JP2008035644A - Power supply device, electronic device, inspection device, and power supply inspection system - Google Patents

Abstract

A power supply device capable of stopping charging from a charging circuit to a backup power supply without increasing the circuit scale is provided.
A power supply device 10 is for supplying power to another circuit. When power supply by a main battery is stopped, a backup battery 12 for supplying power to another circuit is provided. And a charging circuit 14 for supplying electric power necessary for charging the backup battery 12 using electric power supplied from the main battery. An inspection terminal 15 is provided between the charging circuit 14 and the backup battery 12, and a voltage equal to or higher than the voltage applied by the charging circuit 14 to the backup battery 12 is applied from the DC power supply 13 of the inspection device 20 to the inspection terminal 15. . Thereby, charging current can be prevented from flowing from the charging circuit 14 to the backup battery 12.
[Selection] Figure 1

Description

  The present invention relates to a power supply device for supplying power to another circuit, an electronic apparatus including the power supply device, an inspection device for inspecting the power supply device, and the power supply device and the inspection device. The present invention relates to a connected power supply inspection system.

  In general, a portable electronic device such as a mobile phone (hereinafter abbreviated as “device”) is equipped with a main battery for operating the device. Furthermore, even when the main battery is removed or when the main battery 101 is completely discharged, a backup battery is installed to operate a minimum circuit such as a clock or a memory that holds important data. Has been.

  FIG. 4 shows an example of a basic configuration of a conventional power supply unit including the main battery and the backup battery. As illustrated, the power supply unit includes a power supply device 100 and a main battery 101, and the power supply device 100 includes a backup battery 102, a power supply circuit 103, and a charging circuit 104.

  The main battery 101 is for supplying power to various components in the device. The backup battery 102 is for supplying power to the minimum necessary configuration in the device when the supply of power from the main battery 101 is stopped. The power supply circuit 103 is operated by applying an appropriate voltage to various components (other circuits) in the device using the electric power a · d supplied from the main battery 101 or the backup battery 102. . The charging circuit 104 uses the electric power b supplied from the main battery 101 to apply an appropriate voltage to the backup battery 102 to supply electric power c for charging.

  When power is supplied from the main battery 101, the power supply circuit 103 applies an appropriate voltage to various components in the device using the power a supplied from the main battery 101. Further, the charging circuit 104 uses the electric power b supplied from the main battery 101 to maintain the backup battery 102 in a fully charged state (fully charged state) as necessary. Will be supplied.

  On the other hand, when power is supplied from the backup battery 102, the power supply circuit 103 uses the power d supplied from the backup battery 102 to apply an appropriate voltage to various components in the device or a part thereof. Will do. In addition, since the charging circuit 104 stops supplying the electric power b from the main battery 101, the electric power c to the backup battery 102 is also stopped.

  By the way, in order to guarantee a continuous use time, which is a time during which a part or all of the functions of a device can be used continuously, an inspection of power consumption in the device is performed in the manufacturing process of the device. FIG. 5 shows an example of a basic configuration of an inspection system in the case where the above power consumption inspection is performed. As shown in the figure, the inspection system has a configuration in which an inspection device 110 is provided instead of the main battery 101 in the power supply unit shown in FIG. That is, the inspection system includes the power supply device 100 and the inspection device 110. The inspection device 110 includes a DC power supply 111 that replaces the main battery 101 and an ammeter 112 that measures the current flowing from the DC power supply 111.

  When the backup battery 102 is fully charged, there is almost no current (hereinafter referred to as “charging current”) supplied from the DC power supply 111 to the backup battery 102 via the charging circuit 104. Therefore, the current value from the DC power supply 111, that is, the current value measured by the ammeter 112 is the current supplied from the DC power supply 111 to various components in the device via the power supply circuit 103 (hereinafter referred to as “operation current”). Current value). Therefore, the continuous use time is calculated by using the current value measured by the ammeter 112 when using some or all of the functions of the device and the amount of electricity (capacity) that the main battery 101 can discharge. Can be requested.

However, secondary batteries used for main batteries, backup batteries, etc., generally have a short life when left in a fully charged state or completely discharged state, so they are generally shipped in a properly charged state. It is. For this reason, the current value measured by the ammeter 112 includes the current value of the charging current. Still, if the current value of the charging current can be estimated, the continuous use time can be easily obtained. However, the state of charge of the secondary battery at the time of shipment is not particularly specified, and thus differs from lot to lot or from individual to solid. Therefore, it is difficult to estimate the current value of the charging current. For this reason, it is difficult to obtain the continuous use time from the current value of the ammeter 112.
Japanese Utility Model Publication No. 4-93176 (published August 13, 1992) JP 2002-131403 A (published on May 9, 2002)

  As described above, when the power consumption inspection is performed in the device manufacturing process, it is necessary to minimize the influence of the charging current. Conventionally, in order to avoid this problem, the backup battery 102 has a removable structure, and the backup battery 102 is removed at the time of the power consumption inspection. However, in this case, it is necessary to reattach the removed backup battery 102 after the power consumption inspection.

  Further, a mechanical or electrical switch is provided between the main battery 101 (inspection device 110) and the charging circuit 104, or between the charging circuit 104 and the backup battery 102, and the power consumption is inspected. The above switch was turned off. However, in this case, since it is necessary to add a switch, the circuit scale of the power supply device 100 is increased.

  Patent Document 1 discloses a printed wiring board structure in which the battery current does not affect the inspection machine even during circuit inspection, and the inspection can be performed accurately. In this printed wiring board structure, a part of the male connector on the printed wiring board is used as a switch between the battery and the circuit, and a part of the female connector corresponding to this connector is connected to a jumper wire. Connected with.

  Before assembling the connector, the battery and the circuit are disconnected by the connector. Therefore, it is not necessary to be affected by the battery at the time of inspection. And in the assembly process after a test | inspection, between a battery and a circuit is connected by connecting a female connector to a male connector. This eliminates the need for a new process for connecting the battery and the circuit. However, in the printed wiring board structure described in Patent Document 1, it is necessary to increase the scale of the connector in order to use some terminals of the connector.

  Patent Document 2 discloses a battery pack inspection device for inspecting the operation of the battery protection circuit of the battery pack. FIG. 6 shows a main configuration of the battery pack and the inspection apparatus described in the document. As illustrated, the battery pack 120 is provided with a backup battery 121, a charge control circuit 122, and a switch element 123. The inspection apparatus 130 is provided with a charging power supply 131.

  The charging power supply 131 supplies a charging current for charging the backup battery 121. The switch element 123 turns on / off the charging of the backup battery 121. The charge control circuit 122 prevents overcharge of the backup battery 121. Specifically, the charging control circuit 122 monitors the terminal voltage of the backup battery 121 and controls the switch element 123 to be turned off when an overcharge voltage is detected.

  In the battery pack 120 described in Patent Literature 2, an inspection terminal 124 is provided between the charge control circuit 122 and the backup battery 121. The inspection device 130 can inspect whether or not the charge control circuit 122 is functioning by applying an overcharge voltage to the inspection terminal 124.

  When the battery pack 120 shown in FIG. 6 is applied to the backup battery 102 shown in FIG. 5, charging to the backup battery 102 can be stopped by an external inspection device. You can ask for time. However, since it is necessary to newly provide the charge control circuit 122 and the switch element 123, the circuit scale of the power supply device 100 increases.

  The present invention has been made in view of the above problems, and an object of the present invention is to provide a power supply device that can stop charging from a charging circuit to a backup power supply without increasing the circuit scale. is there.

  A power supply device according to the present invention is a power supply device for supplying power to another circuit, and when the power supply by a main power supply is stopped, a backup for supplying power to the other circuit. In order to solve the above-described problem, a power supply device including a power supply and a charging circuit that supplies power necessary for charging the backup power supply using the power supplied from the main power supply. It is characterized in that an external connection terminal is provided between the backup power supply.

  According to the above configuration, the external connection terminal is provided between the charging circuit and the backup power source. By applying a voltage higher than the voltage applied by the charging circuit to the backup power supply from the outside to the external connection terminal, it is possible to prevent a charging current from flowing from the charging circuit to the backup power supply. Therefore, since the power supply device according to the present invention does not require a switch or a backup power supply to be removed, charging from the charging circuit to the backup power supply can be stopped without increasing the circuit scale. .

  The power supply device according to the present invention may further include a power supply circuit that supplies power corresponding to the other circuit using the power supplied from the main power supply or the backup power supply. Furthermore, the power supply circuit and the charging circuit may be integrally formed with a power supply IC.

  In addition, if it is an electronic device provided with the power supply device of the said structure, there can exist the above-mentioned effect. Here, examples of the electronic apparatus include a power supply unit including a power supply device and a main power supply, a PC (Personal Computer), a mobile communication terminal, and a home appliance.

  The inspection device according to the present invention is a power supply device for supplying power to another circuit, and when the power supply by a main power supply stops, a backup power supply for supplying power to the other circuit And a charging device for supplying power necessary for charging the backup power supply using the power supplied from the main power supply, and a testing device for testing the power supply device A first power source for supplying power instead of the main power source, an ammeter for measuring a current supplied from the first power source, and a second power source for supplying power to the backup power source, The power supply is characterized in that a voltage equal to or higher than a voltage applied when the charging circuit charges the backup power supply is applied to the backup power supply.

  According to said structure, the 2nd power supply is applying the voltage more than the voltage applied when the charging circuit in a power supply device charges backup power supply to the said backup power supply. Thereby, it is possible to prevent a charging current from flowing from the charging circuit to the backup power supply, so that there is almost no charging current supplied from the first power supply instead of the main power supply to the backup power supply via the charging circuit. Therefore, the current value from the first power source, that is, the current value measured by the ammeter is the current value of the operating current supplied from the first power source to another circuit. Therefore, various tests relating to the power supplied to the other circuits by the power supply device can be performed using the current value measured by the ammeter.

  Examples of various tests relating to the power supplied from the power supply device to other circuits include a test of the power value, a test of continuous use time when the main power supply is a secondary battery, and the like.

  The inspection device according to the present invention further includes a grounding wire connected to the positive or negative electrode of the first power supply and the positive or negative electrode of the second power supply, and the grounding wire is connected to the ground of the power supply device. It is preferable to connect with a line. In this case, since the inspection device can make the ground level equal to the ground level of the power supply device, an accurate inspection can be performed.

  The above-described effects can be achieved with a power supply inspection system in which the power supply device having the above configuration and the inspection device having the above configuration are connected.

  As described above, the power supply device according to the present invention externally applies a voltage higher than the voltage applied to the backup power supply by the charging circuit to the external connection terminal provided between the charging circuit and the backup power supply. By doing so, the charging current from the charging circuit to the backup power supply can be blocked, so that the charging from the charging circuit to the backup power supply can be stopped without increasing the circuit scale.

[Embodiment 1]
An embodiment of the present invention will be described with reference to FIGS. 1 and 2. FIG. 1 shows a schematic configuration of the power supply inspection system of the present embodiment. As illustrated, the power supply inspection system includes a power supply device 10 and an inspection device 20, and the power supply device 10 includes a backup battery (backup power supply) 12, a power supply circuit 13, and a charging circuit 14. is there. In the illustrated power supply device 10, an inspection device 20 is provided instead of the main battery (main power supply) for inspection of power consumption.

  A main battery (not shown) is for supplying electric power to various components in the device. The backup battery 12 is for supplying power to the minimum necessary configuration in the device when the supply of power from the main battery is stopped. The main battery and the backup battery 12 are rechargeable secondary batteries. Note that the type of secondary battery to be used depends on the performance of the device.

  The power supply circuit 13 is operated by applying appropriate voltages to various components in the device using the electric power a · d supplied from the main battery or the backup battery 12. The charging circuit 14 uses the electric power b supplied from the main battery to apply an appropriate voltage to the backup battery 12 to supply electric power c and charge it.

  When power is supplied from the main battery, the power supply circuit 13 applies an appropriate voltage to various components in the device using the power a supplied from the main battery. In addition, the charging circuit 14 supplies power c as necessary to maintain the backup battery 12 in a fully charged state (fully charged state) using the power b supplied from the main battery. Will do.

  On the other hand, when power is supplied from the backup battery 12, the power supply circuit 13 uses the power d supplied from the backup battery 12 to apply an appropriate voltage to various components in the device or a part thereof. Will do. In addition, since the charging circuit 14 stops supplying the power b from the main battery, the power c to the backup battery 12 is also stopped.

  On the other hand, the inspection device 20 is configured to include a DC power source (first power source) 21 serving as a substitute for the main battery, and an ammeter 22 that measures a current flowing from the DC power source 21. The configurations of the power supply device 10 and the inspection device 20 described above are the same as the configurations of the conventional power supply device 100 and the inspection device 110 shown in FIG.

  In the power supply device 10 of the present embodiment, an inspection terminal (external connection terminal) 15 is provided between the charging circuit 14 and the backup battery 12. Further, in the inspection device 20 of the present embodiment, a DC power source (second power source) 23 that applies an appropriate voltage to the inspection terminal 15 and supplies the power e to the backup battery 12 through the inspection terminal 15. Is provided.

  FIG. 2 shows a main configuration of the power supply device 10 shown in FIG. As illustrated, the DC power source 23 of the inspection device 20 applies a voltage (for example, 3.2 V) higher than the voltage (for example, 3.1 V) applied to the backup battery 12 by the charging circuit 14 to the inspection terminal 15. Apply. As a result, a charging current is supplied from the inspection device 20 to the backup battery 12 via the inspection terminal 15. On the other hand, the supply of the charging current from the charging circuit 14 to the backup battery 12 can be stopped.

  Therefore, regardless of the state of charge of the backup battery 12, there is almost no charging current supplied from the DC power supply 21 of the inspection device 20 to the backup battery 12 via the charging circuit 14. As a result, the current value from the DC power supply 21, that is, the current value measured by the ammeter 22 becomes the current value of the operating current supplied from the DC power supply 21 to the various components in the device via the power supply circuit 13. Therefore, by using the current value measured by the ammeter 22 when some or all of the functions of the device are used and the capacity of the main battery, some or all of the functions of the device are continuously performed. The continuous use time which can be used can be calculated | required and it can be test | inspected whether the predetermined | prescribed continuous use time is reached.

  As described above, the power supply device 10 according to the present embodiment does not need to provide a switch or remove the backup battery 12 in order to stop the supply of the charging current from the charging circuit 14 to the backup battery 12. Therefore, an increase in the circuit scale of the power supply device 10 can be prevented, and an increase in the number of manufacturing steps can be prevented.

  In the present embodiment, the DC power supply 23 of the inspection device 20 applies a voltage higher than the voltage applied to the backup battery 12 by the charging circuit 14 to the inspection terminal 15. A voltage equal to the voltage applied to may be applied. Even in this case, the supply of the charging current from the charging circuit 14 to the backup battery 12 can be stopped.

[Embodiment 2]
Another embodiment of the present invention will be described with reference to FIG. FIG. 3 shows a schematic configuration of the power supply device and the inspection device of the present embodiment.

  By the way, in the case of a normal portable electronic device, a plurality of electronic circuits included in the power supply device 10 are often integrally formed by a power supply IC (Integrated Circuit). The main battery is detachably provided on the power supply device 10 and is often connected to a main battery connector (main battery connection terminal) when the main battery is mounted.

  Therefore, the power supply device 30 of the present embodiment shown in FIG. 3 is different from the power supply device 10 shown in FIG. 1 in that the power supply circuit 13 and the charging circuit 14 are integrally provided in the power supply IC 31. The difference is that a main battery connection terminal 32 connected to the battery is provided. In addition, the physical connection relationship is different along with this, but the geometric connection relationship is the same. In addition, the same code | symbol is attached | subjected to the structure which has the function similar to the structure demonstrated in the said embodiment, and the description is abbreviate | omitted.

  As shown in FIG. 3, the power supply IC 31 is connected to the positive terminal of the main battery connection terminal 32 and is connected to the backup battery 12 via a resistance element. The main battery connection terminal 32 has a negative terminal grounded. The inspection terminal 15 is connected between the power supply IC 31 and the backup battery 12.

  On the other hand, the inspection device 20 shown in FIG. 3 differs from the inspection device 20 shown in FIG. 1 in that a ground line is provided, and the other configurations are the same. The ground line is connected to the negative electrodes of the two DC power sources 21 and 23 and is grounded.

  When performing the continuous use time inspection for the power supply device 30 having the above configuration, the inspection device 20 having the above configuration is configured such that the positive electrode of the DC power supply 21 is connected to the positive terminal of the main battery connection terminal 32 via the ammeter 22. The positive electrode of the DC power supply 23 is connected to the inspection terminal 15.

  Further, the ground line is connected to the negative terminal of the main battery connection terminal 32. As a result, the ground level of the power supply device 30 and the ground level of the inspection device 20 can be aligned, and as a result, accurate inspection can be performed.

  The present invention is not limited to the above-described embodiments, and various modifications are possible within the scope shown in the claims, and embodiments obtained by appropriately combining technical means disclosed in different embodiments. Is also included in the technical scope of the present invention.

  For example, although the power supply device of the above embodiment supplies power to various configurations of portable electronic devices, it can supply power to various configurations of arbitrary electronic devices such as in-vehicle electronic devices and home appliances. it can. In addition, the main battery only needs to be able to supply power to other circuits, and therefore any power source such as an AC power source or a DC power source using an AC power source can be used. Further, since the backup battery may be any battery that can store electricity, for example, an electric double layer can be used.

  Since charging from the charging circuit to the backup power supply can be prevented without increasing the size of the power supply device, it can be applied to any power supply device having a main power supply and a backup power supply.

It is a circuit diagram which shows schematic structure of the device for power supplies and inspection device which are one Embodiment of this invention. It is a circuit diagram which shows the principal part structure of the said device for power supplies. It is a circuit diagram which shows schematic structure of the device for power supply which is other embodiment of this invention, and a test | inspection device. It is a circuit diagram which shows an example of the fundamental structure of the conventional device for power supplies. It is a circuit diagram which shows an example of the fundamental structure of the conventional power supply device and test | inspection device at the time of a test | inspection. It is a circuit diagram which shows the principal part structure of the conventional battery pack and test | inspection apparatus.

Explanation of symbols

10.30 Power supply device 12 Backup battery (backup power supply)
13 Power Supply Circuit 14 Charging Circuit 15 Inspection Terminal (External Connection Terminal)
31 IC for power supply
20 Inspection device 21 DC power supply (first power supply)
22 Ammeter 23 DC power supply (second power supply)

Claims (7)

A power supply device for supplying power to another circuit,
When the power supply by the main power supply is stopped, the backup power supply for supplying power to the other circuit and the power necessary for charging the backup power supply are supplied using the power supplied from the main power supply. A power supply device comprising:
An external connection terminal is provided between the charging circuit and the backup power source.   The power supply device according to claim 1, wherein a voltage equal to or higher than a voltage applied by the charging circuit to the backup power supply is applied to the external connection terminal from the outside. A power supply circuit for supplying power corresponding to the other circuit using the power supplied from the main power supply or the backup power supply;
The power supply device according to claim 1, wherein the power supply circuit and the charging circuit are integrally formed by a power supply IC.   The electronic device provided with the device for power supplies of any one of Claim 1 thru | or 3. A power supply device for supplying power to another circuit, when the power supply by the main power supply is stopped, a backup power supply for supplying power to the other circuit, and supplied from the main power supply An inspection device for inspecting a power supply device comprising a charging circuit for supplying power necessary for charging the backup power supply using
A first power source for supplying power instead of the main power source;
An ammeter for measuring the current supplied from the first power source;
A second power source for supplying power to the backup power source,
2. The inspection device according to claim 2, wherein the second power source applies a voltage equal to or higher than a voltage applied when the charging circuit charges the backup power source to the backup power source. A ground wire connected to the positive or negative electrode of the first power source and the positive or negative electrode of the second power source and grounded;
The inspection device according to claim 5, wherein the ground line is connected to a ground line of the power supply device.   The power supply inspection system which connected the device for power supplies of any one of Claim 1 thru | or 3, and the test | inspection device of Claim 5 or 6.

Images