JP2010015065A - Image display apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an image display apparatus which prevents an abnormal image from being displayed after detecting an abnormal state of an image output section by means of a display control section. <P>SOLUTION: The image display apparatus is provided with the display control section 28. The display control section 28 is configured so that an image signal input to the image output section 24 from a navigation part 21 is displayed following the transition of a display image displayed on a liquid crystal panel 33 and also a synchronous signal transmitted to the image output section 24 from the navigation part 21 is monitored, and when the synchronous signal is not input, communication with the image output section 24 is stopped. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to an image display device capable of monitoring whether an image output unit that drives an image display unit such as a liquid crystal display panel operates to detect whether the operation of the image output unit is normal.

  FIG. 1 is a block diagram showing a schematic configuration of an image display apparatus 1 of the prior art. For example, an image display device 1 also called a multi-view display device mounted on a vehicle includes a navigation unit 2 that outputs road information and GPS reception information together with map information and route guidance information, and a camera that images the front and rear of the vehicle. Main control for overall control of image signal, radio receiver for receiving radio broadcast waves, TV receiver for receiving TV broadcast waves, CD / DVD playback section for playing music and images recorded on CD or DVD Unit 3 and a display unit 4 for displaying an image signal from the main control unit 3.

The navigation unit 2 operates in synchronization with a clock signal from the crystal oscillator, and outputs a synchronization signal, an image signal, an image mute signal V-MUTE, and a TAB communication signal. A low voltage differential transmission (Low Voltage Differential transmission) for inputting a synchronization signal and an image signal and transmitting them to the display section 4 via the main control section 3.
Signaling; LVDS) transceiver 11 is provided. The LVDS transceiver 11 outputs a differential synchronization signal and a differential image signal obtained by combining the synchronization signal and the image signal.

  The display unit 4 inputs the differential synchronization signal and the differential image signal from the image output unit 7, the liquid crystal display panel 8, and the LVDS transceiver 11, and outputs the synchronization signal and the image signal to the image output unit 7. And a display control unit 13 for outputting a control timing signal to the image output unit 7 and causing the image output unit 7 to output a liquid crystal drive signal and an image signal by serial communication. The display control unit 13 is realized by a microcomputer.

  The display unit 4 performs saturation correction, hue correction, contrast correction, gamma correction, and the like on the image signal input from the navigation unit 2, and then the image output unit 7 operates in synchronization with the synchronization signal CLK. A drive signal and an image signal for the liquid crystal display panel 8 are generated, and an image is displayed on the liquid crystal display panel 8. The main control unit 3 is provided with an audio microcomputer 15, and in response to a TAB communication signal output from the navigation control unit 2, various setting values such as an image display position and an operation mode are displayed on the display control unit 13. Is configured to be set.

  The image output unit 7 is realized by an application specific integration circuit (ASIC). The liquid crystal display panel 8 includes a liquid crystal display element and a backlight that irradiates the liquid crystal display element with light from behind.

  The initial value setting of the image output unit 7 and the setting of parameters for image processing are performed under the control of the display control unit 13. At this time, if the synchronization signal CLK supplied to the image output unit 7 is stopped, the image output unit 7 cannot operate. Therefore, when the display control unit 13 communicates with the image output unit 7 during this period, An error will occur. In the worst case, the display control unit 13 cannot detect that the synchronization signal CLK is not supplied to the image output unit 7, and cannot set initial values such as the image display position, brightness, and color tone, and parameters for image processing. Since the operation continues in the state, the screen position is not shifted or the state where the color is abnormal is not restored. Further, since the image output unit 7 is stopped during the stop period of the synchronization signal CLK, there is a problem that the image is not displayed normally.

  Another conventional technique is described in Patent Document 1, for example. In this prior art, in an LCD panel that displays an image based on an image signal on an LCD panel in synchronization with a synchronization signal, the image output unit uses an existing scaler and a microcomputer as a display control unit. Calculation means is provided in the microcomputer so that parameters such as a synchronization signal and a clock signal of the image signal set in the liquid crystal panel driving IC can be obtained from data measured using the input signal measuring function by the scaler. Is provided.

JP 2007-271665 A

  In the prior art disclosed in Patent Document 1, parameters such as a synchronization signal and a clock signal of an image signal set in a liquid crystal panel driving IC are obtained by an arithmetic unit provided in the microcomputer. Therefore, even if the synchronization signal to the liquid crystal driving IC is stopped, the image processing parameters cannot be set as in the prior art shown in FIG. However, there is a problem that the image is not displayed normally due to a shift in the screen position, an abnormality in color, and the like.

  An object of the present invention is to provide an image display device capable of preventing an abnormal image from being displayed by detecting an abnormality of an image output unit by a display control unit.

The present invention (1) includes an image signal source that outputs an image signal together with a synchronization signal;
An image output unit that inputs an image signal and a synchronization signal output from an image signal source, and outputs the image signal together with a display control signal in synchronization with the synchronization signal;
In response to the display control signal, an image display unit that displays an image signal from the image output unit as an image;
The image output unit displays the image signal input from the image signal source according to the transition of the display image displayed by the image display unit, and monitors the synchronization signal transmitted from the image signal source to the image output unit. And a display control unit that stops communication with the image output unit when the synchronization signal is not input.

  According to the present invention (1), the display control unit monitors the synchronization signal transmitted from the image signal source to the image output unit, and stops communication with the image output unit when the synchronization signal is not input. Since it is configured, it is possible to prevent an abnormal image from being displayed on the image display unit by detecting an abnormality due to the stop of the synchronization signal of the image output unit.

  FIG. 2 is a block diagram showing a schematic configuration of the image display apparatus 20 according to the embodiment of the present invention. The image display device 20 according to the present embodiment is an image display device called a multi-view display device mounted on a vehicle, for example, and is an image signal source that outputs road information and GPS reception information together with map information and route guidance images. As a navigation unit 21, an image signal from a camera that captures the front and back of the vehicle, a radio reception unit that receives radio broadcast waves, a TV reception unit that receives television broadcast waves, a CD (Compact Disc) or a DVD (Digital Versatile Disk) ) Includes a main control unit 22 that performs overall control of a CD / DVD playback unit that plays back music and images recorded on the display, and a display unit 23 that displays image signals from the main control unit 22.

  The navigation unit 21 outputs an image signal and a synchronization signal together with the clock signal CLK in synchronization with the clock signal CLK, and outputs an image mute signal V-MUTE for changing the image to a black image.

  The display unit 23 responds to the image output unit 24 that outputs the image signal input from the navigation unit 21 together with the display control signal in synchronization with the synchronization signal, and the image signal and the display control signal from the image output unit 24. The liquid crystal display element 25 to be driven, the backlight 26 that irradiates the liquid crystal display element 25 from behind, the backlight control unit 27 that controls the luminance of the backlight 26, and the image mute signal V-MUTE from the navigation unit 21. , The backlight control signal for reducing the luminance is output to the backlight control unit 27, and the image signal input from the navigation unit 21 to the image output unit 24 is displayed by the image display unit 33. The image is displayed according to the transition of the image, and the navigation unit 21 outputs the image output unit LBDS. Monitoring the synchronization signal transmitted through the over bus 34, when said synchronizing signal is not input, and a display control unit 28 to stop the communication with the image output unit 24.

The navigation unit 21 operates in synchronization with a clock signal from an external crystal oscillator, and outputs a synchronization signal, an image signal, an image mute signal V-MUTE, and a TAB communication signal, and a navigation control unit Low-voltage differential transmission (Low Low) 30 receives a synchronization signal and an image signal from 30 and transmits them to the display output unit 24 via the main control unit 22.
Voltage differential signaling (abbreviated as LVDS) transceiver 31.

  The LVDS transceiver 31 outputs a clock signal and a differential signal obtained by combining a synchronization signal and an image signal. Such a navigation unit 21 is configured to output a map and route guidance information based on road information received by the VICS information receiving unit and geographic information received by the GPS information receiving unit.

  The main control unit 22 is provided with an audio microcomputer 41. In response to the TAB communication signal output from the navigation control unit 30, the display control unit 28 has various setting values such as an image display position and an operation mode. Is configured to be set.

  The liquid crystal display element 25 and the backlight 26 constitute a liquid crystal display panel 33. The display unit 23 inputs the differential synchronization signal and the differential image signal from the image output unit 24, the liquid crystal display panel 33, and the LVDS transceiver 31, and receives the clock signal CLK and the image signal to the image output unit 24. The LVDS receiver 34 for outputting and the display control unit 28 for outputting a control timing signal to the image output unit 24 and causing the image output unit 24 to output a black image signal by serial communication.

  The display control unit 28 displays the image signal input from the navigation unit 21 serving as the image signal source according to the transition of the display image displayed on the liquid crystal display panel 33, and determines the operation state of the image output unit 24. When it is determined that the image output unit 24 is not operating, a reset signal for resetting the image output unit 24 is output. Such a function of the display control unit 28 is realized by a program executable by a computer. The display control unit 28 is realized by a microcomputer as a hardware resource in which the program is stored in a storage area realized by, for example, a ROM (Read Only Memory).

  The navigation unit 21 includes a camera that captures images such as front and rear of a vehicle, a television receiver that receives television broadcast waves by an antenna, a CD / DVD player that reproduces music information and images stored in CDs and DVDs, and a hard disk. It may be configured to include a hard disk playback device that plays back the recorded image and music information.

  The liquid crystal display element 25 has, in order from the backlight 26 side, a polarizing plate, an individual electrode side glass substrate on which TFTs (Thin Film Transistors) as switching elements are formed in a matrix, a liquid crystal layer, and pixels of three primary colors RGB. A structure in which a color filter substrate, a parallax barrier layer, a common electrode side glass plate, a polarizing plate, and the like are laminated may be used. Such a liquid crystal display element constitutes a display screen in which, for example, 800 pixels in the horizontal direction and 480 pixels in the vertical direction are arranged.

  For example, the image output unit 24 includes a plurality of analog / digital converters, a luminance / color conversion circuit, an RGB decoder, a switching circuit, a writing circuit, a reading circuit, an output timing control circuit, a memory IF, a VRAM, and a C / B. The circuit includes an adjustment circuit, an RGB rearrangement circuit, a gamma table, a gamma correction circuit, a TFT timing control circuit, and the like. Such an image output unit 24 is realized by, for example, an ASIC (Application Specific Integrated Circuit).

  The display control unit 28 is configured to input the horizontal synchronization signal H-SYNC among the synchronization signals output from the LVDS receiver 34 to the image output unit 24 via the impedance matching buffer 40. . As a result, since all output signals of the LVDS receiver 34 cannot be output without a clock, it is possible to detect whether or not a synchronization signal is input to the image output unit 24. Specifically, the falling edge (or rising edge) of the synchronization signal is detected for three periods, and if it is input, communication is possible and it is stored in advance in a storage unit such as a ROM of the display control unit 28. If the program is not input, communication is disabled, a command such as “wait” is derived, and the standby state is maintained.

  When the input of the synchronization signal is stopped during communication between the display control unit 28 and the image output unit 24, the display control unit 28 enters a communication error state and performs communication again when the synchronization signal is input again.

  Further, when the synchronization signal is not input to the display control unit 28, or when the input of the synchronization signal is interrupted, the backlight control unit 27 as an inverter circuit is controlled to turn off the backlight 26, and the liquid crystal display An abnormal display on the panel 33 can be prevented.

  FIG. 3 is a flowchart for explaining the operation of the display control unit 28 provided in the display unit 23 of the image display device 20. When the image display device 20 is activated by turning on the power (step s0), the display control unit 28 starts an execution operation of a pre-registered program and is input by the user by inputting a TAB communication signal from the navigation control unit 30. The operation is started in any one of the selected navigation mode, television reception mode, radio reception mode, CD or DVD playback mode, and the operation for determining the synchronization signal supplied from the LVDS receiver 34 to the image output unit 24 is performed. Start (step s1). When the display control unit 28 detects the synchronization signal, the display control unit 28 continues communication to the image output unit 24, sets parameters associated with the image signal processing in the image output unit 24, and the navigation unit 21. Is displayed on the liquid crystal display panel 33 (step s2).

  If the synchronization signal is not input, the display control unit 28 waits for a predetermined time Tms (step s3), determines whether or not the synchronization signal is input again (step s1), and again outputs the synchronization signal. When detected, communication with the image output unit 24 is resumed (step s2), and at the same time, the determination of the synchronization signal is continued (step s4). In a state where the display control unit 28 detects the synchronization signal, communication with the image output unit 24 is stopped (step s5), and the next processing operation, for example, the reproduction operation of the image signal is started (step s6). If the synchronization signal is stopped during communication between the display control unit 28 and the image output unit 24 (step s4), after waiting again for T time (step s3), the state returns to the determination state as to whether or not the synchronization signal is input. .

  By repeating such a synchronization signal determination operation, the display control unit 28 can grasp that the synchronization signal is not input to the image output unit 24. Therefore, the screen position shift due to a communication error or the color of the image Can prevent abnormal conditions from occurring.

  When the input of the synchronization signal to the display control unit 28 is interrupted, the backlight control unit 27, which is an inverter circuit, is switched to the backlight control unit 27 from the off state, that is, from the lighting state to the non-lighting state. It is possible to avoid the display of an abnormal image such as a color abnormality or a screen position deviation by displaying 33 as black.

  In this way, the display control unit 28 monitors the synchronization signal supplied to the image output unit 24 and stops communication with the image output unit 24 when the synchronization signal stops, so all operations that require the synchronization signal are performed. This circuit can be fail-safe to prevent malfunctions and prevent unpredictable problems caused by the absence of a synchronization signal.

It is a block diagram which shows schematic structure of the image display apparatus 1 of a prior art. It is a block diagram which shows schematic structure of the image display apparatus 20 of one Embodiment of this invention. 4 is a flowchart for explaining an operation of a display control unit 28 provided in the display unit 23 of the image display device 20.

Explanation of symbols

DESCRIPTION OF SYMBOLS 20 Image display apparatus 21 Navigation part 22 Main control part 23 Display part 24 Image output part 25 Liquid crystal display element 26 Backlight 27 Backlight control part 28 Display control part 30 Navigation control part 31 LVDS transceiver 33 Liquid crystal display panel 34 LVDS receiver

Claims (3)

An image signal source for outputting an image signal together with a synchronization signal;
An image output unit that inputs an image signal and a synchronization signal output from an image signal source, and outputs the image signal together with a display control signal in synchronization with the synchronization signal;
In response to the display control signal, an image display unit that displays an image signal from the image output unit as an image;
The image output unit displays the image signal input from the image signal source according to the transition of the display image displayed by the image display unit, and monitors the synchronization signal transmitted from the image signal source to the image output unit. And a display control unit that stops communication with the image output unit when the synchronization signal is not input.   The display control unit switches from a communication state to a communication error state when the synchronization signal is not input, and cancels the communication error state and returns to the communication state when the synchronization signal is input again. The image display device according to claim 1, wherein The image display unit comprises a liquid crystal display panel provided with a backlight behind the liquid crystal display element,
The display control unit switches the backlight of the image display unit to an off state when the synchronization signal is not input, and returns the off state of the backlight to an on state when the synchronization signal is input again. The image display apparatus according to claim 1, wherein

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