JP2002324588A - Pack battery, pack battery and connection device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To suppress a wasteful power consumption when not in use, with a simple circuit configuration. SOLUTION: A pack battery incorporates a semiconductor power consuming circuit 12 and a secondary battery 11. The secondary battery 11 built in the pack battery supplies electric power to the semiconductor power consuming circuit 12 through a connection device 20 for attaching the pack battery.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a battery pack capable of reducing wasteful power consumption when not in use, and a combination of the battery pack and a connected device.

[0002]

2. Description of the Related Art FIG. 1 is a circuit diagram of a battery pack 10 and a connection device 20 to which the battery pack 10 is attached. This battery pack 10
A semiconductor power consuming circuit 12 for realizing a circuit for calculating the remaining capacity of the secondary battery 11, and a secondary battery 1 with a voltage stabilized by the semiconductor power consuming circuit 12.
A regulator 18 for supplying power from the power supply 1 and a battery protection circuit 13 are built in. The semiconductor power consumption circuit 12 and the protection circuit 13 are supplied with power from the secondary battery 11. After the battery pack 10 having this circuit configuration is manufactured at the factory,
It may be stored in the warehouse for a long time before it is shipped. Also, the user may leave the battery pack unattended from the connected device. Since the semiconductor power consuming circuit operates using the secondary battery built in the battery pack as a power supply, the semiconductor power consuming circuit is useless even when the battery pack is removed from the connected device or the power switch of the connected device is turned off. Power consumption. Therefore, even when the connection device is not used, the remaining capacity of the built-in secondary battery gradually decreases. If this state becomes longer, the battery may be over-discharged. Batteries have significantly reduced performance due to overdischarge. It is important to reduce current consumption in order to prevent performance degradation due to overdischarge. The battery pack having this circuit configuration switches the operation mode of the semiconductor power consumption circuit from the normal operation mode to the low power consumption mode in order to reduce unnecessary current consumption. The current consumption in the normal operation mode is generally on the order of mA.
On the other hand, the current consumption in the low power consumption mode is as small as μA. Therefore, when the battery pack is stored in the low power consumption mode, overdischarge due to current consumption can be effectively prevented.

In order to realize this, a battery pack having a built-in mode switching circuit for switching an operation mode has been developed. This battery pack is also provided with an attachment detection terminal which is a dedicated terminal for detecting whether or not the battery is attached to an electric device. The battery pack detects that the battery pack has been removed from the electric device, switches to the low power consumption mode by the mode switching circuit, and switches to the normal operation mode when the battery is attached to the electric device. However, a battery pack of this structure requires a dedicated mode switching circuit, and furthermore, a structure for detecting mounting is provided in both the battery pack and the electric device, so that the circuit configuration is complicated and the manufacturing cost is high. There are disadvantages.

[0004] The present invention has been developed for the purpose of solving such a drawback. It is an important object of the present invention to provide a battery pack or a combination of a battery pack and a connected device that has a simple circuit configuration and can reduce wasteful current consumption when not in use.

[0005]

The battery pack of the present invention comprises:
The semiconductor power consumption circuit 12 and the secondary battery 11 are built in. The secondary battery 11 built in the battery pack supplies power to the semiconductor power consumption circuit 12 via the connection device 20 to which the battery pack is mounted.

Further, the battery pack according to the second aspect of the present invention incorporates the semiconductor power consuming circuit 12 and the secondary battery 11, and the power supply circuit of the connection device 20 to which the battery pack is mounted is changed from the semiconductor power consuming circuit. 12 is supplied with electric power.

[0007] The semiconductor power consumption circuit 12 of the battery pack includes:
An arithmetic circuit for calculating the remaining capacity of the secondary battery 11 can be provided. Further, the battery pack can include a non-volatile memory for storing the separation time disconnected from the connection device 20. Furthermore, the battery pack includes a semiconductor power consuming circuit 12 and a protection circuit 13, and the protection circuit 13 can supply power from the secondary battery 11 of the battery pack.

According to a sixth aspect of the present invention, there is provided a battery pack and a connection device comprising: a battery pack containing a semiconductor power consuming circuit and a secondary battery; and a connection apparatus to which the battery pack is detachably mounted. Combination. The secondary battery 11 built in the battery pack 10 is
The power is supplied to the semiconductor power consuming circuit 12 of the battery pack 10 via the connection device 20 to which is attached.

A battery pack and a connection device according to a seventh aspect of the present invention are a combination of a battery pack containing a semiconductor power consuming circuit 12 and a secondary battery 11, and a connection device for detachably mounting the battery pack. The power supply circuit of the connected device 20 to be mounted supplies power to the semiconductor power consumption circuit 12 of the battery pack.

The connected device is a regulator 21 that regulates the voltage of the secondary battery 11 and supplies the regulated voltage to the semiconductor power consuming circuit 12.
Can be provided. When the battery pack is mounted, the connection device supplies power to the semiconductor power consumption circuit 12 of the battery pack via the regulator 21.

In one of the battery pack and the connected device, a non-volatile memory for storing a separation time when the battery pack is disconnected from the connected device is provided, and when the battery pack is mounted on the connected device, the non-volatile memory is stored. From the separation time, and the mounting time when the battery pack is mounted on the connected device,
The remaining capacity of the battery pack can be corrected.

[0012]

Embodiments of the present invention will be described below with reference to the drawings. However, the following examples illustrate a battery pack and a connection device for embodying the technical idea of the present invention, and the present invention does not specify the battery pack and the connection device as follows.

Further, in this specification, in order to make it easier to understand the claims, the numbers corresponding to the members shown in the embodiments will be referred to as “claims” and “ In the column of “means”.
However, the members described in the claims are not limited to the members of the embodiments.

The battery pack 10 shown in FIG.
1, a semiconductor power consumption circuit 12 and a protection circuit 13. The secondary battery 11 is a lithium ion secondary battery.
However, the battery may be any rechargeable battery, for example, a nickel-hydrogen battery or a nickel-cadmium battery.

The semiconductor power consuming circuit 12 includes the battery pack 1.
0, an arithmetic circuit for calculating the remaining capacity of the secondary battery 11, a communication circuit for communicating between the battery pack 10 and the connected device 20, a storage circuit for storing information on the battery pack 10, and the like. Prepare. The remaining capacity calculation circuit calculates the remaining capacity by subtracting the discharge capacity from the charge capacity of the secondary battery 11. The charging capacity is calculated by multiplying the integrated value of the charging current by the charging efficiency. The discharge capacity is calculated by multiplying the integrated value of the discharge current by the discharge efficiency. The communication circuit transmits information such as the remaining capacity of the secondary battery 11 to the connection device 20. The memory circuit is
Information such as the model of the battery pack 10 is stored in order to identify the non-standard battery pack 10. The battery pack 10 outputs information stored in the storage circuit to the connection device 20 when the battery pack 10 is attached to the connection device 20. Connected equipment 2
A value of 0 identifies whether or not the battery pack is a standard battery pack based on the input information, and controls not to use a non-standard battery pack.

The power supply circuit of the semiconductor power consumption circuit 12 is not connected to the secondary battery 11 of the battery pack 10 in the battery pack 10. This power supply circuit is connected to the secondary battery 11 of the battery pack 10 via the connection device 20 to which the battery pack 10 is mounted. Therefore, the battery pack 10 has a power input terminal 14 connected to the power circuit of the semiconductor power consuming circuit 12. The power input terminal 14 is connected to the connection device 2
0 is connected to the power supply output terminal 24 provided. The battery pack 10 and the connection device 20 are connected via the USB interface 3
0 is connected. The USB interface 30 has a power supply line 31. USB interface 30
Power line 31 is connected from the connection device 20 to the battery pack 10.
Used to supply power to The USB interface 30 is used not only for the power supply line 31 but also for a communication line between the battery pack 10 and the connection device 20. However, according to the present invention, the battery pack and the connected device are not necessarily connected by USB.
There is no need to connect with an interface. The power input terminal of the battery pack and the power output terminal of the connected device can be connected by a dedicated power line.

The battery pack 10 has a power supply terminal 15 for supplying power to the connection device 20. The power supply terminal 15 connects the positive and negative electrodes of the secondary battery 11 built in the battery pack 10. The power supply terminal 15 is connected to the power supply terminal 25 of the connection device 20 and supplies power from the secondary battery 11 of the battery pack 10 to the connection device 20. The connection device 20 has a built-in regulator 21 for stabilizing the voltage supplied from the battery pack 10. The connection device 20 including the regulator 21 can keep the power supply voltage constant even when the voltage input from the battery pack 10 fluctuates. Therefore, a battery pack 10 incorporating a secondary battery, such as a lithium ion secondary battery, whose output voltage changes according to the remaining capacity, is provided.
It is suitable for the connection device 20 driven by. The power stabilized by the regulator 21 is supplied as power for driving the connected device 20, and is supplied from the connected device 20 as power for driving the semiconductor power consumption circuit 12 of the battery pack 10. The connected device does not necessarily have a built-in regulator. For example, a pack battery in which a secondary battery is a nickel-hydrogen battery or a nickel-cadmium battery has a small change in output voltage, so that the regulator can be omitted. However, battery packs that incorporate these secondary batteries
The voltage can be stabilized by a regulator built in the connected device.

The protection circuit 13 prevents an excessive current from flowing through the secondary battery 11. The protection circuit 13 includes the secondary battery 1
The switching device 16 includes a switching element 16 that cuts off one current, and a protection IC 17 that controls the switching element 16 to turn on and off. The protection IC 17 detects a current flowing through the secondary battery 11 and controls the switching element 16 to turn on and off. When a current larger than the set current flows through the secondary battery 11, the protection IC 17 detects this and switches the switching element 16 off. The protection circuit 13 consumes little or no power. The protection circuit 13 that slightly consumes power supplies power from the secondary battery 11 built in the battery pack 10.

The semiconductor power consuming circuit 12 for supplying power from the connection device 20 does not operate in a state where the semiconductor power consumption circuit 12 is disconnected from the connection device 20. In this state, the semiconductor power consumption circuit 12 cannot calculate the remaining capacity of the secondary battery 11. In order to calculate the remaining capacity of the secondary battery 11 with the battery pack 10 disconnected from the connection device 20, the battery pack 10 includes a nonvolatile memory. The non-volatile memory stores a separation time when the battery pack 10 is disconnected from the connection device 20. The non-volatile memory stores the separation time when the battery pack 10 is removed, for example, at 0:00 on January 1, 2000. When the battery pack 10 is mounted on the connection device 20, the battery pack 10 is connected to the connection device 2 based on the difference between the mounting time and the separation time.
The total time that has been excluded from zero is calculated. For example, if the mounting time is 0:00 on February 1, 2000, the total time during which the battery pack 10 has been removed from the connected device 20 is 31 days. When the battery pack 10 is detached from the connection device 20, the remaining capacity of the secondary battery 11 gradually decreases. In a state where the battery pack 10 is detached from the connection device 20, the discharge amount of the battery pack 10 can be substantially estimated at a total time interval disconnected from the connection device 20. This is because the amount of discharge of the battery pack 10 removed from the connection device 20 increases with time. The secondary battery 11 built in the battery pack 10 is self-discharged and discharged by the protection IC 17.
Therefore, the discharge capacity of the secondary battery 11 built in the battery pack 10 can be calculated based on the total time during which the battery pack 10 is disconnected from the connection device 20. When the battery pack 10 is attached to the connection device 20, the discharge capacity when the battery pack is removed is calculated and subtracted from the remaining capacity before removing the discharge capacity, and the remaining capacity of the secondary battery 11 of the battery pack 10 is calculated. Will be corrected.

The structure in which the non-volatile memory for storing the separation time is provided in the battery pack 10 has the advantage that the remaining capacity of each battery pack 10 can be accurately corrected even when a plurality of battery packs 10 are replaced and used. . However, the nonvolatile memory can be provided in the connection device.

The battery pack 10 is attached to the connection device 20 so as to be detachable. Battery pack 10 is connected device 20
When the battery pack 10 is mounted on the battery pack 10, the battery terminals 10 and 25 of the connected device 20 are connected to each other, and power is supplied from the battery pack 10 to the connected device 20. In this state, power is supplied from the connection device 20 to the semiconductor power consumption circuit 12 of the battery pack 10, and the semiconductor power consumption circuit 12 is activated. Furthermore, the battery pack 10 and the connection device 2
0 is connected so that communication is possible via the USB interface 30.

The illustrated connection device 20 has an AC power supply circuit 22 built therein. The AC power supply circuit 22 charges the secondary battery 11 of the battery pack 10 and supplies power to the connected device 20. In this state, the AC power supply circuit 22 also supplies power to the semiconductor power consumption circuit 12 of the battery pack 10.
Therefore, in this state, the secondary battery 11 does not supply power to the semiconductor power consumption circuit 12, and the AC power supply circuit 22 of the connection device 20 supplies power to the semiconductor power consumption circuit 12.

[0023]

According to the present invention, the battery pack and the battery pack and the connected equipment have a simple circuit configuration and have an advantage of extremely reducing unnecessary current consumption when not in use. This is because the secondary battery built in the battery pack supplies power to the semiconductor power consumption circuit of the battery pack via the connection device to which the battery pack is mounted.
For this reason, when the battery pack is disconnected from the connected device, that is, when the battery pack is not used, power is not supplied from the secondary battery to the semiconductor power consumption circuit, and wasteful current consumption in this state is extremely small. Can be reduced. In particular, according to the present invention, useless current consumption can be extremely reduced with an extremely simple circuit configuration without providing a dedicated switching circuit for detecting whether a battery pack is attached to a connected device and switching to a low power consumption mode. Another feature is that the circuit configurations of both the battery pack and the electric device can be extremely simplified, and the manufacturing cost can be reduced.

Further, the battery pack of the second aspect of the present invention and the battery pack and the connecting device of the seventh aspect of the present invention provide power from the power supply circuit of the connecting device to which the battery pack is mounted to the semiconductor power consuming circuit of the battery pack. Because we are supplying
In a state where the battery pack is connected to the connected device, the secondary battery does not supply power to the semiconductor power consuming circuit, but supplies power to the semiconductor power consuming circuit from the power supply circuit of the connected device to reduce the power consumption of the secondary battery. Can be reduced.

[Brief description of the drawings]

FIG. 1 is a schematic configuration diagram showing a conventional battery pack and connected devices.

FIG. 2 is a schematic configuration diagram showing a battery pack and connected devices according to an embodiment of the present invention.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 10 ... Pack battery 11 ... Secondary battery 12 ... Semiconductor power consumption circuit 13 ... Protection circuit 14 ... Power supply input terminal 15 ... Power supply terminal 16 ... Switching element 17 ... Protection IC 18 ... Regulator 20 ... Connection equipment 21 ... Regulator 22 ... AC power supply Circuit 24 Power supply output terminal 25 Power supply terminal 30 USB interface 31 Power supply line

 ──────────────────────────────────────────────────続 き Continued on the front page F term (reference) 5G003 BA01 DA13 EA05 FA04 FA07 GB03 5H030 AA00 AS06 BB01 BB21 DD00 5H040 AA00 AA39 AS11

Claims (11)

[Claims] A semiconductor power consuming circuit (12) and a secondary battery (11)
Battery with a built-in secondary battery (1
1) A battery pack characterized in that power is supplied to the semiconductor power consuming circuit (12) via a connection device (20) for mounting the battery pack. 2. A semiconductor power consuming circuit (12) and a secondary battery (11).
Battery, and the connected device (2
A battery pack characterized in that the power supply circuit of (0) supplies power to the semiconductor power consumption circuit (12). 3. The semiconductor power consuming circuit (12) includes a secondary battery (11).
The battery pack according to claim 1 or 2, further comprising an arithmetic circuit for calculating the remaining capacity. 4. A non-volatile memory for storing a separation time when the battery pack is disconnected from the connection device (20).
Or the battery pack described in 2. 5. The battery pack includes a semiconductor power consumption circuit (12) and a protection circuit (13), and the protection circuit (13) is supplied with power from a secondary battery (11) of the battery pack. Item 6. The battery pack according to Item 1 or 2. 6. A semiconductor power consuming circuit (12) and a secondary battery (11)
And a connection device for detachably mounting the battery pack, wherein the secondary battery (11) incorporated in the battery pack is connected to the battery pack via the connection device equipped with the battery pack. A battery pack and a connection device, wherein power is supplied to a semiconductor power consumption circuit (12) of the battery. 7. A semiconductor power consuming circuit (12) and a secondary battery (11)
And a connecting device for detachably mounting the battery pack, wherein the power supply circuit of the connected device supplies power to the semiconductor power consumption circuit (12) of the battery pack. A battery pack and connected equipment, characterized in that they are made of 8. A regulator (21) which a connected device regulates the voltage of a secondary battery (11) and supplies the voltage to a semiconductor power consuming circuit (12).
The battery pack according to claim 6 or 7, further comprising: when the battery pack is mounted on the connection device, supplies power to the semiconductor power consumption circuit (12) of the battery pack via the regulator (21) of the connection device. And connected equipment. 9. A semiconductor power consuming circuit for a battery pack.
Comprises a circuit for calculating the remaining capacity of the secondary battery (11).
Or the battery pack and the connection device described in 7. 10. The battery pack or one of the connected devices,
A non-volatile memory that stores the separation time when the battery pack is disconnected from the connected device is provided.When the battery pack is installed in the connected device, the non-volatile memory stores the separation time and the battery pack is installed in the connected device. 10. The battery pack and the connection device according to claim 9, wherein the remaining capacity of the battery pack is corrected based on the time of the mounting time. 11. A battery pack comprising a semiconductor power consuming circuit (12).
The battery pack and the connection device according to claim 6 or 7, wherein the battery pack includes a battery and a protection circuit (13), and the protection circuit (13) is supplied with power from a secondary battery (11) of the battery pack.