CN104866217A - Triggering device and touch method - Google Patents

Abstract

The embodiment of the invention provides a triggering device and a touch method, and relates to the field of electronic equipment. An application program menu can be conveniently popped up from touch electronic equipment to avoid misoperation. The triggering device specifically comprises a contact module and an electric potential control module, wherein the contact module is used for contacting with any position on the capacitive screen of the touch electronic equipment; the electric potential control module is conducted with the contact module for changing a quantity of electric charges on a contact position on the capacitive screen to form a first potential difference; and the touch electronic equipment generates a first trigger signal according to the first potential difference and enables a first application program menu corresponding to the first trigger signal to be popped up. The embodiment of the invention is specifically used for interacting with the touch electronic equipment to cause the application program menu to be popped up from the touch electronic equipment.

Description

A kind of flip flop equipment and touch control method

Technical field

The present invention relates to touch-controlled electronic devices field, particularly relate to a kind of flip flop equipment and touch control method.

Background technology

When user uses touch-controlled electronic devices to enter application program, need to identify that then the application program identification on touch-controlled electronic devices carries out touch control operation to corresponding application program identification.Such as: this application program identification of clicking, double-click or slide, can enter this application program.

State in realization and enter in the process of application program, if application program identification is too much in touch-controlled electronic devices, or the position of application program identification is remote, or runnable interface needs multi-section operation just can jump to application program identification interface, then entering application program by touch control application program mark can be inconvenient, also there is the possibility of maloperation in addition.

Summary of the invention

Embodiments of the invention provide a kind of flip flop equipment and touch control method, can touch-controlled electronic devices be made easily to eject the application menu, avoid maloperation to occur.

For achieving the above object, embodiments of the invention adopt following technical scheme:

First aspect, provides a kind of flip flop equipment, is applied to touch-controlled electronic devices mutual, makes described electronic equipment eject the application menu, it is characterized in that, comprising:

Contact modules, for contacting with optional position on the capacitance plate of described touch-controlled electronic devices;

Electromotive force control module and described contact modules conducting, for changing the quantity of electric charge of contact position on described capacitance plate, form the first electric potential difference;

Described touch-controlled electronic devices generates the first trigger pip according to described first electric potential difference, and ejects first the application menu corresponding to described first trigger pip.

In conjunction with first aspect, in the implementation that the first is possible, described electromotive force control module comprises: power supply and frequency generator; Described contact modules is at least one conductive contact;

Described power supply is powered to described frequency generator at least one conductive contact described, is produced the electric current of predeterminated frequency;

Described electromotive force control module, for attracting the electric charge of contact position on described capacitance plate with the electric current of described predeterminated frequency, forms the first electric potential difference, and described first electric potential difference comprises the electric potential difference of each conductive contact corresponding respectively.

In conjunction with first aspect, in the implementation that the second is possible, described contact modules is specially: the conductive contact of at least two, and described at least two conductive contacts are arranged in the first pattern; Described electromotive force control module comprises the magnetic coil of corresponding described conductive contact quantity, and wherein each magnetic coil is connected a conductive contact;

Described electromotive force control module, the electric current produced for the magnetic field of cutting described capacitance plate by each magnetic coil of connecting with conductive contact attracts the electric charge of the contact position of the first pattern on described capacitance plate, form the first electric potential difference, described first electric potential difference comprises the electric potential difference of each conductive contact corresponding respectively.

In conjunction with first aspect, in the implementation that the third is possible, described contact modules is specially: at least two conductive contacts, and described at least two conductive contacts are arranged in the first pattern; Described at least two conductive contacts are by the operating body ground connection of described flip flop equipment;

Described electromotive force control module, for being attracted the electric charge of the contact position of the first pattern on described capacitance plate by described at least two conductive contacts, forms the first electric potential difference, and described first electric potential difference comprises the electric potential difference of each conductive contact corresponding respectively.

In conjunction with the first of first aspect to the third any one possible implementation, in the 4th kind of possible implementation, also comprise:

Sticking contacts module, described sticking contacts module comprises the hole with described conductive contact respective amount hollow out, comprises a conductive contact in the hole of described each hollow out, and the height of described sticking contacts module is higher than the height of described conductive contact.

In conjunction with the first of first aspect to the 4th kind of any one possible implementation, in the 5th kind of possible implementation, the contact portion of described conductive contact is semisphere.

Second aspect, provides a kind of touch control method, is applied to contactor control device and touch-controlled electronic devices mutual, makes described touch-controlled electronic devices eject the application menu, it is characterized in that, comprising:

Described flip flop equipment is contacted with optional position on the capacitance plate of described touch-controlled electronic devices by contact modules;

Described flip flop equipment changes the quantity of electric charge of contact position on described capacitance plate, forms the first electric potential difference;

Described touch-controlled electronic devices generates the first trigger pip according to described first electric potential difference, and ejects first the application menu corresponding to described first trigger pip.

In conjunction with second aspect, in the implementation that the first is possible, described flip flop equipment changes the electric charge of contact position on described capacitance plate, forms the first electric potential difference, specifically comprises:

Described flip flop equipment attracts the electric charge of contact position on described capacitance plate by the electric current of predeterminated frequency, forms the first electric potential difference.

In conjunction with second aspect, in the implementation that the second is possible, it is characterized in that,

Described flip flop equipment changes the quantity of electric charge of contact position on described capacitance plate, forms the first electric potential difference, specifically comprises:

The electric current that the magnetic field that described flip flop equipment cuts described capacitance plate by the magnetic coil carried produces attracts the electric charge of the contact position of the first pattern on described capacitance plate, forms the first electric potential difference.

In conjunction with second aspect, in the implementation that the third is possible, described flip flop equipment changes the quantity of electric charge of contact position on described capacitance plate, forms the first electric potential difference, specifically comprises:

Attracted the electric charge of the contact position of the first pattern on described capacitance plate by the operating body ground connection of described flip flop equipment, form the first electric potential difference.

The flip flop equipment that the solution of the present invention provides and touch control method, flip flop equipment is contacted with optional position on the capacitance plate of touch-controlled electronic devices by contact modules; Flip flop equipment changes the quantity of electric charge of contact position on described capacitance plate by electromotive force control module and described contact modules conducting, forms the first electric potential difference; Touch-controlled electronic devices generates the first trigger pip according to described first electric potential difference, and eject first the application menu corresponding to described first trigger pip, do not need the mark of touch control application program just can eject corresponding the application menu, can touch-controlled electronic devices be made easily to eject the application menu, avoid maloperation to occur.

Accompanying drawing explanation

In order to be illustrated more clearly in the embodiment of the present invention or technical scheme of the prior art, be briefly described to the accompanying drawing used required in embodiment or description of the prior art below.

The structural representation of a kind of flip flop equipment that Fig. 1 provides for embodiments of the invention;

The structural representation of a kind of flip flop equipment that Fig. 2 provides for another embodiment of the present invention;

The structural representation of a kind of flip flop equipment that Fig. 3 provides for another embodiment of the present invention;

The structural representation of the contact modules of a kind of flip flop equipment that Fig. 4 provides for embodiments of the invention;

The structural representation of the contact modules of the another kind of flip flop equipment that Fig. 5 provides for embodiments of the invention;

The structural representation of a kind of flip flop equipment that Fig. 6 provides for one more embodiment of the present invention;

The structural representation of the sticking contacts module of a kind of flip flop equipment that Fig. 7 provides for embodiments of the invention;

The structural representation of the sticking contacts module of the another kind of flip flop equipment that Fig. 8 provides for embodiments of the invention;

A kind of flip flop equipment that Fig. 9 provides for embodiments of the invention is attached to the schematic diagram on touch-controlled electronic devices by sticking contacts module;

The structural representation of the conductive contact of a kind of flip flop equipment that Figure 10 provides for embodiments of the invention;

The schematic flow sheet of a kind of touch control method that Figure 11 embodiments of the invention provide;

The schematic flow sheet of a kind of touch control method that Figure 12 another embodiment of the present invention provides;

The schematic flow sheet of a kind of touch control method that Figure 13 another embodiment of the present invention provides;

The schematic flow sheet of a kind of touch control method that Figure 14 one more embodiment of the present invention provides.

Embodiment

Below in conjunction with the accompanying drawing in the embodiment of the present invention, be clearly and completely described the technical scheme in the embodiment of the present invention, obviously, described embodiment is only the present invention's part embodiment, instead of whole embodiments.

Embodiments of the invention provide a kind of flip flop equipment 100, are applied to touch-controlled electronic devices mutual, make electronic equipment eject the application menu, with reference to shown in Fig. 1, comprising:

Contact modules 101, for contacting with optional position on the capacitance plate of touch-controlled electronic devices.

Electromotive force control module 102, for contact modules 101 conducting for changing the quantity of electric charge of contact position on capacitance plate, form the first electric potential difference.

Touch-controlled electronic devices generates the first trigger pip according to the first electric potential difference, and ejects first the application menu corresponding to the first trigger pip.

Because contact modules 101 can contact optional position on capacitance plate, the contactor control device therefore provided by embodiments of the invention can reach optional position contact on the capacitance plate of touch-controlled electronic devices all can eject the effect of corresponding the application menu.

Wherein, first the application menu can be user oneself setting, and such as, first the application menu that touch-controlled electronic devices ejects by user is set to chat software menu, then flip flop equipment is used for touch-controlled electronic devices mutual, makes touch-controlled electronic devices eject chat software menu.

In above-described embodiment, flip flop equipment is contacted with optional position on the capacitance plate of touch-controlled electronic devices by contact modules; Flip flop equipment changes the quantity of electric charge of contact position on described capacitance plate by electromotive force control module and described contact modules conducting, forms the first electric potential difference; Touch-controlled electronic devices generates the first trigger pip according to described first electric potential difference, and eject first the application menu corresponding to described first trigger pip, do not need the mark of touch control application program just can eject corresponding the application menu, can touch-controlled electronic devices be made easily to eject the application menu, avoid maloperation to occur.

Optionally, with reference to shown in Fig. 2, the contact modules 101 of flip flop equipment 100 comprises: at least one conductive contact (101-1,101-2 ..., 101-n); Electromotive force control module 102 comprises: power supply 102-1 and frequency generator 102-2.

Power supply 102-1 to frequency generator 102-2 power at least one conductive contact (101-1,101-2 ..., 101-n) and the upper electric current producing predeterminated frequency.

Wherein, power supply 102-1 can be battery, and certain flip flop equipment 100 also can external power supply.Frequency generator 102-2 can be a flush bonding processor, for the frequency make-and-break contact preset, can be produced the electric current of predeterminated frequency like this by frequency generator 102-2 on conductive contact.

Conductive contact (101-1,101-2 ..., 101-n) and with the electric charge of contact position on the electric current of predeterminated frequency attraction capacitance plate, form the first electric potential difference.

Wherein, first electric potential difference comprises the electric potential difference of each conductive contact corresponding respectively, due to conductive contact (101-1,101-2,101-n) electric current of upper predeterminated frequency with the electric charge of contact position on the frequency entrainment capacitance plate preset, so each conductive contact all can produce multiple electric potential difference on capacitance plate, and can be pre-set by frequency generator the interval time of the electric potential difference produced.

In above-described embodiment, flip flop equipment to be powered to frequency generator by power supply at least one conductive contact, is produced the electric current of predeterminated frequency; Flip flop equipment attracts the electric charge of contact position on capacitance plate with the electric current of predeterminated frequency by conductive contact, form the first electric potential difference, first electric potential difference comprises the electric potential difference of each conductive contact corresponding respectively, therefore touch-controlled electronic devices only just generates the first trigger pip at the electric potential difference signal receiving predetermined time interval appearance, thus define the trigger condition of the first trigger pip, improve the security of flip flop equipment, avoid maloperation to occur.

Optionally, with reference to shown in Fig. 3, the contact modules 101 of flip flop equipment 100 comprises: at least two conductive contacts (101-1,101-2 ..., 101-n), these at least two conductive contacts are arranged in the first pattern; At least two conductive contacts (101-1,101-2 ..., 101-n) and by the operating body ground connection of flip flop equipment.

Electromotive force control module 102, for being attracted the electric charge of the contact position of the first pattern on capacitance plate by least two conductive contacts, forms the first electric potential difference, and the first electric potential difference comprises the electric potential difference of each conductive contact corresponding respectively.

Due to conductive contact (101-1,101-2 ..., 101-n) and by the operating body ground connection of flip flop equipment, then the electromotive force of conductive contact is 0, can attract the electric charge of the contact position of the first pattern on capacitance plate.

Illustratively, with reference to shown in Fig. 4, the contact modules 101 of trigger, comprising: two conductive contacts (101-1,101-2), wherein, and the distance that between conductive contact 101-1 and conductive contact 101-2, interval is preset.Like this, touch-controlled electronic devices only just generates the first trigger pip at the electric potential difference signal receiving the distance that interval is preset, and defines the trigger condition of the first trigger pip, improves the security of flip flop equipment, avoids maloperation to occur.

Optionally, with reference to shown in Fig. 5, the contact modules 101 of trigger, comprise: three conductive contacts (101-1,101-2,101-3), wherein, conductive contact 101-1, conductive contact 101-2 and conductive contact 101-3 are arranged in three summits of the equilateral triangle of pre-sizing respectively.Like this, touch-controlled electronic devices only just generates the first trigger pip at the electric potential difference signal on three summits receiving the equilateral triangle being arranged in pre-sizing, define the trigger condition of the first trigger pip, improve the security of flip flop equipment, avoid maloperation to occur.

Certainly, the pattern preset that conductive contact is arranged in is not only three summits of the above-mentioned distance preset, the in advance equilateral triangle of sizing, can also be other the pattern preset.

In above-described embodiment, flip flop equipment comprises: at least two conductive contacts, electromotive force control module.At least two conductive contacts are arranged in the first pattern; At least two conductive contacts pass through the operating body ground connection of flip flop equipment.Electromotive force control module attracts the electric charge of the contact position of the first pattern on capacitance plate by least two conductive contacts, form the first electric potential difference, and the first electric potential difference comprises the electric potential difference of each conductive contact corresponding respectively.Like this, touch-controlled electronic devices only just generates the first trigger pip receiving the electric potential difference signal being arranged in the first pattern, defines the trigger condition of the first trigger pip, improves the security of flip flop equipment, avoid maloperation to occur.

Optionally, with reference to shown in Fig. 6, the contact modules 101 of flip flop equipment 100 comprises: at least two conductive contacts (101-1,101-2 ..., 101-n), these at least two conductive contacts are arranged in the first pattern; Electromotive force control module 102 comprise corresponding conductive contact quantity magnetic coil (102-1,102-2 ..., 102-n) wherein each magnetic coil to connect a conductive contact.

Magnetic coil (102-1,102-2 ..., 102-n) and the electric current that produces of the magnetic field of cutting capacitance plate attracts the electric charge of the contact position of the first pattern on capacitance plate, and form the first electric potential difference, the first electric potential difference comprises the electric potential difference of each conductive contact corresponding respectively.

Concrete, the arrangement mode of the first pattern can have concrete description with reference in example corresponding to Fig. 4, Fig. 5, just repeats no more here.Certainly, the pattern preset that conductive contact is arranged in is not only three summits of the above-mentioned distance preset, the in advance equilateral triangle of sizing, can also be other the pattern preset.

In above-described embodiment, flip flop equipment comprises: at least two conductive contacts, and these at least two conductive contacts are arranged in the first pattern; The magnetic coil of corresponding conductive contact quantity, wherein each magnetic coil is connected a conductive contact.The electric current of the magnetic field generation of magnetic coil cutting capacitance plate attracts the electric charge of the contact position of the first pattern on capacitance plate, forms the first electric potential difference, and the first electric potential difference comprises the electric potential difference of each conductive contact corresponding respectively.Like this, touch-controlled electronic devices only just generates the first trigger pip receiving the electric potential difference signal being arranged in the first pattern, defines the trigger condition of the first trigger pip, improves the security of flip flop equipment, avoid maloperation to occur.

Further, with reference to shown in Fig. 7, flip flop equipment 100, also comprise: sticking contacts module 103, sticking contacts module 103 comprises hole (103-1,103-2 with conductive contact respective amount hollow out,, 103-n), the hole (103-1 of each hollow out, 103-2,, 103-n) in comprise conductive contact (101-1, a 101-2,, 101-n).

Concrete, with reference to shown in Fig. 8, the height of sticking contacts module 103 higher than conductive contact (101-1,101-2 ..., 101-n) height.Wherein, sticking contacts module can for by the sticking contacts material layer being rich in viscosity and flexible material and making, such as: silica gel, polycarbamate or automobile-used slipmat cohesive material.When trigger contacts with touch-controlled electronic devices, first sticking contacts module 103 contacts with touch-controlled electronic devices, then user extrudes trigger and causes sticking contacts module 103 to compress (generally, the sticking contacts layer deformation quantity that automobile-used slipmat cohesive material makes can reach 0.4 millimeter to 0.6 millimeter, so the height of sticking contacts layer can not exceed the largest deformation amount of sticking contacts layer higher than conductive contact, to ensure that conductive contact can contact with touch-controlled electronic devices), conductive contact is made to contact the electric potential difference changing contact position on capacitance plate with touch-controlled electronic devices, the contact that all conductive contacts all can be good with capacitance plate can be ensured like this, add the contact stabilization of contact modules simultaneously.In addition, because sticking contacts module 103 has viscosity, flip flop equipment 100 can be made to be attached to (with reference to shown in Fig. 9) on touch-controlled electronic devices 200.Certainly, because the height of sticking contacts module 103 is higher than the height of conductive contact, when trigger is attached to touch-controlled electronic devices time, conductive contact can not be made to contact with touch-controlled electronic devices and to produce trigger pip.

Further alternative, conductive contact in the embodiment of the present invention (101-1,101-2 ..., 101-n) contact portion be semi-spherical shape.

Illustrate, with reference to shown in Figure 10, the contact portion 101-1-1 of conductive contact 101-1 is semi-spherical shape, and the base 101-1-2 of conductive contact 101-1 is cylindrical shape.The contact portion 101-1-1 of semi-spherical shape can adapt to the contact of all angles.

Embodiments of the invention provide a kind of touch control method, are applied to contactor control device and touch-controlled electronic devices mutual, make touch-controlled electronic devices eject the application menu, with reference to shown in Figure 11, comprise the following steps:

301, flip flop equipment is contacted with optional position on the capacitance plate of touch-controlled electronic devices by contact modules.

302, flip flop equipment changes the quantity of electric charge of contact position on capacitance plate, forms the first electric potential difference.

Concrete, with reference to shown in Figure 12, step 302 is specially:

302-1, flip flop equipment attract the electric charge of contact position on capacitance plate by the electric current of predeterminated frequency, form the first electric potential difference.

Because the electric current of predeterminated frequency can with the electric charge of contact position on the frequency entrainment capacitance plate preset, so capacitance plate can produce multiple electric potential difference, and the interval time of the electric potential difference produced is fixing.

Like this, touch-controlled electronic devices only just generates the first trigger pip at the electric potential difference signal receiving predetermined time interval, thus defines the trigger condition of the first trigger pip, improves the security of flip flop equipment.

Optionally, with reference to shown in Figure 13, step 302 specifically comprises:

302-2, flip flop equipment attract the electric charge of the contact position of the first pattern on capacitance plate by the electric current that the magnetic field of the magnetic coil cutting capacitance plate carried produces, and form the first electric potential difference.

Wherein, the first pattern can be the distance that interval is preset, and also can be three summits of the equilateral triangle of pre-sizing, can also be other the pattern preset certainly.

Because touch-controlled electronic devices only just generates the first trigger pip receiving the electric potential difference signal being arranged in the first pattern, define the trigger condition of the first trigger pip, improve the security of flip flop equipment.

Optionally, with reference to shown in Figure 14, step 302 specifically comprises:

302-3, attracted the electric charge of the contact position of the first pattern on capacitance plate by the operating body ground connection of flip flop equipment, form the first electric potential difference.

Wherein, the first pattern can be the distance that interval is preset, and also can be three summits of the equilateral triangle of pre-sizing, can also be other the pattern preset certainly.

Because touch-controlled electronic devices only just generates the first trigger pip receiving the electric potential difference signal being arranged in the first pattern, define the trigger condition of the first trigger pip, improve the security of flip flop equipment.

Touch-controlled electronic devices generates the first trigger pip according to the first electric potential difference, and ejects first the application menu corresponding to the first trigger pip.

Wherein, first the application menu can be user oneself setting, and such as, first the application menu that touch-controlled electronic devices ejects by user is set to chat software menu, then flip flop equipment is used for touch-controlled electronic devices mutual, makes electronic equipment eject chat software menu.

In above-described embodiment, flip flop equipment is contacted with optional position on the capacitance plate of touch-controlled electronic devices by contact modules; Flip flop equipment changes the quantity of electric charge of contact position on capacitance plate, forms the first electric potential difference; Touch-controlled electronic devices generates the first trigger pip according to the first electric potential difference, and eject first the application menu corresponding to the first trigger pip, do not need the mark of touch control application program just can eject corresponding the application menu, can touch-controlled electronic devices be made easily to eject the application menu, avoid maloperation to occur.

The above; be only the specific embodiment of the present invention, but protection scope of the present invention is not limited thereto, is anyly familiar with those skilled in the art in the technical scope that the present invention discloses; change can be expected easily or replace, all should be encompassed within protection scope of the present invention.Therefore, protection scope of the present invention should described be as the criterion with the protection domain of claim.

Claims (10)

1. a flip flop equipment, is applied to touch-controlled electronic devices mutual, makes described electronic equipment eject the application menu, it is characterized in that, comprising:

Contact modules, for contacting with optional position on the capacitance plate of described touch-controlled electronic devices;

Electromotive force control module and described contact modules conducting, for changing the quantity of electric charge of contact position on described capacitance plate, form the first electric potential difference;

Described touch-controlled electronic devices generates the first trigger pip according to described first electric potential difference, and ejects first the application menu corresponding to described first trigger pip.

2. device according to claim 1, is characterized in that, described electromotive force control module comprises: power supply and frequency generator; Described contact modules is at least one conductive contact;

Described power supply is powered to described frequency generator at least one conductive contact described, is produced the electric current of predeterminated frequency;

Described electromotive force control module, for attracting the electric charge of contact position on described capacitance plate with the electric current of described predeterminated frequency, forms the first electric potential difference, and described first electric potential difference comprises the electric potential difference of each conductive contact corresponding respectively.

3. device according to claim 1, is characterized in that, described contact modules is specially: the conductive contact of at least two, and described at least two conductive contacts are arranged in the first pattern; Described electromotive force control module comprises the magnetic coil of corresponding described conductive contact quantity, and wherein each magnetic coil is connected a conductive contact;

Described electromotive force control module, the electric current produced for the magnetic field of cutting described capacitance plate by each magnetic coil of connecting with conductive contact attracts the electric charge of the contact position of the first pattern on described capacitance plate, form the first electric potential difference, described first electric potential difference comprises the electric potential difference of each conductive contact corresponding respectively.

4. device according to claim 1, is characterized in that, described contact modules is specially: at least two conductive contacts, and described at least two conductive contacts are arranged in the first pattern; Described at least two conductive contacts are by the operating body ground connection of described flip flop equipment;

Described electromotive force control module, for being attracted the electric charge of the contact position of the first pattern on described capacitance plate by described at least two conductive contacts, forms the first electric potential difference, and described first electric potential difference comprises the electric potential difference of each conductive contact corresponding respectively.

5. the device according to any one of claim 2-4, is characterized in that, also comprises:

Sticking contacts module, described sticking contacts module comprises the hole with described conductive contact respective amount hollow out, comprises a conductive contact in the hole of described each hollow out, and the height of described sticking contacts module is higher than the height of described conductive contact.

6. the device according to any one of claim 2-5, is characterized in that, the contact portion of described conductive contact is semisphere.

7. a touch control method, is applied to contactor control device and touch-controlled electronic devices is mutual, makes described touch-controlled electronic devices eject the application menu, it is characterized in that, comprising:

Described flip flop equipment is contacted with optional position on the capacitance plate of described touch-controlled electronic devices by contact modules;

Described flip flop equipment changes the quantity of electric charge of contact position on described capacitance plate, forms the first electric potential difference;

Described touch-controlled electronic devices generates the first trigger pip according to described first electric potential difference, and ejects first the application menu corresponding to described first trigger pip.

8. method according to claim 7, is characterized in that, described flip flop equipment changes the electric charge of contact position on described capacitance plate, forms the first electric potential difference, specifically comprises:

Described flip flop equipment attracts the electric charge of contact position on described capacitance plate by the electric current of predeterminated frequency, forms the first electric potential difference.

9. method according to claim 7, is characterized in that,

Described flip flop equipment changes the quantity of electric charge of contact position on described capacitance plate, forms the first electric potential difference, specifically comprises:

The electric current that the magnetic field that described flip flop equipment cuts described capacitance plate by the magnetic coil carried produces attracts the electric charge of the contact position of the first pattern on described capacitance plate, forms the first electric potential difference.

10. method according to claim 7, is characterized in that, described flip flop equipment changes the quantity of electric charge of contact position on described capacitance plate, forms the first electric potential difference, specifically comprises:

Attracted the electric charge of the contact position of the first pattern on described capacitance plate by the operating body ground connection of described flip flop equipment, form the first electric potential difference.