KR100451585B1 - Virtual host apparatus - Google Patents

Abstract

The present invention relates to a virtual host device connected to a monitor portion of a PC-integrated monitor comprising a host portion and a monitor portion, the virtual load receiving power from the monitor portion, and a virtual load control circuit for adjusting the load of the virtual load. And a video signal output circuit that receives an image signal input from the outside and an image signal generated therein, and selects and outputs any one of the two signals, and the image signal input from the outside depending on whether an external synchronization signal is input or not. And a microcomputer circuit for controlling the video signal output circuit to selectively output any one of the generated video signals.

Description

Virtual Host Device {VIRTUAL HOST APPARATUS}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a personal computer (PC) integrated monitor, and to a virtual host device used in the production and testing of the PC integrated monitor.

A production method of a general PC integrated monitor will be described with reference to FIGS. 1 and 2.

First, according to FIG. 1, in the related art, an integrated monitor and an independent host are produced and combined, respectively, to produce a PC integrated monitor and to test the produced PC integrated monitor. In this way, the method of independently producing and combining the monitor and the host only integrates the appearance of the PC-integrated monitor, and thus could not cause cost reduction.

And, according to Fig. 2, conventionally, a PC integrated monitor was produced by assembling the monitor portion and the host portion at the same time, and the produced PC integrated monitor was tested. Thus, the method of assembling the monitor portion and the host portion at the same time has caused a problem that it is difficult to cope with a change in the specification of the host portion.

As described above, the conventional PC integrated monitor could not be tested for defects in the monitor portion or the host portion before assembly. Therefore, when defects are detected after assembly, the monitor portion and the host portion have to be disassembled and repaired. This not only lowered the production efficiency but also made it difficult to repair the defects.

Accordingly, an object of the present invention is to make it possible to test only the monitor portion before assembling the monitor portion and the host portion in the production of the integrated PC monitor, thereby improving the production efficiency of the monitor portion and facilitating the repair of defects. It is to provide a virtual host device that allows.

1 and 2 are schematic diagrams illustrating a production process of a conventional PC integrated monitor.

3 is a block diagram of a virtual host device according to a preferred embodiment of the present invention.

4 is a diagram illustrating an example in which a virtual host device and a monitor are connected according to a preferred embodiment of the present invention.

5 is an operation flowchart of a virtual host device according to a preferred embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

100: virtual host device 102: micom circuit

104: video signal output circuit 106: operation status display circuit

108: virtual load control circuit 110: virtual load

112: keypad

The present invention for achieving the above object relates to a virtual host device connected to the monitor portion of the PC integrated monitor consisting of a host portion and the monitor portion, the virtual load receiving power from the monitor portion, A virtual load control circuit for adjusting a load, a video signal output circuit for receiving one of an input video signal and an internally generated video signal, and selecting one of the two signals and outputting the selected signal; And a microcomputer circuit for controlling the video signal output circuit to selectively output any one of an image signal input from the video signal or an internally generated video signal.

A virtual host device according to an embodiment of the present invention will be described with reference to FIG. 3.

The microcomputer circuit 102 of the virtual host device 100 controls the video signal output circuit 104, the operation state display circuit 106, the virtual load control circuit 108, and the virtual load 110 shown in FIG. In addition, the microcomputer circuit 102 adjusts the load of the virtual load 110 through the virtual load control circuit 108. The microcomputer circuit 102 also has its own image of the monitor portion of the PC integrated monitor. An image signal is generated for output testing and provided to the monitor portion of the integrated PC monitor through an input signal output circuit 104. The microcomputer circuit 102 is also used to test the monitor portion of the integrated PC monitor from the outside. It is checked whether a synchronous signal is input, and if the synchronous signal is not input, the video signal is generated and provided to the video signal output circuit 104. The microcomputer circuit 102 integrates a PC from the outside. By transmitting the input IIC signal for the test of the monitor portion of the monitor to the monitor portion of the PC integrated monitor, it enables the control of the monitor portion of the PC integrated monitor by the tester. The microcomputer circuit 102 supplies power The basic data is read from the intrinsic memory at the time and transmitted to the monitor portion 200, and the monitor portion 200 performs initialization according to the basic data. The microcomputer circuit 102 outputs the video signal. The circuit 104 controls to select and output any one of an image signal input from the outside or an image signal generated therein. The image signal output circuit 104 is controlled from the outside under the control of the microcomputer circuit 102. Any one of an input video signal and a video signal generated by the microcomputer circuit 102 is selected and output, and the output video signal The monitor 200 of the PC integrated monitor is provided. The operation state display circuit 106 is composed of LEDs and the like, and the load of the virtual load 110 under the control of the microcomputer circuit 102 and the video signal output circuit are provided. The video signal selection output state, power supply state, and the like of 104 are guided. The virtual load control circuit 108 adjusts the load of the virtual load 110 under the control of the microcomputer circuit 102. The store virtual load 110 provides a predetermined load so that the monitor portion 200 can perform the same power supply as when the virtual host device 100 is connected to the real host portion. By providing various key input information to the microcomputer circuit 102, the microcomputer circuit 102 and the tester are interfaced.

4 illustrates an example in which a partial configuration of the monitor portion 200 of the PC integrated monitor and a partial configuration of the virtual host device 200 are connected. The microcomputer circuit 102 of the virtual host device 100 is connected to the PC. In communication with the IIC device 202 of the monitor portion 200 of the integrated monitor, through this communication, the microcomputer circuit 102 of the virtual host device 100 transmits an IIC signal from the outside to the monitor portion 200 of the PC integrated monitor. In addition, the microcomputer circuit 102 may directly control the initialization and the like of the devices of the monitor portion 200 of the PC integrated monitor. The microcomputer circuit 102 may provide a power on / off signal and a power saving mode on / off signal. By providing the power supply control circuit and the output circuit 204 of the monitor portion 200 of the PC integrated monitor, respectively, the control of the power supply and power saving function for the monitor portion 200 of the PC integrated monitor is executed. And an output voltage for the PC provided from the power supply control circuit and the output circuit 204 of the monitor portion 200 of the PC integrated monitor is applied to the virtual load 110. In addition, the microcomputer circuit 102 of the virtual host device 100 may adjust the load of the virtual load 110 at the request of the tester.

A process of performing a test on the monitor portion 200 of the PC integrated monitor using the virtual host device 100 will now be described with reference to FIG. 5.

The monitor portion 200 of the PC integrated monitor and the virtual host device 100 are connected by a tester for testing the monitor portion 200. When power is input to the monitor unit 200 and the virtual host device 100, the microcomputer circuit 102 of the host device 100 reads basic data from an internal memory and monitors the monitor unit 200 through an IIC bus. In step 300, the monitor unit 200 receiving the basic data initializes the devices included in the monitor unit 200 according to the basic data. Thereafter, the microcomputer circuit 102 checks whether the IIC signal is input from the outside (step 302), and transmits the IIC signal to the monitor portion 200 through the IIC bus (step 304) when the IIC signal is input from the outside. Here, the IIC signal may be input through another device by a tester, and the IIC signal may be a control command for testing the monitor part 200.

The microcomputer circuit 102 checks whether a synchronization signal is input from the outside (step 306). Here, when the tester wants to test whether the image input from the outside is normally output, the synchronization signal and the image signal are input to the virtual host device 100.

When a synchronization signal is input from the outside, the microcomputer circuit 102 determines that the tester wants to test an external image output function for the monitor portion 200 and transmits an image signal input from the outside to the monitor portion 200. In addition to controlling the video signal output circuit 104 to operate, and operating the operation state display circuit 106 to guide the external video display, the virtual load to recognize the virtual host device 100 as a host portion to supply power In addition to controlling the control unit 110, a power supply control signal for outputting power normally to the power supply control circuit and the output circuit 204 is provided (step 308).

Unlike the above, if the synchronization signal is not input from the outside, the microcomputer circuit 102 determines the self test operation and controls the video signal output circuit 104 to transmit the video signal generated by the microcomputer to the monitor unit 200. In addition, the operation state display circuit 106 is operated to guide the self-test image display, and the virtual load 110 is controlled to supply power by recognizing the virtual host device 100 as a host part. In operation 310 and 312, a power supply control signal for outputting power normally to the power supply control circuit and the output circuit 204 of the monitor portion 200 is provided.

In addition, the microcomputer circuit 102 provides the power supply control circuit and the output circuit 204 of the monitor portion 200 to enter the power saving mode in response to a tester's request, thereby providing the monitor portion 200 at the tester's request. It is possible to test whether the power saving mode is normally performed (step 314).

As described above, the present invention allows only the monitor portion to be tested first before combining the monitor portion and the host portion when producing the PC integrated monitor, thereby improving the production efficiency of the monitor portion and facilitating the repair of defects. And, there is an advantage that can easily change the PC specifications.

Claims (5)

In the virtual host device connected to the monitor portion of the PC integrated monitor consisting of a host portion and a monitor portion, A virtual load receiving power from the monitor; A virtual load control circuit for adjusting a load of the virtual load; A video signal output circuit which receives a video signal input from the outside and a video signal generated internally and selects and outputs any one of the two signals; A microcomputer circuit for controlling the virtual load control circuit and controlling the video signal output circuit to selectively output any one of the video signal input from the outside or an internally generated video signal according to whether an external synchronization signal is input. Configured is characterized by a virtual host device. The method of claim 1, wherein the microcomputer circuit, And when the IIC signal for testing the monitor portion is externally input, provides the input IIC signal to the monitor portion. The method of claim 1, wherein the microcomputer circuit, And performing power control on the monitor portion. The method of claim 1, wherein the microcomputer circuit, And performing power saving control on the monitor portion. The method of claim 1, wherein the virtual host device, And an operation state display circuit for guiding selection of the load amount or the video signal of the load device.