JPS605325A - Finger-touching type coordinate input device - Google Patents
Finger-touching type coordinate input deviceInfo
- Publication number
- JPS605325A JPS605325A JP58113205A JP11320583A JPS605325A JP S605325 A JPS605325 A JP S605325A JP 58113205 A JP58113205 A JP 58113205A JP 11320583 A JP11320583 A JP 11320583A JP S605325 A JPS605325 A JP S605325A
- Authority
- JP
- Japan
- Prior art keywords
- finger
- coordinate input
- input device
- type coordinate
- touch
- 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.)
- Pending
Links
Abstract
Description
【発明の詳細な説明】
(1) 発明の技術分野
本発明は座標入力装置に係り、特に指タッチによって変
化する容量を検出して指タツチ点の座標をめる指タツチ
式座標入力装置に関する。DETAILED DESCRIPTION OF THE INVENTION (1) Technical Field of the Invention The present invention relates to a coordinate input device, and more particularly to a finger-touch type coordinate input device that determines the coordinates of a finger-touch point by detecting a capacitance that changes due to a finger touch.
(2) 技術の背景
最近の電子工学の発達とどもにあらゆる分野での電子工
学の応用が盛んとなってきている。その応用の1つとし
て座標入力装置がある。座標入力装置の入力方式は様々
であるがある基板における座標を座標指示媒体を用いる
ことにより操作者の指によって指し示しその座標を検出
回路を用いて電気的に検出する装置がある。そして、こ
の様な方式においてより正確に判定できる。感度の良い
ものがさらに望まれている。(2) Background of technology With the recent development of electronic engineering, the application of electronic engineering in all fields is becoming popular. One of its applications is a coordinate input device. There are various input methods for coordinate input devices, but there is a device that uses a coordinate indicating medium to indicate coordinates on a certain board with an operator's finger, and electrically detects the coordinates using a detection circuit. Further, more accurate determination can be made using such a method. There is an even greater desire for something with better sensitivity.
(3) 従来技術と問題点
従来、抵抗膜の両端に電圧を印加し、抵抗膜の両端から
抵抗膜上の指示された点へ流れる電流比から座標点を検
出する座標入力装置がある。この装置は一般的に抵抗膜
の保護のために抵抗膜は誘電体層で被覆されており、電
源は交流電源であることが必要となってくる。なぜなら
ば、前述した様に抵抗膜を被覆している誘電体層は直流
電流を流さない絶縁体であるからである。しかしながら
。(3) Prior Art and Problems Conventionally, there is a coordinate input device that applies a voltage to both ends of a resistive film and detects a coordinate point from the ratio of currents flowing from both ends of the resistive film to a designated point on the resistive film. In this device, the resistive film is generally covered with a dielectric layer to protect the resistive film, and the power source must be an AC power source. This is because, as described above, the dielectric layer covering the resistive film is an insulator that does not conduct direct current. however.
電源として交流電源を用いるために基板上に透明な抵抗
層と抵抗層を透明な絶縁層で被覆した指タッチ式座標入
カバネルや検出回路にぶらさがっている浮遊容量が問題
となってくる。何故ならば浮遊容量を通じて電流が漏れ
てしまうからである。Since an AC power source is used as a power source, stray capacitance hanging from a transparent resistance layer on a substrate, a finger-touch coordinate input panel that covers the resistance layer with a transparent insulating layer, and a detection circuit becomes a problem. This is because current leaks through stray capacitance.
よって従来の装置ではこの浮遊容量が人体対地容量と同
程度もしくはそれ以上となるため指タツチ式座標検出を
行なった場合、十分な検出感度すなわち分解能がとれな
いという問題があった。Therefore, in conventional devices, this stray capacitance is equal to or greater than the human body's ground capacitance, so when finger-touch type coordinate detection is performed, there is a problem that sufficient detection sensitivity, that is, resolution cannot be obtained.
(4) 発明の目的
本発明は前記問題点を解決するものであり、その目的と
するところは分解能が高い指タツチ式座標入力装置を提
供することにある。(4) Object of the Invention The present invention is intended to solve the above-mentioned problems, and its object is to provide a finger-touch type coordinate input device with high resolution.
(5) 発明の構成
本発明の特徴とするところは基板上に配置した抵抗層を
絶縁層で被覆した指タッチ式座標入カバネルの両端ある
いは四端の少なくとも一方にN11敗的に一端が接続さ
れたスイッチ手段と、該スイッチ手段の他端が一端に接
続され、他端が電源に接続された電流検出手段と該電流
検出手段が入力する演算手段より成る座標入力装置にお
いて、前記電流検出手段とスイッチ手段の接続点に前記
電流検出手段と前記スイッチ手段と接続線の浮遊容量を
キャンセルする素子を設けたことを特徴とした指タツチ
式座標入力装置にある。(5) Structure of the Invention The present invention is characterized in that one end is connected to at least one of both ends or four ends of a finger-touch type coordinate entry cover panel in which a resistance layer disposed on a substrate is covered with an insulating layer. In the coordinate input device, the current detecting means comprises a switch means, the other end of the switch means is connected to one end and the other end is connected to a power source, and an arithmetic means for receiving input from the current detecting means. The finger-touch coordinate input device is characterized in that an element for canceling stray capacitance between the current detection means, the switch means and a connecting line is provided at a connection point of the switch means.
(6) 発明の実施例 以下図面を用いて本発明の詳細な説明する。(6) Examples of the invention The present invention will be described in detail below using the drawings.
第1図は本発明の指タツチ式座標入力装置の原理を示す
ブロック図である。一端が接地されている正弦波発振器
め他端に接続している電流検出器2と電流検出器3と、
その各々の電流検出器の他端が接続されている指タッチ
式座標入カバネル4から構成されている。ここでタッチ
する指5を人体対地容量5′で示している。FIG. 1 is a block diagram showing the principle of the finger touch type coordinate input device of the present invention. A sine wave oscillator whose one end is grounded; a current detector 2 and a current detector 3 connected to the other end;
It consists of a finger-touch coordinate input cover panel 4 to which the other end of each current detector is connected. Here, the touching finger 5 is indicated by human body-to-ground capacitance 5'.
指タツチ時に電流は二個の経路に接続、一方は正弦発振
器1から電流検出器2を介して指タッチ式座標入カバネ
ル4のa端から入り、指タツチ点(x、y)から人体対
地容量5′を介して大地に流れる。この流れる電流値を
I+とする。また他方は同様に正弦波発振器1から電流
検出器3を介して指タッチ式座標入カバネル4のb端か
ら入り指タツチ点(X、Y>から人体対地容M5′を介
して大地に流れる。この流れる電流値をI2とする。指
タッチ式座標入カバネル4は抵抗層であるから抵抗とし
て考えてよく、指タッチ式座標入カバネル4のa端、b
端にかかる電圧は等しいためにax間とbx間を流れる
電流すなわち電流■1と電流■2の比は、ax間の抵抗
値とbx間の抵抗値の逆比に等しい。指タツチ式座標パ
ネル4の抵抗層は一様であるからax間の抵抗値とbx
間5−
の抵抗値はそれぞれax間、bx間の距離に比例してい
る。指タツチ点Xが指タツチ式座標パネル4のab間の
どこに位置するかは(1)式により計算できる。ここで
iはab間の距離を示すものとする。When a finger is touched, the current is connected to two paths, one is from the sine oscillator 1 via the current detector 2, enters from the a end of the finger touch type coordinate input panel 4, and is connected to the human body ground capacitance from the finger touch point (x, y). 5' to the earth. Let this flowing current value be I+. Similarly, the other wave enters from the b end of the finger-touch coordinate input panel 4 from the sine wave oscillator 1 via the current detector 3 and flows from the finger touch point (X, Y> to the ground via the human body-to-ground space M5'. The value of this flowing current is I2.Since the finger-touch type coordinate input cover panel 4 is a resistance layer, it can be considered as a resistance.
Since the voltages applied to the ends are equal, the current flowing between ax and bx, that is, the ratio of current (1) to current (2), is equal to the inverse ratio of the resistance value between ax and the resistance value between bx. Since the resistance layer of the finger touch type coordinate panel 4 is uniform, the resistance value between ax and bx
The resistance values between 5- and 5- are proportional to the distances between ax and bx, respectively. Where the finger touch point X is located between ab and the finger touch type coordinate panel 4 can be calculated using equation (1). Here, i indicates the distance between ab and ab.
ax+bx T +→−■2
(1)式は指タツチ点Xが指タツチ式座標パネル4のa
b間のa端からみてどの割合の位置にあるかを示す。例
えば(1)式の値が0.3のときab間においてa端か
らab間の3/10の位置に指タツチ点Xがあることを
示している。第2図に本発明の指タッチ式座標入カバネ
ルの構造を示すそれぞれ平面図、側面図である。第2図
<a>は指タッチ式座標入カバネルを真上から見たとこ
ろを第2図(b)は指タッチ式座標入カバネルを真横か
ら見たところを示す。基板41の上に抵抗層42があり
、その保護のために絶縁膜43が抵抗層42に被覆され
ている。ax+bx T +→-■2 Equation (1) shows that the finger touch point X is a on the finger touch coordinate panel 4.
It shows what percentage position it is in when viewed from end a between b. For example, when the value of equation (1) is 0.3, it indicates that the finger touch point X is at a position 3/10 from end a to ab between ab and ab. FIG. 2 is a plan view and a side view, respectively, showing the structure of the finger touch type coordinate input cover panel of the present invention. FIG. 2 <a> shows the finger-touch type coordinate input cover panel viewed from directly above, and FIG. 2(b) shows the finger touch type coordinate input cover panel viewed from the side. A resistive layer 42 is provided on a substrate 41, and an insulating film 43 is coated on the resistive layer 42 to protect the resistive layer 42.
第3図は本発明の指タツチ式座標入力装置の構成図であ
る。一端が接地されている正弦波発振器−〇 −
の他端は電流検出器2.3の一端に接続されている。電
流検出器2の他端は加算器11の第1の人うj、一端が
)妾1也されているインダクタL1とキャパシタCIの
I、C並列共振器6の他端とアナログスイッチ群8−1
.9−2の一端に接続されている。電流検出器3の他端
は加算器11の第2の入力、一端が接地されているイン
クリタL2とキャパシタC2の並列共振器7の他端、ア
ナログスイッチ群8−2.9−1の一端、加算器11の
出力が除数入力に加わっている除算器12の被除算入力
に接続されている。アナログスイッチ群B−1゜9−1
は指タソ千式座標入カバネル4の左端、右端の抵抗体部
12.アナログスイッチ群8−2゜9−2は指タッチ式
座標入カバネル4の下端、上端の抵抗体部にそれぞれ接
続されている。アナログスイッチ群13−1.8−2.
9−1.9−2は複数のアナログスイッチよりそれぞれ
構成されており、それぞれのスイッチは前述した指夕・
ンチ式座標人カバネルの抵抗体部に離散的に接続される
。FIG. 3 is a block diagram of the finger-touch type coordinate input device of the present invention. One end of the sine wave oscillator is grounded, and the other end is connected to one end of the current detector 2.3. The other end of the current detector 2 is connected to the first terminal of the adder 11, and the other end of the inductor L1 and the capacitor CI are connected to the parallel resonator 6 and the analog switch group 8-. 1
.. 9-2. The other end of the current detector 3 is the second input of the adder 11, the other end of the parallel resonator 7 of the increment L2 and the capacitor C2 whose one end is grounded, one end of the analog switch group 8-2.9-1, The output of adder 11 is connected to the dividenend input of divider 12, which is added to the divisor input. Analog switch group B-1゜9-1
are the resistor portions 12 at the left and right ends of the cover panel 4 containing the 1,000-meter coordinates. The analog switch groups 8-2 and 9-2 are connected to resistor portions at the lower and upper ends of the finger-touch coordinate input cover panel 4, respectively. Analog switch group 13-1.8-2.
9-1 and 9-2 are each composed of a plurality of analog switches, and each switch has the above-mentioned control function.
It is discretely connected to the resistor part of the inch type coordinate system.
ここでタッチする指を人体対地容量5′で示している。Here, the touching finger is indicated by human body-to-ground capacitance 5'.
第3図の回路は、第1図を用いて説明した原理に基づ
いた回路構成を示している。アナログスイッチ8−1.
8−2. アナログスイッチ9−1.9−2によりX方
向、Y方向どちらか一方を時分割で選択する。どちらか
一方が選択されるとその方向の指を指タッチ座標入カバ
ネル4に触れた位置すなわち選ばれた方向の座標を出力
端子13からの出力で知ることができる。電流検出器2
に流れる電流値■1と電流検出器3に流れる電流値■2
の出力が加算器11に入力され加算器1】からはTI+
12が出力される。このI + 十I2の出力が除算器
12に除数として入力され電流検出器3の出力が除算器
12に被除数として入力され、除算器12の出力に+2
/(T++Iz)が得られる。よって前述したように指
タッチ座標入カバネルの指で触れた位置を知ることがで
きる。第3図の本発明の実施例は時分割でアナログスイ
ッチ8−1,8−2とアナログスイッチ9−1.9−2
がX方向、Y方向を選択しており1時分割でX座標、X
座標を知ることができる。The circuit in FIG. 3 shows a circuit configuration based on the principle explained using FIG. 1. Analog switch 8-1.
8-2. Analog switches 9-1 and 9-2 select either the X direction or the Y direction in a time-sharing manner. When one of them is selected, the position where the finger in that direction touches the finger touch coordinate input panel 4, that is, the coordinates in the selected direction can be known from the output from the output terminal 13. Current detector 2
Current value flowing through ■1 and current value flowing through current detector 3 ■2
The output of is input to adder 11, and from adder 1, TI+
12 is output. The output of I + 12 is input as a divisor to the divider 12, the output of the current detector 3 is input as the dividend to the divider 12, and the output of the divider 12 is +2.
/(T++Iz) is obtained. Therefore, as described above, it is possible to know the position touched by the finger on the finger touch coordinate entry panel. The embodiment of the present invention shown in FIG.
selects the X direction and Y direction, and the X coordinate,
You can know the coordinates.
前述の回路にはアナログスイッチや配線などに浮遊容量
があり、この浮遊容量が人体対地容量と同程度もしくは
、それ以上の値をもつ。この浮遊容量を打ち消すために
、指が指タソ千式座標入カバネル4に触れていないとき
に前述の浮遊容量とともに共振するようなLC並列共振
器6.LC並列共振器7をアナログスイッチik1.9
−2と電流検出器2との間と、アナログスイッチ8−2
゜9−1と電流検出器3との間にそれぞれ設けである。In the circuit described above, there is stray capacitance in analog switches, wiring, etc., and this stray capacitance has a value equal to or greater than the human body's ground capacitance. In order to cancel this stray capacitance, an LC parallel resonator 6. which resonates together with the above-mentioned stray capacitance when the finger is not touching the coordinate input cover panel 4. LC parallel resonator 7 with analog switch ik1.9
-2 and current detector 2, and analog switch 8-2
9-1 and the current detector 3, respectively.
すなわち浮遊容量を含んでr、 C並列共振器6゜7は
正弦波発振器1の周波数で共振するので、浮遊容量が発
生する線等は対アース間に対して高インピーダンスとな
り、浮遊容量によって流れる電流はほぼ零となる。この
LC並列共振器6.7を設けたことにより、前述した電
流の誤差が減るので指タツチ式座標入力装置の分解能が
向上する。In other words, since the r, C parallel resonator 6゜7 including the stray capacitance resonates at the frequency of the sine wave oscillator 1, the wire where the stray capacitance occurs has a high impedance with respect to ground, and the current flowing due to the stray capacitance becomes almost zero. By providing this LC parallel resonator 6.7, the above-mentioned current error is reduced, so that the resolution of the finger touch type coordinate input device is improved.
(7) 発明の効果
本発明の指タツチ式座標人力装置において、指を指タッ
チ式座標入カバネルに触れないときに共振するLC並列
共振器を設けたことにより、交流9−
を用いるために生じる浮遊容量を共振点でインピーダン
スが急激に増大するから打ち消ずことができるために検
出感度が上がりまた分解能が向上する効果がある。言い
換えれば座標指示媒体への電流成分のSN値を向上する
効果がある。(7) Effects of the Invention In the finger-touch type coordinate human-powered device of the present invention, by providing an LC parallel resonator that resonates when the finger does not touch the finger-touch type coordinate input panel, the effects of alternating current 9- Since the impedance increases rapidly at the resonance point, stray capacitance can be canceled out, which has the effect of increasing detection sensitivity and resolution. In other words, there is an effect of improving the SN value of the current component to the coordinate indicating medium.
第1図は本発明の指タツチ式座標人力装置の原理を示す
ブロック図、第2図(al (blは本発明の指タッチ
式座標入カバネルの構造を示すそれぞれ平面図、側面図
、第3図は本発明の指タツチ式座標入力装置の構成図で
ある。
1・・・正弦波発振器、 2.3・・・電流検出器、
4・・・指タソ千式座標入カバネル、 5・・・人体対
地容量。
6.7・・・LC並列共振器、 8−1..8−2.9
−1.9−2・・・アナログスイッチ群。
11・・・加算器、 12・・・除算器。
13・・・座標出力端子、 41・・・基板。
42・・・抵抗層、 43・・・絶縁層10−
第1図
第2図
第3図FIG. 1 is a block diagram showing the principle of the finger-touch type coordinate input device of the present invention, FIG. The figure is a configuration diagram of the finger touch type coordinate input device of the present invention. 1... Sine wave oscillator, 2.3... Current detector,
4...Finger Taso 1000 type coordinate input cabanel, 5...Human body ground capacity. 6.7...LC parallel resonator, 8-1. .. 8-2.9
-1.9-2...Analog switch group. 11... Adder, 12... Divider. 13... Coordinate output terminal, 41... Board. 42... Resistance layer, 43... Insulating layer 10- Figure 1 Figure 2 Figure 3
Claims (4)
指タッチ式座標入カバネルの両端あるいは四端の少なく
とも一方に離散的に一端が接続されたスイッチ手段と、
該スイッチ手段の他端が一端に接続され、他端が電源に
接続された電流検出手段と該電流検出手段が入力する演
算手段より成る座標入力装置において、前記電流検出手
段とスイッチ手段の接続点に前記電流検出手段と前記ス
イッチ手段と接続線の浮遊容量をキャンセルする素子を
設けたことを特徴とした指タツチ座標入力装置。(1) Switch means, one end of which is discretely connected to both ends or at least one of the four ends of a finger-touch coordinate input cover panel in which a resistive layer placed on a substrate is covered with an insulating layer;
In a coordinate input device comprising a current detecting means to which the other end of the switch means is connected to one end and a calculation means for receiving input from the current detecting means, a connection point between the current detecting means and the switch means; A finger touch coordinate input device, further comprising an element for canceling the stray capacitance of the current detection means, the switch means, and the connection line.
ンダクタンスより成る共振回路であることを特徴とする
特許請求の範囲第1項記載の指タツチ式座標入力装置。(2) The finger-touch type coordinate input device according to claim 1, wherein the canceling element is a resonant circuit composed of capacitance and inductance.
手段によってX軸あるいはy軸方向のスイッチを時分割
でオン、オフすることを特徴とする特許請求の範囲第1
項記載の指タツチ式座標入力装置。(3) The switch means has a control means, and the control means turns on and off a switch in the X-axis or Y-axis direction in a time-sharing manner.
The finger-touch type coordinate input device described in Section 1.
徴とする特許請求の範囲第1項記載の指タツチ式座標入
力装置。(4) The finger touch type coordinate input device according to claim 1, wherein the resistive layer and the insulating layer are transparent.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP58113205A JPS605325A (en) | 1983-06-23 | 1983-06-23 | Finger-touching type coordinate input device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP58113205A JPS605325A (en) | 1983-06-23 | 1983-06-23 | Finger-touching type coordinate input device |
Publications (1)
Publication Number | Publication Date |
---|---|
JPS605325A true JPS605325A (en) | 1985-01-11 |
Family
ID=14606215
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP58113205A Pending JPS605325A (en) | 1983-06-23 | 1983-06-23 | Finger-touching type coordinate input device |
Country Status (1)
Country | Link |
---|---|
JP (1) | JPS605325A (en) |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2003019346A1 (en) * | 2001-08-22 | 2003-03-06 | Sharp Kabushiki Kaisha | Touch sensor, display with touch sensor, and method for generating position data |
CN100429609C (en) * | 2001-08-22 | 2008-10-29 | 夏普株式会社 | Touch sensor, display with touch sensor, and method for generating position data |
-
1983
- 1983-06-23 JP JP58113205A patent/JPS605325A/en active Pending
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2003019346A1 (en) * | 2001-08-22 | 2003-03-06 | Sharp Kabushiki Kaisha | Touch sensor, display with touch sensor, and method for generating position data |
CN100429609C (en) * | 2001-08-22 | 2008-10-29 | 夏普株式会社 | Touch sensor, display with touch sensor, and method for generating position data |
US8031180B2 (en) | 2001-08-22 | 2011-10-04 | Sharp Kabushiki Kaisha | Touch sensor, display with touch sensor, and method for generating position data |
US8395595B2 (en) | 2001-08-22 | 2013-03-12 | Sharp Kabushiki Kaisha | Touch sensor, display device with touch sensor, and method of generating location data |
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