CAPACITIVE SENSOR

US 20100052700A1
Filed: 09/03/2009
Published: 03/04/2010
Est. Priority Date: 09/03/2008
Status: Abandoned Application

First Claim

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1. A capacitive sensor comprising:

a sensor electrode;

a shield electrode that is provided in the vicinity of the sensor electrode; and

a detecting circuit that detects a capacitance formed thereby around the sensor electrode, wherein the detecting circuit includes a capacitance-voltage conversion circuit that converts the capacitance into a voltage by repeating a predetermined sequence, and a shield electrode drive unit that switches an electric state of the shield electrode in synchronization with the predetermined sequence.

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Abstract

A shield electrode is provided in parallel with a sensor electrode. A detecting circuit detects a capacitance formed thereby around the sensor electrode. A capacitance-voltage conversion circuit converts the capacitance into a voltage by repeating a predetermined sequence. A shield electrode drive unit switches an electric state of the shield electrode in synchronization with the predetermined sequence. The shield electrode drive unit switches an electric state of the shield electrode in accordance with an electric state of the sensor electrode.

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16 Claims

1. A capacitive sensor comprising:
- a sensor electrode;
  
  a shield electrode that is provided in the vicinity of the sensor electrode; and
  
  a detecting circuit that detects a capacitance formed thereby around the sensor electrode, wherein the detecting circuit includes a capacitance-voltage conversion circuit that converts the capacitance into a voltage by repeating a predetermined sequence, and a shield electrode drive unit that switches an electric state of the shield electrode in synchronization with the predetermined sequence.
- View Dependent Claims (2, 3, 4, 5, 6)
- - 2. The capacitive sensor according to claim 1, wherein the shield electrode drive unit switches an electric state of the shield electrode in accordance with an electric state of the sensor electrode.
  - 3. The capacitive sensor according to claim 1, wherein the shield electrode drive unit applies a fixed voltage to the shield electrode at the time when the capacitance-voltage conversion circuit sets the sensor electrode in a high impedance state.
  - 4. The capacitive sensor according to claim 3, wherein the fixed voltage is ground voltage.
  - 5. The capacitive sensor according to claim 1, wherein the shield electrode drive unit applies voltages to the shield electrode, which are different from each other between at the time when the capacitance-voltage conversion circuit sets the sensor electrode in a high impedance state and at the time when the capacitance-voltage conversion circuit applies a voltage to the sensor electrode.
  - 6. An input device comprising the capacitive sensor according to claim 1.

7. A detecting circuit that is connected to a sensor unit having a sensor electrode and a shield electrode provided in the vicinity of the sensor electrode, and that detects a capacitance formed thereby around the sensor electrode, the detecting circuit comprising:
- a first voltage applying unit that applies a predetermined first fixed voltage to the sensor electrode in a first state, and that applies a second fixed voltage, which is lower than the first fixed voltage, thereto in a second state;
  
  a second voltage applying unit that applies the second fixed voltage to a reference electrode that forms a fixed capacitance around the reference electrode in the first state, and that applies the first fixed voltage thereto in the second state;
  
  a first sample hold circuit that averages voltages respectively occurring in the sensor electrode and the reference electrode in the first state to hold an averaged voltage as a first detected voltage;
  
  a second sample hold circuit that averages voltages respectively occurring in the sensor electrode and the reference electrode in the second state to hold an averaged voltage as a second detected voltage;
  
  an amplification unit that amplifies a potential difference between the first detected voltage and the second detected voltage; and
  
  a shield electrode drive unit that switches an electric state of the shield electrode in synchronization with operations of the first and the second voltage applying units and the first and the second sample hold circuits.
- View Dependent Claims (8, 9, 10, 11, 12, 13, 14, 15)
- - 8. The detecting circuit according to claim 7, wherein the shield electrode drive unit provides a third fixed voltage to the shield electrode while the first and the second sample hold circuits are sampling the first and the second detected voltages, respectively.
  - 9. The detecting circuit according to claim 8, wherein the third fixed voltage is ground voltage.
  - 10. The detecting circuit according to claim 7, wherein the shield electrode drive unit provides a fourth fixed voltage to the shield electrode while the first voltage applying unit is applying the first fixed voltage to the sensor electrode, and provides a fifth fixed voltage, which is lower than the fourth fixed voltage, to the shield electrode while the first voltage applying unit is applying the second fixed voltage to the sensor electrode.
  - 11. The detecting circuit according to claim 10, wherein the first fixed voltage is equal to the fourth fixed voltage while the second fixed voltage is equal to the fifth fixed voltage.
  - 12. The detecting circuit according to claim 7, wherein the amplification unit is a differential amplifier to which the first and the second detected voltages are inputted.
  - 13. The detecting circuit according to claim 7, wherein the first and the second sample hold circuits average voltages respectively occurring in the sensor electrode and the reference electrode by connecting the sensor electrode and the reference electrode together.
  - 14. The detecting circuit according to claim 7, wherein the second fixed voltage is ground voltage.
  - 15. The detecting circuit according to claim 7 integrated into one piece on a semiconductor integrated circuit.

16. A method for detecting a capacitance formed thereby around a sensor electrode, in a capacitive sensor having the sensor electrode and a shield electrode provided in the vicinity of the sensor electrode, the method comprising:
- a first step of applying a predetermined first fixed voltage to the sensor electrode and applying a second fixed voltage, which is lower than the first fixed voltage, to a reference electrode that forms a fixed capacitance around the reference electrode;
  
  a second step of applying the second fixed voltage to the sensor electrode and applying the first fixed voltage to the reference electrode;
  
  a step of averaging voltages respectively occurring in the sensor electrode and the reference electrode in the first step such that an averaged voltage is held as a first detected voltage;
  
  a step of averaging voltages respectively occurring in the sensor electrode and the reference electrode in the second step such that an averaged voltage is held as a second detected voltage;
  
  a step of amplifying a potential difference between the first detected voltage and the second detected voltage; and
  
  a step of switching an electric state of the shield electrode in synchronization with the transition in each step.

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Current Assignee
ROHM Co., Ltd.
Original Assignee
ROHM Co., Ltd.
Inventors
SAITO, Koichi, YANO, Shigehide

Application Number

US12/553,676
Publication Number

US 20100052700A1
Time in Patent Office

Days
Field of Search
US Class Current

324/658
CPC Class Codes

G06F 2203/04107   Shielding in digitiser, i.e...

G06F 3/044   by capacitive means

G06F 3/0446   using a grid-like structure...

H03K 17/962   Capacitive touch switches

H03K 2017/9613   using two electrodes per to...

H03K 2217/960705   Safety of capacitive touch ...

H03K 2217/960755   Constructional details of c...

H03K 2217/960765   Details of shielding arrang...

CAPACITIVE SENSOR

First Claim

1 Assignment

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Abstract

78 Citations

16 Claims

Specification

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CAPACITIVE SENSOR

First Claim

1 Assignment

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Subscription Required

0 Petitions

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Accused Products

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Abstract

78 Citations

16 Claims

Specification

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Use Cases

Quick Links

Others