KR102175188B1 - Driving voltage supply apparatus and method of VGA monitor - Google Patents

Abstract

The present invention relates to a VGA monitor driving voltage supply device for supplying driving voltage of a VGA type monitor that uses a standard VGA (RGB) connector consisting of 3-row 15-pin in a main board (motherboard) of a computer main body by using a standard VGA connector, and a method thereof. The VGA monitor driving voltage supply device comprises: a VGA monitor for displaying information; and a main board embedded in a computer main body to determine whether the driving voltage is supplied to a VGA monitor when connected to the VGA monitor via a standard VGA connector, and according to the result of determining whether the driving voltage is supplied to the VGA monitor, supply standard voltage for checking DDC information to the VGA monitor or supply the driving voltage to the VGA monitor, wherein the driving voltage is supplied to the VGA monitor without an adaptor by checking the type of a monitor connected by using an unused pin of the standard VGA connector in the main board.

Description

Driving voltage supply apparatus and method of VGA monitor

The present invention relates to an apparatus and method for supplying a driving voltage of a VGA monitor, and in particular, the driving voltage of a VGA type monitor using a standard VGA (RGB) connector consisting of three rows of 15 pins is controlled by a standard VGA connector. The present invention relates to an apparatus and method for supplying a driving voltage for a VGA monitor that can be supplied from a main board (motherboard).

Most standard VGA (RGB) type monitors use the same type of 3-row 15-pin display connector. Since this connector was used on the first IBM Video Graphics Array (VGA) card, it is simply referred to as the VGA connector. Because the VGA connector is so widely used, it serves as a standard that allows graphic display electronics providers to provide equipment that matches displays from display providers.

1 is a structure of a standard VGA (RGB) connector, and FIG. 2 is a standard table defining functions of each pin.

Pin 1 is RED, Pin 2 is GREEN, Pin 3 is BLUE, Pin 4/Pin 11 and Pin 16 have specific functions It is reserved for NC (No-Connect), pin 5 (Pin) / pin 6 (Pin) / pin 7 (Pin) / pin / 8 (Pin) / Pin 10 (Pin) is GND, 9 Pin is a small-capacity power supply (5V) for detecting DDC (Display Data Channel) for monitor type detection, Pin 12 is DC_DAT, Pin 13 is a horizontal synchronization signal (HSYNC), 14 Pin (Pin) is defined for the vertical synchronization signal (VSYNC), pin 15 (Pin) is defined for a clock supply (DC_CLK).

A standard VGA type monitor using such a standard VGA connector does not have a pin that supplies a voltage required for driving the monitor within the standard interface, and thus receives driving power using a separate power adapter.

A separate power adapter is very heavy and has a large size, which makes it inconvenient to use. Since it is located separately from the monitor, there are many inconveniences in use.

On the other hand, various efforts have been made to improve the disadvantages of the VGA type connector as described above, and the following <Patent Document 1> is an example of a conventionally proposed VGA connector to improve the VGA connector.

<Patent Document 1> provides an improved VGA connector supporting improved graphic performance by integrating a plurality of functions, fusing, filtering, shielding, and signal line impedance control therein. The improved VGA connector is dimensionally compatible with many standard VGA connectors, and uses standard pin-out mating mating connectors. It can also be used to have an integrated DAC provide an analog output.

However, even in this prior art, it is impossible to supply power for driving the monitor through the improved VGA connector.

Korean Patent Laid-Open Publication No. 10-2007-0037657 (published on Apr. 05, 2007) (VGA connector with integrated filter)

Accordingly, the present invention has been proposed to solve the disadvantages of the standard VGA connector applied to the general standard VGA monitor as described above and all problems occurring in the prior art, and is a standard VGA (RGB) connector consisting of three rows of 15 pins. An object of the present invention is to provide an apparatus and method for supplying a driving voltage of a VGA monitor using a standard VGA connector to supply a driving voltage of a VGA monitor using a standard VGA connector from a main board (motherboard) of a computer body.

In order to achieve the above object, the "VGA monitor driving voltage supply device" according to the present invention includes a VGA monitor for displaying information; When the VGA monitor and the standard VGA connector are connected, it is determined whether the driving voltage of the VGA monitor is supplied, and according to the determination result of the supply of the driving voltage of the VGA monitor, the standard voltage for checking DDC information is supplied to the VGA monitor or the VGA monitor. It characterized in that it comprises a main board built in the computer body to supply the driving voltage.

In the above, the main board outputs a driving voltage supply determination signal to the VGA monitor through a first specific pin in the NC (No-Connect) state of the standard VGA connector, and the NC (No-Connect) state of the standard VGA connector. When a driving voltage supply determination signal is returned through the VGA monitor through a second specific pin, a driving voltage is supplied to the VGA monitor.

In the above, the first specific pin is pin 4 of the standard VGA connector, and the second specific pin is pin 11 of the standard VGA connector.

In the above, the main board includes a standard voltage output unit supplying a standard voltage for checking DDC information; A driving voltage output unit supplying a driving voltage of the VGA monitor; And a voltage path change switch for changing a voltage path of the standard voltage output unit or the driving voltage output unit according to the return of the driving voltage supply determination signal.

In order to achieve the above object, the "VGA monitor driving voltage supply method" according to the present invention includes the steps of: (a) determining whether a VGA monitor and a standard VGA connector are connected in a main board built into a computer; (b) When it is determined that the main board is connected to the VGA monitor and the standard VGA connector, a driving voltage supply determination signal is output to the VGA monitor through a first specific pin in the NC (No-Connect) state of the standard VGA connector. Step to do; (c) checking whether a driving voltage supply determination signal is returned through the VGA monitor through a second specific pin in the N.C (No-Connect) state of the standard VGA connector on the main board; (d) outputting a standard voltage for checking DDC information to the VGA monitor when a driving voltage supply determination signal is not returned from the main board through the second specific pin; (e) when the main board returns a driving voltage supply determination signal through the second specific pin, changing a voltage path and outputting a driving voltage to the VGA monitor.

In the above, the first specific pin is pin 4 of the standard VGA connector, and the second specific pin is pin 11 of the standard VGA connector.

In the step (e), a standard voltage for checking DDC information is supplied to the VGA monitor through a voltage path change switch or a monitor driving voltage is supplied to the VGA monitor, the standard voltage is DC 5V, and the driving voltage is DC 12V. It is characterized by being.

According to the present invention, a VGA monitor capable of supplying the driving voltage of a VGA type monitor using a standard VGA (RGB) connector consisting of three rows of 15 pins from a main board (motherboard) of the computer body using a standard VGA connector It is an object of the present invention to provide an apparatus and method for supplying a driving voltage of a device.

1 is a structural diagram of a general standard VGA connector;
Figure 2 is a standard VGA connector pin function definition table,
3 is a configuration diagram of a driving voltage supply device for a VGA monitor according to the present invention;
4 is a flowchart showing a method of supplying a driving voltage to a VGA monitor according to the present invention.

Hereinafter, an apparatus and method for supplying a driving voltage for a VGA monitor according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

The terms or words used in the present invention described below should not be construed as being limited to a conventional or dictionary meaning, and the inventor should appropriately define the concept of terms in order to describe his own invention in the best way. It should be interpreted as a meaning and concept consistent with the technical idea of the present invention based on the principle that it can be.

Therefore, the embodiments described in the present specification and the configurations shown in the drawings are only preferred embodiments of the present invention, and do not represent all the technical spirit of the present invention, and various equivalents that can replace them at the time of the present application It should be understood that there may be variations.

<Example 1>

3 is a configuration diagram of a drive voltage supply device for a VGA monitor according to a preferred embodiment of the present invention, and may include a VGA monitor 200 and a main board 100.

The VGA monitor 200 serves to receive an analog display signal and display it on the screen by being connected to the main board 100 built into the computer body and a standard VGA connector based on 3-row 15-pin.

When the main board 100 is connected to the VGA monitor 200 with a 3-row 15-pin standard VGA connector, it determines whether the driving voltage of the VGA monitor 200 is supplied or not and whether the driving voltage of the VGA monitor 200 is supplied. Depending on the result, a standard voltage (eg, DC 5V) for checking DDC (Display Data Channel) information is supplied to the VGA monitor 200 or a driving voltage (eg, DC 12V) is supplied to the VGA monitor 200. It serves as a supply. The main board 100 may be a motherboard built into the main body of a computer or various electronic equipment capable of displaying a display.

In the present invention, as an example, it is assumed that the main board 100 is built into the computer body.

The main board 100 outputs a driving voltage supply determination signal to the VGA monitor 200 through a first specific pin in the NC (No-Connect) state of the standard VGA connector, and the NC (No-Connect) of the standard VGA connector When the driving voltage supply determination signal is returned through the VGA monitor 200 through the second specific pin in the -Connect) state, the driving voltage is supplied to the VGA monitor 200. Here, the first specific pin may be pin 4 of the standard VGA connector, and the second specific pin may be pin 11 of the standard VGA connector.

In addition, the main board 100 includes a standard voltage output unit 101 that supplies a standard voltage for checking DDC information, a driving voltage output unit 102 that supplies a driving voltage of the VGA monitor 200, and the driving voltage supply. It may include a voltage path change switch 103 to change the voltage path of the standard voltage output unit 101 or the driving voltage output unit 102 according to the return of the determination signal. Such a voltage path change switch may be implemented as a relay switch or a power switch.

The operation of the driving voltage supply device of the VGA monitor according to the present invention configured as described above will be described in detail as follows.

First, when the VGA monitor 200 is connected from the main board 100 built into the computer, it is determined whether the standard VGA connector has a three-column 15-pin structure as shown in FIG. 1. Here, if the monitor is not connected with a standard VGA connector but is connected in a different way, it is determined as a normal monitor, and it operates in the same way as the existing normal monitor connection.

On the other hand, when it is determined that the VGA monitor 200 is connected to the standard VGA connector, a driving voltage supply determination signal is transmitted to the VGA monitor 200 through a first specific pin in the NC (No-Connect) state of the standard VGA connector. Print. Here, as the first specific pin, pin 4 of the standard VGA connector can be used.

Next, the main board 100 outputs a driving voltage supply determination signal to the first specific pin, and then determines the driving voltage supply through a second specific pin that is not used in the NC (No-Connect) state of the standard VGA connector. It is checked whether a signal is returned through the VGA monitor 200. Here, as the second specific pin, pin 11 of the standard VGA connector can be used.

Subsequently, if the driving voltage supply determination signal is not returned through the second specific pin, the main board 100 determines that a specific monitor regulated with each other is not connected and a general monitor is connected, and the voltage path change switch 103 Keep it current. That is, in the initial state, the voltage path change switch 103 is a state in which the b contact and c contact are connected. In this case, a standard voltage of 5V output from the standard voltage output unit 101 is a voltage for grasping DDC information and is output to the VGA monitor 200 through pin 9.

On the contrary, when the driving voltage supply determination signal is returned through the second specific pin, the main board 100 determines that specific monitors regulated with each other are connected, and changes the voltage path using the voltage path change switch 103. do. That is, in the initial state, the voltage path change switch 103 is operated so that the a contact point and the c contact point are connected. In other words, by applying the driving voltage supply determination signal returned through the second specific pin as a driving signal to the voltage path change switch 103 as it is, the voltage path change switch 103 is the output voltage of the driving voltage output unit 102 Choose Here, the voltage path change switch 103 may use a relay switch, and by flowing the driving voltage supply determination signal to the relay coil, the relay switch automatically operates according to the driving voltage supply determination signal to connect the a contact point and the c contact point. . If the driving voltage supply determination signal does not flow to the relay coil, the relay switch restores the original state, and connects the b contact and c contact. When the voltage path change switch 103, which is a relay switch, is connected to the a contact point and the c contact point, a 12V voltage, which is a monitor driving voltage output from the driving voltage output unit 102, is supplied to the VGA monitor 200.

Accordingly, the VGA monitor can receive the monitor driving voltage through the main board built into the computer body without using a separate adapter for supplying driving power as in the past.

In this way, the VGA monitor, which must use an adapter, can be supplied with driving voltage without using an adapter, so the overall components of the VGA monitor can be simplified by removing the adapter, and the cost of implementing the monitor due to the use of the adapter can be reduced. It will be possible.

<Example 2>

4 is a flow chart showing a "method of supplying a driving voltage of a VGA monitor" according to the present invention. (a) In the main board 100 built into the computer, it is determined whether the VGA monitor 200 is connected to the standard VGA connector. Steps (S11), (b) When it is determined that the main board 100 is connected to the VGA monitor 200 through a standard VGA connector, the first specific pin in the NC (No-Connect) state of the standard VGA connector is used. Outputting a driving voltage supply determination signal to the VGA monitor 200 (S12), (c) driving through a second specific pin in the NC (No-Connect) state of the standard VGA connector in the main board 100 Checking whether the voltage supply determination signal is returned through the VGA monitor 200 (S13), (d) If the driving voltage supply determination signal is not returned from the main board 100 through the second specific pin, the Outputting a standard voltage for checking DDC information to the VGA monitor 200 (S14), (e) When a driving voltage supply determination signal is returned from the main board 100 through the second specific pin, the voltage path is changed. And outputting a driving voltage to the VGA monitor 200 (S15 to S16).

The method of supplying the driving voltage of the VGA monitor according to the present invention configured as described above will be described in detail as follows.

First, in step S11, when the VGA monitor 200 is connected to the main board 100 built into the computer, it is determined whether it is connected to a standard VGA connector having a three-column 15-pin structure as shown in FIG. 1. Here, if the monitor is not connected with a standard VGA connector but is connected in a different way, it is determined as a normal monitor, and it operates in the same way as the existing normal monitor connection.

As a result of the determination in step S11, if it is determined that the VGA monitor 200 is connected to each other through a standard VGA connector, the main board 100 is in step S12 at the first NC (No-Connect) state of the standard VGA connector. A driving voltage supply determination signal is output to the VGA monitor 200 through a specific pin. Here, as the first specific pin, pin 4 of the standard VGA connector can be used.

Next, the main board 100 outputs a driving voltage supply determination signal to the first specific pin, and then is driven through a second specific pin that is not used in the NC (No-Connect) state of the standard VGA connector in step S13. It is checked whether the voltage supply determination signal is returned through the VGA monitor 200. Here, as the second specific pin, pin 11 of the standard VGA connector can be used.

Subsequently, if the driving voltage supply determination signal is not returned through the second specific pin, the main board 100 determines that a specific monitor regulated with each other is not connected but a general monitor is connected, and moves to step S14 to change the voltage path. The current state of the switch 103 is maintained. That is, in the initial state, the voltage path change switch 103 is a state in which the b contact and c contact are connected. In this case, a standard voltage of 5V output from the standard voltage output unit 101 is a voltage for grasping DDC information and is output to the VGA monitor 200 through pin 9.

In contrast, when the driving voltage supply determination signal is returned through the second specific pin, the main board 100 determines that specific monitors regulated with each other are connected, and moves to step S15 to use the voltage path change switch 103. To change the voltage path. That is, in the initial state, the voltage path change switch 103 is operated so that the a contact point and the c contact point are connected. In other words, by applying the driving voltage supply determination signal returned through the second specific pin as a driving signal to the voltage path change switch 103 as it is, the voltage path change switch 103 is the output voltage of the driving voltage output unit 102 Choose Here, the voltage path change switch 103 may use a relay switch, and by flowing the driving voltage supply determination signal to the relay coil, the relay switch automatically operates according to the driving voltage supply determination signal to connect the a contact point and the c contact point. . If the driving voltage supply determination signal does not flow to the relay coil, the relay switch restores the original state, and connects the b contact and c contact. When the voltage path change switch 103, which is a relay switch, is connected to the a contact point and the c contact point, 12V voltage, which is the monitor driving voltage output from the driving voltage output unit 102, is supplied to the VGA monitor 200 as in step S16. do.

Accordingly, the VGA monitor can receive the monitor driving voltage through the main board built into the computer body without using a separate adapter for supplying driving power as in the past.

In this way, the VGA monitor, which must use an adapter, can be supplied with driving voltage without using an adapter, so the overall components of the VGA monitor can be simplified by removing the adapter, and the cost of implementing the monitor due to the use of the adapter can be reduced. It will be possible.

Although the invention made by the present inventor has been described in detail according to the above embodiment, the present invention is not limited to the above embodiment, and it is common knowledge in the art that various changes can be made without departing from the gist of the invention. It is self-evident to those who have

100: main board
101: standard voltage output
102: driving voltage output unit
103: voltage path change switch
200: VGA monitor

Claims (6)

A VGA monitor for displaying information, which is connected to the computer body using a standard VGA (RGB) connector consisting of three rows of 15 pins; And
When the VGA monitor and the standard VGA connector are connected, it is determined whether the driving voltage is supplied to the VGA monitor, and the standard voltage for checking DDC information is supplied to the VGA monitor according to the determination result of supplying the driving voltage of the VGA monitor or Includes a main board that supplies a voltage to the VGA monitor as a driving voltage,
The main board is built into the computer body,
The main board outputs a driving voltage supply determination signal to the VGA monitor through a first specific pin in the NC (No-Connect) state of the standard VGA connector, and the NC (No-Connect) state of the standard VGA connector. 2 When the driving voltage supply determination signal is returned through the VGA monitor through a specific pin, the driving voltage is supplied to the VGA monitor.
The first specific pin is pin 4 of the standard VGA connector, the second specific pin is pin 11 of the standard VGA connector,
The main board includes a standard voltage output unit supplying a standard voltage for checking DDC information; A driving voltage output unit supplying a driving voltage of the VGA monitor; And a voltage path change switch for changing a voltage path of the standard voltage output unit or the driving voltage output unit according to whether the driving voltage supply determination signal is returned or not.
delete delete A method for supplying a driving voltage to a VGA monitor by using the driving voltage supply device of the VGA monitor according to claim 1,
(a) determining whether a VGA monitor and a standard VGA connector are connected to a main board built into the computer;
(b) When it is determined that the main board is connected to the VGA monitor and the standard VGA connector, a driving voltage supply determination signal is output to the VGA monitor through a first specific pin in the NC (No-Connect) state of the standard VGA connector. Step to do;
(c) checking whether a driving voltage supply determination signal is returned through the VGA monitor through a second specific pin in the NC (No-Connect) state of the standard VGA connector on the main board;
(d) outputting a standard voltage for checking DDC information to the VGA monitor when a driving voltage supply determination signal is not returned from the main board through the second specific pin; And
(e) when the driving voltage supply determination signal is returned from the main board through the second specific pin, changing a voltage path and outputting a driving voltage to the VGA monitor,
The first specific pin is pin 4 of the standard VGA connector, the second specific pin is pin 11 of the standard VGA connector,
In the step (e), a standard voltage for checking DDC information is supplied to the VGA monitor through a voltage path change switch or a monitor driving voltage is supplied to the VGA monitor, wherein the standard voltage is DC 5V, and the driving voltage is DC 12V. A method of supplying a driving voltage of a VGA monitor, characterized in that. delete delete

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