CN201266370Y

CN201266370Y - Multi-point touch detection system

Info

Publication number: CN201266370Y
Application number: CNU2008201470911U
Authority: CN
Inventors: 冯卫; 杨云; 李奇峰; 纪传瑞; 孔静
Original assignee: BYD Co Ltd
Current assignee: BYD Co Ltd
Priority date: 2008-08-27
Filing date: 2008-08-27
Publication date: 2009-07-01
Anticipated expiration: 2018-08-27

Abstract

The utility model relates to a multi-point touch detecting system which comprises a touch induction device comprising a plurality of conducting areas which are mutually isolated and used for monitoring the multi-point touch event of a user simultaneously so as to generate an output signal; a microcontroller used for giving out at least one control signal; an application apparatus responding to the control signal so as to change the display state of a human-computer interaction object and comprising a display which displays a multi-human-computer interaction object; the touch induction device is connected with one end of the microcontroller; and the other end of the microcontroller is connected with the application apparatus. The system can be used for identifying at least two touch points which are pressured simultaneously.

Description

Multipoint touch detection system

Technical field

The utility model relates to the touch-sensitive display field, is specifically related to multi-point touch system.

Background technology

Today, almost each electronic application device all provides a personal-machine interactive user interface, as button, keyboard, mouse.The correlation technique the inside of each user interface, touch sensitive dis-play (being also referred to as " touch display screen " or " touch panel ") is because directly perceived and operation facility, more and more welcome, be widely used in the various electronic application devices, as portable set and public system.As a user interface, touch sensitive dis-play monitors user's touch and converts thereof into electronic signal.By signal analysis, signal processor is determined the position that the user touches, and shows then and carries out corresponding operating.

In different commercial Application, the dissimilar touch panel of various technical design has appearred using, for example: surface acoustic wave touch panel, infrared touch panel, capacitance touch panel and resistive touch panel or the like.

The surface acoustic wave touch panel monitors the ultrasound wave that is transmitted on the touch panel.When the finger touch panel, the sound wave of a part is absorbed.This hyperacoustic variation can be used to estimate the position of the finger of touch panel.

The infrared touch panel is caught the generation that touches by two kinds of diverse ways.A kind of method is by the variation of senses touch panel surface resistance heat; Another kind method is by arranging row, column infrared sensor matrix and detecting near the interruption of the modulated laser the screen surface on the touch panel.

The capacitance touch panel is the electro-conductive glass version that is coated with layer of transparent, for example tin indium oxide (ITO), light emitting polymer (LEP) or other can be between touch panel the medium of conduction current.Touch panel can be understood as one at electric capacity horizontal, that ordinate all stores the accurate control electric field of electric charge.Human body itself has also been put aside electric charge and has been existed, and also can be regarded as a capacitor element.When " normal electric capacity " (its normal condition) of touch panel when being subjected to another capacitance interference, user's finger for example, the circuit record reference capacitance that is positioned at the touch panel corner is subjected to the result of " interference " (for example touching), and this result's information can be used to estimate to take place the position of touch on touch panel.

The resistive touch panel is made up of a plurality of parts, comprises two thin metal conducting layers, and promptly conducting stratum and conducting stratum once on one are isolated by small space between two conducting stratums.During work, there is a voltage drop in following conducting stratum and has electric current to flow through.When the user touches the last conducting stratum of resistive touch panel, for example touch by finger or stylus, two conducting stratums connect at this place, touch point.Therefore, the electric current of a part flows to conducting stratum by this tie point, and the electric current of conducting stratum changes under causing.The position that the result that this electric current changes can be used for the generation of senses touch and estimate this tie point on the touch panel.

The similar voltage divider of resistive touch panel principle of work with output terminal.Figure 1 shows that the block diagram of this voltage divider.Two parts of the following conducting stratum that two resistance Z1 connected in series and Z2 representative are separated by the tie point on the last conducting stratum among the figure.If supply voltage Vin is loaded into the end opposite of two resistance, then the output voltage V out at the tie point place is:

V_{out} = \frac{Z_{2}}{Z_{1} + Z_{2}} V_{in}

Fig. 2 is a synoptic diagram that comprises single touching induction region device and touched simultaneously by two fingers.

The resistive touch face equipment comprises at least two parts, a basic unit 100 and a contact layer 200.In some instances, basic unit 100 is a panel of being made by hard material, face glass for example, for entire equipment provides mechanical stability, contact layer 200 is made by the material with flexibility, for example, polyethylene terephthalate (PET) provides pliability required when conducting stratum contacts up and down.In some instances, the lower surface of the upper surface of basic unit 100 and contact layer 200 all is coated with the ITO coating.

According to concrete applicable cases, touch panel can have different profiles, and is rule or irregular.For example, the touch panel equipment among Fig. 2 is the profile with four borders of a rule.Quadruplet electrode 110 distributes along four limits and is linked together by the ITO coating of basic unit's 100 upper surfaces.Contact layer 200 has a signal output part 210 of liking with the connection of lower surface ITO coating.Base is isolated into separate two parts (not shown among Fig. 2) attached to the ITO coating of basic unit 100 and contact layer 200 by a separation layer especially.When not having acting force to be applied on the contact layer 200, two ITO coating mutually insulateds up and down.When an object, when for example a fingertip pressure was applied to contact layer 200, certain distortion took place downwards in contact layer 200, thus two ITO coating contact conductings.If between two conducting stratums, have only a contact point (for example using "+" to represent this contact point), the position of contact point on touch panel can be by following the right and left electrode on-load voltage of determining (i) in basic unit 100 so, the output signal of measurement terminals 210 is (ii) in the both sides up and down of basic unit 100 electrode on-load voltage, another output signal of measurement terminals 210 then.Per two such output signals can be determined the X coordinate direction of contact point on the ITO coating and the position of Y coordinate direction, thereby have determined the particular location of contact point.

If but there are two or more finger tips to contact simultaneously with touch panel, promptly there are at least two contact points, use touch panel as shown in Figure 2 can only produce a corresponding output signal of estimating contact position.In this case, this estimated position may be the mean value of two contacting points positions on touch panel, promptly two finger tips contact with touch panel and produce an average bit touch point, can't correctly discern user's indication as the touch-screen of user interface.For avoiding this type of circumstances from happening, the user must avoid two finger tips to contact with touch panel at synchronization very carefully.Above-mentioned situation also causes the complicated man-machine interactive operation application of a plurality of contacts to can not get supporting.

The utility model content

In view of this, the utility model provides a kind of multipoint touch detection system, can discern at least two touch points of pushing simultaneously.

Technical solutions of the utility model are achieved in that

Multipoint touch detection system comprises: a touch induction device, this device comprise a plurality of conductive area that are used for the multiple point touching incident of monitor user ' synchronization with the mutually insulated of generation output signal; One is used to send the microcontroller of at least one control signal; The described control signal of one response is to change the application apparatus of human-computer interaction object show state, and this application apparatus comprises that one shows the display of many human-computer interactions object; Described touch induction device is connected with described microcontroller one end, and the other end of described microcontroller is connected with described application apparatus.

As seen, touch induction device of the present utility model comprises the conductive area of a plurality of insulation, the multiple point touching incident of this conductive area monitor user ' synchronization, and generate output signal according to described multiple point touching incident and carry out subsequent treatment for microcontroller and application apparatus, so just can discern at least two touch points of pushing simultaneously.

Description of drawings

For making above-mentioned characteristics of the present utility model and advantage and other characteristics and advantage clearer, the utility model is described in detail below in conjunction with accompanying drawing.

Fig. 1 is the block diagram of a voltage divider;

Fig. 2 is one and comprises single touching induction region device and be subjected to the synoptic diagram of two finger touch simultaneously;

Fig. 3 is had a plurality of touching induction regions for what the utility model embodiment provided, and is subjected to the synoptic diagram of six finger touch simultaneously;

Fig. 4 A is the schematic diagram that multipoint touching device shown in Figure 3 is connected with control circuit with 4B;

Fig. 5 A to 5C is the synoptic diagram with multipoint touch sensing device of a plurality of conductive area;

The view in transverse section of the multiple point touching induction panel that Fig. 6 is provided for the utility model embodiment with a plurality of conductive area;

The data flowchart of the multipoint touch sensing system that Fig. 7 is provided for the utility model embodiment;

The block diagram of multipoint touch sensing system one embodiment that Fig. 8 is provided for the utility model embodiment;

The block diagram of another embodiment of multipoint touch sensing system that Fig. 9 is provided for the utility model embodiment;

The multipoint touch sensing system workflow diagram that Figure 10 is provided for the utility model embodiment.

Embodiment

For making the purpose of this utility model, technical scheme and advantage clearer, below with reference to the accompanying drawing embodiment that develops simultaneously, the utility model is further described.

Fig. 3 is had a plurality of touching induction regions for what the utility model embodiment provided, is subjected to the synoptic diagram of six finger touch simultaneously.Be similar to touch panel shown in Figure 2, touch panel shown in Figure 3 also comprises a basic unit 300 and a contact layer 400, and the both is coated with conducting stratum.Four marginal distribution of basic unit 300 have the quadruplet electrode.For supporting multi-touch function, the conducting stratum of these contact layer 400 lower surfaces is divided into six conductive area 400-1 that isolate mutually to 400-6, and each conductive area all has the output terminal 410-1 of oneself to 410-6.Because these six mutual electric insulations of conductive area, each zone all has a finger tip to contact with it at synchronization in above-mentioned six zones, and above-mentioned each zone can produce an independently output signal.

As shown in Figure 3, six conductive area of synchronization are separately by a Fingertip touch.Simultaneously, supply voltage Vin is loaded on the electrode of basic unit two edges about in the of 300, and exports six voltage signals respectively at six output terminals, and the signal of each output signal comes from the contact point on the conductive area.Then, supply voltage Vin removes and is loaded on the electrode of basic unit 300 left and right edges from the electrode of basic unit two edges about in the of 300, if do not remove out with contacted six finger tips of touch panel, six output terminals will generate other six voltage signals.Therefore, six conductive area will be sent the measuring-signal of a pair of two-phase association respectively, and one of them signal is associated with the left and right edges of basic unit 300, and another signal is associated with the two edges up and down of basic unit 300.The every pair of measuring-signal can be used for estimating corresponding contacting points position on each conductive region, so the incident that six conductive area independently are touched simultaneously on the touch panel can be detected, and generation relevant position information.

The multipoint touching device shown in Figure 3 that Fig. 4 A and 4B are provided for the utility model embodiment, the schematic diagram that is connected with the control circuit of its work of control.

Six frame of broken lines in the basic unit 300 are represented six conductive area of contact layer 400.Please note between any two adjacent conductive area and do not have overlapping part.Four control circuit 11 to 14 correspondences are connected at least one electrode at basic unit 300 1 edges.In some instances, a control circuit includes a plurality of switches, the ON/OFF state of a respective electrode of each switch control.When being connected to the switch open of electrode, a loop that is made of switch and electrode has just formed.Any one zone that finger touches in six conductive area all can produce an output voltage by its corresponding output terminal.In some instances, touch panel is connected with an Application Specific Integrated Circuit (ASIC) and is controlled by ASIC, and for example touch panel is connected in the touch panel microcontroller by four control circuits.In some other example, touch panel is connected with a plurality of touch panel microcontrollers, and each microcontroller is responsible for controlling the one or more directions of touch panel.

Consult Fig. 4 A,, load a supply voltage Vin on the electrode of the two edges up and down of basic unit 300 in order to estimate Y coordinate position at a certain zone finger contact point (as P1).According to the work of control circuit 11 and 12, produced one or more output signal by the output terminal of the conductive area of finger contact on the touch panel.In some application examples, two control circuits 11 and 12 switch are set to open or turn-off be used for minimizing the error that conducting stratum causes because of the fringe field electric leakage in the basic unit 300 according to the circuit structure that pre-defines.For example, control circuit 11 can be in the unlatching at the same time or the shutoff that detect the finger contact position with 12 different switch.In another example, pair of switches, one in control circuit 11 and another is symmetrical with it in control circuit 12, opening at the same time and turn-offing.By such setting, the mean value of these measured values can be used to estimate to point the Y coordinate position of contact point producing a plurality of measured values with an output terminal.In some instances, mean value is to be decided by the corresponding right a plurality of measured values of switch on basic unit 300 edges.

Note that to also have a lot of other schemes, the different circuit structures of a plurality of switches of operation can reach good measurement result in control circuit.Here be CN200810096144.6 with reference to one piece of application number, the applying date is on May 6th, 2008, the utility model name is called a kind of screen body of touch screen and uses the utility model patent of the resistive touch screen of this screen body), wherein disclosed circuit can be applied in some examples of touch panel of the present utility model.

According to practical situations, the insulated conductive zone that is positioned on the resistance-type multipoint touch sensing device contact layer can be made different profiles and size along with the size of touch panel.For example, six squares that conductive area is a same size among Fig. 4 A.In actual applications, in order to make when estimating the X and Y coordinates of contact point, have same or close resolution, conductive area can adopt above-mentioned design.In some instances, conductive area can be measure-alike or different rectangle.In this case, touch panel can have different resolutions in X and Y coordinates according to demand.In some instances, conductive area can be rule or irregular polygon.In other examples, conductive area can be circular or oval.

Fig. 4 B has described to have the touch panel surface structure of a plurality of conductive area.Touch panel comprises conducting stratum and following conducting stratum.Last conducting stratum is divided into the conductive area of six rectangles, and promptly conductive area 430-1 is to conductive area 430-6.Following conducting stratum 420 has four electrodes on 4 drift angles, promptly electrode 1 is to electrode 4.In order to measure the position of contact point " P7 " Y direction, electrode 1 and electrode 2 are connected to the positive pole of power supply, and electrode 3 and electrode 4 are connected to the negative pole of power supply.Because last conducting stratum contacts at contact point P7 place and following conducting stratum 420, the output terminal 430-4 of conductive area generates a size and contact point Y direction position corresponding voltage signal (for example proportional relation).After measuring the position of Y-axis, electrode 1 and electrode 3 are connected to the positive pole of power supply and electrode 2 and electrode 4 are connected to the negative pole of power supply.Under this situation, the output terminal 430-4 of conductive area generates another size and contact point X-direction position corresponding voltage signal (for example proportional relation).The voltage measurement process that note that X-direction and Y direction is also not leave the touch panel upper surface at finger, and two conducting stratums were finished in the very short period of P7 point contact up and down.

The synoptic diagram of the multipoint touch sensing device that Fig. 5 A to 5C is provided for the utility model embodiment with a plurality of conductive area.Shown in Fig. 5 A, touch panel 505 is a rectangle, and its contact layer is divided into 20 triangles that size is identical.Each triangle is represented a conductive area 510 with output terminal.When power supply is loaded into the opposite two edges of touch panel 505, use Fig. 3 to be connected the measuring voltage output signal with the same circuit of Fig. 4, can detect the X-axis of a plurality of finger tip contact points of while on the touch panel 505 different conductive area and the position of Y direction.In a word, contact layer is divided into the resolution that the less conductive area of a plurality of scales can help to improve the multiple point touching panel.

Fig. 5 B has described to have the touch panel 515 of a plurality of conductive area of different profiles and different size.Subregion 520 in the conductive area is " M " shape, and other zones 530,540 are triangle, and each conductive area all has the output terminal of oneself.When power supply is loaded into the opposite two edges of touch panel 515, use Fig. 3 to be connected the measuring voltage output signal with the same circuit of Fig. 4, can detect the X-axis of finger contact points simultaneously a plurality of on the touch panel 515 different conductive area and the position of Y direction.When the zones of different of touch panel and/or different directions need different application with different resolution, the touch panel of employing shown in Fig. 5 B.For example, the touch panel 515 among Fig. 5 B can be on edge part and horizontal direction than core with have higher resolution on the direction longitudinally.

Fig. 5 C has described a kind of hexagon touch panel 525 with a plurality of conductive area.Contact layer on the touch panel 525 is divided into six conductive area 550, and each zone is an equilateral triangle and the output terminal with oneself.In this example, suppose to have proficiency finger contact " P " in a certain conductive area, in order to determine the position of finger contact point, supply voltage is loaded on three different directions of touch panel 525, for example X-X ' direction, Y-Y ' direction and Z-Z ' direction.For each direction, an independently output signal is arranged all on the output terminal 560.This output signal can be determined contact point allocation really.On three directions, repeat the estimated result that same step produces three butt contact positions.Because the mutual relationship of three directions is known, any two estimated results in three estimated results can be used for determining unique position of contact point on the touch panel, and the 3rd estimated result can be used to improve the precision of contacting points position on the touch panel 525.Obviously, further improve the resolution of touch panel, those skilled in the art need do more measurement to other directions.

Fig. 6 is the view in transverse section with multiple point touching induction panel of a plurality of conductive area, and the size that please notes the level shown in the figure only is used to illustrate and does not represent the size of definite level.

On behalf of touch panel basic unit upper surface, conducting stratum 670 be attached with transparent, conductive material, for example one deck of ITO or LEP.Wall 660 is positioned on the conducting stratum 670.In some instances, wall 660 is made of little space of points array of a two dimension.Little space of points array will be gone up conducting stratum and separately contact to avoid unexpected with following conducting stratum.In some instances, little space of points array is fabricated into down conducting stratum 670 through the process of accurate control points size, height and a density.In some instances, predefined dot density has been determined the associated methods of operation of touch panel.For example, a low dot matrix density for the finger contact effectively.By contrast, the input equipment of stylus class just needs higher reticular density.In some instances, layer has a small positive air pressure with space between the layer and exists, and prevents unexpectedly or contacts unintentionally, causes the damage of touch panel such as dust and stain.

Lower electrode layer 650 is distributed in the edge of conducting stratum 670.Electrode layer 650 and conducting stratum 670 link together on electric.In some instances, lower electrode layer 650 includes the part of two or more isolation, and each part is connected on the electrode that launches on the substrate as shown in Figure 3 300 same edge equally.When two electrodes that the positive pole and the negative pole of supply voltage is connected to 670 liang of opposite edges of conducting stratum, have a voltage drop on the conducting stratum 670 and have electric current to flow through.

On behalf of touch panel contact layer lower surface, conducting stratum 610 be attached with transparent, conductive material, as another layer of ITO or LEP.Dotted line in the conducting stratum 610 is illustrated in the regional 610-1 of a plurality of mutual isolation of this layer division, and 610-2 is to 610-N.One upper electrode layer 620 is distributed in conducting stratum 610 edges.In some instances, this upper electrode layer 620 is divided into the unit of a plurality of mutual isolation and every unit and is connected to a conductive area 610-1 in the conducting stratum 610, and 610-2 is to 610-N.When a conductive area of last conducting stratum 610 and following conducting stratum 670 when determining that some contact for one, the unit that voltage signal passes through upper electrode layer 620 be transferred to corresponding output terminal and be transferred to microcontroller that touch panel is connected on.

Two insulators 630 are attached to a corresponding end of upper electrode layer 620 and lower electrode layer 650 respectively, thereby two

electrode layers

620 and 650 can not interconnect and avoid the multiple point touching panel to have incipient fault in application process.In some instances, two insulators 630 combine by a layers of two-sided 640.In other examples, layers of two-sided 640 itself is exactly an insulator.In this case, upper and

lower electrode layer

620 and 650 directly and layers of two-sided 640 be pasted together, saved two insulation courses 630.

The data flowchart of the multipoint touch sensing system that Fig. 7 is provided for the utility model embodiment.

Multipoint touch sensing system comprises a display screen 710, one application microprocessors 720, one touch panel microcontrollers 730, and a multiple point touching panel 740 described above.In some instances, multipoint touch sensing system is a mancarried device, for example mobile phone, game paddle, GPS (GPS), individual digital companion (PDA) or a part wherein.In some other example, multipoint touch sensing system is a synergic system, for example bank ATM machine, station automatic machine, the Books Retrieve System in library or a part wherein.In some other example, multipoint touch sensing system is Auto Electronic Controlled System or a product manufacturing system or a part wherein.

In work, microcontroller 730 sends instruction to touch panel 740, detects the order of user's input simultaneously or uses the request of many fingers contact sending or the multiple spot contact request of a class instrument of use by control signal 19.According to the user's request that receives, touch panel 740 produces a plurality of output signals 20 and microcontroller 730 is arrived in signal transmission 20 by above-mentioned many conductive area.Microcontroller 730 is handled output signal 20 to determine the relevant information of multiple spot contact position 17 and this information 17 is sent to application microprocessor 720 (for example CPU processor).

Using microprocessor 720 carries out the operation that pre-defines according to relevant location information 17 and operating result 16 is presented on the display screen 710.For example, the user uses the picture on the multiple spot contact gesture rotary display screen.According to the action of multiple spot contact finger on the screen, microprocessor 720 for example behind 90 degree is presented at the original image rotation on the screen.In some application examples, microprocessor 720 can send a response signal 18 simultaneously to microcontroller 730.According to response signal 18, microcontroller 730 can send new instruction and give touch panel 740.In some instances, microprocessor 720 and microcontroller 730 are equivalent to an integrated chip, for example ASIC different circuit section.

The theory diagram of Fig. 8 position multipoint touch sensing system one embodiment.

Between touch panel 810 and touch panel driver 820, there are a plurality of communication ports.For explaining, suppose that touch panel 810 has the identical structure of touch panel shown in Figure 3.Output terminal Vin1 is connected respectively to six conductive area of conducting stratum and produces and output voltage signal when a plurality of fingers contact touch panels 810 surperficial arranged simultaneously to Vin6.

When there was output signal in the arbitrary zone in detecting six conductive area, touch panel driver 820 was by look-at-me 827 report microcontrollers 830.In response, touch panel driver 820 is given in microcontroller 830 transmit operations instruction 825, and instruction comprises the output voltage of measuring six conductive area and this voltage signal is changed.In some instances, touch panel driver 820 comprises a plurality of voltage signal measuring units, and one or more conductive area are responsible for monitoring in each unit.These voltage signal measuring units can concurrent working.In some other example, 820 of touch panel drivers have a measuring unit.In this case, measuring unit is responsible for all conductive area on the continuous monitoring touch panel, detects a zone a moment.In some instances, touch panel driver 820 and microcontroller 830 have the ability of very powerful signal Processing.Therefore, multipoint touch sensing system can detect whether have touch event in a plurality of conductive area, and if in a zone touch event has taken place, can estimate the position that touch event takes place.Though the touch event in different conductive area is determined in succession, feel that in user's experience they are detected simultaneously.Touch panel driver 820 has one or a plurality of signal measurement unit, depends on the concrete application of multiple point touching panel.

Behind the position of determining the synchronous or pseudo-touch event synchronously of multiple spot, 830 pairs of microcontrollers are presented at the object executable operations on the display screen 840.For example, the picture that shows on the gesture rotary display screen 840 of user by a multiple spot finger, then microcontroller 830 is presented at postrotational picture on the screen, for example will revolve the original picture of picture replacement that turn 90 degrees and be presented on the screen.

Fig. 9 is the block diagram of another embodiment of multipoint touch sensing system.

Multiple point touching input panel 910 be connected microcontroller 920 and be connected.In some instances, microcontroller 920 is for having the asic chip of a plurality of circuit.In some other example, microcontroller 920 is an electronic system that combines a plurality of IC, and each IC has specific function.For example, the work of panel driver 930 charge control switches, for example unlatching/stopcock shown in Fig. 4 A.By the unlatching/shutoff at different direction adjusted switches, multipoint touch sensing system can be simultaneously or is not side by side measured the position of the X-axis and the Y direction of corresponding touch event on the different conductive area.

Multiple point touching panel 910 is transferred to noise filter 940 with the output signal of different conductive area.A lot of technical known noise suppression algorithms can be applied in the noise filter 940, are used for improving the resolution and the error that reduces to estimate the touch event position of output signal.Behind the noise that suppresses output signal, noise filter 940 is transferred to A/D converter 950 in the control section circuit 960 with output signal.The analog output signal digitizing that A/D converter 950 produces touch panel 910.The resolution of A/D converter 950 to a certain extent, can have influence on the resolution of multiple point touching panel 910.A/D converter in the multipoint touch sensing system of a routine has at least 8, may 12 even higher resolution.

Control section circuit 960 comprises an erasable memory 970 or is connected with erasable memory 970.In some instances, storer 970 stores one or more signal processing algorithms that are used for estimating according to digital output signal the touch event positional information.The capacity of storer 970 depends on the complexity of signal processing algorithm.The storage chip of a routine has the capacity of 4Kb at least.Control section circuit 960 obtains one or more signal processing algorithm and algorithm application is determined the position of corresponding touch event on the multiple point touching panel 910 in the digital output signal that A/D converter 950 generates from storer 970.

In some instances, microcontroller 920 comprises one or more interface circuit 980.By interface circuit 980, microcontroller 920 is connected on other application circuits of other devices (for example microprocessor among Fig. 7 720) of same application circuit or multipoint touch sensing system outside.The information of 980 touch events can be transferred in the middle of other devices or the circuit by interface circuit.Other devices or circuit also can send instruction to the multiple point touching sensor circuit by interface circuit 980.In some instances, interface circuit 980 is certain device of some application-specific.In some other example, interface circuit 980 is compatibility standard I/O agreement, for example interface circuit of USB and RS-232.

Figure 10 is the multipoint touch sensing system workflow diagram. connects as the circuit among Fig. 7 to 9, a multipoint touch detection system generally includes a touch induction device, a microcontroller that is connected with induction installation and an application circuit that is connected with microcontroller.Touch induction device has the conductive area of a plurality of electrical isolation, and this conductive area is used to detect finger contact incident simultaneously.

When conductive area (1010) detected that the user is a plurality of to contact incident simultaneously, touch induction device produced a plurality of output signals (1020).In some instances, the contact of each in a plurality of contact incidents simultaneously all can produce a signal.In some instances, produced simultaneously during a plurality of output signal.In some other example, a plurality of output signals produce successively.In some other example, a plurality of output signals have been divided into a plurality of set.Output signal in the single set is to produce successively, and the output signal of different sets can produce simultaneously.

A plurality of output signals are transferred to microcontroller (1030).In some instances, microcontroller comprises a plurality of signal processing units, and one or more output signal is responsible for handling in each unit.A plurality of signal processing units adopt parallel mode that output signal is handled.In some other example, microcontroller has only a signal processing unit successively a plurality of output signals to be handled, and handles a signal in a moment.In some other example, microcontroller carries out prioritization according to corresponding conductive area to output signal.For example, the output signal of a specific conductive area is endowed higher priority (for example Zhong Jian zone) in the touch panel, so, microcontroller can at first be handled this output signal and then other regional output signals are handled (for example zone at close touch panel edge).In some instances, to conductive area ordering or formulation priority the time, can decide on the different size of conductive area.For example, the signal of the conductive area that the output signal of the conductive area that dimensioned area is big is little than size can preferentially be handled.In some instances, need in the application apparatus of some multipoint touch sensing systems conductive area ordering or formulation priority.For example, the user passes through an object on the finger touch selection touch-screen one time, have only when the user simultaneously or after having selected another object on the touch screen by another time finger touch before, computer game handle or ATM are just carried out this corresponding operating.In other words, the interaction on user and the touch-screen between the different objects has inherent proper order, therefore requires the user to touch object according to certain processing order.

Microcontroller produces one or more control signal and control signal is transferred to application apparatus (1040) according to output signal.Application apparatus comprises a display screen that shows a plurality of man-machine interaction objects.Typical man-machine interaction object comprises text, virtual key, image, dummy keyboard.The application apparatus responsive control signal changes the state (1050) of man-machine interaction object on display screen.For example, application apparatus can rotate the zone of an image or highlighted user selection on screen.

For illustrative purposes, above stated specification has been enumerated some examples and has been described.Yet above-mentioned discussion illustrates and does not mean that the utility model is limited in these examples.There is the place that much can revise variation as can be seen from above explanation.Cited example only is used for better setting forth principle of the present utility model and practical application; therefore others skilled in the art utilize the utility model and various example; that is made can obtain the various modifications that the utility model expection realizes effect, all should be included in the protection domain of the present utility model.

Claims

1, multipoint touch detection system is characterized in that, this system comprises:

One touch induction device, this device comprise a plurality of conductive area that are used for the multiple point touching incident of monitor user ' synchronization with the mutually insulated of generation output signal;

One is used to send the microcontroller of at least one control signal;

The described control signal of one response is to change the application apparatus of human-computer interaction object show state, and this application apparatus comprises that one shows the display of many human-computer interactions object;

Described touch induction device is connected with described microcontroller one end, and the other end of described microcontroller is connected with described application apparatus.

2, multipoint touch detection system according to claim 1 is characterized in that, described touch induction device comprises:

One has first conducting stratum at first pair of edge at least, described first pair of edge comprises, first edge and one second edge wherein second edge and first edge be arranged in parallel substantially, when power supply is loaded on described first edge and second edge, on first conducting stratum between described first edge and second edge, producing has voltage drop;

And second conducting stratum that separates by wall and described first conducting stratum, described second conducting stratum comprises the conductive area of a plurality of mutually insulateds.

3, multipoint touch detection system according to claim 2, it is characterized in that, described system comprises that also one receives described output signal to generate the touch panel driver of multiple touch points positional information, and described touch panel driver is connected with described touch induction device.

4, multipoint touch detection system according to claim 3 is characterized in that, described microcontroller is connected with described touch panel driver, is used to receive the positional information of touch panel driver output to form at least one control information.

5, multipoint touch detection system according to claim 2, it is characterized in that, described application apparatus comprises that one receives described control signal to change the signal processor of man-machine interaction object state on display, and described signal processor is connected with described microcontroller.

According to claim 4 or 5 described multipoint touch detection systems, it is characterized in that 6, described microcontroller comprises that also one is used for the noise filter of denoising when forming described output signal, described noise filter is connected with described touch induction device.

7, according to claim 4 or 5 described multipoint touch detection systems, it is characterized in that described microcontroller also comprises an A/D converter, receive the output signal that described touch induction device produces, and be digital signal these signals.

8, according to claim 4 or 5 described multipoint touch detection systems, it is characterized in that described microcontroller also comprises a storer, storage is applicable to the signal processing algorithm of the output signal that described touch induction device produces.

9, according to claim 4 or 5 described multipoint touch detection systems, it is characterized in that described microcontroller also comprises an interface circuit, described interface circuit one end is connected with described microcontroller, and the described interface circuit other end is connected with described application apparatus.

10, multipoint touch detection system according to claim 9 is characterized in that, described interface circuit is a special interface circuit.

11, multipoint touch detection system according to claim 9 is characterized in that, described interface circuit is a usb circuit.

12, multipoint touch detection system according to claim 9 is characterized in that, described interface circuit is the RS-232 interface circuit.

According to claim 4 or 5 described multipoint touch detection systems, it is characterized in that 13, described a plurality of insulated conductive area size are identical.

According to claim 4 or 5 described multipoint touch detection systems, it is characterized in that 14, described a plurality of insulated conductive zone has two kinds of sizes at least.

According to claim 4 or 5 described multipoint touch detection systems, it is characterized in that 15, described insulated conductive zone is any shape in triangle, rectangle, the square.