KR100277666B1 - Display device with integrated board for serial communication - Google Patents

Abstract

The display device having an integrated board for serial communication disclosed herein has a board that integrates an IEEE1394 board and a USB hub into one, and uses a microcomputer to control the low and low speed devices connected to the USB port as well as providing a HID (Human Interface Device) function. It's about making it possible to implement.

The microcomputer of the present invention controls the operation of the low and medium speed devices according to the control signal input from the PC main body through the USB hub and the IIC communication line, and the user controls the predetermined device using the HID button provided in the display device. When a signal is inputted or a control signal for executing an application program is input, the microcomputer recognizes this and causes a predetermined device to be driven according to the recognized signal, or executes a designated application program to be displayed on the display apparatus.

Therefore, the present invention includes a microcomputer having a function of a hub controller on a 1394 board or a USB board integrated with a hub, which can implement a HID function as well as control a medium to low speed device according to a control signal input from a PC main body. It is to provide an effect that can satisfy the various needs of the user.

Description

Display device with integrated board for serial communication

The present invention relates to a display device having an integrated board for serial communication, and more particularly, to control a low and low speed device connected to a USB port using a microcomputer while having a board in which an IEEE1394 board and a USB hub are integrated into one. In addition, the present invention relates to a display device having an integrated board for serial communication, which enables the implementation of a Human Interface Device (HID) function.

As a new type of computer environment such as multimedia computer, home network, etc. and communication environment centered on computer, the standard for high speed and low speed serial communication is IEEE1394 and USB (Universal serial bus). There is.

These USB and IEEE1394 are a new communication protocol of the concept of hot plugging or hot plug-and-play. USB is a data transmission method such as modem, printer, joystick, mouse, keyboard, scanner, etc. It is applied to medium and low speed devices of 12 [Mbps] or less, and IEEE1394 is applied to high speed devices such as digital cameras, video cassette tape recorders, optical disc players, etc., which have data transfer speeds of 100 to 400 [Mbps].

However, as described above, for serial communication to which USB or IEEE1394 is applied, an interface circuit portion for transmitting and receiving data and converting the data for each communication is required. In the related art, a separate dedicated chip or a dedicated chip for each communication method is conventionally used. A board was built in.

Meanwhile, a power supply method for operating a dedicated chip or a board incorporating the dedicated chip includes a bus power method that receives driving power through a serial communication cable and a self power method that uses an independent power supply device.

In addition, since the driving power of such a dedicated chip or board is 3.3 [kW], a regulator for stepping down the predetermined power to 3.3 [V] was also provided separately.

As a result, a USB chip and a dedicated chip for IEEE1394 or a board incorporating a dedicated chip existed separately in the display device, and there was a problem that regulators for driving them were used in duplicate.

In addition, there is a problem that only a limited function such as hot plugging and low / low speed device control can be implemented when the hub controller is built in the USB hub and the low / low speed device is mounted.

Accordingly, an object of the present invention is to implement a HID function as well as to control the low- and low-speed devices connected to the USB port by using a microcomputer while having a board integrating an IEEE1394 board and a USB hub into one to solve the above problems. The present invention provides a display device having an integrated board for serial communication.

1 is a block diagram showing an embodiment of a display device having an integrated board for serial communication according to the present invention;

2 is a block diagram showing another embodiment of a display device having an integrated board for serial communication according to the present invention.

Explanation of symbols on the main parts of the drawings

10: Self power supply device 20: Integrated board for serial communication

30: power connection means

11: adapter 21: first regulator

22: 1394 physical layer 23: 1394 port

24: USB hub 25: USB port

26: second regulator

SW _P , SW1 to SW3: Overcurrent Protection Switch

D1 to D3: Reverse current prevention diode

In the display device according to the present invention for achieving the above object, the microcomputer of the present invention controls the operation of the medium-low speed device in accordance with a control signal input from the PC main body through the USB hub and the IIC communication line, and also displays When the user inputs a signal for controlling a predetermined device or a control signal for executing an application program using the HID button provided in the device, the microcomputer recognizes this and the predetermined device is driven according to the recognized signal. Or display the display device by executing a designated application program.

Hereinafter, preferred embodiments of a display device having an integrated board for serial communication according to the present invention will be described in detail with reference to FIGS. 1 and 2.

1 is a block diagram showing an embodiment of a display device having an integrated board for serial communication according to the present invention.

As shown, the display device having an integrated board for serial communication according to the present invention has an output terminal of the self-power supply device 10 driven by an external AC power source and the integrated board 20 for serial communication by the power connection means 30. Connected.

The integrated communication board 20 for serial communication receives the output power of the self-power supply 10 applied through the power connection means 30 to the first regulator 21 via the overcurrent protection device SW _P and receives the first direct current. After fixing to voltage, it is supplied to the driving power of the 1394 physical layer 22 and the USB hub 24.

The input power of the first regulator 21 is applied to the 1394 port 23 via the reverse current prevention elements D1, D2, and D3 and supplied to a 1394 device connected to the 1394 port 23 from the outside of the display device. do.

In addition, the input power supply of the first regulator 21 drives the second regulator 26 to output a second DC voltage.

The second DC voltage is applied to the USB port 25 via the overcurrent protection elements SW1 (SW2) and SW3 and supplied to the USB device connected to the USB port 25 from the outside of the display device.

Meanwhile, the 1394 physical layer 22 driven by the first regulator 21 exchanges data through the 1394 port 23, and the microcomputer 27 is connected to the USB hub 24 through the IIC communication line. According to the low and low speed device control signal input from the PC main body through the USB hub 24, the low and low speed device through the USB port 25 to control the operation, and the low and low speed device through the USB port 25 Data input from the PC is transferred to the PC main body through the USB hub 24.

The operation of the display device having an integrated board for serial communication according to the present invention having such a component is as follows.

First, the self-power supply device 10 using a power conversion device such as an adapter 11 receives an external AC power as an input and converts the power connection means 30 into a DC power having an output voltage of at least 20 [V]. It supplies to the first regulator 21 provided in the integrated communication board 20 for serial communication.

Here, as long as the internal power consumption of the serial communication integrated board 20 and the serial communication integrated board 20 allow power supplied to an external device, the power connection means 30 is sufficient as a jack connection device or the like.

In addition, an overcurrent protection device is provided between the power supply connecting means 30 and the first regulator 21 such as a switch SW _P which is turned off for a current exceeding an allowable range.

The first regulator 21 is driven by receiving a power of at least 20 [V], which is the output of the self-power supply device 10, and is a predetermined DC voltage at which the 1394 physical layer 22 and the USB hub 24 are driven. Convert it to V] and apply it.

The 1394 physical layer 22 is driven by the output power of the first regulator 21 to relay the data according to IEEE1394, and the USB hub 24 is also driven by the output power of the first regulator 21 and the USB When the medium and low speed devices are connected to the port 25, various types of information about the connected medium and low speed devices are input to the microcomputer 27 through the USB hub 24.

Then, the microcomputer 27 transmits a request signal for hot plugging implementation of the medium and low speed device to the USB hub 24, and temporarily stores the result of the operation in the internal memory. At this time, the microcomputer 27 and the USB hub 24 share a signal line with the IIC device to communicate by the IIC communication line.

When the micro low speed device is inserted or removed, the micro computer 27 receives a signal corresponding thereto and transfers the signal to the PC main body through the USB hub 24 in an IIC manner, and the USB hub 24 is mounted at one or more ports. The device inserted into the device controls communication with another peripheral device of the PC main body or the PC main body.

Here, the USB controller controls not only a USB interface but also an IIC interface for a device using an IIC method.

The interface between the microcomputer 27 and the USB hub 24 communicates with the microcomputer 27 by using a hub controller (not shown) embedded in the USB hub 24 using an IIC communication method.

That is, the hub controller having the IIC inside the USB hub 24 transmits the information obtained from the PC main body to the microcomputer 27 using separate subordinate addresses, and the microcomputer 27 is transmitted from the PC main body. When USB data is delivered in IIC, the data is decoded to control internal circuits.

At this time, an example of a device connected to one port of the USB hub 12 using the IIC communication line is a display device which is a peripheral device of the PC main body. Another USB hub 24 of the display device is a display as an IIC. It will interface with the microcomputer 27 inside the device.

On the other hand, the second regulator 26 is driven by receiving at least 20 [V] of power, which is the output of the self-power supply device 10, and converts it into a DC voltage of 5 [V].

The 1394 port 23 and the USB port 25 are passages of data and power including a 1394 device connected to the outside of the display device and one or more connection means on the display device side to which the USB device is connected.

That is, the 1394 port 23 is one or more 1394 cable connecting means for applying the input power of the first regulator 21 to the 1394 device, or to exchange data between the 1394 device and the 1394 physical layer 22. .

At this time, the input power of the first regulator 21 is applied to the 1394 port 23 through the diode (D1) (D2) (D3) element to prevent the reverse current.

In addition, the USB port 25 may apply the output power of the second regulator 26 maintaining 5 [V] to the USB device, or may transmit or receive data between the USB device and the USB hub 24. USB cable connection means.

At this time, the output power of the second regulator 26 is applied to the USB port 25 through an overcurrent protection element such as switches SW1, SW2, SW3, etc., which are turned off with respect to a current exceeding an allowable range.

FIG. 2 is a block diagram showing another embodiment of a display apparatus having an integrated board for serial communication according to the present invention. Only the components of FIG. 1 and the self power supply device 10 are different, and the other components are the same. Do.

Therefore, the description of the same components as those of FIG. 1 will be omitted and only the components unique to the present embodiment will be described below.

That is, in FIG. 2, the self-power supply device 10 as a power supply device for supplying the integrated board 20 for serial communication is a switching mode power source provided in a display device rather than an adapter (11 in FIG. 1) using independent external AC power. One output of the supply device (SMPS) 12 is used.

When the self-power supply device 10 is configured as described above, a separate power connection means (30 in FIG. 1) and a power cable are not required as compared with the case of using an adapter (11 in FIG. 1).

Therefore, the present invention includes a microcomputer having a function of a hub controller on a 1394 board or a USB board integrated with a hub, which can implement a HID function as well as control a medium to low speed device according to a control signal input from a PC main body. It is to provide an effect that can satisfy the various needs of the user.

Claims (2)

A self-power supply device converting the input external AC power into a predetermined DC power and outputting the converted AC power; A first regulator receiving the output power of the self power supply device and converting the first power into a first DC voltage; A 1394 physical layer driven by the output power of the first regulator to relay data according to IEEE1394; A USB hub driven by the output power of the first regulator to relay data according to USB; Connected via the USB hub and the IIC communication line, and controls the low and low speed device according to the low and low speed device control signal input from the PC main body through the USB hub, and transmits the data input from the medium and low speed device to the PC main body, HID function A microcomputer to perform; A second regulator receiving the output power of the self-power supply device and converting the output voltage into a second DC voltage; A 1394 port comprising one or more 1394 cable connection means for applying the input power of the first regulator to a 1394 device or for exchanging data between the 1394 device and the 1394 physical layer; And An integrated board for serial communication, comprising: a USB port configured to apply the output power of the second regulator to a USB device or to transmit or receive data between the USB device and a USB hub; Having a display device. The apparatus of claim 1, wherein the self power supply unit; Display device having an integrated board for serial communication, characterized in that the adapter.