1. Field of the Invention
The present invention relates to a multipurpose charging system with a transmission function, and more particularly, to a multipurpose charging device provides a handheld device with electricity, supplying electric power for a peripheral device connecting to a USB port, and transmitting signals and connecting to an Ethernet at the same time.
2. Description of the Related Art
Nowadays, compact and convenient handheld devices, such as mobile phones and PDAs, have already played important roles in our jobs and daily life. Handheld devices are not only small but also easy to carry, and provide a variety of functions that make life more convenient and enjoyable. For example, wireless communications, rapid information inquiry, and data input and output all are of great use and convenience to people.
The power consumption problem of handheld devices is always an important consideration for system design. Some peripheral devices are mature technology, such as, for example, peripheral devices using the USB interface like the Iomega Clik! Drive and Thumb Drive. If a handheld device with a built-in the USB host chip is immediately transmitted to the peripheral device, the result makes the handheld device consume more the power. The handheld device must therefore transmit data with the peripheral device or connecting network by the personal computer or notebook.
If the handheld is connected to a peripheral device for transmitting data by the USB host chip electrically coupling with the USB socket, an electric device is necessary for a normal and stable power supply.
An object of the present invention is to provide a multipurpose charging system with transmission function, including a handheld device, a transformer device and a USB line. The handheld device has a USB host chip, a USB socket and a battery. The USB host chip electrically couples to the USB socket. The transformer device has a charging plug, a voltage converter, a USB port, an USB Ethernet chip, an Ethernet interface and a multiplexer. The charging plug is electrically connected to the voltage converter, and the voltage converter is electrically connected to the multiplexer, the USB port and the USB Ethernet chip with a power supply. The multiplexer has at least two downlink ports and a uplink. One of the downlink ports is electrically connected to the USB Ethernet chip; the others are electrically connect to the connect port. The USB line is electrically connected between the transformer device and the USB socket for charging the handheld device by the transformer device; moreover, the USB line is also electrically coupled to the uplink while transmitting data.
The foregoing aspect aspects and many of the attendant advantage of this invention will be more readily appreciated as the same becomes better understood by reference to the following detailed description, when taken in conjunction with the accompanying drawings, wherein:
Referring to
The charging plug 22 is then electrically connected to a main power, and the transformer device 2 charges the handheld device 100 by the USB line 30. At the same time the transformer device 2 supply power to the peripheral device that connects to the USB port 24; moreover, the handheld device 100 transmits a signal to the peripheral device.
The handheld device 100 is electrically connected to the transformer device 2 by the USB line 30, which is charged at the same time and selects connecting a network by the Ethernet interface 28 or transmitting data with a peripheral device that is connected to the USB port 24.
When the multiplexer 200 is operating, one of the downlink ports is selected by the uplink for transmitting data to the handheld device 100. The handheld device 100 thus synchronously transmits data by the Ethernet interface 28 connecting to a network and the peripheral device inserted into the USB port 24.
In conclusion, the handheld device is electrically connected to the transformer device by the USB line according to the present invention to provide the multiplexer charging system with a transmission function, and has the following characteristics:
1. The transformer device can charge the handheld device while transmitting data at the same time;
2. The transformer device can supply power to the peripheral device while transmitting data at the same time; and
3. Use of the multiplexer allows the handheld device to transmit synchronously data by the Ethernet interface connecting a network and the peripheral device inserted into the USB port.
To sum up the functions of the present invention, other buses having a transmission function are also used, with the exception of a USB port or a USB socket.