The present invention relates to power supply and more particularly to an improved power supply device for supplying sufficient power to a peripheral device.
Conventionally, a USB (Universal Serial Bus) port of a computer is adapted to couple to one of a plurality of peripheral devices (e.g., a speaker, a modem, a hard disk drive, a CD-ROM drive, a floppy disk drive, etc.), thereby electrically connecting a motherboard of the computer to the peripheral device. Also, a CPU (central processing unit) on the motherboard is communicatively connected to the peripheral device for transmitting signal or vice versa. Further, two power pins and two data pins are provided on the USB port in which the power pins are electrically connected to a power circuit of the motherboard so that power can be supplied to the peripheral device via the power pins when the peripheral device is connected to the USB port.
However, only a small current (e.g., 5V 400 mA) is supplied from the USB port of the computer to the peripheral device for operation. Such small current, far less than the required power of 5V 1A, is not able to activate the peripheral device. For solving the problem, an additional adaptor is required to couple to the peripheral device for supplying sufficient power thereto. This is very inconvenient since a user has to find an outlet and plug a plug of the adaptor into the outlet prior to converting AC (alternating current) from an external power source into DC (direct current) in the adaptor and supplying DC to the peripheral device. Otherwise, the user is not able to use the peripheral device due to lack of sufficient power. For a portable computer (e.g., notebook computer), this problem is even serious since it is very difficult of finding an I external power source in an outdoor environment. Hence, a need for improvement exists.
An object of the present invention is to provide a power supply device for a peripheral device, comprising an automatic switch assembly connected to a power input port and a power output port of the device respectively. The power supply device further comprises a charging circuit connected to the power input port and a rechargeable battery of the device respectively. The rechargeable battery is connected to an output switch of the device. The output switch is connected to the power output port and the automatic switch assembly respectively. Whereby connecting the power input port to a computer will supply power from the computer to the charging circuit for charging the rechargeable battery. Hence, connecting the power output port to the peripheral device will enable the automatic switch assembly to turn the output switch on for supplying power from the computer to the peripheral device and enable the rechargeable battery to supply additional power to the peripheral device for compensating the inadequate power supplied by the computer and enabling the peripheral device to be operated in a normal condition. By utilizing the present invention, the above drawback of supplying insufficient power from a USB port of a computer to a peripheral device for operation will then be overcome.
Another object of the present invention is that in a case of the power input port of the power supply device disconnected from the computer, the automatic switch assembly is adapted to turn off both itself and the output switch in response to detecting reverse current from the peripheral device. As an end, the reverse current will not flow to the rechargeable battery for charging and protection of the rechargeable battery.
Still another object of the present invention is that the power supply device further comprises a battery voltage detector connected to the rechargeable battery, and a battery voltage low indicator connected to the battery voltage detector. Responsive to detecting an operating voltage of the rechargeable battery being too low by the battery voltage detector, the battery voltage detector lights up the battery voltage low indicator as warning that the battery voltage detector is unable to supply sufficient power. Hence, a user may not connect the peripheral device to the power supply device.
A further object of the present invention is that the power supply device further comprises a battery protector disposed between the rechargeable battery and the charging circuit and between the rechargeable battery and the output switch. The battery protector is connected to the rechargeable battery, the output switch, and the charging circuit respectively. The battery protector is adapted to detect both an input current and an output current of the rechargeable battery so that in response to the input or the output current of the rechargeable battery being too large, the battery protector cuts off the circuit for disconnecting the rechargeable battery from the circuit as protection of the rechargeable battery for preventing the rechargeable battery from being damaged.
The above and other objects, features and advantages of the present invention will become apparent from the following detailed description taken with the accompanying drawings.
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By configuring as above, in a case of the power output port 13 connected to a peripheral device (not shown), the automatic switch assembly 12 is able to detect signal output from the peripheral device for controlling and then turn the output switch 16 on. As such, power of the computer can be supplied to the peripheral device via the power input port 11, the automatic switch assembly 12, and the power output port 13 sequentially. At the same time, the rechargeable battery 15 will supply additional power to the peripheral device as a compensation for the inadequate power supplied by the computer. As a result, the peripheral device can operate normally due to sufficient power supply.
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By configuring as above, in a case of the power input port 21 connected to a port (not shown) of a computer (e.g., desktop computer, notebook computer, etc.) and the power output port 26 connected to a peripheral device (not shown) (e.g., a speaker, a modem, a hard disk drive, a CD-ROM drive, a floppy disk drive, etc.), the control circuit 25 is able to detect power output from the computer for turning on the switch 24. As such, power output from the computer can be supplied to the rechargeable battery 23 via the charging circuit 22. After the rechargeable battery 23 has been charged, the rechargeable battery 23 is able to supply sufficient power to the peripheral device. As a result, the peripheral device can operate normally due to sufficient power supply.
Moreover, in a case of the power input port 21 of the power supply device 1 disconnected from the computer, the control circuit 25 is adapted to open the switch 24 (i.e., off) in response to detecting a reverse current from the peripheral device. As an end, the reverse current will not flow to the rechargeable battery 23 for charging. This is a protection arrangement of the rechargeable battery 23.
While the invention has been described by means of specific embodiments, numerous modifications and variations could be made thereto by those skilled in the art without departing from the scope and spirit of the invention set forth in the claims.