JP2001166854A - Power supplying method and power supply circuit - Google Patents

Abstract

PROBLEM TO BE SOLVED: To supply power so as to enable a long-hour operation to be performed. SOLUTION: The voltage level of the power supplied via an interface terminal 12 is supplied to a power supply selecting part 15 by adjusting the voltage to a prescribed level by a DC/DC converter 14. A battery 50 is connected with the power supply selecting part 15. Power at a desired voltage level is supplied to a load by using the power supplied by a DC/DC converter 16 via the interface terminal 12. When the DC/DC converter 14 shows an overload state and no load can be driven by the power supplied by the interface terminal 12, power supply from the battery 50 is started. Thus, drive operating time by the battery is made longer.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

The present invention relates to a power supply method and a power supply circuit. More specifically, power is supplied via an interface, and when desired power is not obtained, power supply from a battery is started to enable long-time operation.

[0002]

2. Description of the Related Art Conventionally, various interface standards have been proposed for connecting peripheral devices to computer devices. These interface standards go beyond simply communicating between computer devices and peripherals.
An interface standard that can also supply power from a computer device to peripheral devices, for example, USB (Universal Ser
ial Bus) standard has been proposed.

According to the USB standard, electric power can be supplied to peripheral devices from a hub for connecting a plurality of devices via a computer or a network, with an upper limit of 500 mA. For this reason, a peripheral device with low power consumption can obtain the required power through the interface, so that it is not necessary to have a power supply device. On the other hand, when it is not possible to operate the peripheral device with the power obtained through the interface, an AC adapter is used. In a case where the outlet is not provided or the number of outlets is insufficient, a primary battery or a rechargeable battery is used. Possible secondary batteries are used.

[0004]

By the way, the operation time when a battery is used is limited by the capacity of the battery. To operate the battery for a long time, a plurality of batteries are used. A battery having a large shape must be used, which is not suitable for carrying a computer device or a peripheral device.

In view of the above, the present invention provides a power supply method and a power supply circuit capable of supplying power so that an electronic device having an interface capable of supplying power can operate for a long time.

[0006]

A power supply method according to the present invention supplies power via an interface and from a battery. When a desired power cannot be supplied from the interface, the battery supplies the power. This starts the supply of power.

[0007] The power supply circuit is a power supply circuit that outputs power of a desired voltage level via an interface and using power supplied from a battery, and cannot supply desired power from the interface. sometimes,
It has a power source selection unit for starting the supply of power from the battery. Further, a switch unit for stopping the supply of power via the interface and a switch unit for controlling when the desired power cannot be supplied from the interface or based on a signal supplied from an external device via the interface. And control means for stopping the supply of power via the interface. Further, it has a charging unit that charges the battery when the desired power is smaller than the power that can be supplied via the interface.

According to the present invention, in a power supply circuit of an electronic device having an interface capable of supplying power, such as a battery or a USB, the power consumption of the electronic device is determined by a power supply defined by an interface standard. When the power consumption does not exceed the power supply range, the operation is performed using the power supplied through the interface.When the power consumption exceeds the power supply possible range, the power supply from the battery is started, and the electronic device is operated. The operation is performed.

[0009]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described below in detail with reference to the drawings. FIG. 1 shows a configuration of a first embodiment of a power supply circuit according to the present invention. In the power supply circuit 10, a power supply selection unit 15 is connected to an adapter connection terminal 11 for connecting the AC adapter 30, and the power supplied from the AC adapter 30 is supplied to the power supply selection unit 15. An interface terminal 1 for connecting an external device 40 such as a computer device or a hub.
2 is a DC-DC converter 1 via a switch unit 13.
4, and power is supplied from the external device 40 to the DC-DC converter 14. The switch unit 13 will be described later.

In the DC-DC converter 14, the voltage level of the power supplied via the interface terminal 12 is converted to a predetermined voltage level and supplied to the power supply selector 15.

A battery 50 can be connected to the power supply circuit 10, and power is supplied from the battery 50 to the power supply selector 15. The power supply selection unit 15 is configured using, for example, three diodes 15a, 15b, and 15c, and the anode of the diode 15a is connected to the adapter connection terminal 11. The anode of the diode 15b is DC-
The diode 1 is connected to the DC converter 14.
The anode 5c is connected to the battery 50. The diode selection unit 15 selects the power having the highest voltage level from the power supplied from the AC adapter 30, the DC-DC converter 14, and the battery 50, and supplies the selected power to the DC-DC converter 16. In the DC-DC converter 16,
The voltage level of the power supplied from the power supply selection unit 15 is converted into a predetermined voltage level and supplied to each unit of the electronic device.

The switch section 13 is formed using a transistor or the like, and a control signal C from the switch control section 17 is provided.
The state is switched to a conduction state or a non-conduction state by S, and the supply of power to the DC-DC converter 14 is controlled. In the switch control unit 17, the signal CW supplied from the external device 40 via the interface, the determination result of the power supply from the AC adapter 30, or the DC-D
The control signal CS is generated based on the overload detection signal OR from the C converter 14.

Here, the voltage level of the power supplied from the AC adapter 30 is “Vac”, and the DC-DC converter 1
The voltage level of the power supplied from the battery 4 is “Vif”, and the battery 5
When the voltage level of the power supplied from 0 is “Vbt”, each voltage level is set so as to satisfy the expression (1).
The forward voltages of the diodes 15a, 15b, 15c are "Vfa", "Vfb", and "Vfc". “Vac−Vfa”>“Vif−Vfb”> “Vbt−Vfc” (1)

By setting each voltage level in this way, A
When the C adapter 30 is connected, the power supplied from the AC adapter 30 is selected by the power selection unit 15 and supplied to the DC-DC converter 16. Further, since the diodes 15b and 15c are provided, D
Backflow to the C-DC converter 14 and the battery 50 is prevented. Therefore, the electronic device can be operated without using the power supplied from the external device 40 and without consuming the battery. Further, when the switch control unit 17 determines that power is being supplied from the AC adapter 30, the supply of power to the DC-DC converter 14 is stopped by turning off the switch unit 13 by the control signal CS. DC-DC
It is possible to prevent the power from being wastefully consumed by the converter 14.

Next, when the AC adapter 30 is not connected, the voltage level of the power supplied from the battery 50 is "V".
Since the voltage level “Vif−Vfb” of the power supplied from the DC-DC converter 14 is higher than “bt−Vfc”, the power supplied from the DC-DC converter 14 is selected by the power supply selection unit 15. It is supplied to the DC-DC converter 16.

Incidentally, the power supply circuit 10 is
Since the power that can be supplied to the power supply is determined by the interface standard, if the power consumed exceeds the specified power, the required power is reduced to DC-DC.
Since the voltage cannot be supplied from the converter 14, the voltage level “Vif−Vfb” decreases as shown by the broken line in FIG. Here, when the current supplied to the DC-DC converter 16 becomes the current value Ip, and the voltage level “Vif-Vfb” falls below the voltage level “Vbt-Vfc” indicated by the dashed line, the battery 50 outputs the DC-DC converter Power supply to 16 is started.

For example, as shown in FIG. 3, when the electronic device using the power supply circuit 10 is in a standby state and is within the power supply range defined by the interface standard, power is supplied from the battery 50. Without using the power supplied from the external device 40, power is supplied to the electronic device. Also, at time t1, when the mode of the electronic device is switched from the standby state to the operation state and the power consumption exceeds the power suppliable range defined by the interface standard, the power is supplied from the battery 50 to operate the electronic device. Is performed. Further, at time t2, when the mode of the electronic device is switched from the operation state to the standby state and the power consumption is within the power supply range defined by the interface standard, the power is not supplied from the battery 50, The power supply to the electronic device is performed using the power supplied from the external device 40. For this reason, the AC adapter 30
Is less connected, the consumption of the battery 50 can be reduced as compared with the case where the battery 50 is operated only, and the operation time can be prolonged.

When the DC-DC converter 14 detects an overload state and determines that the desired power cannot be supplied, the DC-DC converter 14 supplies an overload detection signal OR to the switch control unit 17 and 13 is turned off by the control signal CS, so that power is supplied to the battery 50.
You can do just that.

Further, by controlling the switch control section 17 from the external device 40 via the interface, the switch section 13 is switched according to whether the switch section 13 is in a non-conductive state or a conductive state, or whether power is supplied from the AC adapter 30 or not. If possible, the power supply circuit 10
The power supply selection operation can be managed. For this reason,
When the external device 40 is a portable computer device or the like, the operable time of the external device 40 can be prioritized by setting the switch unit 13 in a non-conducting state by the external device 40. When the DC-DC converter 14 detects an overload state, the switch unit 13
Is set to a non-conducting state, the power consumed through the interface can be reduced, and the operable time of the external device 40 can be prioritized.

Next, a second embodiment will be described with reference to FIG. In FIG. 4, the same reference numerals are given to the portions corresponding to FIG. 1, and the detailed description thereof will be omitted. In the power supply circuit 60, a rechargeable secondary battery is used as the battery 50, and a charging unit 61 is connected to the battery 50. The charging unit 61 is a DC-DC converter 14
Connected to

In the charging section 61, the DC-DC converter 1
4 is converted to a voltage level "Vif" which satisfies the condition of the equation (2).
And supplied to the battery 50. In the charging section 61, a backflow from the battery 50 is prevented by using, for example, a diode. Vbt <Vch <(Vif−Vfb + Vfc) (2)

By providing the charging section 61 in this manner, when the power consumption of the electronic device does not exceed the power supply range defined by the interface standard, the battery 50 can be used.
Can be charged, and the operation time can be further extended as compared with the case where the charging unit 61 is not provided. In FIG. 4, the battery 50 is charged using the power supplied from the external device 40. However, the charging unit 61 charges the battery 50 using the power supplied from the AC adapter 30 as in the related art. Needless to say, it may be possible to do so.

In the above-described embodiment, the voltage level is set so as to satisfy the condition of the equation (1), so that the power supply selecting section 15 can be easily configured using a diode. A switch is provided in the power supply system, and when power is supplied from the AC adapter 30, the switch of the power supply system from the AC adapter 30 is turned on. When power is not supplied from the AC adapter 30, the switch of the power supply system from the DC-DC converter 14 is turned on and the voltage level is monitored, and the voltage level becomes lower than the predetermined level. At this time, if the switch of the power supply system from the battery 50 is switched from the non-conductive state to the conductive state, the voltage level of each power supply system is expressed by the equation (1).
Even if the above condition is not satisfied, the same operation as in the above-described embodiment can be performed by the power supply selecting unit 15.

[0024]

According to the present invention, when the desired power cannot be supplied via the interface, the supply of power from the battery is started. Therefore, the operation time of the battery-driven electronic device can be extended. Further, when desired power cannot be supplied from the interface, or based on a signal supplied from an external device via the interface, power supply via the interface is stopped. Therefore, the amount of power supply via the interface can be reduced, and the operable time of the external device connected via the interface can be lengthened with priority. Further, when the desired power is less than the power that can be supplied through the interface, the battery is charged. Therefore, the operation time of the battery-driven electronic device can be further increased.

[Brief description of the drawings]

FIG. 1 is a diagram illustrating a configuration of a power supply circuit.

FIG. 2 is a diagram illustrating a voltage level of power supplied to a power selection unit.

FIG. 3 is a diagram illustrating an operation of a power supply circuit.

FIG. 4 is a diagram showing a configuration of another power supply circuit.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 10 Power supply circuit 11 Adapter connection terminal 12 AC interface terminal 13 Switch part 14 DC-DC converter 15 Power supply selection part 15a, 15b, 15c Diode 16 DC-DC converter 17 Switch control part 30 AC adapter 40 External device 50 Battery 60 Power supply circuit 61 Charging section

 ────────────────────────────────────────────────── ─── Continuing on the front page (72) Inventor Yoji Watanabe 1-2-1-11 Ikenohata, Taito-ku, Tokyo F-term in Iwa Corporation (reference) 5B011 DA02 DA13 DB11 DB21 JB10 LL08 5G015 FA05 GB02 GB06 HA02 HA14 JA06 JA10 JA53 KA03

Claims (6)

[Claims] The present invention is characterized in that power is supplied via an interface and from a battery, and when a desired power cannot be supplied from the interface, the supply of power from the battery is started. Power supply method. 2. The power supply via the interface is stopped when a desired power cannot be supplied from the interface or based on a signal supplied from an external device via the interface. The power supply method according to claim 1, wherein 3. The power supply method according to claim 1, wherein the battery is charged when the desired power is smaller than the power that can be supplied through the interface. 4. A power supply circuit for outputting power at a desired voltage level via an interface and using power supplied from a battery, wherein when the desired power cannot be supplied from the interface, the battery A power supply circuit, comprising: a power supply selection unit that starts supplying power from the power supply. 5. A switch unit for stopping supply of power via the interface, and when a desired power cannot be supplied from the interface or based on a signal supplied from an external device via the interface, The power supply circuit according to claim 4, further comprising control means for controlling the switch unit to stop supplying power via the interface. 6. The power supply circuit according to claim 4, further comprising a charging unit configured to charge the battery when desired power is smaller than power that can be supplied via the interface.