DE202005016796U1 - Portable electric energy storage unit generally useful for temporary supply of electrical energy provides for current supply to end units at at least two different high voltages includes a lithium ion accumulator - Google Patents

Abstract

Portable electric energy storage unit (1) for temporary current supply to an electrical or electronic end unit which includes an accumulator and two terminals (3,4) for electrical connection of unit (1) to the end unit, where during current supply to the end unit the accumulator is partially discharged. Current is supplied to end units at two different high voltages and the value of the starting voltage to the end unit at terminal (3) can be adjusted to at least two values. An independent claim is included for a system for temporary current supply to an electrical or electronic units.

Description

The The invention relates to a transportable electrical energy store for temporary power supply of an electrical or electronic terminal with at least one accumulator and at least one connection means for electrically connecting the energy store to the terminal, wherein while the power supply of the terminal the accumulator is at least partially discharged. Furthermore The present invention relates to a temporary power supply system an electrical or electronic terminal.

electrical Energy storage of the aforementioned type are preferably for a mobile use of electrical or electronic terminals, to be independent from a stationary one Power source device use to enable. The known energy storage devices are designed terminal specific and can are used only for the power supply of terminals whose Input voltage and possibly their operating voltage of the output voltage the energy storage at the connection means of the energy storage correspond. Become terminals connected to an energy store with an input voltage, whose output voltage is greater than the input voltage of the terminal is, it can cause damage to destruction come connected to such an energy storage terminal.

task The present invention is an electrical energy storage and to provide a system of the type mentioned in each case, if necessary, the power supply of at least two terminals with different sizes Input voltages are used.

to solution The above object is inventively provided that the power supply from at least two terminals with different input voltages, the level of the output voltage at the connection means the energy storage, if necessary, at least two different high voltage values is adjustable. As a result, the inventive energy storage and the system according to the invention for powering a plurality of terminals with different levels Input voltages can be used without it being in the power supply a terminal to damage or to destruction of the terminal can come. About that In addition, however, it is also ensured that by the energy storage device according to the invention or the system according to the invention a sufficiently high output voltage is provided to the Operation of the terminal to enable. The emergency power supply of terminals is significantly simplified, since it is not longer necessary, a plurality of terminal-specific energy storage to provide power to the terminals regardless of a stationary one To ensure power source. Due to the demand-adjustable output voltage of the energy storage is an over- or undersupply of electricity, and even then, if terminals are to be supplied with electricity, the different input voltages exhibit.

Of the Energy storage according to the invention can after charging the accumulator as (emergency) energy storage for Power supply of a variety of electrical or electronic portable terminals are used, for example, for power supply at least an MP3 and / or CD and / or DVD and / or cassette player and / or a media player and / or a PDA and / or at least one Photo and / or video camera and / or a game console and / or a mobile or stationary Computer device and / or a mobile phone and / or a dictation machine or like. About that In addition, the energy storage device according to the invention used to power notebooks or laptops.

at the connection means The energy storage device can be a socket or a plug act an electrical connector, with the corresponding connection means of the terminal electrically can be connected. Also, an electrical clamping connection may be provided to the terminal to connect to the energy storage. Basically, you can stand out from scratch the art known electrical connection connections as needed be provided to the different terminals for power supply with the Energy storage to connect. As terminals with different input voltage usually also different connection means for connection to a Have power supply, the inventive system in addition to the energy storage preferably a plurality of the connection means of the Energy storage and at least one connection means of an electrical or electronic terminal connectable adapter plugs on. By means of a plurality of adapter plugs can connect almost any portable device with an electrical connection What are the uses of the energy storage as Emergency or backup battery for allows a variety of devices.

Basically, it is of course also possible that the energy storage device according to the invention as such a plurality of different connection means, for example, differently shaped connector or sockets, for electrical connection with corresponding terminal means of terminals having different input voltages.

Around to regulate or adjust the output voltage of the energy store, can per se known from the prior art electrical or electronic Components are used for voltage regulation. The voltage regulation may provide a voltage reduction and / or a voltage increase.

The Output voltage can be manually and / or automatically adjustable. For automatic adjustment of the energy storage at least a microprocessor, wherein the microprocessor for executing a Function for automatic determination of the currently existing ones Charge quantity or residual capacity the energy storage and / or to automatically determine the input voltage a terminal connected to the energy store for power supply and / or for automatic adjustment of the output voltage of the energy storage dependent on is formed by the input voltage of a terminal. Is the automatically determined residual capacity below a specified Value has dropped, recharging the battery is required. At the residual capacity is in the context of the invention to that for a power supply of a terminal to disposal standing part of the nominal capacity of the accumulator, whereby the rated capacity on the state of complete charge of the accumulator is related.

to automatic determination of the input voltage to the energy storage connected and over the energy storage powered terminal and for automatic determination the required output voltage of the energy storage, the Current consumption of the terminal determined and created a current-voltage curve. In this Correlation can be the output voltage at the connection means of the energy store can be gradually increased until the required Input voltage of the terminal is reached. The microprocessor is thus capable of providing the required input voltage of the terminal to be supplied automatically detect and the output voltage at the connection means of energy storage in dependence from the input voltage of the terminal to regulate. This will be the handling of the energy storage device according to the invention significantly simplified and possible damage to the terminal through manual misadjustment of the output voltage prevented.

Preferably the microprocessor is designed so that the function for automatic Detection of the amount of charge or residual capacity before the function for manual and / or automatic adjustment of the output voltage is executable. Thereby can already be ensured before the start of the power supply of the terminal be that Energy storage has sufficient residual capacity to a power supply of the terminal via a certain period of time.

Of the Energy storage can at least one switching element for manual Adjustment of the output voltage and / or to control the microprocessor and / or for switching on and off of the energy store. Preferably, at least one key switch can be provided. By switching on of the energy storage, the microprocessor from a hibernation transferred to an operating state, wherein it by turning on the energy storage initially to perform the Function for automatic recognition of the amount of charge or residual capacity and then to manual and / or automatic adjustment of the output voltage can come. Turning off the energy store turns the microprocessor de-energized and the energy storage thus in one Hibernation transferred. In In this context it can be provided that the microprocessor has a function which is dependent from the loading time or a specified period of time in the switched on energy storage no discharge of the battery takes place, an automatic transfer of the Energy storage in the idle state or switching off the energy storage causes. As a result, a decrease in the amount of charge La or the residual capacity of the energy storage in the Non-use state can be largely reduced.

Of the For simplicity, the microprocessor can be dependent from the duration of the operation and / or the frequency of operation be controlled by the switching element. Depending on the duration of operation and / or the operating frequency from the microprocessor then a certain of the aforementioned functions executed.

is provided a manual adjustment of the output voltage, so can this preferably only before the connection of the terminal to the energy storage possible be. This will ensure that it is at the power supply of the terminal not to damage or to destruction of the terminal by unintentional adjustment of the output voltage of the energy store can come.

To be able to supply as many terminals as possible with different input voltages via the energy storage with electricity, the output voltage of the energy storage between 2 volts to 10 volts, preferably between 2.4 volts to 8.4 volts. In this voltage range are the input voltages of the majority of currently available terminals. In principle, however, the output voltage of the energy store can also have an output voltage which is less than 2 V or greater than 10 V. In this context, the invention allows it, if necessary, to adapt the output voltage to the input voltage of the terminal, with higher output voltages of the energy storage device according to the invention can be provided to provide power to terminals that require a higher input voltage.

Preferably can the height the output voltage is adjustable to a voltage value, the a voltage range is possible Input voltages of terminals associated with the terminals, which are assigned to a voltage range, at one to the corresponding Voltage value set output voltage of the energy storage can be powered without that damages the terminal due to the external power supply are expected. A voltage range can preferably terminals with an input voltage of approx. 2.4 V to 3.5 V or approx. 3.5V to 5V or from about 5V to 6.5V or from about 6.5V to Be associated with 8.4V. In this context, it is the case that the terminals usually have an integrated voltage regulator. It is not necessary, the height the output voltage of the energy storage exactly to the height of the input voltage of the terminal regulate. in principle but it is also possible that the height of Output voltage substantially the level of the input voltage of the Terminal corresponds.

to Display of height the adjusted output voltage can be a display means or a lighting means, preferably a plurality of light-emitting diodes, be provided. Thereby A user of the energy store can do this manually or automatically Check the adjusted output voltage and if necessary with a Compare the known input voltage of the terminal. This helps damage or a destruction of the terminal prevent. It can for be provided for each voltage range, a display means, which is the review of the adjusted output voltage simplified. In addition, at least a display means is provided for displaying a warning, if the input voltage of the terminal is not automatically determined or a detected input voltage no output voltage of Energy storage can be assigned. For example, a Indicator flicker, if attempted, the output voltage automatically detect, no suitable output voltage adjustable is. In this case, it is preferably provided that a power supply of the terminal not possible at all is, which requires a corresponding functionality of the microprocessor. About that In addition, the microprocessor can also be functionalized in such a way that at Non-recognition of Input voltage of the terminal or not determining a matching output voltage, the magnitude of the output voltage of the energy store is automatically controlled down to a minimum value and a power supply of the terminal then at this minimum voltage he follows.

Farther can at least one further display means or lighting means, preferably a plurality of different colored LEDs, for display the height the present provided existing amount of charge or the remaining capacity of the energy storage be. Dependent on a user of the energy store can decide on the luminous color whether it is necessary to charge the energy storage or whether the Residual capacity is sufficient to a terminal to supply electricity. As a warning, it can be provided that falls below a specified (minimum) charge quantity or residual capacity, a display means is operated as a flashing light.

To the Protection of the energy storage can be over and / or undervoltage protection be provided. To protect against short circuit currents can be an automatic shutdown and / or a reset function may be provided after the occurrence an over- or undervoltage or a short circuit must, um to bring the energy storage again in the operating condition. Of the Microprocessor can be executed the aforementioned functions trained or functionalized accordingly be.

Around the power over allow a sufficiently long period of time, the amount of charge or the nominal capacity the energy storage at maximum charge of the accumulator more be as 7000 mAh, preferably more than 8000 mAh. The maximum Output current may be more than 1000 mAh, preferably at least 1500 mAh. In this context, it can be provided that the energy storage at least one lithium ion accumulator having a rated voltage of about 3.7 volts. In principle, however, can also other known per se from the prior art accumulators be used. In this context, it should be noted that the Energy storage according to the invention in terms of nominal capacity and output current can be adapted to the needs of the terminal, in particular future advanced devices may affect.

Around to simplify the handling and transport of the energy store, this may have a pocket size, the length of the Energy storage less than 150 mm and / or the width less than 100 mm and / or the height may be less than 50 mm. It serves the same purpose that the energy storage a low weight of less than 500 g, preferably less 250 g.

Around the possible uses the energy storage for power supply of terminals on to increase, can be provided that the Energy storage has a USB interface, and that, preferably, the output voltage at the USB interface is not adjustable is and that, more preferably, the output voltage at the USB interface about 5 volts.

To the Recharging the energy storage, the energy storage, at least another connection means for connection of the Have accumulator to a power supply or a charging unit. In In this context, at least a third display means or Illuminant for displaying a state of charge of the energy storage be provided. For example, it is possible that the energy storage via a battery charger for one Car battery is rechargeable. To ensure the longest possible durability of the To ensure accumulator can the energy store about it In addition, have a discharge function for discharging the accumulator.

As the system has already been pointed out at the outset in addition to the energy store on a plurality of adapter plugs, wherein an adapter plug at least one connection means, for example a Socket or a plug of an electrical connector, for Connection with the connection means the energy storage and at least one further connection means for connection to a corresponding connection means of a terminal. in principle but it is also possible the existence Adapter plug a plurality of different connection means For electrical connection with different terminals. About that In addition, to limit the output current of the energy storage at least one if necessary with the energy storage and with a terminal be provided connectable electrical resistance element. Thereby can at terminals which have a very low power consumption, damage or a destruction during the Power over the energy storage can be prevented. To recharge the energy storage the system preferably has a power supply and / or at least one extension cable on. To protect the energy storage, a protective cover provided be.

in the There are a variety of ways, the energy storage of the invention and the system according to the invention to design and develop, on the one hand to the dependent claims and On the other hand, to the following detailed description of a preferred embodiment example the invention with reference to the drawings. In the drawing shows

1 3 a perspective view of an embodiment of a transportable energy store according to the invention as part of a system for the destationary supply of electrical or electronic terminals,

2 a plan view of an extension cable and a plurality of adapter plugs and an electrical resistance of the system for powering electrical or electronic equipment and

3 a top view of a power supply for charging the in 1 illustrated energy storage.

In 1 is an energy storage 1 shown, which is provided for the temporary power supply of an electric or electronic terminal not shown in detail, and at least one lithium-ion accumulator, also not shown, inside a housing made of impact-resistant plastic 2 having. The accumulator is with connection means 3 . 4 electrically connected, wherein via the connection means 3 . 4 Terminals with different input voltage to the energy storage 1 can be connected and it during the power supply of the terminals 1 comes to an at least partial discharge of the accumulator.

The first connection means 3 has a connection shaft 5 on, the two contact elements 6 . 7 for the electrical connection of the energy store 1 having a terminal. The contact elements 6 . 7 are with the poles of the lithium-ion battery inside the case 2 of the energy store 1 contacted. To connect the energy storage 1 with a terminal is an extension cable 8th provided, which at one end a plug 9 which, in the connection shaft 5 is insertable and doing with the contact elements 6 . 7 forms an electrical connector.

The extension cable 8th is in 2 shown and has at its other end a socket 10 on, if necessary, with adapter plugs 11 and / or a resistive element 12 is connectable. For this purpose, the adapter plug 11 and the resistance element 12 at one end each because the same trained connector 13 on, each with the connector 10 extension cable 8th can be electrically connected. In addition, each adapter has connectors 11 a connection means 14 on to the electrical connection of the adapter plug 11 with a terminal, wherein the connection means 14 are designed differently and allow the connection with different devices. With the extension cable 8th and the adapter plugs 11 It is possible, a plurality of different terminals with the same energy storage 1 wherein the terminals may differ in relation to the respective input voltage required for operating the terminal and / or in relation to the shape and / or the type of terminal means provided for an external power supply. The resistance element 12 has a connection socket 15 on whose form the socket 10 extension cable 8th equivalent. This makes it possible to limit the output current of the energy store 1 the resistance element 12 if necessary via the extension cable 8th with the energy storage 1 on the one hand and a terminal on the other. This can cause damage to terminals with low power consumption during the destationary power supply via the energy storage 1 be prevented.

In the second connection means 4 it can be a USB interface. In addition, the energy store points 1 another connection means 17 on, that's another connection shaft 18 with other contact elements 19 . 20 having. The further connection means 17 is for receiving and electrical contacting a socket 21 one in 3 shown power supply 22 intended. The power supply 22 has two plug contacts 23 which are provided for connection to an AC power source with a voltage of 100 volts to 240 volts and a frequency of 50 Hz to 60 Hz. The output voltage of the power supply 22 at the socket 21 is 9 V DC, the charging current is 1.5 A.

The adapter plug 11 , the resistance element 12 , the extension cable 8th and the power supply 22 are components of a system according to the invention for powering electrical or electronic terminals with different input voltages, the system beyond, of course, the energy storage 1 having. For the power supply of at least two terminals with different sized input voltages, the output voltage at the first terminal means 3 of the energy store 1 be adjusted as needed, so that the output voltage to the input voltage of the terminal is adaptable. The in 1 illustrated energy storage 1 has a switching element 24 on, wherein it is the switching element 24 in the illustrated embodiment is a push button.

In the illustrated embodiment, it is now provided that an actuation of the switching element 24 over a period of about 3 seconds, the power of the energy storage 1 causes, with an unrepresented microprocessor of the energy storage 1 to determine the currently existing charge quantity or residual capacity of the lithium-ion battery of the energy storage 1 is provided. To switch off the energy storage 1 or for voltage isolation of the microprocessor, it is necessary to operate the switching element for a period of about four seconds. The energy storage 1 then goes into a sleep state to be able to largely rule out a decrease in the residual capacity in the non-use state of the energy storage can.

For manual adjustment of the output voltage of the energy storage 1 it is necessary the switching element 24 after switching on the energy storage 1 to press repeatedly, with each double-click of the switching element 24 the output voltage of the energy store 1 is gradually increased. In this case, four different voltage ranges ad are provided, which are assigned differently high input voltages of terminals. It is provided in the illustrated embodiment that the output voltage of the energy storage 1 is adjustable so that a power supply of terminals with an input voltage of 2.4 volts to 3.5 volts (voltage range a) or from 3.5 volts to 5.0 volts (voltage range b) or from 5.0 volts to 6, 5 volts (voltage range c) or from 6.5 volts to 8.4 volts (voltage range d) is possible. This means that it requires, for example, a terminal with an input voltage between 2.4 volts to 3.5 volts, the output voltage of the energy storage 1 to set to a value from the voltage range a. As the terminals usually have internal voltage regulators, it is not necessary that the level of the output voltage of the energy storage 1 exactly corresponds to the height of the input voltage of the terminal. It is therefore sufficient to define voltage ranges, which are each assigned differently high input voltages of the terminals. If the output voltage is then adjusted to a preferably average voltage value from a certain voltage range, all terminals can be supplied with an input voltage from the relevant voltage range via the energy storage with power without damage to the terminal are to be feared. The output voltage of the terminal 1 is in this context over the range of 2.4 volts to 8.4 volts gradually adjustable, the output voltage at least four different Voltage values from the aforementioned voltage ranges a to d can assume.

It is further provided that a manual adjustment of the output voltage is possible only before the connection of a terminal to the energy storage. Once an electrical connection between the first terminal means 3 and the terminal is made, is an adjustment of the output voltage of the energy storage 1 not possible anymore. This ensures that it during the power supply of the terminal via the energy storage 1 Damage to the terminal may not result from accidental adjustment of the output voltage.

Incidentally, it should be noted that at the second connection means 4 always the same output voltage of about 5.0 volts is applied because the powered via a USB interface terminals usually require an input voltage of 5.0 volts.

To display the height of the adjusted output voltage are four display means 25 provided, which may be colored light-emitting diodes. To display the amount of the currently existing charge amount or the remaining capacity of the energy storage 1 this has another display means 26 on. In the illustrated embodiment, it is provided that at a residual capacity of the accumulator of greater than or equal to 70%, the further display means 26 turns green, while at a residual capacity of between 30% to 70%, it turns orange. If the remaining capacity of the accumulator sunken to a value of less than or equal to 30% of the maximum capacity or the nominal capacity, the further display means lights up 26 red and goes into a flashing state as soon as the remaining capacity drops to a value of less than 10% of the maximum capacity. The flashing light becomes a user of the energy store 1 pointed out that it is necessary to charge the battery.

The microprocessor of the energy storage 1 is for automatic detection or determination of the input voltage to the energy storage 1 for the power supply of the connected terminal and for the automatic adjustment of the output voltage of the energy store 1 formed as a function of the input voltage of the terminal. For the automatic determination of the required input voltage of the terminal and the corresponding adjustment of the output voltage of the energy storage, it is necessary, the switching element 24 for the duration of two seconds continuously, whereby previously the terminal to the energy storage 1 must be connected and transferred to an operating state. Depending on the power consumption of the terminal then the output voltage of the energy storage 1 be managed. It is based on the lowest output voltage of the terminal 1 the output voltage gradually increased according to the voltage ranges a to d until the output voltage of the energy storage 1 and the input voltage of the terminal are in a common voltage range a to d. Thus, the over- or undersupply of electricity in the power supply of the terminal via the energy storage 1 locked out.

If the input voltage of the terminal can not be automatically detected or assigned to one of the voltage ranges a to d, it is provided in the embodiment shown that the voltage range a associated display means 25 flashes. The user of the energy storage 1 is thus noted that a power supply of the terminal with the energy storage 1 not possible. Preferably, the microprocessor of the energy storage 1 such functionalized that in the aforementioned case, a power supply of the terminal via the energy storage 1 can not be done.

Finally, the energy store 1 a not shown in detail over- or undervoltage protection and a short circuit protection. If a short circuit occurs, the energy store becomes 1 automatically transferred to the non-operating state. For a renewed power supply of a terminal with the energy storage 1 It is then necessary to have an access opening 27 of the housing 2 accessible reset switch of the energy storage 1 to press.

Finally, the energy store 1 a third display means 28 auf, which indicates to a user when recharging the accumulator that the energy storage 1 is in a charged state. In this connection, the third display means may light up in different colors to indicate a failure of the state of charge.

Finally, in the case 2 of the energy store 1 an opening 29 for a not shown transport or holding strap of the energy storage 1 intended.

Claims (28)

Transportable electrical energy store ( 1 ) for the temporary power supply of an electrical or electronic terminal with at least one accumulator and with at least one connection means ( 3 . 4 ) for the electrical connection of the energy store ( 1 ) with the terminal, wherein during the power supply of the terminal of the Accumulator is at least partially discharged, characterized in that for the power supply of at least two terminals with different high input voltages, the height of the output voltage to the terminal means ( 3 ) of the energy store ( 1 ) is adjustable as needed to at least two different voltage levels. Energy store according to claim 1, characterized that the Output voltage manually and / or automatically adjustable. Energy store according to Claim 1 or 2, characterized in that at least one microprocessor is provided and in that the microprocessor is able to carry out a function for the automatic determination of the currently present charge quantity or residual capacity of the energy store ( 1 ) and / or for automatically determining the input voltage of a to the energy storage ( 1 ) connected to the terminal and / or for automatically setting the output voltage of the energy store ( 1 ) is formed in response to the input voltage of the terminal. Energy store according to one of the preceding claims, characterized characterized in that the function for the automatic detection of the amount of charge or residual capacity before the Function for manual and / or automatic adjustment of the output voltage executable is. Energy store according to one of the preceding claims, characterized in that at least one switching element ( 24 ) for manually adjusting the output voltage and / or for controlling the microprocessor and / or for switching the energy store on and off ( 1 ) is provided. Energy store according to one of the preceding claims, characterized in that the microprocessor as a function of the operating time and / or the operating frequency of the switching element ( 24 ) is controllable. Energy store according to one of the preceding claims, characterized in that the manual adjustment of the output voltage only before the electrical connection of the terminal to the energy store ( 1 ) is possible. Energy store according to one of the preceding claims, characterized characterized in that the output voltage between 2V to 10V, preferably between 2.4 V to 8, 4 V. Energy store according to one of the preceding claims, characterized in that the height of the output voltage can be set to a voltage value to which a voltage range (ad) of possible input voltages of terminals is assigned, wherein the terminals assigned to a common voltage range (ad) at one of the voltage range (ad) corresponding voltage value set output voltage of the energy storage ( 1 ) are supplied with power. Energy store according to one of the preceding claims, characterized characterized in that Voltage range terminals with an input voltage of about 2.4 V to 3.5 V or about 3.5 V to 5V or from about 5V to 6.5V or from about 6.5V to 8.4 V are assigned. Energy store according to one of the preceding claims, characterized in that at least one display means ( 25 ), preferably a plurality of light-emitting diodes, is provided for indicating the level of the set output voltage. Energy store according to one of the preceding claims, characterized in that each voltage range (ad) has a display means ( 25 ) assigned. Energy store according to one of the preceding claims, characterized in that at least one display means ( 25 ) for displaying a faulty functional sequence in the automatic determination of the input voltage and / or the automatic adjustment of the output voltage of the energy store ( 1 ) is provided. Energy store according to one of the preceding claims, characterized in that at least one further display means ( 26 ), preferably a plurality of differently colored light emitting diodes, for displaying the amount of the currently existing charge quantity or residual capacity of the energy store ( 1 ) is provided. Energy store according to one of the preceding claims, characterized in that when the value falls below a fixed charge quantity or residual capacity, the display means ( 26 ) is operable as a flashing light. Energy store according to one of the preceding claims, characterized characterized in that an over- and / or Undervoltage protection are provided. Energy store according to one of the preceding claims, characterized characterized in that a automatic shutdown function and / or a reset function provided are. Energy store according to one of the preceding claims, characterized in that the charge quantity or rated capacity of the energy store ( 1 ) is more than 7000 mAh, preferably more than 8000 mAh. Energy store according to one of the preceding claims, characterized characterized in that maximum discharge or output current is more than 1000 mA, preferably at least 1500 mA. Energy store according to one of the preceding claims, characterized characterized in that at least a lithium-ion battery is provided. Energy store according to one of the preceding claims, characterized in that the length of the energy store ( 1 ) is less than 150 mm and / or the width is less than 100 mm and / or the height is less than 50 mm. Energy store according to one of the preceding claims, characterized characterized in that Weight of energy storage less than 500 g, preferably less than 250 g. Energy store according to one of the preceding claims, characterized characterized in that a USB interface is provided and that, preferably, the output voltage is non-adjustable at the USB interface and that, more preferably, the output voltage is approx. 5V. Energy store according to one of the preceding claims, characterized in that at least one further connection means ( 17 ) for connecting the accumulator to a power supply ( 22 ) is provided and that, preferably, at least a third display means ( 28 ) for displaying a state of charge of the energy store ( 1 ) is provided. Energy store according to one of the preceding claims, characterized characterized in that a Discharge function is provided for discharging the accumulator. System for temporary power supply of an electrical or electronic terminal with at least one energy store ( 1 ) according to one of the preceding claims, having at least one connection means ( 3 . 4 ) and at least one with the connection means ( 3 . 4 ) of the energy store ( 1 ) and at least one connection means of an electrical or electronic terminal connectable adapter plug ( 11 ). System according to Claim 26, characterized in that, in order to limit the output current of the energy store ( 1 ) at least one if necessary with the connection means ( 3 . 4 ) of the energy store ( 1 ) and with at least one connection means of the terminal connectable electrical resistance element ( 12 ) is provided. System according to claim 26 or 27, characterized in that at least one power supply ( 22 ) and / or at least one extension cable ( 6 ) and / or at least one protective cover for the energy store ( 1 ) is provided.