CN207743740U - A kind of aluminium-air cell Energy Management System - Google Patents

Abstract

The utility model discloses a kind of aluminium-air cell Energy Management System.Belong to battery energy management technical field, which can be carried out at the same time real-time management to the output voltage of single battery and the output voltage of battery pack simultaneously.Include the battery pack formed after being connected in series with by several single batteries, further includes microcontroller, alarm, display, memory, discharge prevention drive module, metal-oxide-semiconductor switch, loading interfaces, monomer battery voltage acquisition module, battery voltage acquisition module and current acquisition module；The alarm, display, memory, discharge prevention drive module, monomer battery voltage acquisition module, battery voltage acquisition module and current acquisition module are connect with microcontroller respectively；The output end of the discharge prevention drive module is connect with the control terminal that metal-oxide-semiconductor switchs；The power output end of the battery pack is connect with one end that metal-oxide-semiconductor switchs, and the other end of the metal-oxide-semiconductor switch is connect with loading interfaces.

Description

A kind of aluminium-air cell Energy Management System

Technical field

The utility model is related to battery energy management technical fields, and in particular to a kind of aluminium-air cell energy management system System.

Background technology

It is used after the battery pack that aluminium-air cell is formed after being typically connected in series with by several single batteries.It is existing Battery management system cannot be carried out at the same time real-time management to the output voltage of single battery and the output voltage of battery pack, cause not Real-time management easily is carried out to battery pack.

Utility model content

The utility model is cannot be to the output voltage and battery pack of single battery in order to solve existing battery management system Output voltage be carried out at the same time the deficiency of real-time management, provide a kind of simple in structure, reliability is high, can be simultaneously to single battery Output voltage and the output voltage of battery pack are carried out at the same time a kind of aluminium-air cell Energy Management System of real-time management.

The above technical problem is solved by following technical proposal：

A kind of aluminium-air cell Energy Management System includes the battery formed after being connected in series with by several single batteries Group further includes microcontroller, alarm, display, memory, discharge prevention drive module, metal-oxide-semiconductor switchs, battery data is adopted Collect module and loading interfaces；The battery data acquisition module includes monomer battery voltage acquisition module, battery voltage acquisition Module and current acquisition module；The alarm, display, memory, discharge prevention drive module, monomer battery voltage acquisition Module, battery voltage acquisition module and current acquisition module are connect with microcontroller respectively；The discharge prevention drive module Output end connect with the control terminal that metal-oxide-semiconductor switchs；The power output end of the battery pack is connect with one end that metal-oxide-semiconductor switchs, The other end of the metal-oxide-semiconductor switch is connect with loading interfaces.

The voltage and current acquisition of monomer battery voltage and battery pack can be realized by battery data acquisition module.Microcontroller Device controls the output end signal of discharge prevention drive module according to the collected data of battery data acquisition module, by The output end signal of discharge prevention drive module goes the conducting and disconnection of control metal-oxide-semiconductor switch, to control battery pack and load Circuit turn-on between interface and the situation of disconnection.This programme is simple in structure, and reliability is high, can be simultaneously to the output of single battery electricity The output voltage of pressure and battery pack is managed in real time respectively.

Preferably, monomer battery voltage acquisition module is the battery pack monitor that can monitor multiple batteries.

Preferably, being additionally provided with the temperature sensor that can detect corresponding single battery temperature on each single battery, often A temperature sensor is connect with microcontroller respectively.The temperature acquisition to monomer battery voltage is realized by temperature sensor, it can By property height.

It is equipped with preferably, connecting on connecting line between one end for being switched with metal-oxide-semiconductor of power output end of battery pack Inversion unit, resonant element, high frequency transformer and rectification filtering unit；The input terminal of inversion unit is connected to the power supply of battery pack On output end, the output end of inversion unit is connected on the input terminal of resonant element, and the output end of resonant element is connected to high frequency On the input terminal of transformer, the output end of high frequency transformer is connected on the input terminal of rectification filtering unit, rectification filtering unit Output end be connected to metal-oxide-semiconductor switch one end on；The control terminal of inversion unit is connect with microcontroller.This programme makes battery The inhibition overshoot ability of group is strong, and steady-state behaviour is good, and output end can respond the voltage fluctuation of input terminal rapidly.

The utility model can reach following effect：

The utility model is simple in structure, and reliability is high, can be simultaneously to the output voltage of single battery and the output of battery pack Voltage is managed in real time respectively, inhibits overshoot ability strong, steady-state behaviour is good, and output end can be rapid to the voltage fluctuation of input terminal It responds.

Description of the drawings

Fig. 1 is a kind of circuit theory connection structure schematic block diagram of the utility model embodiment 1.

Fig. 2 is a kind of circuit theory connection structure schematic block diagram of the utility model embodiment 2.

Specific implementation mode

The utility model is further described with embodiment below in conjunction with the accompanying drawings.

Embodiment 1, a kind of aluminium-air cell Energy Management System is shown in Figure 1, including by several single battery strings The battery pack 11 formed after connection connection further includes microcontroller 1, alarm 2, display 3, memory 4, discharge prevention driving mould Block 5, metal-oxide-semiconductor switch 6, battery data acquisition module and loading interfaces 10；The battery data acquisition module includes single battery Voltage acquisition module 7, battery voltage acquisition module 8 and current acquisition module 9；The alarm, memory, is put display Electric protection drive module, monomer battery voltage acquisition module, battery voltage acquisition module and current acquisition module respectively with it is micro- Controller connects；The output end of the discharge prevention drive module is connect with the control terminal that metal-oxide-semiconductor switchs；The electricity of the battery pack Source output terminal is connect with one end that metal-oxide-semiconductor switchs, and the other end of the metal-oxide-semiconductor switch is connect with loading interfaces.Single battery electricity It is the battery pack monitor that can monitor multiple batteries to press acquisition module.Corresponding monomer can be detected by being additionally provided on each single battery The temperature sensor 16 of battery temperature, each temperature sensor are connect with microcontroller respectively.

The voltage and current acquisition of monomer battery voltage and battery pack can be realized by battery data acquisition module.Microcontroller Device controls the output end signal of discharge prevention drive module according to the collected data of battery data acquisition module, by The output end signal of discharge prevention drive module goes the conducting and disconnection of control metal-oxide-semiconductor switch, to control battery pack and load Circuit turn-on between interface and the situation of disconnection.By alarm equipment alarm after failure, and fault-signal is passed through into display It has been shown that, while being convenient for user to call in memory fault message storage.The present embodiment 1 is simple in structure, and reliability is high, can be same When the output voltage of single battery and the output voltage of battery pack are managed in real time respectively.

Embodiment 2, shown in Figure 2, embodiment 2 and the difference of embodiment 1 are, battery pack power output end with Series connection is equipped with inversion unit 12, resonant element 13, high frequency transformer 14 and rectification on connecting line between one end of metal-oxide-semiconductor switch Filter unit 15；The input terminal of inversion unit is connected on the power output end of battery pack, and the output end of inversion unit is connected to On the input terminal of resonant element, the output end of resonant element is connected on the input terminal of high frequency transformer, high frequency transformer it is defeated Outlet is connected on the input terminal of rectification filtering unit, and the output end of rectification filtering unit is connected on one end of metal-oxide-semiconductor switch； The control terminal of inversion unit is connect with microcontroller.

Embodiment 2 makes the inhibition overshoot ability of system strong, and steady-state behaviour is good, and output end can be to the voltage fluctuation of input terminal It responds rapidly, reliability is high.

The embodiments of the present invention have been described above with reference to the accompanying drawings, and however, the implementation is not limited to the above embodiments, this Field those of ordinary skill can be with various changes and modifications may be made within the scope of the appended claims.

Claims (4)

1. a kind of aluminium-air cell Energy Management System includes the battery pack formed after being connected in series with by several single batteries, It is characterized in that, further including microcontroller, alarm, display, memory, discharge prevention drive module, metal-oxide-semiconductor switch, electricity Pond data acquisition module and loading interfaces；The battery data acquisition module includes monomer battery voltage acquisition module, battery pack Voltage acquisition module and current acquisition module；The alarm, display, memory, discharge prevention drive module, single battery Voltage acquisition module, battery voltage acquisition module and current acquisition module are connect with microcontroller respectively；The discharge prevention The output end of drive module is connect with the control terminal that metal-oxide-semiconductor switchs；The power output end of the battery pack and the one of metal-oxide-semiconductor switch The other end of end connection, the metal-oxide-semiconductor switch is connect with loading interfaces.

2. a kind of aluminium-air cell Energy Management System according to claim 1, which is characterized in that monomer battery voltage is adopted It is that can monitor the battery pack monitor of multiple batteries to collect module.

3. a kind of aluminium-air cell Energy Management System according to claim 1, which is characterized in that in each single battery On be additionally provided with the temperature sensor that can detect corresponding single battery temperature, each temperature sensor is connect with microcontroller respectively.

4. a kind of aluminium-air cell Energy Management System according to claim 1, which is characterized in that in the power supply of battery pack It is connected on connecting line between one end that output end is switched with metal-oxide-semiconductor equipped with inversion unit, resonant element, high frequency transformer and whole Flow filter unit；The input terminal of inversion unit is connected on the power output end of battery pack, and the output end of inversion unit is connected to On the input terminal of resonant element, the output end of resonant element is connected on the input terminal of high frequency transformer, high frequency transformer it is defeated Outlet is connected on the input terminal of rectification filtering unit, and the output end of rectification filtering unit is connected on one end of metal-oxide-semiconductor switch； The control terminal of inversion unit is connect with microcontroller.