KR101591788B1 - Marine moniter equipped with multi-screen processing - Google Patents

Abstract

The present invention relates to a monitor for a ship having a multi-screen processing unit. More specifically, the monitor for a ship having a multi-screen processing unit comprises: an image input unit (10) having interfaces such as an HDMI, an RGB, a DVI, and a composite port; and a multi-screen processing unit (20) which multiplexes an image signal inputted into the image input unit (10) to convert the image signal, inputted into each interface, into graphic data to process the graphic data, displays a final output image on a display panel in a display method such as PIP, POP, etc., processes and displays multiple image signals on the single display panel, and freely adjusts the size of a display screen.

Description

[0001] The present invention relates to a marine moniter equipped with multi-screen processing,

The present invention relates to a marine monitor having a multi-screen processing unit. More particularly, the present invention relates to a marine monitor having an interface such as HDMI, RGB, DVI, and COMPOSITE ports for inputting and displaying various video signals on a display panel, An image processor for converting a video signal into graphic data, and a multi-screen processing unit for multiplexing and outputting a video signal is provided in the FPGA, and various input ports and scalers are provided. And an output multiplexer for displaying an output image so as to multiplex and display various screens on the monitor itself.

Generally, a scaler converts an input image format into a format suitable for an output image size, and a video scaler performs scaling with a clock signal having a frequency higher than the frequency of an output clock signal to cope with various inputs.

In order to solve the asynchronous problem of the video data output from the scaler and the video data output to the output terminal of the image processing chip, that is, the terminal connected to the display device such as the LCD panel, Connect the output buffer or memory.

Here, the size of the output buffer or memory is set to the maximum number of pixels in the horizontal direction of the output image data * the image data size per pixel.

The image scaling technique is applied to the image input from the camera by enlarging / reducing the image as one of the digital image processing, or to implement the partial enlargement function or PIP (Picture in Picture) function in the digital image output device . [0003] When a color / video mobile communication terminal becomes popular, a standard video codec (coder / decoder) and various sizes has become a very important technology for solving the interface problem between LCD (Liquid Crystal Display) devices of size.

On the other hand, ship marine information equipment includes fish finder, ship radar, navigation GPS plotter, CCTV in ship, and other satellite information display devices. Marine marine information equipment consists of detectors, transceivers and DISPLAY monitors. The monitor is installed and operated separately for each device. Accordingly, the need for marine information equipment composed of one DISPLAY monitor is emerging.

Although a general monitor has various input ports supporting PIP function, it is possible to display a screen only in a predetermined size, so there is a limit in coping with a video signal input from an additional image source, so that one DISPLAY monitor can display various images The video signal inputted to the circle can not be expressed, and the necessity of solving the problem is increasing.

As a related art related to the video output control apparatus in a broadcast receiver, it is disclosed in Korean Patent No. 10-0789539 (December 20, 2007).

1, a video signal output device in a broadcast receiver for outputting a data broadcast processed signal as a monitor output and a display output, demultiplexes a main video signal and outputs the demultiplexed video signal as a monitor output and a display output A first demultiplexer for demultiplexing the data stream; A first scaler for scaling a main video signal for display output from the first demultiplexer; A graphics processor for receiving the main video signal output from the first scaler and for processing graphic data for data broadcasting; And a second demultiplexer for demultiplexing the signal output from the graphic processing unit and outputting graphics and main video signals in data broadcasting to a monitor output and a display output.

Here, the above-mentioned conventional technique generates a video signal capable of displaying each image input from two video sources by PIP, POP, split screen, etc., and generates and transmits each video signal to another video device And is separated from the display device.

However, the above-described conventional technique has a problem that it takes much time to perform preparatory work for outputting an image at an optimized resolution of each display device as the image signal is generated separately from the display device.

In addition, since the display device and the video signal output device must be provided, the conventional technique has a problem in that it is difficult to mount the display device and the video signal output device in the wheelhouse due to the bulky size of the device.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems of the prior art, and it is an object of the present invention to provide an image input unit having HDMI, RGB, DVI, and COMPOSITE ports for each input channel, And an output multiplexer for outputting graphics data in a combination of a PIP, a POP, a dual screen, and a multi-PIP screen in a multi-screen processing unit having an image processor for converting a video signal input from the image input unit into graphic data, A ship monitor having a multi-screen processing unit capable of multiplexing video signals input through the input channel and displaying the combined video signals on a single screen and freely combining and displaying video signals input from a plurality of channels by a simple operation from the outside .

According to an aspect of the present invention, there is provided a marine monitor provided with a multi-screen processing unit, including a receiver having an interface such as an HDMI, RGB, DVI, and a COMPOSITE port and a video signal input through the receiver An image input unit having a plurality of input channels including a multiplexer for outputting the input signals; A timing controller for applying a sync signal of the graphic data processed by the image processor to a display panel; and a display controller for outputting an OSD menu to the display panel, A multi-screen processing unit having an OSD processing unit for processing a signal; A memory unit having a graphic memory for storing graphic data processed by the image processor according to the input channel, and a display memory for storing display size information and display position information of the graphic data; An output scaler configured to adjust a video signal output from the multi-screen processing unit according to a size of the display panel, and a transmitter configured to output a video signal output from the output scaler according to an HDMI interface; And an MCU for receiving the OSD signal or an external operation signal operated on the display panel and transmitting the OSD signal or the external operation signal to the multi-screen processing unit, wherein the multi-screen processing unit combines graphic data output from the image processor, A dual screen, and an output multiplexer for providing a multi-PIP.

The receiver is provided with an input scaler for adjusting the size of a video signal input from the HDMI, RGB, DVI, and COMPOSITE ports.

The multi-screen processing unit is provided with a video controller for controlling the size of the video signal output from the input scaler and the multiplexer for selecting the input scaler.

The multi-screen processing unit may be an FPGA, and the timing controller may further include a sync signal unit for synchronizing image data on the display panel.

The MCU may further include an input interface connected to a keypad, a touch screen, a remote controller, and an RS232 / RS422 so that an adjustment signal adjusted from the outside may be input.

Thus, the marine monitor provided with the multi-screen processing unit according to the present invention has the following effects.

First, a receiver having an interface such as HDMI, RGB, DVI, or COMPOSITE port and a multiplexer for selecting and outputting any one of the video signals of the receiver are provided, Can be connected and output,

Second, since the multi-screen processing unit is provided with the image processor for converting the video signal output from the multiplexer into the graphic data and the OSD processing unit for processing the OSD signal, the screen size is adjusted by the operation of the graphic data, , The OSD processing section for adjusting the ratio of the selected screen is directly connected, the display of the OSD menu is stable,

Third, an input scaler for adjusting the size of a video signal input from the HDMI, RGB, DVI, and COMPOSITE ports according to the control signal of the video controller is provided in the receiver of the video input unit, And there is an effect that conversion into graphic data is easy.

1 is a block diagram showing a configuration of a video output control apparatus according to the related art,
2 is a block diagram showing a configuration of a monitor according to the related art,
FIG. 3 is a block diagram showing a configuration of a ship monitor having a multi-screen processing unit according to the present invention,
4 is a block diagram showing the configuration of a video input unit of a marine monitor according to the present invention,
5 is a block diagram showing a configuration of a multi-screen processing unit of a marine monitor according to the present invention.

Hereinafter, an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

As shown in FIG. 3, the ship monitor provided with the multi-screen processing unit according to the present invention includes a receiver 11 having an interface such as HDMI, RGB, DVI, and COMPOSITE port, An image input unit 10 having a plurality of input channels 15 including a multiplexer 12 for selecting and outputting any one of signals; A timing controller 21 for applying a synchronization signal of the graphic data processed by the image processor 21 to a display panel P, A multiscreen processing unit 20 having an OSD processing unit 23 for outputting an OSD menu or processing an OSD signal on the display panel P; A graphic memory 31 in which graphic data processed by the image processor 21 is stored according to the input channel 15 and a screen display memory 32 in which the screen size and display position information of the graphic data are stored A memory unit 30; An output scaler 41 for adjusting the video signal outputted from the multi-screen processing unit 20 according to the size of the display panel P and outputting the video signal output from the output scaler 41 to the HDMI interface A video output unit 40 provided with a transmitter 42 for outputting; And an MCU 50 for receiving the OSD signal or an external operation signal operated on the display panel P and transmitting the OSD signal or the external operation signal to the multi-screen processing unit 20.

Here, the ship monitor having the multi-screen processing unit of the present invention is configured in contrast to the A / D board so as to be differentiated from the general monitor shown in FIG. 2, and includes the image input unit 10, the multiple screen processing unit 20, (30) and an image output unit (40).

The multi-screen processing unit 20 is provided with an output multiplexer 24 that provides PIP, POP, dual screen, and multi-PIP by combining the graphic data output from the image processor 21.

3, the input channel 15 of the image input unit 10 is configured to include four channels. However, it is preferable that the displays used in the ship are integrally operated .

In addition, the receiver 11 is provided with an input scaler 11a for adjusting the size of a video signal input from the HDMI, RGB, DVI, and COMPOSITE ports.

Here, the input scaler 11a adjusts the size of the source video signal in advance so as to reduce the amount of work to convert the graphics data.

The multi-screen processing unit 20 is also provided with a video controller 25 for controlling the magnitude of the video signal output from the input scaler 11a and the multiplexer 12 for selecting the input scaler 11a.

Here, the input scaler 11a scales the screen size according to the signal of the image controller 25 as described above.

The multiplexer 12 selects one of the video signals inputted through the receiver 11 according to the signal of the video controller 25 and outputs the selected video signal to the multi-screen processor 20.

In addition, the multi-screen processing unit 20 may be an FPGA, and the timing controller 22 may further include a sync signal unit 22a for synchronizing image data on the display panel P.

The multi-screen processing unit 20 includes the image processor 21, the timing controller 22, and the OSD processing unit 23 for converting and multiplexing the image signals input from the image input unit 10 into graphic data, Are programmed and provided.

The sync signal unit 22a generates a sync signal to a drive driver IC (not shown) included in the display panel P, and sends out a sync signal to clean the displayed screen.

The MCU 50 further includes an input interface 55 connected to the keypad 51, the touch screen 52, the remote controller 53, and the RS232 / RS422 54 for inputting an adjustment signal to be externally adjusted do.

That is, the input interface 55 is provided to transmit signals inputted from an external device, a keypad 51, a touch screen 52, and the like mounted on the display panel P to the MCU 50.

Hereinafter, the operation of the ship monitor having the multi-screen processing unit according to the present invention will be described.

When a video signal is input to the video input unit 10 connected to an external device, the multi-screen processing unit 20 converts the video signal into graphic data and adjusts the size of the screen And adjusts the image according to the size of the display panel P in the image output unit 40 and outputs the adjusted image.

Specifically, a video signal of an external device is input to an interface such as HDMI, RGB, DVI, or COMPOSITE port provided in the receiver 11 of the video input unit 10. At this time, one of the HDMI, RGB, DVI, and COMPOSITE ports is selected and utilized as an image source, which is performed by the multiplexer 12.

The image processor 21 of the multi-screen processing unit 20 processes the video signal output from the multiplexer 12 into graphic data.

Meanwhile, the image processor 21 performs graphic data conversion in the graphic memory 31, which is stored for each input channel 15. The video controller 25 of the multi-screen processing unit 20 transmits a control signal for adjusting the size of the video signal to the receiver 11 before the conversion into graphic data, As shown in FIG.

The output multiplexer 24 of the multi-screen processing unit 20 outputs the combined graphic data stored in the graphic memory 31 according to the screen size and display position information stored in the display memory 32.

The video signal output from the output multiplexer 24 is adjusted in accordance with the size of the display panel P in the output scaler 41 of the video output unit 40, And outputs the video signal to the display panel P in accordance with the HDMI interface.

The timing controller 22 of the multi-screen processing unit 20 transmits a control signal to a driving driver IC (not shown) of the display panel P to improve the image quality of the display panel P .

On the other hand, the operation signal input from the external keypad 51, the touch screen 52, the remote controller 53, etc. determines the size, brightness, sharpness, etc. of the screen, and the MCU 50 detects the size, 20 to the OSD processing unit 23.

Here, the OSD processing unit 23 transmits signals such as the size, brightness, and sharpness of the screen to the image controller 25 and the image processor 21 according to the operation signal.

The OSD processing unit 23 adjusts an image signal to display an OSD menu (not shown) on the display panel P according to the operation signal, I / O operations are desired.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined in the appended claims and their equivalents. Of course, such modifications are within the scope of the claims.

Description of the Related Art
10: video input unit 11: receiver
11a: input scaler 12: multiplexer
15: input channel 20: multi-screen processing unit
21: image processor 22: timing controller
22a: Sync signal part 23: OSD processing part
24: output multiplexer 25: video controller
30: Memory part 31: Graphics memory
32: Screen display memory 40: Video output unit
41: output scaler 42: transmitter
50: MCU 51: keypad
52: Touch screen 53: Remote control
54: RS232 / RS422 55: Input Interface
P: Display panel

Claims (5)

And a multiplexer 12 for selecting one of the video signals input through the receiver 11 and the video signal input through the receiver 11, An image input unit 10 having a display unit 15;
A timing controller 21 for applying a synchronization signal of the graphic data processed by the image processor 21 to a display panel P, A multiscreen processing unit 20 having an OSD processing unit 23 for outputting an OSD menu or processing an OSD signal on the display panel P;
A graphic memory 31 in which graphic data processed by the image processor 21 is stored according to the input channel 15 and a screen display memory 32 in which the screen size and display position information of the graphic data are stored A memory unit 30;
An output scaler 41 for adjusting the video signal outputted from the multi-screen processing unit 20 according to the size of the display panel P and outputting the video signal output from the output scaler 41 to the HDMI interface A video output unit 40 provided with a transmitter 42 for outputting;
An MCU 50 for receiving the OSD signal or an external operation signal operated on the display panel P and transmitting the OSD signal or the external operation signal to the multi-screen processing unit 20,
The multi-screen processing unit 20 is provided with an output multiplexer 24 for providing PIP, POP, dual screen, and multi-PIP by combining the graphic data output from the image processor 21,
Wherein the receiver (11) is provided with an input scaler (11a) for adjusting the size of a video signal input from the HDMI, RGB, DVI, and COMPOSITE ports. delete The method according to claim 1,
The multiscreen processing unit 20 is provided with a video controller 25 for controlling the size of the video signal output from the input scaler 11a and the multiplexer 12 for selecting the input scaler 11a Screen processing unit. The method according to claim 1,
The multi-screen processing unit 20 comprises an FPGA,
Wherein the timing controller (22) further comprises a sync signal unit (22a) for synchronizing image data on the display panel (P). The method according to claim 1,
The MCU 50 is further provided with an input interface 55 connected to the keypad 51, the touch screen 52, the remote controller 53 and the RS232 / RS422 54 for inputting an adjustment signal to be externally adjusted Wherein the multi-screen processing unit comprises:

Images