CN202150101U

CN202150101U - Touch control device

Info

Publication number: CN202150101U
Application number: CN201120191662U
Authority: CN
Inventors: 法西德·穆萨维
Original assignee: TPK Touch Solutions Xiamen Inc
Current assignee: TPK Touch Solutions Xiamen Inc
Priority date: 2011-06-01
Filing date: 2011-06-01
Publication date: 2012-02-22
Anticipated expiration: 2021-06-01

Abstract

The utility model provides a touch control device, comprising a plurality of sensors, a memory module and a processing module. The plurality of sensors are arranged on a substrate to sense sound waves and correspondingly produce electronic signals. The memory module is used to store delay measurement standard values of a plurality of point coordinates on the substrate. The processing module is connected with the plurality of sensors and the memory module to calculate delay measurement values of touch control points according to the electronic signals and compare the delay measurement values of the touch control points with the delay measurement standard values of the point coordinates so as to obtain coordinates of the touch control points. Each delay measurement standard value of the touch control device is an average value by means of a plurality of measurements, so that noises of the delay measurements are offset by the plurality of measurements and the averaging operation, and the signal-noise ratio is increased along with the decrease of the noises, furthermore increasing the accuracy of the delay measurement standard value and making the detection precision higher.

Description

Contactor control device

[technical field]

The utility model relates to a kind of input media, particularly a kind of contactor control device.

[background technology]

Contactor control device is a kind of common input media, comprises substrate and is located at the detection element on this substrate, and this detection element is used to detect the position of touch point.With regard to the touch technology of contactor control device, electric resistance touch-control device, infrared-type touch device, surface acoustic wave type contactor control device, pressure sensing type contactor control device and capacitive touch device are arranged at present.

The defective that the electric resistance touch-control device mainly exists is that reaction rate is slower.Usually, the electric resistance touch-control device comprises that one is used for the conductive film of touch-control, and only, this conductive film is easily because of wearing and tearing reductions of service life.In order to overcome the electric resistance touch-control device because of the existing defective of its conductive film that comprises, the deviser adopts infrared-type touch device substitutional resistance formula contactor control device.The infrared-type touch device comprises plural RF transmitter and plural infrared receiver.Plural number RF transmitter and plural infrared receiver are corresponding one by one.This plural number RF transmitter and plural infrared receiver are used for the position of touch point on the surface of sensing contact panel.When the surface of contact panel during, stopped from the light of RF transmitter emission, thereby make the infrared receiver corresponding not receive light and responded to this RF transmitter by touch-control.Only, above-mentioned plural RF transmitter and infrared receiver can consume too much electric energy, cause the electric energy loss of infrared-type touch device higher.

Capacitive touch device comprises the substrate that the employing glass material is processed and is located at the complex capacitance on the substrate.This substrate is used to replace conductive film.Though capacitive touch device can successfully detect the position of touch point, only, this kind contactor control device causes manufacturing process cost height and causes electric energy loss higher in the detecting process because of it needs embedded conductive materials on substrate.

In order to overcome the defective of above-mentioned contactor control device, a kind of contactor control device of sound wave detecting touch point that utilizes produced already.This contactor control device comprises a plural sound wave sensor and a substrate.This plural number sensor is arranged at the periphery of this substrate, is used to receive the sound signal that touch point produces, and this sound signal can be used to judge the position of this touch point indirectly after being collected.The substrate of above-mentioned position of touch can adopt simple glass material to process, and electrically-conductive backing plate that energy consumption higher higher with alternative cost, thus save manufacturing cost, cut down the consumption of energy.

Only, above-mentioned contactor control device adopts the sound wave sensor to detect the sound wave of touch point, has noise in the detecting process and produces, and can have a limited signal noise ratio when causing above-mentioned contactor control device to detect sound wave.So, the detecting accuracy meeting of above-mentioned contactor control device because of this limited signal noise than reducing.

So, a kind of novel contactor control device need be provided, overcome the defective of above-mentioned contactor control device existence.

[summary of the invention]

In view of this, be necessary to provide a kind of detecting accuracy higher contactor control device.

A kind of contactor control device comprises:

The plural number sensor is located on the substrate, is used for sensing sound wave and the corresponding electric signal that produces;

Memory module, the Time delay measurement standard value that is used to store the complex points coordinate on this substrate; And

Processing module is connected with this plural number sensor and memory module, calculates the Time delay measurement value of touch point and the Time delay measurement standard value of this Time delay measurement value and this plural number is compared according to this electric signal, to obtain the coordinate of this touch point.

Further, this plural number sensor is near four jiaos of settings of this substrate.

Further, this processing module comprises the amplifier that amplifies this electric signal.

Further, this processing module also comprises the plural timer that calculates the Time delay measurement value of touch point according to this electric signal.

Further, this processing module comprises and being connected between this plural number timer and this amplifier and logic gate unit that control should the plural number timer be carried out timing.

Further, this processing module also comprises control chip, and the Time delay measurement standard value that is used for carrying out this Time delay measurement value and this plural number compares the calculation procedure with the coordinate that obtains this touch point, and is connected with this memory module communication.

Further, if the Time delay measurement value of this touch point equal plural Time delay measurement standard value one of them the time, then the coordinate of touch point equals the standard coordinate of this Time delay measurement standard value institute corresponding point coordinate.

Further, if the Time delay measurement value of this touch point approach most this plural number Time delay measurement standard value one of them the time, then the coordinate of this touch point equals the standard coordinate of this Time delay measurement standard value institute corresponding point coordinate.

Further, the Time delay measurement standard value of every bit coordinate is the mean value of plural number time measurement in a calibration process.

A kind of contactor control device comprises:

The plural number sensor is located on the substrate, is used for the sensing sound wave and converts this sound wave into electric signal; And

Processing module; Be used to store the Time delay measurement standard value of the complex points coordinate on this substrate; Wherein, the Time delay measurement standard value of every bit coordinate is the mean value of plural number time measurement, and this processing module receives this electric signal and calculates the Time delay measurement value of touch point; And Time delay measurement value and this plural number Time delay measurement standard value of this touch point compared, to obtain the coordinate of this touch point.

Further, this processing module also comprises the plural timer that calculates the Time delay measurement value of this touch point according to this electric signal.

Further, this processing module also comprises control chip, and the Time delay measurement standard value that is used for carrying out this Time delay measurement value and this plural number compares the calculation procedure with the coordinate that obtains this touch point.

Further, if the Time delay measurement value of this touch point equal plural Time delay measurement standard value one of them the time, then the coordinate of this touch point equals the standard coordinate of this Time delay measurement standard value institute corresponding point coordinate.

Further; These all timers of logic gate unit controls pick up counting when arbitrary plural sensor produces electric signal; Each timer stops timing when the sense device produces electric signal, the Time delay measurement value of this touch point records the combination of mistiming for each timer.

Each Time delay measurement standard value system of above-mentioned contactor control device is averaged by plural number time measurement and obtains; So that averaging with plural number time measurement, the noise of Time delay measurement is able to offset; Make the signal noise than reducing and increase, and then improve the accuracy of Time delay measurement standard value with noise.So the detecting accuracy of above-mentioned contactor control device is higher.

[description of drawings]

Look synoptic diagram on the contactor control device of Fig. 1 for the preferred embodiment of the utility model.

Fig. 2 is the block schematic diagram of contactor control device inside shown in Figure 1.

Fig. 3 is the block schematic diagram of the processing module of contactor control device shown in Figure 1.

Fig. 4 is the process flow diagram of the method for detecting of contactor control device shown in Figure 1.

[embodiment]

Some embodiment of the utility model describe in detail as follows.Yet except this was described in detail, the utility model can also be widely implemented at other embodiment.That is, the restriction of the embodiment that the scope of the utility model does not receive to have proposed, and be as the criterion with the claim of the utility model proposition.Secondly; When each assembly in the embodiment of the utility model icon or structure during with single component or framework explanation; Should be with this as the cognition that qualification is arranged, promptly following explanation not during the restriction on the lay special stress on number spirit and the range of application of the utility model can spread on most assemblies or structure and structure of depositing and the method.Moreover in this manual, the different piece of each assembly is not drawn according to size fully, and some yardstick is compared with other scale dependent or had by exaggeration or simplification, to provide clearer description to promote the understanding to the utility model.And the existing skill that the utility model is continued to use is only done quoting of emphasis formula at this, to help the elaboration of the utility model.

See also Fig. 1 and Fig. 2, look the inner block schematic diagram of synoptic diagram and contactor control device on the contactor control device for 1 preferred embodiment of the utility model.Contactor control device 100 comprises substrate 110, first sensor 120, second sensor 130, the 3rd sensor 140, the 4th sensor 150, processing module 160 and memory module 170.Substrate 110 is processed by any material that transmits sound wave, so that touch-control can produce sound signal in the surface of substrate 110.Specifically in present embodiment, substrate 110 is to be processed by glass.First sensor 120, second sensor 130, the 3rd sensor 140 and the 4th sensor 150 are arranged at four drift angle places near substrate 110.First sensor 120, second sensor 130, the 3rd sensor 140 and the 4th sensor 150 can detect the sound wave of generation on the substrate 110, and by receiving the corresponding electric signal that produces behind this sound wave.Processing module 160 and first sensor 120, second sensor 130, the 3rd sensor 140 and the 4th sensor 150 are connected; Compare according to the Time delay measurement value of this electric signal calculating touch point P and with the Time delay measurement standard value of this Time delay measurement value, to obtain the coordinate of this touch point P with the plural number storage.The Time delay measurement value is the time difference that first sensor 120, second sensor 130, the 3rd sensor 140 and the 4th sensor 150 detect the sound wave of touch point P.Memory module 170 is connected with processing module 160, is used to store plural Time delay measurement standard value.One of each Time delay measurement standard value counterpart substrate 110 point coordinate position, and be the mean value of N Time delay measurement value in the calibration process.

See also Fig. 3, be the block schematic diagram of the processing module of contactor control device shown in Figure 1.Processing module 160 comprises amplifier 161, logic gate unit 162, first timer 163, second timer 164, the 3rd timer 165, the 4th timer 166 and control chip 167.The electric signal of first sensor 120, second sensor 130, the

3rd sensor

140 and 150 outputs of the 4th sensor amplifies by amplifier 161.The electric signal that amplifies the back is passed to logic gate unit 162.Logic gate unit 162 is connected between first timer 163, second timer 164, the 3rd timer 165, the 4th timer 166 and the amplifier 161, is used to control first timer 163, second timer 164, the 3rd timer 165, the 4th timer 166 carries out timing.First timer 163, second timer 164, the 3rd timer 165 and the 4th timer 166 are respectively applied for measures the time difference of electric signal when arriving at timer that first sensor 120, second sensor 130, the 3rd sensor 140 and the 4th sensor 150 are transmitted; And calculate the Time delay measurement value of touch point P according to this, and this Time delay measurement value is the coordinate position that is used to calculate touch point P.Control chip 167 is used for carrying out the Time delay measurement value that will receive and the Time delay measurement standard value of this plural number compares the calculation procedure with the coordinate that obtains this touch point P, and is connected with memory module 170 communications.During measurement; Logic gate unit 162 all timers of control pick up counting when arbitrary sensor produces electric signal; Each timer stops timing when the sense device produces electric signal, the Time delay measurement value of this touch point P records the combination of mistiming for each timer.The coordinate of touch point P reaches the Time delay measurement value comparison that combines from the time difference of first timer 163, second timer 164, the 3rd timer 165,166 receptions of the 4th timer by control chip 167 according to the Time delay measurement standard value of storages and calculates.

Among other embodiment, first timer 163, second timer 164, the 3rd timer 165, the 4th timer 166 also are embedded in the control chip 167.At this moment, control chip 167 is the microprocessor of any high arithmetic speed, but this microprocessor coding or is specific integrated circuit, programmable array in wherein.So amplifier 161, logic gate unit 162, first timer 163, second timer 164, the 3rd timer 165 and the 4th timer 166 also can omit.Correspondingly, the electric signal of first sensor 120, second sensor 130, the

3rd sensor

140 and 150 outputs of the 4th sensor can directly be passed to control chip 167.

When the user clicked the touch point P of substrate 110, the position of touch point P produced sound wave.First sensor 120, second sensor 130, the 3rd sensor 140 and the 4th sensor 150 detect this sound wave from different directions, and transmit an electric signal to amplifier 161 respectively.Amplifier 161 amplifies these electric signals, and the electric signal that will amplify the back is passed to logic gate unit 162.The output signal of logic gate unit 162 is as the trigger signals of first timer 163, second timer 164, the 3rd timer 165 and the 4th timer 166.Under this kind mode, no matter in first timer 163, second timer 164, the 3rd timer 165 and the 4th timer 166 any one of them at first receive electric signal, other timer all triggers simultaneously.When an input electric signal reached a predetermined threshold value, first timer 163, second timer 164, the 3rd timer 165 and the 4th timer 166 picked up counting; When another input electric signal reaches predetermined threshold value, then stop timing.When first timer 163, second timer 164, the 3rd timer 165 and the 4th timer 166 all stopped timing, the time value that these timers detected was equal to the time difference that first sensor 120, second sensor 130, the 3rd sensor 140 and the 4th sensor 150 detect sound wave.In other words, the time difference of the electric signal of reception successively measures respectively by first timer 163, second timer 164, the 3rd timer 165 and the 4th timer 166.The Time delay measurement value is made up of the time difference that first sensor 120, second sensor 130, the 3rd sensor 140 and the 4th sensor 150 detect sound wave.This Time delay measurement value is used to judge the coordinate of the touch point P of substrate 110.The Time delay measurement value that touch-control chip 167 will receive is compared with the Time delay measurement standard value of previous storage, and finds out the coordinate of touch point P.

Specifically in present embodiment, the Time delay measurement standard value of each storage is made up of four numerals, and each numeral comes from a sensor.For example, when first sensor 120 receives the sound wave of touch point P generation, at this moment, the Time delay measurement value that receives for (0, t2, t3, t4).Wherein, t2 representes the mistiming between first sensor 120 and second sensor 130; T3 representes the mistiming between first sensor 120 and the 3rd sensor 140; T4 representes the mistiming of first sensor 120 and the 4th sensor 150.If the Time delay measurement value of touch point P equal plural Time delay measurement standard value one of them the time, then the coordinate of touch point P equals the standard coordinate of this Time delay measurement standard value institute corresponding point coordinate.Perhaps, if the Time delay measurement value of touch point P approach most plural Time delay measurement standard value one of them the time, then the coordinate of touch point P equals the standard coordinate of this Time delay measurement standard value institute corresponding point coordinate.

Because all can there be noise in Time delay measurement each time, causes each Time delay measurement all to have a limited signal noise ratio.This limited signal noise is than the accuracy of measurement that can influence the Time delay measurement standard value.So there are certain error in the measured value of touch point P and Time delay measurement standard value in comparison procedure, cause the detecting accuracy of touch point P to be fixed against the Time delay measurement value.Only; Each Time delay measurement standard value system is averaged by plural number time measurement and obtains; Average and be able to offset so that the noise of Time delay measurement is measured with plural number, to make the signal noise than reducing and increase, and then to improve the accuracy of Time delay measurement standard value with noise.So the detecting accuracy of above-mentioned contactor control device 100 is higher.

And contactor control device 100 senses the touch-control signal by first sensor 120, second sensor 130, the 3rd sensor 140 and the 4th sensor 150, so substrate 110 need not adopt conductive material to process.Hence one can see that, and above-mentioned contactor control device 110 need not adopt the substrate of the higher technology manufacturing conduction of cost and reduce production cost, and owing to the substrate 110 non-conductive electric energy losses that greatly reduce contactor control device 100.

See also Fig. 4, the method for detecting of above-mentioned contactor control device 100 comprises the steps:

Step S201, the sound wave that produces when detecting substrate 110 by touch-control.Specifically in present embodiment, the touch point P of substrate 110 in normal running by touch-control.Touch point P possibly be the virtual key of contactor control device 100.

Step S202, the sound wave that will detect converts electric signal into.Specifically in present embodiment, first sensor 120, second sensor 130, the 3rd sensor 140 and the 4th sensor 150 detect the sound wave of touch point P generation, and the sound wave that will detect converts electric signal into.

Step S203 calculates a Time delay measurement value by this electric signal.

Step S204 compares the plural Time delay measurement standard value of this Time delay measurement value with previous storage, to detect the coordinate of touch point P.Specifically in present embodiment; The mistiming that first sensor 120, second sensor 130, the 3rd sensor 140 and the 4th sensor 150 sense the sound wave of touch point P generation can detect by first timer 163, second timer 164, the 3rd timer 165 and the 4th timer 166; So the Time delay measurement value of touch point P can calculate by this mistiming.

The plural Time delay measurement standard value of substrate 110 is stored in calibration process deposits out module 170.This Time delay measurement standard value can obtain by following method.

At first, the equal measuring N of every bit coordinate of substrate 110 time, and first sensor 120, second sensor 130, the 3rd sensor 140 and the 4th sensor 150 to sense the corresponding measuring N of mistiming of sound wave of touch point P generations inferior.In other words, the Time delay measurement value of the every bit coordinate of substrate 110 all needs measuring N inferior.Specifically in present embodiment, N equals 50.In other embodiments, N equals 100.

Secondly, by the control chip 167 of processing module 160, N Time delay measurement value of this every bit coordinate averaged.

At last, with the mean value of the Time delay measurement value of the every bit coordinate of substrate 110 Time delay measurement standard value as correspondence.The Time delay measurement standard value of the complex points coordinate of substrate 110 is stored in memory module 170.

In comparison procedure, Time delay measurement value and the plural Time delay measurement standard value of touch point P compared, the detecting of touch point relies on above-mentioned comparative result.If the Time delay measurement value of reception equal or approach most plural Time delay measurement standard value one of them the time, then the coordinate of touch point P equals the standard coordinate of this Time delay measurement standard value institute corresponding point coordinate.

Be appreciated that the Time delay measurement standard value obtains in the foregoing description in calibration process.In calibration process, the same point coordinate of gauger's touch base plate 110 N time.This calibration process can be accomplished in contactor control device 100 manufacturing process, perhaps when contactor control device 100 first uses, accomplishes.

The quantity that is appreciated that sensor also can be more than four in other embodiments.First sensor 120, second sensor 130, the 3rd sensor 140 and the 4th sensor 150 also can be arranged on four limits of substrate 110, for example, and near four jiaos of settings of substrate 110.Memory module 170 also can be omitted, and correspondingly, the Time delay measurement standard value is stored in the processing module 160.

The above embodiment has only expressed several kinds of embodiments of the utility model, and it describes comparatively concrete and detailed, but can not therefore be interpreted as the restriction to the utility model claim.Should be pointed out that for the person of ordinary skill of the art under the prerequisite that does not break away from the utility model design, can also make some distortion and improvement, these all belong to the protection domain of the utility model.Therefore, the protection domain of the utility model patent should be as the criterion with accompanying claims.

Claims

1. a contactor control device is characterized in that, this contactor control device comprises:

2. contactor control device according to claim 1 is characterized in that, this plural number sensor is near four jiaos of settings of this substrate.

3. contactor control device according to claim 1 is characterized in that, this processing module comprises the amplifier that amplifies this electric signal.

4. contactor control device according to claim 1 is characterized in that, this processing module also comprises the plural timer that calculates the Time delay measurement value of this touch point according to this electric signal.

5. contactor control device according to claim 4 is characterized in that, this processing module comprises and being connected between this plural number timer and this amplifier and logic gate unit that control should the plural number timer be carried out timing.

6. contactor control device according to claim 4; It is characterized in that; This processing module also comprises control chip, is used for carrying out this Time delay measurement value and the Time delay measurement standard value of this plural number compared with the calculation procedure that obtains this touch point coordinate and with this memory module communication being connected.

7. contactor control device according to claim 1 is characterized in that, if the Time delay measurement value of this touch point equal plural Time delay measurement standard value one of them the time, then the coordinate of touch point equals the standard coordinate of this Time delay measurement standard value institute corresponding point coordinate.

8. contactor control device according to claim 1; It is characterized in that; If the Time delay measurement value of this touch point approach most this plural number Time delay measurement standard value one of them the time, then the coordinate of this touch point equals the standard coordinate of this Time delay measurement standard value institute corresponding point coordinate.

9. contactor control device according to claim 1 is characterized in that, the Time delay measurement standard value of every bit coordinate is the mean value of plural number time measurement in a calibration process.

10. a contactor control device is characterized in that, this contactor control device comprises:

The plural number sensor is located on the substrate, is used for the sensing sound wave and converts this sound wave into electric signal; And processing module; Be used to store the Time delay measurement standard value of the complex points coordinate on this substrate; Wherein, the Time delay measurement standard value of every bit coordinate is the mean value of plural number time measurement, and this processing module receives this electric signal and calculates the Time delay measurement value of touch point; And Time delay measurement value and this plural number Time delay measurement standard value of this touch point compared, to obtain the coordinate of this touch point.

11. contactor control device according to claim 10 is characterized in that, this plural number sensor is near four jiaos of settings of this substrate.

12. contactor control device according to claim 10 is characterized in that, this processing module comprises the amplifier that amplifies this electric signal.

13. contactor control device according to claim 10 is characterized in that, this processing module also comprises the plural timer that calculates the Time delay measurement value of this touch point according to this electric signal.

14. contactor control device according to claim 13 is characterized in that, this processing module comprises and being connected between this plural number timer and this amplifier and logic gate unit that control should the plural number timer be carried out timing.

15. contactor control device according to claim 13 is characterized in that, this processing module also comprises control chip, and the Time delay measurement standard value that is used for carrying out this Time delay measurement value and this plural number compares the calculation procedure with the coordinate that obtains this touch point.

16. contactor control device according to claim 10; It is characterized in that; If the Time delay measurement value of this touch point equal plural Time delay measurement standard value one of them the time, then the coordinate of this touch point equals the standard coordinate of this Time delay measurement standard value institute corresponding point coordinate.

17. contactor control device according to claim 10; It is characterized in that; If the Time delay measurement value of this touch point approach most this plural number Time delay measurement standard value one of them the time, then the coordinate of this touch point equals the standard coordinate of this Time delay measurement standard value institute corresponding point coordinate.

18. contactor control device according to claim 14; It is characterized in that; These all timers of logic gate unit controls pick up counting when arbitrary plural sensor produces electric signal; Each timer stops timing when the sense device produces electric signal, the Time delay measurement value of this touch point records the combination of mistiming for each timer.