DC power supply is used to adjust the voltage value of the DC power output by the switching power supply to the output voltage value of the simulated battery cell; and, The regulated DC power supply is further used to simulate the working mode of the battery pack through voltage regulation.

With the help of the above device, by setting a switching power supply, multiple adjustable and non-adjustable DC power supplies and load modules, the effect of isolation protection of the battery pack can be improved, the working stability of each simulated battery unit can be improved, and the Effectively reduce the volume and cost of the equipment. When the device of the present invention replaces the battery pack and is connected to the protection management system, it can flexibly simulate various working modes of the battery (charging, discharging, overcharging, overdischarging, etc.) to achieve comprehensive The purpose of detecting the battery pack protection management system.

In order to reduce the fluctuation of the output voltage of the simulated battery unit, the above-mentioned device can also include a plurality of load modules (for example, can be resistors), which are set corresponding to a plurality of DC power supplies, and each load module is connected to the output of the corresponding DC power supply The terminals are connected in parallel to stabilize the output voltage of the corresponding DC power supply.

Wherein, the voltage adjustment range of the above-mentioned adjustable DC power supply satisfies the following conditions:

V1<V<V2, wherein, the voltage adjustment range of the adjustable DC power supply is from V1 to V2, and V is the output voltage value of the battery unit simulated by the adjustable DC power supply. In this way, the voltage of the adjustable DC power supply is between V1 and V2. When the range of V2 is adjusted to gradually increase, the simulation device is used to simulate the charging mode of the battery pack; when the voltage of the adjustable DC power supply is adjusted to gradually decrease within the range of V1 to V2, the simulation device is used to simulate the charging mode of the battery pack Discharge mode, and, through the adjustable DC power supply, it is also possible to further simulate the overcharge and overdischarge conditions that occur during the charging and discharging process of the battery pack through the change of voltage.

Preferably, the device may further include: at least one voltmeter, each voltmeter is connected in parallel with an output terminal of an adjustable output power supply, and is used to display the voltage value of the output terminal of the adjustable DC power supply, so that the operator can clearly See the voltage of the simulated battery unit, understand the working status of the simulated battery pack, and then more accurately judge whether the battery pack protection management system is working normally, and realize the various functions of the battery protection management system under adjustable voltage conditions. Detection and verification, to achieve the purpose of comprehensive and comprehensive testing of the battery pack protection management system.

Specific embodiments of the present utility model will be described below in conjunction with specific examples.

As shown in Figure 2, taking the 4-string analog adjustable battery pack system as an example, first use a switching power supply T0 (this switching power supply can realize the conversion of AC220V ~ DC12V) to step down the 220V AC mains to +12V DC power supply, which can convert the mains power into safe and applicable DC power. The stable voltage output and appropriate voltage drop are conducive to more effective and accurate voltage conversion of secondary conversion components, and provide a suitable voltage value for the secondary system .

Assume that the voltage of each battery unit to be simulated is 3.3V. At this time, use a +12V regulated DC power supply, and then pass through the 3.3V DC power supply T1 ~ T3 (specifically, DC1203 can be used as the DC power supply in this embodiment) Isolated step-down conversion can output the nominal voltage of batteries such as lithium-ion.

The input terminals of T1 to T4 include positive and negative poles, and the output terminals also include positive and negative poles. The positive poles of the input terminals of T1 to T4 are connected to the positive output terminal of T0, and the negative poles of the input terminals of T1 to T4 are connected to the ground level (GND ); and the positive poles of the output terminals of T1 to T4 correspond to the positive poles of the simulated battery cells, and the negative poles of the output terminals of T1 to T4 correspond to the negative poles of the simulated battery cells. Specifically, as shown in Figure 2, the output terminal Bat1+ of T1 is equivalent to the positive pole of the simulated battery unit, the output terminal Bat1- of T1 is equivalent to the negative pole of the simulated battery unit, and the output terminal Bat2+ of T2 is equivalent to the negative pole of the simulated battery unit. The positive pole, the output terminal Bat2 of T2-is equivalent to the negative pole of the simulated battery unit, and so on; since multiple battery units in the battery pack are connected in sequence, it can also be used when connecting the output terminals of multiple DC power supplies in series. The method similar to connecting batteries in series, that is, short-circuiting Bat1- and Bat2+, Bat2- and Bat3+, and Bat3- and Bat4+, is equivalent to using the above-mentioned device to replace the battery pack and connect it to the protection management system.

Wherein, in order to maintain the stability of each DC power supply output, a load (which may be a resistor with a resistance value of 100 ohms to 500 ohms, or other resistance values may be selected as required) may be added at both ends of the power supply output. Due to the high-voltage isolation characteristics of each 3.3V voltage output, the output can be directly simulated as each independent battery output, and a simulated battery pack can be formed by connecting in series, and each output of the front end is a stable 3.3V Voltage.

Considering the working range of battery voltage such as lithium ion, the DC power supply T4 is designed as a DC conversion power supply whose output can be adjusted in the range of 2 to 4V, and uses a voltmeter to display its value in real time, which can be compared A good simulation of the low voltage of about 2V when the battery pack is discharged, and the high voltage phenomenon of about 4V when it is charged, so as to more comprehensively simulate other conditions of the battery in use, and it is more convenient to test the protection and management system of the battery pack. Various other functional indicators.

It should be noted that the situation listed in Figure 2 is only a specific example. When the AC input voltage and the voltage of the battery unit to be simulated change, the corresponding switching power supply and DC power supply can be selected for matching; in addition, in In the structure shown in Figure 2, although the last DC power supply (DC power supply T4) is an example of an adjustable DC power supply, in practical applications, the simulation device of the present utility model can include a plurality of adjustable DC power supplies, And any one or more of all the direct current power supplies can be replaced by an adjustable direct current power supply.

In addition, although Figure 2 shows an example in which T1 to T3 simulate 3.3V direct current, in practical applications, since the number of single cells contained in a battery unit is not absolutely equal, it may occur that T1 needs to simulate 3.3V, and T2 And T4 needs to simulate the situation of 5.0V. At this time, DC power supply and switching power supply can also be flexibly selected according to actual needs. The specific conditions will not be listed here.

In addition, preferably, in order to ensure the accuracy of the simulation, the DC power supplies T1 to T3 may be DC power supplies with narrow input and high-precision output.

To sum up, with the help of the above technical solution of the utility model, by setting a switching power supply, adjustable and non-adjustable DC power supply, the effect of isolation protection of the battery pack can be improved, and the work of each simulated battery unit can be improved. Stability, and can effectively reduce the size and cost of the equipment. In addition, by setting an adjustable DC power supply, the charging/discharging state of the battery pack can be accurately simulated, so that the battery pack protection management system can be fully tested and the battery pack can be detected correctly. The purpose of the group protection management system; in addition, by connecting the voltmeter in parallel with the adjustable DC power supply, the operator can clearly see the voltage of the simulated battery unit, understand the working state of the simulated battery group, and then judge more accurately Whether the battery pack protection management system is working normally, realizes the detection and verification of various functions of the battery pack protection management system under adjustable voltage conditions, and helps to achieve the purpose of comprehensively and conveniently testing the battery pack protection management system.

The above descriptions are only preferred embodiments of the present utility model, and are not intended to limit the present utility model. Any modifications, equivalent replacements, improvements, etc. made within the spirit and principles of the present utility model shall be included in the Within the protection scope of the present utility model.

Claims (4)

1. A simulation device for a battery pack, used for simulating a battery pack and detecting a battery pack protection management system, characterized in that the simulation device includes: A switching power supply, which is used to convert the externally input AC power into DC power and output it; a plurality of DC power supplies, the input ends of the plurality of DC power supplies are commonly connected to the output ends of the AC power supply, and the output ends of each DC power supply in the plurality of DC power supplies are connected to the corresponding connection part of the detected system, and , at least one of the multiple DC power supplies is an adjustable DC power supply. 2. The simulation device according to claim 1, further comprising a plurality of load modules corresponding to the plurality of DC power supplies, and each load module is connected in parallel with the output end of the corresponding DC power supply for Stabilize the output voltage of the corresponding DC power supply. 3. The simulation device according to claim 2, wherein the load module is a resistor. 4. The simulation device according to claim 1, further comprising: At least one voltmeter, each voltmeter is connected in parallel with an output terminal of an adjustable output power supply, for displaying the voltage value of the output terminal of the adjustable DC power supply. the

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