JPH07270753A - Information transmission device - Google Patents

Abstract

PURPOSE:To reduce electric power consumption in the case of displaying of information by utilizing a memory effect of liquid crystals. CONSTITUTION:Driving voltage is not impressed to a liquid crystal display element 2 and a 'fluctuation' does not arise in liquid crystal molecules in the case of displaying of the information by utilizing the memory effect of the liquid crystals. Then, the liquid crystal molecules come to a standstill and consequently the quantity of the light transmitting the liquid crystal display element 2 increases but, on the other hand, a driving waveform/light controllable circuit control switch 108 turns off and a light controllable circuit 111 lowers the luminance of a back light device 3. The quantity of the light passing the liquid crystal display element 2 is eventually decreased and the electric power consumption is correspondingly reduced.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention generally relates to an information transmission device using a liquid crystal display element, and more specifically, it temporarily cuts off a driving voltage of the liquid crystal display element to display information by a memory effect of liquid crystal. The present invention relates to adjustment of the brightness of a liquid crystal display element when displaying.

[0002]

2. Description of the Related Art Conventionally, as a liquid crystal display element used in an information transmission device, a display of a type in which transmitted light rays are controlled by utilizing a refractive index anisotropy of ferroelectric liquid crystal molecules in combination with a polarizing element. A device has been proposed by Clark and Lagerwall (JP 56-107216, U.S. Pat. No. 43).
67924, etc.). This ferroelectric liquid crystal generally has a non-helical chiral smectic C phase (SmC ^* ) or H phase (SmH ^* ) in a specific temperature range,
In this state, it has the property of taking one of the first optically stable state and the second optically stable state in response to the applied electric field. And the above-mentioned liquid crystal display element,
By utilizing the property of the ferroelectric liquid crystal, it is possible to display various information by transmitting or blocking the light from the illuminating means to give a black and white contrast.

Further, the ferroelectric liquid crystal also has the property that the alignment state (optically stable state) of liquid crystal molecules is maintained as it is even when the electric field is cut off, and the display content when the electric field is applied is maintained as it is ( (Memory effect), therefore, when there is no change in the display content, a liquid crystal display element is generally widely used in which the drive voltage is cut off to display by the memory effect to reduce power consumption.

[0004]

By the way, in the above-mentioned transmissive liquid crystal display element, the brightness of the illuminating means is kept constant even when the display content is not changed. However, the case where the display content is not changed in this way is generally the case where the use of the liquid crystal display element is interrupted by, for example, a person using the liquid crystal display element standing up. Therefore, it is not necessary to keep the brightness of the illumination means constant, and it is not preferable from the viewpoint of reducing power consumption. Further, since the ferroelectric liquid crystal has a property that liquid crystal molecules fluctuate depending on the applied drive voltage, when the drive voltage is cut off and information is displayed by the memory effect as described above, the liquid crystal molecules remain stationary. As a result, the amount of light that passes through the liquid crystal display element increases, and the person using the liquid crystal display element feels as if the brightness of the lighting means has increased, causing a strange feeling. there were.

Therefore, according to the present invention, when the application of the driving voltage to the liquid crystal display element is interrupted, the brightness of the illuminating means is adjusted to reduce the amount of light transmitted through the liquid crystal display element. It is an object of the present invention to provide an information transmission device that solves the above problem.

[0006]

SUMMARY OF THE INVENTION The present invention has been made in view of the above circumstances, and is a transmissive liquid crystal display device having a pair of substrates having electrodes formed thereon, and a liquid crystal sandwiched between the substrates. An illumination means for illuminating the display element and a drive voltage applying means for changing the display content of the liquid crystal display element based on the application of the drive voltage to the electrode are provided, and the display content of the liquid crystal display element is not changed. In this case, in the information transmission device for stopping the application of the drive voltage by the drive voltage application means and displaying information by the memory effect of the liquid crystal, a change presence / absence detection means for detecting the presence or absence of a change in the display content of the liquid crystal display element. And brightness adjusting means for adjusting the brightness of the illuminating means based on a signal from the change presence / absence detecting means, and when the application of the drive voltage is stopped, the liquid crystal display element is As the amount of light over that is equal to or less than the amount of light when it is applied in the driving voltage, the brightness adjusting unit to adjust the brightness of the illumination means, characterized in that. In this case, when the application of the drive voltage is stopped, the brightness adjusting means sets the brightness adjusting means so that the amount of light passing through the liquid crystal display element becomes substantially equal to the amount of light when the drive voltage is applied. It is preferable to adjust the brightness of. Further, it is preferable that, when the application of the drive voltage is stopped, the amount of light passing through the liquid crystal display element is smaller than the amount of light when the drive voltage is applied.

Further, it is provided with an operating means for sending a signal to the driving voltage applying means in response to an operation of the operator, and the driving voltage applying means changes the display content of the liquid crystal display element based on the signal from the operating means. Also, the change presence / absence detection unit may determine whether or not the display content has been changed based on the presence / absence of a signal from the operation unit.

Further, the illuminating means has a light source and a voltage applying means for applying a voltage to the light source, and the brightness adjusting means controls the voltage applying means to control the brightness of the light source. May be adjusted.

Further, the liquid crystal may be a ferroelectric liquid crystal.

[0010]

According to the above construction, when displaying arbitrary information on the liquid crystal display element, a predetermined driving voltage is applied to the electrodes through the driving voltage applying means. Then, by applying the drive voltage, the optically stable state of the liquid crystal is switched, and the display content of the liquid crystal display element is changed. When the display content of the liquid crystal display element is not changed, the application of the drive voltage by the drive voltage applying means is stopped, and the information display is continued due to the memory effect of the liquid crystal. On the other hand, the change presence / absence detecting unit detects that the display content of the liquid crystal display element is not changed, and outputs a signal to the brightness adjusting unit. Then, the brightness adjusting means adjusts the brightness of the illuminating means based on the signal from the change presence / absence detecting means. As a result, the amount of light transmitted through the liquid crystal display element is made equal to or less than the amount of light when the drive voltage is applied. When the drive voltage is again applied to the electrodes via the drive voltage applying means, the brightness adjustment of the illuminating means as described above is stopped and the brightness is returned to the preset brightness.

[0011]

Embodiments of the present invention will be described below with reference to the drawings.

As shown in FIG. 1, the information transmission device 1 according to the present embodiment has a transmissive liquid crystal display element 2 and a liquid crystal display element 2.
, And the like, and various circuits 102, 103, ... For driving these.

Of these, the liquid crystal display element 2 is provided with a pair of glass substrates 4a and 4b arranged so as to face each other, as shown in detail in FIG.
A scanning electrode 5a and an information electrode 5b are formed on 4b, respectively. The electrodes 5a and 5b are covered with insulating films 6a and 6b, and the insulating films 6a and 6b are covered with orientation control films 7a and 7b. Spacer beads 9, ... Are arranged between these substrates (more accurately, between the orientation control films 7a and 7b), and are configured to keep the gap constant. Further, the ferroelectric liquid crystal 10 is sandwiched between the substrates. The ferroelectric liquid crystal 10 has the scanning electrodes 5a.
The optical stable state of the information electrode 5b is changed according to the voltage applied to the information electrode 5b (hereinafter referred to as "driving voltage") to display predetermined information. It has a memory effect that maintains its stable state even when it is not applied.

Further, the liquid crystal display element 2 having the above structure
3, is housed in a housing K, and the backlight device 3 is housed in the housing K so as to be located directly below the liquid crystal display element 2. The backlight device 3 includes a fluorescent lamp 30, ... As a light source, a reflection plate 31, a diffusion plate 32, and the like.
The light from the diffuser plate 3 is reflected after being reflected by the reflector plate 31.
It is configured so that the liquid crystal display element 2 after being diffused at 2 is illuminated with uniform brightness. The backlight device 3 is connected to an inverter (voltage applying means) 110 as shown in FIG. 1 and constitutes lighting means together with the inverter 110. A dimming circuit 111 as a brightness adjusting unit is connected to the inverter 110, and the dimming circuit 111 is configured to adjust the brightness based on the control of the inverter 110.
Note that, as shown in detail in FIG. 3, a transparent glass plate 20 having an opening is formed in the upper part of a housing K that houses the liquid crystal display element 2 and the backlight device 3, and the glass plate 20 is provided. A deflection plate 21 is arranged on the lower surface of 20. Further, the deflection plate 22 is also arranged on the upper surface of the diffusion plate 32 described above.

On the other hand, as shown in FIG. 1, the scanning signal applying circuit (driving voltage applying means) 1 is applied to the above-mentioned scanning electrode 5a.
02 is connected, and an information signal applying circuit (driving voltage applying means) 103 is connected to the other information electrode 5b. Furthermore, these circuits 102 and 103 have
The scanning signal control circuit 104 and the information signal control circuit 106 are connected to each other, and these circuits 104,
Reference numeral 106 is connected to a computer main body 112 via a drive control circuit (drive voltage applying means) 105. The computer main body 112 has a built-in graphic controller 107 and a drive waveform / dimming circuit control switch (change presence / absence detecting means) 108. Further, the computer main body 112 has a mouse 114 and a keyboard as operating means. 113 etc. are connected.

Next, the operation of this embodiment will be described.

Now, when the operator operates the mouse 114 or the keyboard 113, signals from these are sent to the graphic controller 107, and further, the graphic controller 107 sends data to the scan signal control circuit 104 and the information signal control circuit 106. And a scanning method signal are sent via the drive control circuit 105.
The data among these is converted into address data and display data by these circuits 104 and 106, and
The other scanning method signal is directly applied to the scanning signal applying circuit 10
2 and the information signal application circuit 103. Further, the scanning signal applying circuit 102 applies a scanning signal having a waveform determined by the scanning method signal to the scanning electrode 5a determined by the address data, and the information signal applying circuit 103 determines whether the white or black display content is sent by the display data. It is configured to apply an information signal having a waveform determined by two scanning method signals.

When the operator does not operate the keyboard 113 or the mouse 114, no data is transmitted from the graphic controller 107, and the drive control circuit 105 causes the drive control circuit 105 to scan the scanning electrodes 5a and the information electrodes 5 of the liquid crystal display element 2.
The potentials of b are made equal so that no drive voltage is applied to the liquid crystal 10. Therefore, the liquid crystal 10 maintains the optical state due to the memory effect, and continues to display the same content. Here, the liquid crystal display element 2 enters the static mode (memory mode). In this case, since the drive voltage is not applied to the liquid crystal molecules of the liquid crystal 10, the “fluctuation” phenomenon disappears, and the liquid crystal molecules remain stationary. On the other hand, as described above, the mouse 114
At the moment when the static mode is entered after neither the keyboard 113 nor the keyboard 113 is operated and the static mode is entered, the drive waveform / dimming circuit control switch 108 is turned off and the signal is sent to the dimming circuit 111. And
The dimming circuit 111 is a driving waveform / dimming circuit control switch 1
The dimming control signal is received by the inverter 11 in response to the signal from 08.
0 to reduce the voltage applied to the backlight device 3 by a predetermined amount. As a result, the backlight device 3
The light emission brightness of the fluorescent lamps 30, ...

When the operator operates the keyboard 113 or the like, the drive waveform / dimming circuit control switch 108 is turned on.
Therefore, as described above, the graphic controller 10
Data is transmitted from 7, the light emission brightness of the backlight device 3 returns to the same level as before reduction, and the display content of the liquid crystal display element 2 is changed.

Next, the effect of this embodiment will be described.

According to this embodiment, the operator operates the keyboard 1
13 is not operated, the drive waveform / dimming circuit control switch 108, the dimming circuit 111, and the inverter 110
The emission brightness of the backlight device 3 is reduced via the.
Therefore, the power consumption is reduced accordingly. In such a case, the amount of light passing through the liquid crystal display element 2 also decreases as the light emission brightness of the backlight device 3 decreases, but if the operator does not operate the keyboard 113 or the like, the operator may stand up or sit down. In general, the information transmission device 1 is not used, and there is no practical problem even if the amount of transmitted light decreases. Further, when the light emission brightness of the backlight device 3 is constant, the fluctuation of the liquid crystal molecules as described above disappears and the amount of transmitted light increases, which makes the operator feel strange. There is no such fear. Further, as described above, the backlight device 3
Since the emission brightness of the liquid crystal display device is reduced, the temperature of the liquid crystal display element 2 is lowered, and deterioration of the image quality due to heating is prevented. Also,
The life of the backlight device 3 is extended along with the decrease of the emission brightness, and the trouble of replacing the fluorescent lamps 30, ...

On the other hand, it is possible to equalize the amount of light transmitted through the liquid crystal display element 2 when the drive voltage is applied and when it is not applied. In such a case, on the display related to the presence or absence of the drive voltage. The difference can be eliminated and the display quality can be improved.

The drive waveform / dimming circuit control switch 1
It is also possible to connect 08 to the keyboard 113 or the like, in which case the circuit configuration becomes simple.

Although the direct type backlight device has been described in this embodiment, the present invention is not limited to this, and a so-called edge type backlight device may be used. Further, in this embodiment, the light source used in the backlight device is the fluorescent lamp, but it is not limited to this, and an incandescent light bulb, a white halogen lamp, a white metal halogen lamp, a light emitting diode or the like may be used. On the other hand, the drive waveform / dimming circuit control switch 1 described above
Although 08 is set to be turned off after a predetermined time has passed without operating either the mouse 114 or the keyboard 113, the time when the switch 108 is turned off may be adjustable.

[0025]

As described above, according to the present invention,
When the display content of the liquid crystal display element is not changed, the brightness of the illuminating means is adjusted via the change presence / absence detecting means and the brightness adjusting means, and the amount of light passing through the liquid crystal display element is applied by the drive voltage. The amount of light is equal to or less than the case. Therefore, the brightness of the illumination means is reduced, and the power consumption is reduced accordingly. Further, when the luminance of the illumination means is kept constant, fluctuations in the liquid crystal molecules disappear by cutting off the drive voltage, and the amount of transmitted light increases, which may make the operator of the liquid crystal display element feel strange. However, there is no such concern when the present invention is applied. further,
By reducing the brightness of the illuminating means, the temperature of the liquid crystal display element is lowered, and deterioration of image quality due to heating is prevented. Further, the life of the illuminating means is extended with the decrease of the emission brightness.

On the other hand, the brightness of the illuminating means is similarly reduced and consumed by the same amount even when the amount of light transmitted through the liquid crystal display element is made substantially equal, regardless of whether the drive voltage is applied or not. The same effects as described above can be obtained, such as reduction in power consumption. Further, by making the light amounts substantially equal, it is possible to eliminate the difference in display between when the drive voltage is applied and when the drive voltage is not applied, and to improve the display quality.

Further, the change presence / absence detection means determines the presence / absence of a change in the display content based on the presence / absence of a signal from the operation means, which has the effect of simplifying the circuit configuration.

[Brief description of drawings]

FIG. 1 is a block diagram showing an overall configuration of an information transmission device according to the present invention.

FIG. 2 is a sectional view showing the structure of a liquid crystal display element.

FIG. 3 is a cross-sectional view showing the structure of the information transmission device according to the present invention.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 1 Information transmission device 2 Liquid crystal display element 3 Backlight device (illuminating means) 4a, 4b Glass substrate (substrate) 5a Scan electrode (electrode) 5b Information electrode (electrode) 10 Ferroelectric liquid crystal (liquid crystal) 30, Fluorescent lamp ( Light source) 102 Scanning signal applying circuit (driving voltage applying means) 103 Information signal applying circuit (driving voltage applying means) 104 Scanning signal control circuit (driving voltage applying means) 105 Driving control circuit (driving voltage applying means) 106 Information signal control circuit (Drive voltage applying means) 107 Graphic controller 108 Drive waveform / dimming circuit control switch (change presence / absence detecting means) 110 Inverter (illuminating means, voltage applying means) 111 Dimming circuit (luminance adjusting means) 113 Keyboard (operating means) 114 Mouse (operation method)

Claims (6)

[Claims] 1. A transmissive liquid crystal display device comprising liquid crystal sandwiched between a pair of substrates on which electrodes are formed, an illuminating means for illuminating the liquid crystal display device, and a drive voltage applied to the electrodes. Drive voltage applying means for changing the display content of the liquid crystal display element, and when the display content of the liquid crystal display element is not changed, the application of the drive voltage by the drive voltage applying means is stopped and the liquid crystal In the information transmission device for displaying information by the memory effect, the change presence / absence detecting means for detecting presence / absence of change in the display content of the liquid crystal display element, and the brightness of the illumination means based on the signal from the change presence / absence detecting means. Brightness adjustment means for adjusting, and when the application of the drive voltage is stopped, the amount of light transmitted through the liquid crystal display element is equal to or less than the amount of light when the drive voltage is applied. The information transmitting device, wherein the brightness adjusting unit adjusts the brightness of the illuminating unit so that the brightness is adjusted downward. 2. When the application of the drive voltage is stopped,
2. The brightness adjusting means adjusts the brightness of the illuminating means such that the quantity of light passing through the liquid crystal display element is substantially equal to the quantity of light when the drive voltage is applied. Information transmission device. 3. When the application of the drive voltage is stopped,
The information transmission device according to claim 1, wherein the amount of light transmitted through the liquid crystal display element is smaller than the amount of light when the drive voltage is applied. 4. An operating means for sending a signal to the drive voltage applying means in response to an operation by an operator, wherein the drive voltage applying means changes the display content of the liquid crystal display element based on a signal from the operating means. 4. The change presence / absence detection unit determines whether the display content has been changed based on the presence / absence of a signal from the operation unit. Information transmission device described. 5. The illuminating means includes a light source and voltage applying means for applying a voltage to the light source, and the brightness adjusting means controls the voltage applying means to control the brightness of the light source. The information transmission device according to any one of claims 1 to 4, wherein: 6. The information transmission device according to claim 1, wherein the liquid crystal is a ferroelectric liquid crystal.