JP2003307721A - Liquid crystal projector - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a liquid crystal projector wherein the generation of a hum noise can be prevented even when various video signals having mutually different frequency of vertical synchronization signals are inputted. <P>SOLUTION: The liquid crystal projector provided with a lamp for a backlight light source and a lamp lighting device for driving the lamp is provided with a distingushing means for distingushing the frequency of the vertical synchronization signals of the inputted video signals and a controlling means for controlling the lamp lighting device so that the lighting frequency of the lamp for the backlight light source is integral multiple of the frequency of the vertical synchronization signals distingushed by the distingushing means. <P>COPYRIGHT: (C)2004,JPO

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a liquid crystal projector.

[0002]

2. Description of the Related Art With the miniaturization of liquid crystal projectors,
The lamp lighting device, which is a noise source, and the signal processing circuit tend to be close to each other in the layout, and the noise generated from the lamp current of the lamp lighting device affects the panel drive circuit and the like, resulting in hum-like noise on the screen. May occur.

For example, in the lamp lighting device manufactured by Philips, the lighting frequency of the lamp for the backlight light source can be set to half the frequency of the external synchronizing signal by inputting the synchronizing signal from the outside. Is. Therefore, an external synchronizing signal is generated by the pulse generating circuit so that the relationship between the frequency of the vertical synchronizing signal of the input video signal and the lamp lighting frequency becomes an integral multiple that makes it less noticeable as hum noise on the screen, and the lamp lighting device is created. I'm typing.

However, in the conventional liquid crystal projector, regardless of the frequency of the vertical synchronizing signal of the input video signal, the frequency of the external synchronizing signal input to the lamp lighting device is set to be the same for all the input video signals. ing. On the other hand, since the frequency of the vertical synchronizing signal of the video signal input to the liquid crystal projector is in the range of 50 Hz to 85 Hz, in the conventional liquid crystal projector, for all input video signals,
The hum on the screen cannot be reduced.

Specifically, in the conventional liquid crystal projector, since the hum noise on the screen is conspicuous in the input video signal in which the frequency of the vertical synchronizing signal is 60 Hz, the lamp lighting frequency is 120 Hz which is an integral multiple of the frequency of the vertical synchronizing signal.
Is set to. That is, the external synchronization signal to the lamp lighting device is set (fixed) to 240HZ. For this reason,
When a video signal with a vertical synchronizing signal frequency of 85 Hz is input like an image created by a PC, hum noise on the screen becomes noticeable.

[0006]

SUMMARY OF THE INVENTION It is an object of the present invention to provide a liquid crystal projector capable of preventing the occurrence of hum noise even when various video signals having different vertical synchronizing signal frequencies are input.

[0007]

According to a first aspect of the present invention, in a liquid crystal projector including a backlight light source lamp and a lamp lighting device for driving the lamp, a frequency of a vertical synchronizing signal of an input video signal is provided. And a control means for controlling the lamp lighting device so that the lighting frequency of the backlight light source lamp is an integral multiple of the frequency of the vertical synchronizing signal determined by the determination means. Characterize.

According to a second aspect of the present invention, in the liquid crystal projector according to the first aspect, in the lamp lighting device, the lighting frequency of the lamp for the backlight light source is one of the frequencies of the external synchronizing signal given to the lamp lighting device. The backlight light source lamp is driven so as to have a frequency of / 2, and the control means is a pulse generation circuit for generating an external synchronization signal and the vertical synchronization in which the frequency of the external synchronization signal is determined by the determination means. And a means for controlling the pulse generating circuit so that the frequency becomes four times the frequency of the signal.

[0009]

BEST MODE FOR CARRYING OUT THE INVENTION Embodiments of the present invention will be described below with reference to the drawings.

FIG. 1 shows the structure of a liquid crystal projector. FIG. 2 shows signals of each part.

The liquid crystal projector has a video signal (AV
Signal) or a computer signal created by a PC (CG
Signal) is input, and either the AV signal or the CG signal is selected by the input switching circuit 1 and sent to the sync separation circuit 6 and the A / D converter 2.

The A / D conversion circuit 2 converts the input video signal into a digital video signal. The digital video signal is subjected to scan conversion processing by the scan conversion circuit 3 and then sent to the LCD panel 5 via the panel drive circuit 4. The panel drive circuit 4 is controlled by the CPU 8.

The sync separation circuit 6 extracts the vertical sync signal a (see FIG. 2) from the input video signal. The vertical sync signal a extracted by the sync separation circuit 6 is sent to the frequency discrimination circuit 7 and the pulse generation circuit 9.
The frequency discriminating circuit 7 discriminates the frequency fo of the vertical synchronizing signal a sent from the sync separating circuit 6. The determination result is sent to the CPU 8.

Based on the frequency fo of the vertical synchronizing signal a of the input video signal, the CPU 8 is a signal having a frequency 4fo which is four times as high as that of the vertical synchronizing signal a of the input video signal and is synchronized with the vertical synchronizing signal a of the input video signal (FIG. 2). The pulse generation circuit 9 is controlled so that the reference signal is output from the pulse generation circuit 8.

The external synchronizing signal b output from the pulse generating circuit 9 is sent to the lamp lighting device 10. The lamp lighting device 10 outputs to the backlight light source lamp 11 a lamp drive current c having a frequency 2fo which is a half of the frequency 4fo of the external synchronization signal b. As a result, the lighting frequency of the backlight light source lamp 11 becomes 2fo, which is an integral multiple of the frequency fo of the vertical synchronizing signal of the input video signal.

For example, when the input video signal is an AV signal having a vertical sync signal frequency fo of 60 Hz, the frequency (4fo) of the external sync signal b is 240 Hz, and the lighting frequency of the backlight light source lamp 11 ( 2fo) is 120 Hz. When the input video signal is an AV signal whose frequency fo of the vertical synchronizing signal is 85 Hz,
The frequency (4fo) of the external synchronization signal b is 340 Hz, and the lighting frequency (2f of the backlight light source lamp 11 is 2 f
o) becomes 170 Hz.

[0017]

According to the present invention, it is possible to prevent the hum noise from being generated even when various video signals having different vertical synchronizing signal frequencies are input.

[Brief description of drawings]

FIG. 1 is a block diagram showing a configuration of a liquid crystal projector.

FIG. 2 is a timing chart showing signals of respective parts of FIG.

[Explanation of symbols]

5 LCD panel 6 Sync separation circuit 7 Frequency discrimination circuit 8 CPU 9 pulse generation circuit 10 lamp lighting device 11 Lamp for backlight source

Front page continuation (51) Int.Cl. ⁷ Identification code FI theme code (reference) G09G 3/20 612 G09G 3/20 612K 5C080 680 680C 3/34 3/34 J 3/36 3/36 H04N 5/74 H04N 5/74 K F term (reference) 2H088 EA12 HA06 HA29 MA20 2H093 NC42 NC59 ND40 NE06 NG02 2K103 AA05 AB10 BA13 CA60 5C006 AA01 AF72 BF49 EA01 EC11 FA31 GA03 5C058 AB03 BA29 BA33 BB08 EA26 JJ26A08 EA26 A12 EA26 A12 EA26 A12 EA26 A12 EA26 A12 EA26 A12 A12

Claims (2)

[Claims] 1. A liquid crystal projector comprising a backlight light source lamp and a lamp lighting device for driving the same, and a determination means for determining the frequency of a vertical synchronizing signal of an input video signal, and a backlight light source lamp. A liquid crystal projector comprising: control means for controlling the lamp lighting device such that the lighting frequency is an integral multiple of the frequency of the vertical synchronizing signal determined by the determining means. 2. The lamp lighting device drives the backlight light source lamp such that the lighting frequency of the backlight light source lamp is half the frequency of the external synchronization signal supplied to the lamp lighting device. The control means includes a pulse generating circuit for generating an external synchronizing signal and a pulse generating circuit so that the frequency of the external synchronizing signal is four times the frequency of the vertical synchronizing signal determined by the determining means. The liquid crystal projector according to claim 1, further comprising a control unit.