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JP3229792B2 - Liquid crystal display - Google Patents

Liquid crystal display

Info

Publication number
JP3229792B2
JP3229792B2 JP30014395A JP30014395A JP3229792B2 JP 3229792 B2 JP3229792 B2 JP 3229792B2 JP 30014395 A JP30014395 A JP 30014395A JP 30014395 A JP30014395 A JP 30014395A JP 3229792 B2 JP3229792 B2 JP 3229792B2
Authority
JP
Japan
Prior art keywords
liquid crystal
circuit
voltage
circuit unit
crystal display
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Fee Related
Application number
JP30014395A
Other languages
Japanese (ja)
Other versions
JPH09146072A (en
Inventor
啓一 蓮佛
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Sanyo Electric Co Ltd
Original Assignee
Tottori Sanyo Electric Co Ltd
Sanyo Electric Co Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Tottori Sanyo Electric Co Ltd, Sanyo Electric Co Ltd filed Critical Tottori Sanyo Electric Co Ltd
Priority to JP30014395A priority Critical patent/JP3229792B2/en
Publication of JPH09146072A publication Critical patent/JPH09146072A/en
Application granted granted Critical
Publication of JP3229792B2 publication Critical patent/JP3229792B2/en
Anticipated expiration legal-status Critical
Expired - Fee Related legal-status Critical Current

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  • Liquid Crystal (AREA)

Description

【発明の詳細な説明】DETAILED DESCRIPTION OF THE INVENTION

【0001】[0001]

【発明の属する技術分野】本発明は、液晶表示装置の改
良に係わり、特に周囲温度が変化してもコントラストを
良好な状態に維持することができる液晶表示装置に関す
る。
BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an improvement in a liquid crystal display device, and more particularly to a liquid crystal display device capable of maintaining a good contrast even when the ambient temperature changes.

【0002】[0002]

【従来の技術】液晶表示装置、例えばSTN方式の液晶
表示装置においては、液晶の温度依存性に起因してコン
トラストが温度に応じて変化するため、コントラスト調
整用のツマミを設け、このツマミによってコントラスト
調節用電圧VCONを例えば1.8Vを中心に上下に1V
程度の範囲で調節可能とし、この調節用電圧VCONによ
って液晶駆動用電圧VEEを例えば20〜40V程度の範
囲で調節してコントラストを最適な状態にすることがで
きるように構成している。
2. Description of the Related Art In a liquid crystal display device, for example, an STN type liquid crystal display device, a contrast adjustment knob is provided because the contrast changes according to the temperature due to the temperature dependence of the liquid crystal. The adjustment voltage V CON is, for example, 1 V up and down around 1.8 V
The liquid crystal driving voltage VEE can be adjusted in the range of, for example, about 20 to 40 V by the adjustment voltage V CON so that the contrast can be optimized.

【0003】[0003]

【発明が解決しようとする課題】本発明は、周囲温度の
変化に対応して液晶駆動電圧を自動的に変更し、コント
ラストを一定の状態に維持可能な構成を提供することを
主な課題とする。それに関連して、回路素子の発熱の影
響を受けないで周囲温度の正確な検出を可能とする構成
の提供を課題の1つとする。また、電池駆動の機器に搭
載した場合のように、電源電圧が変動する場合でもその
変動に対応可能な構成の提供を課題の1つとする。ま
た、フレーム周波数等の駆動条件の違いに対応可能とす
るため、外部からのコントラスト調節用電圧VCON供給
による微調整が可能な構成の提供を課題の1つとする。
SUMMARY OF THE INVENTION It is a main object of the present invention to provide a structure capable of automatically changing a liquid crystal driving voltage in response to a change in ambient temperature and maintaining a constant contrast. I do. In relation to this, it is an object to provide a configuration capable of accurately detecting an ambient temperature without being affected by heat generated by a circuit element. Another object is to provide a configuration capable of coping with a fluctuation in power supply voltage even when the power supply voltage fluctuates, such as when the power supply voltage is mounted on a battery-driven device. Another object is to provide a configuration capable of performing fine adjustment by supplying a contrast adjustment voltage V CON from the outside in order to be able to cope with a difference in driving conditions such as a frame frequency.

【0004】[0004]

【課題を解決するための手段】本発明は、液晶パネル
と、液晶駆動用電圧を発生させる電源回路を有して前記
液晶パネル側方の上下方向に沿って配置される回路ユニ
ットとを備える液晶表示装置において、前記回路ユニッ
トには温度検出素子の出力によって液晶駆動用電圧を周
囲温度に応じた適正電圧に維持して出力する回路を設け
るとともに、前記温度検出素子を前記回路ユニットの発
熱量が多い回路素子よりも下方の領域に配置したことを
特徴とする。
According to the present invention, there is provided a liquid crystal display comprising: a liquid crystal panel; and a circuit unit having a power supply circuit for generating a voltage for driving the liquid crystal, the circuit unit being arranged along a vertical direction beside the liquid crystal panel. In the display device, the circuit unit is provided with a circuit for maintaining and outputting a liquid crystal driving voltage at an appropriate voltage according to an ambient temperature by an output of a temperature detection element, and the heat generation amount of the circuit unit is controlled by the temperature detection element. It is characterized by being arranged in a region below many circuit elements.

【0005】また、本発明は、液晶パネルと、液晶駆動
用電圧を発生させる電源回路を有して前記液晶パネル側
方の上下方向に沿って配置される回路ユニットと、該回
路ユニットを覆う枠体とを備える液晶表示装置におい
て、前記回路ユニットには温度検出素子の出力によって
液晶駆動用電圧を周囲温度に応じた適正電圧に維持して
出力する回路を設けるとともに、該回路ユニットの上方
領域に発熱量が多い回路素子を配置し、下方領域に前記
温度検出素子を配置し、前記枠体には該温度検出素子に
対応した開口部を形成したことを特徴とする。
Further, the present invention provides a liquid crystal panel, a circuit unit having a power supply circuit for generating a liquid crystal driving voltage, and disposed along the vertical direction on the side of the liquid crystal panel, and a frame covering the circuit unit. In the liquid crystal display device having a body, the circuit unit is provided with a circuit for maintaining and outputting a liquid crystal driving voltage at an appropriate voltage according to an ambient temperature by an output of a temperature detecting element, and in a region above the circuit unit. A circuit element generating a large amount of heat is disposed, the temperature detecting element is disposed in a lower region, and an opening corresponding to the temperature detecting element is formed in the frame.

【0006】前記発熱量が多い回路素子は回路ユニット
の裏側に配置するとともに、前記温度検出素子は回路ユ
ニットの表側に配置することができる。
The circuit element generating a large amount of heat can be arranged on the back side of the circuit unit, and the temperature detecting element can be arranged on the front side of the circuit unit.

【0007】また、前記温度検出素子と関連して回路に
接続した可変抵抗器を前記開口部から操作できるように
前記温度検出素子に近接して配置することができる。
[0007] Further, a variable resistor connected to a circuit in association with the temperature detecting element can be arranged close to the temperature detecting element so that the variable resistor can be operated from the opening.

【0008】[0008]

【0009】[0009]

【発明の実施の形態】以下本発明の実施例を図面を参照
して説明する。図1,2において、1は液晶表示装置
(一般に液晶モジュールと称される)で、液晶パネル2
と、このパネル2の周囲部に配置した主に電源系の回路
ユニット3aを含む複数個の回路ユニット3と、液晶パ
ネル2の周辺部及び前記回路ユニットを覆う金属製の枠
体4とを備えて構成している。液晶パネル2は、ガラス
基板の間に液晶を封入し、液晶分子を90〜260度程
度ねじって保持した例えばTN,STN方式のものを用
いることができる。電源系の回路ユニット3aは、縦長
のプリント基板31に後述する回路を構成する回路素子
の一部を組み込んで構成され、パネル2の側方にパネル
2の上下方向に沿って配置されている。回路ユニット3
aの裏面には、DC−DCコンバータやオペアンプ等の
ように発熱量が多い回路素子61,63をユニット3a
の上方領域に位置するように配置しているとともに、表
面には、後述する温度検出素子TMや可変抵抗器VR等
の回路素子を前記発熱量の多い回路素子61,63の熱
影響を受けないように発熱量の多い回路素子よりも下方
位置であるユニット3aの下方領域に配置している。
尚、液晶表示装置1は、一般にパソコンやワープロなど
の機器に組み込まれて図1の上部が上側に位置するよう
に使用される。
Embodiments of the present invention will be described below with reference to the drawings. 1 and 2, reference numeral 1 denotes a liquid crystal display device (generally called a liquid crystal module), and a liquid crystal panel 2.
A plurality of circuit units 3 including a circuit unit 3a mainly for a power supply system arranged around the panel 2; and a metal frame 4 covering the periphery of the liquid crystal panel 2 and the circuit unit. It is composed. As the liquid crystal panel 2, for example, a TN or STN type in which liquid crystal is sealed between glass substrates and liquid crystal molecules are twisted and held by about 90 to 260 degrees can be used. The circuit unit 3a of the power supply system is configured by incorporating a part of a circuit element constituting a circuit described later on a vertically long printed board 31, and is arranged on the side of the panel 2 along the vertical direction of the panel 2. Circuit unit 3
On the back surface of the unit 3a, circuit elements 61 and 63 that generate a large amount of heat, such as a DC-DC converter and an operational amplifier, are placed in the unit 3a.
And a circuit element such as a temperature detecting element TM or a variable resistor VR, which will be described later, is not affected by the heat generated by the circuit elements 61 and 63 that generate a large amount of heat. As described above, it is arranged in a lower region of the unit 3a, which is a position lower than the circuit element generating a large amount of heat.
In addition, the liquid crystal display device 1 is generally incorporated in a device such as a personal computer or a word processor, and is used so that the upper part of FIG.

【0010】枠体4には、温度検出素子TMが周囲温度
を検出し易くするため、並びに、温度検出素子TMと近
接配置した可変抵抗器VRの設定操作を容易にするた
め、この温度検出素子TMと可変抵抗器VRの位置と対
応して開口部41を形成している。
In order to make it easier for the temperature detecting element TM to detect the ambient temperature and to facilitate the setting operation of the variable resistor VR disposed close to the temperature detecting element TM, the temperature detecting element TM is provided on the frame 4. An opening 41 is formed corresponding to the positions of TM and the variable resistor VR.

【0011】次に回路構成について説明する。液晶表示
装置1は、図3に示すように、液晶パネル2と、これに
接続した走査及び信号用の駆動回路5と、この駆動回路
5にバイアス用の複数の電圧を供給する電源回路部6
と、外部から与えられる画信号や表示制御信号を受信し
て前記駆動回路5、電源回路部6に選択的に与える受信
回路7と、外部機器との接続用コネクタ8を備えてい
る。この電源回路部6の主要部、接続用コネクタ8は、
前記電源系の回路ユニット3aに配置している。
Next, the circuit configuration will be described. As shown in FIG. 3, the liquid crystal display device 1 includes a liquid crystal panel 2, a driving circuit 5 for scanning and signals connected thereto, and a power supply circuit section 6 for supplying a plurality of bias voltages to the driving circuit 5.
And a receiving circuit 7 for receiving an image signal or a display control signal supplied from the outside and selectively supplying the received signal to the drive circuit 5 and the power supply circuit section 6, and a connector 8 for connection to an external device. The main part of the power supply circuit 6 and the connector 8 are
It is arranged in the circuit unit 3a of the power supply system.

【0012】電源回路部6は、図3,4に示すようにコ
ネクタを介して外部機器から直流電源[VDD(5V)−GN
D(0V)]が与えられ、これを液晶駆動用電圧発生回路を
構成するDC−DCコンバータ61に与えて出力電圧V
EEを得るように電圧変換し、これを抵抗分割回路62に
与え、抵抗分割点から複数のバイアス用電圧を取り出
し、これらを複数のオペアンプ等によって構成したバッ
ファ回路63を介して駆動回路5へ供給する構成として
る。DC−DCコンバータ61は、ON/OFF端子に
受信回路7から与えられるON/OFF信号によって動
作の開始と停止が制御されるとともに、VCON端子に電
圧調整回路9から与えられる電圧VCONに応じてその出
力電圧VEEを変化させることができる構成となってい
る。尚、DC−DCコンバータ61は、出力電圧VEEの
みならず、電圧範囲が異なる他の出力電圧を発生する構
成のものを用いることもできる。
As shown in FIGS. 3 and 4, the power supply circuit section 6 supplies a DC power supply [VDD (5V) -GN] from an external device via a connector.
D (0V)], which is applied to a DC-DC converter 61 constituting a liquid crystal driving voltage generating circuit, and the output voltage V
The voltage is converted so as to obtain EE, the voltage is applied to the resistance dividing circuit 62, a plurality of bias voltages are taken out from the resistance dividing point, and these are supplied to the driving circuit 5 via the buffer circuit 63 composed of a plurality of operational amplifiers. Configuration. The DC-DC converter 61 is controlled to start and stop its operation by an ON / OFF signal supplied to the ON / OFF terminal from the receiving circuit 7 and responds to a voltage V CON supplied to the V CON terminal from the voltage adjusting circuit 9. Thus, the output voltage VEE can be changed. It should be noted that the DC-DC converter 61 may be configured to generate not only the output voltage VEE but also another output voltage having a different voltage range.

【0013】電圧調整回路9は、周囲温度が変化しても
液晶パネル2のコントラストを適切な状態に維持するよ
うに、DC−DCコンバータ61に与える調節用電圧V
CONを周囲温度に応じて補正する回路構成としており、
図5に示すように、電圧VCO Nの変動範囲を定めるため
の上限電圧発生手段91及び下限電圧発生手段92と、
第1の抵抗回路93と、温度に応じて抵抗値が変化する
第2の抵抗回路94とを備えている。上限電圧発生手段
91は、外部から供給される電源電圧VDDが、電池など
のように電圧変動が大きい電源から与えられる場合でも
対応できるように、電源電圧VDDが例えば3V以上の間
は一定出力電圧2.5Vを保証する電圧レギュレ−タ素
子によって構成している。下限電圧発生手段92は、フ
レーム周波数等の駆動条件の違いに対応して外部からの
信号ExVCONによる微調整を受け入れ可能とするため
に、外部調節用電圧ExVCONを抵抗R1,R2によっ
て所定の比率例えば1:1に分割し、分割点の電圧を電
圧伝達素子Aを介して出力する構成としている。この電
圧伝達素子Aは、第1,第2抵抗回路93,94の温度
による抵抗値変化が抵抗R1,R2の分圧比率に影響を
与えないようにするため、ボルテ−ジフォロワ−による
オペアンプ(バッファ)等のように入力抵抗が非常に高
い素子によって構成し、下限電圧がフラ付くのを防止し
ている。外部調節用電圧ExVCONは、通常0.8V〜
2.8Vの間で変化するように設定されているので、抵
抗R1,R2の比率を1:1と設定すると、下限電圧発
生手段92の出力変動範囲は、0.4V〜1.4Vとな
る。
The voltage adjustment circuit 9 adjusts the voltage V to be applied to the DC-DC converter 61 so that the contrast of the liquid crystal panel 2 is maintained in an appropriate state even when the ambient temperature changes.
It has a circuit configuration that corrects CON according to the ambient temperature,
As shown in FIG. 5, the upper limit voltage generating means 91 and the lower limit voltage generating means 92 for determining the fluctuation range of the voltage V CO N,
It has a first resistance circuit 93 and a second resistance circuit 94 whose resistance value changes according to the temperature. The upper limit voltage generating means 91 outputs a constant output voltage while the power supply voltage VDD is, for example, 3 V or more so that the power supply voltage VDD supplied from the outside can be supplied even from a power supply having a large voltage fluctuation such as a battery. It consists of a voltage regulator element that guarantees 2.5V. The lower-limit voltage generating means 92 converts the external adjustment voltage ExV CON to a predetermined value by the resistors R1 and R2 in order to accept a fine adjustment by the external signal ExV CON in response to a difference in driving conditions such as a frame frequency. The voltage is divided at a ratio of, for example, 1: 1 and the voltage at the division point is output via the voltage transmission element A. The voltage transmitting element A is provided with an operational amplifier (buffer) using a voltage follower in order to prevent a change in resistance value of the first and second resistance circuits 93 and 94 due to temperature from affecting the voltage dividing ratio of the resistors R1 and R2. ), Etc., to prevent the lower limit voltage from fluctuating. The external adjustment voltage ExV CON is normally 0.8V ~
When the ratio between the resistors R1 and R2 is set to 1: 1, the output fluctuation range of the lower limit voltage generating means 92 becomes 0.4V to 1.4V. .

【0014】第1抵抗回路93は、抵抗R4と可変抵抗
器VRを直列接続して構成し、第2抵抗回路94は、温
度によって抵抗値が変化する例えばサーミスタ等の温度
検出素子TMと抵抗R3を並列接続して構成している。
この第1の抵抗回路93と第2の抵抗回路94の直列回
路を上限電圧発生手段91と下限電圧発生手段92の出
力端子間に接続している。そして、第1の抵抗回路93
と第2の抵抗回路94の接続点の電圧が調節用電圧V
CONとしてDC−DCコンバータ61のVCON端子に供給
される。この調節用電圧VCONは、周囲温度の変化に伴
って温度検出素子TMの抵抗値が変化するので、周囲温
度に応じて電圧値が変化する。また、調節用電圧VCON
は、可変抵抗器VRの抵抗値を変化させることよって上
下に微調整することができるし、外部から供給する外部
調節用電圧ExVCONを変化させることによっても微調
整することもできる。
The first resistor circuit 93 is constituted by connecting a resistor R4 and a variable resistor VR in series, and the second resistor circuit 94 is constituted by a temperature detecting element TM such as a thermistor whose resistance changes with temperature and a resistor R3. Are connected in parallel.
The series circuit of the first resistance circuit 93 and the second resistance circuit 94 is connected between the output terminals of the upper limit voltage generating means 91 and the lower limit voltage generating means 92. Then, the first resistance circuit 93
And the voltage at the connection point between the second resistor circuit 94 and the second resistor circuit 94 is the adjustment voltage V
It is supplied to the V CON terminal of the DC-DC converter 61 as CON. Since the resistance value of the temperature detecting element TM changes as the ambient temperature changes, the voltage value of the adjusting voltage V CON changes according to the ambient temperature. The adjustment voltage V CON
Can be finely adjusted up and down by changing the resistance value of the variable resistor VR, or finely adjusted by changing the external adjustment voltage ExV CON supplied from the outside.

【0015】液晶パネル2は温度によってコントラスト
が変化するが、コントラストを一定に保つための温度と
液晶駆動用電圧VEEの関係は例えば図6に(a)として
示すように実験的に求めることができる。そして、この
液晶駆動用電圧VEEを発生させるための周囲温度に応じ
た調節用電圧VCONも同図に(b)として示すように実
験的に求めることができる。したがって、電圧調整回路
9から出力される調節用電圧VCONが、温度に応じて同
図の(b)に示されるような特性を描くように、第1抵
抗回路93及び第2抵抗回路94を構成する抵抗の種類
や抵抗値を実験的に求めて設定することにより、温度変
化に係わらず液晶パネル2のコントラストを良好なほぼ
一定の状態に保つことができる液晶表示装置1を提供す
ることができる。
The contrast of the liquid crystal panel 2 changes depending on the temperature. The relationship between the temperature for keeping the contrast constant and the liquid crystal driving voltage VEE can be experimentally obtained, for example, as shown in FIG. . The adjustment voltage V CON according to the ambient temperature for generating the liquid crystal driving voltage V EE can also be obtained experimentally as shown in FIG. Therefore, the first resistance circuit 93 and the second resistance circuit 94 are adjusted so that the adjustment voltage V CON output from the voltage adjustment circuit 9 draws a characteristic as shown in FIG. It is possible to provide the liquid crystal display device 1 that can maintain the contrast of the liquid crystal panel 2 in a favorable and almost constant state irrespective of a temperature change by experimentally obtaining and setting the types and resistance values of the constituent resistors. it can.

【0016】このようにすることにより、液晶駆動用電
圧VEEは、周囲温度が低温の場合は高い電圧となるが、
周囲温度が高くなると自動的に低い電圧に変更されるの
で、回路素子の高温時における許容損失を小さく設定す
ることができる。したがって、電源回路部6や駆動回路
5等を構成する回路素子を許容損失の小さい、小型、薄
型化に適した部品によって構成でき、装置全体を小型、
薄型、軽量化することができる。
In this manner, the liquid crystal driving voltage VEE becomes high when the ambient temperature is low,
When the ambient temperature increases, the voltage is automatically changed to a low voltage, so that the allowable loss of the circuit element at a high temperature can be set small. Therefore, the circuit elements constituting the power supply circuit section 6, the drive circuit 5, and the like can be constituted by components having low allowable loss, suitable for miniaturization and thinning, and the entire apparatus can be miniaturized.
It can be thin and light.

【0017】ところで、温度検出素子TMが回路ユニッ
ト3aの発熱部品の熱によって加熱されると、周囲温度
の正確な検出ができなくなる恐れがあるが、ず1,2の
ように温度検出素子TMを回路ユニット3aの発熱量が
上位にランクされる回路素子(DC−DCコンバータ6
1やバッファ回路63を構成するオペアンプ等)よりも
下方の領域に配置したので、発熱回路素子による不要加
熱を防ぎ、正確な温度検出を行うことができる。また、
発熱量が多い前記回路素子は回路ユニット3aの裏側に
配置するとともに、温度検出素子TMは回路ユニット3
aの表側に配置したので、発熱回路素子による不要加熱
をより一層防ぐことができる。また、枠体4には温度検
出素子TMに対応した開口部41を形成したので、開口
部41によって、温度検出素子TM周囲の空気の出入り
を促進し、周囲温度の正確な検出を可能とすることがで
きる。また、開口部41に望むように温度検出素子TM
に隣接して可変抵抗器VRを配置したので、放熱用の開
口部41を共通に利用して可変抵抗器VRの調節を行う
ことができる。尚、この開口部41は、液晶表示装置1
を他の機器に組み込むことによって、通常、他の機器の
ケースによって隠される位置に設けているので、他の機
器の外観を損なうことがないように配慮している。
If the temperature detecting element TM is heated by the heat of the heat-generating components of the circuit unit 3a, accurate detection of the ambient temperature may not be possible. The circuit element (DC-DC converter 6) in which the heat generation amount of the circuit unit 3a is ranked higher.
1 and an operational amplifier constituting the buffer circuit 63), the unnecessary heating by the heating circuit element can be prevented, and accurate temperature detection can be performed. Also,
The circuit element that generates a large amount of heat is arranged on the back side of the circuit unit 3a, and the temperature detection element TM is connected to the circuit unit 3a.
Since it is arranged on the front side of a, unnecessary heating by the heating circuit element can be further prevented. Further, since the opening 41 corresponding to the temperature detecting element TM is formed in the frame body 4, the opening 41 promotes the inflow and outflow of air around the temperature detecting element TM, and enables accurate detection of the ambient temperature. be able to. Also, as desired in the opening 41, the temperature detecting element TM
, The variable resistor VR can be adjusted by using the heat dissipation opening 41 in common. It should be noted that the opening 41 is provided in the liquid crystal display device 1.
Is usually provided at a position hidden by the case of the other device, so that the appearance of the other device is not damaged.

【0018】[0018]

【発明の効果】以上のように、本発明によれば、周囲温
度の変化に対応して液晶駆動電圧を自動的に変更し、コ
ントラストを一定の状態に維持可能な構成を提供するこ
とができる。また、周囲温度の検出を、回路素子の発熱
の影響をほとんど受けないで正確に行うことができる。
また、電池駆動の機器に搭載した場合のように、電源電
圧が変動する場合でも、その変動に影響を受けにくい構
成とすることができる。また、外部からのコントラスト
調節用電圧供給による微調整が可能な構成とし、フレー
ム周波数等の駆動条件の違いに対応可能とすることがで
る。また、電源回路部や駆動回路等を構成する回路素子
を許容損失の小さい、小型、薄型化に適した部品によっ
て構成でき、装置全体を小型、薄型、軽量化することが
できる。
As described above, according to the present invention, it is possible to provide a configuration capable of automatically changing the liquid crystal driving voltage in response to a change in the ambient temperature and maintaining a constant contrast. . Further, the detection of the ambient temperature can be accurately performed with little influence from the heat generated by the circuit element.
In addition, even when the power supply voltage fluctuates, such as when the power supply voltage is mounted on a battery-driven device, the configuration can be made to be less affected by the fluctuation. In addition, a configuration is possible in which fine adjustment can be performed by supplying a contrast adjusting voltage from the outside, and it is possible to cope with a difference in driving conditions such as a frame frequency. Further, circuit elements constituting a power supply circuit portion, a drive circuit, and the like can be configured by components having small allowable loss, suitable for miniaturization and thinning, and the entire device can be miniaturized, thinned, and lightened.

【図面の簡単な説明】[Brief description of the drawings]

【図1】本発明実施例に係る液晶表示装置の平面図であ
る。
FIG. 1 is a plan view of a liquid crystal display device according to an embodiment of the present invention.

【図2】図1のI−I断面図である。FIG. 2 is a sectional view taken along line II of FIG.

【図3】本発明実施例に係る液晶表示装置の概略回路を
示すブロック図である。
FIG. 3 is a block diagram showing a schematic circuit of the liquid crystal display device according to the embodiment of the present invention.

【図4】同実施例の電源回路部の回路ブロック図であ
る。
FIG. 4 is a circuit block diagram of a power supply circuit unit of the embodiment.

【図5】同実施例の電圧調整回路の回路図である。FIG. 5 is a circuit diagram of a voltage adjustment circuit according to the embodiment.

【図6】温度と液晶駆動用電圧VEE、温度と調節用電圧
CONの関係を示す特性図である。
[6] temperature and the liquid crystal drive voltage VEE, a characteristic diagram showing the relationship between temperature and adjusting the voltage V CON.

【符号の説明】[Explanation of symbols]

1 液晶表示装置 2 液晶パネル 3a 回路ユニット 4 枠体 5 駆動回路 6 電源回路部 61 DC−DCコンバータ 9 電圧調整回路 91 下限電圧発生手段 92 上限電圧発生手段 93 第1抵抗回路 94 第2抵抗回路 TM 温度検出素子 VR 可変抵抗器 DESCRIPTION OF SYMBOLS 1 Liquid crystal display device 2 Liquid crystal panel 3a Circuit unit 4 Frame 5 Drive circuit 6 Power supply circuit part 61 DC-DC converter 9 Voltage adjustment circuit 91 Lower limit voltage generating means 92 Upper limit voltage generating means 93 First resistance circuit 94 Second resistance circuit TM Temperature detection element VR Variable resistor

───────────────────────────────────────────────────── フロントページの続き (58)調査した分野(Int.Cl.7,DB名) G02F 1/133 580 G02F 1/1333 ──────────────────────────────────────────────────続 き Continued on front page (58) Field surveyed (Int. Cl. 7 , DB name) G02F 1/133 580 G02F 1/1333

Claims (4)

(57)【特許請求の範囲】(57) [Claims] 【請求項1】 液晶パネルと、液晶駆動用電圧を発生さ
せる電源回路を有して前記液晶パネル側方の上下方向に
沿って配置される回路ユニットとを備える液晶表示装置
において、前記回路ユニットには温度検出素子の出力に
よって液晶駆動用電圧を周囲温度に応じた適正電圧に維
持して出力する回路を設けるとともに、前記温度検出素
子を前記回路ユニットの発熱量が多い回路素子よりも下
方の領域に配置したことを特徴とする液晶表示装置。
1. A liquid crystal display device comprising: a liquid crystal panel; and a circuit unit having a power supply circuit for generating a liquid crystal driving voltage and disposed along a vertical direction beside the liquid crystal panel. Is provided with a circuit for maintaining and outputting the liquid crystal driving voltage at an appropriate voltage according to the ambient temperature by the output of the temperature detecting element, and providing the temperature detecting element in an area below a circuit element having a large heat generation amount of the circuit unit. A liquid crystal display device, comprising:
【請求項2】 液晶パネルと、液晶駆動用電圧を発生さ
せる電源回路を有して前記液晶パネル側方の上下方向に
沿って配置される回路ユニットと、該回路ユニットを覆
う枠体とを備える液晶表示装置において、前記回路ユニ
ットには温度検出素子の出力によって液晶駆動用電圧を
周囲温度に応じた適正電圧に維持して出力する回路を設
けるとともに、該回路ユニットの上方領域に発熱量が多
い回路素子を配置し、下方領域に前記温度検出素子を配
置し、前記枠体には該温度検出素子に対応した開口部を
形成したことを特徴とする液晶表示装置。
2. A liquid crystal panel, comprising: a circuit unit having a power supply circuit for generating a liquid crystal driving voltage and arranged along a vertical direction on a side of the liquid crystal panel; and a frame covering the circuit unit. In the liquid crystal display device, the circuit unit is provided with a circuit for maintaining and outputting a liquid crystal driving voltage at an appropriate voltage corresponding to an ambient temperature by an output of a temperature detecting element, and a large amount of heat is generated in a region above the circuit unit. A liquid crystal display device comprising: a circuit element; a temperature detection element disposed in a lower region; and an opening corresponding to the temperature detection element formed in the frame.
【請求項3】 前記発熱量が多い回路素子は回路ユニッ
トの裏側に配置するとともに、前記温度検出素子は回路
ユニットの表側に配置したことを特徴とする請求項1も
しくは請求項2に記載の液晶表示装置。
3. The liquid crystal according to claim 1, wherein the circuit element generating a large amount of heat is arranged on the back side of the circuit unit, and the temperature detecting element is arranged on the front side of the circuit unit. Display device.
【請求項4】 前記温度検出素子と関連して回路に接続
した可変抵抗器を前記開口部から操作できるように前記
温度検出素子に近接して配置したことを特徴とする請求
項2に記載の液晶表示装置。
4. A variable resistor according to claim 2, wherein a variable resistor connected to a circuit in association with said temperature detecting element is disposed close to said temperature detecting element so as to be operated from said opening. Liquid crystal display.
JP30014395A 1995-11-17 1995-11-17 Liquid crystal display Expired - Fee Related JP3229792B2 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP30014395A JP3229792B2 (en) 1995-11-17 1995-11-17 Liquid crystal display

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP30014395A JP3229792B2 (en) 1995-11-17 1995-11-17 Liquid crystal display

Related Child Applications (1)

Application Number Title Priority Date Filing Date
JP2001182063A Division JP3588340B2 (en) 2001-06-15 2001-06-15 Liquid crystal display device and its driving voltage adjusting circuit

Publications (2)

Publication Number Publication Date
JPH09146072A JPH09146072A (en) 1997-06-06
JP3229792B2 true JP3229792B2 (en) 2001-11-19

Family

ID=17881266

Family Applications (1)

Application Number Title Priority Date Filing Date
JP30014395A Expired - Fee Related JP3229792B2 (en) 1995-11-17 1995-11-17 Liquid crystal display

Country Status (1)

Country Link
JP (1) JP3229792B2 (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US11385490B2 (en) 2019-07-23 2022-07-12 Seiko Epson Corporation Electro-optical panel, electro-optical device, and electronic apparatus

Families Citing this family (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO1999027415A1 (en) * 1997-11-25 1999-06-03 Hitachi, Ltd. Power source circuit having temperature compensating function and liquid crystal display device incorporating the same
JP2000338518A (en) 1999-06-01 2000-12-08 Nec Corp Liquid crystal display device, and manufacturing method of liquid crystal display device
JP3371873B2 (en) 1999-12-22 2003-01-27 日本電気株式会社 Liquid crystal display device and adjustment method thereof
KR100407993B1 (en) 2001-06-01 2003-12-03 엘지.필립스 엘시디 주식회사 Shield cover of Liquid Crystal Display
JP3970798B2 (en) * 2003-04-18 2007-09-05 Necアクセステクニカ株式会社 LCD monitor device
JP4525065B2 (en) * 2003-12-11 2010-08-18 セイコーエプソン株式会社 Electro-optical device, manufacturing method thereof, and electronic apparatus
JP5181009B2 (en) * 2010-10-04 2013-04-10 株式会社ジャパンディスプレイイースト Liquid crystal display

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US11385490B2 (en) 2019-07-23 2022-07-12 Seiko Epson Corporation Electro-optical panel, electro-optical device, and electronic apparatus
US11733559B2 (en) 2019-07-23 2023-08-22 Seiko Epson Corporation Electro-optical panel, electro-optical device, and electronic apparatus

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