Source: https://patents.google.com/patent/CN1193768A/en
Timestamp: 2020-07-07 03:13:18
Document Index: 475911395

Matched Legal Cases: ['arts 12', 'art 14', 'art 14', 'art 14', 'art 14', 'art 14', 'art 14', 'art 14', 'art 14', 'art 14', 'art 0']

CN1193768A - Force sensing touchpad - Google Patents
CN1193768A
CN1193768A CN97126478A CN97126478A CN1193768A CN 1193768 A CN1193768 A CN 1193768A CN 97126478 A CN97126478 A CN 97126478A CN 97126478 A CN97126478 A CN 97126478A CN 1193768 A CN1193768 A CN 1193768A
CN97126478A
J·C·弗里斯赫
G·E·勒
T·P·阿伦
R·R·瑟德维
F·法金
1996-11-06 Priority to US744,283 priority Critical
1996-11-06 Priority to US08/744,283 priority patent/US5854625A/en
1997-11-06 Application filed by 辛纳普蒂克斯有限公司 filed Critical 辛纳普蒂克斯有限公司
1998-09-23 Publication of CN1193768A publication Critical patent/CN1193768A/en
The present invention relates to be used for the contact sensitive device of computing machine input.More specifically, the present invention relates to detect the sensor mat of finger and other passive object such as non-electronic pen.
Can detect the input pad that finger and/or passive object apply power and had multiple prior art for design is a kind of.Though these prior aries can obtain at present, each is all restricted in them.
Resistance pad comprises two current-carrying plates.This plate is operated by with a passive object two current-carrying plates being forced together.The shortcoming of resistance pad is to need just can make the contact of two current-carrying plates with the force value that is strengthened by finger.This causes finger fatigue and fills up very quick-wearing.
The capacitive character contact mat by measure passive object over the ground electric capacity or operate by the variation of measuring the transfer electric capacity between the different sensors.The example of a capacitive character contact mat is described in U.S. Patent No. 5,495, in 077 (the authorizing Miller).The manufacturing of capacitor pad is cheap; They do not need complex mechanical construction or non-common manufacturing step.But the capacitive character contact mat only can detect big object.The little object such as the end of contact pilotage do not have enough ground capacitances or shift electric capacity, so that can be detected by the capacitive character contact mat.
The interaction of surface acoustic wave device by sending sound wave and measure passive object and sound along the pad surface.This class device work is good, but very expensive for common application.
Multiple technologies are used sensor arranged side by side separately in combination, as in U.S. Patent No. 5,231, are instructed in 381 (the authorizing Duwaer).But the contact pilotage technology that Duwaer only instructs use to work with active pen.And, need to use individual in twos fully independently technology may mean the increase of input media cost.
At last, had and use force transducer to measure to put on the position of power on the contact mat and the device of amplitude by passive object.The responsive contact mat of a kind of power will be measured the power that the passive object by any kind applies, and no matter the conductivity of object and how form branch.This device is described in U.S. Patent No. 3,657 at first, in 475 (authorizing people such as Pemneau) and the U.S. Patent No. 4,121,049 (authorizing Roeber).This class measurement device by contact mat the power that is delivered to fixed frame on a plurality of points (for example the pad the angle on).Roeber discloses to find the solution by passive object according to the power of measuring on a plurality of points and has applied the position of power and the mathematical formulae of amplitude.
A kind of be used for consumer device, as computing machine based on the feeler of power must be not only cheaply but also accurate.The required precision of this device is from about 1 ability that restrains sensing finger and pen on about 300 gram pressure limits, and has the positional precision of 9 bits on this scope.This accuracy class requires sensor energy measurement up to the typical displacement of 15mils and have the noise level of 14 bits.This noise level is equivalent to about 23 millimicrons displacement.If the sensing contact based on power is used in the notebook computer, must be enough thin promptly less than the maximum ga(u)ge of about 200mils.
The patent of Peronneau and Roeber has instructed a kind of contact mat, and they have the complicated mechanical design, have therefore improved the cost of contact mat and have done also thicklyer than needed.Another restriction of Peronneau and Roeber device is that their transverse forces of being easy to be applied are to coarse influence.
Peronneau and Roeber disclose the use strainmeter and have been used as force measuring device.(for example U.S. Patent No. 4,621,533 (authorizing Gindy) for power sensor mat afterwards; U.S. Patent No. 4,697,049 (authorizing Peemoller); U.S. Patent No. 5,038,142 (authorizing people such as Flower); U.S. Patent No. 5,327,164 (authorizing people such as Fagard); U.S. Patent No. 5,241,308 (authorizing Young); U.S. Patent No. 5,488,873 (authorizing Delmas); U.S. Patent No. 4,511,760 (authorizing Garwin)) also use strainmeter, power sensitive resistance or piezoelectric sensor.Roebev also disclose modification stress sensing mechanism, pick up sensor as linear variable differential sensor (LVDTs) and variable reluctance.All these force measuring devices need be to contact mat plus outer manufacturing step and/or add-on assemble.Therefore, these force measuring devices have improved the cost of contact mat.
U.S. Patent No. 4,355,202 (authorizing people such as DeCosta) and U.S. Patent No. 5,376,948 (authorizing people such as Roberts) instruct uses variable capacitance transducer to detect because the position of the power sensing input media that the power that applies produces.The device that these two patents instruct is mechanically very complicated, have complicated parts.This complicacy had both increased the cost of system, made contact mat do undesirably thickly again.
The U.S. Patent No. 4,550,384 that licenses to Kimura discloses a kind of force sensing touchpad that is made of from one piece, and partly is provided with strainmeter at the stress of monomer material.The Machine Design of Kimura does not reduce the cost and the thickness of power sensor mat.The Machine Design of Kimura has also increased the precision of contact mat, because monomer material can freely allow upper and lower moving, but is not easy to laterally move.
But the contact mat of Kimura need use strainmeter.As mentioned above, strainmeter has increased the cost of device, because their need special manufacturing step or are installed in the optional feature of printed circuit board (PCB).Strainmeter is made by the standard copper figure of PC plate, but they are accurate inadequately for this application.In addition, the physical construction that is instructed by Kimura is asymmetric.This asymmetry can cause the nonlinear response of undesirable contact mat.
Up to now, compromise between precision and cost stoped being extensive use of of power sensing technology.Above-mentionedly may present realization and respectively have its shortcoming based on the multiple sensors technology of the required by task precision of the feeler of power.LVDTs and laser interferometer are worth hundreds of or several thousand dollars, and in fact this makes them not to be used widely.Strainmeter or lead titanates-zirconium piezoelectric sensor is lower but not too accurate than those technical costss, and still needs special material to select system, and this just makes the price point of sensor rise to the degree that can not receive.
Also has other technology of using relatively cheap Materials Measurement power.For example, U.S. Patent No. 5,296 has been described a kind of material that uses resistive granule ergometry in 837 (the authorizing Yaniger).But the cheap piezoelectric of being done by Kynar is ergometry also.But these systems are out of true too, can not be used as based on the sensor on four angles of feeler of power.
Although above-mentioned existing sensing technology has utilizability, prior art can not provide the low-cost sensor with enough accuracy.
Therefore, an object of the present invention is to provide a kind of power sensing technology, it can overcome some deficiency of prior art.
Another object of the present invention provides a kind of power sensing technology, and its cost hangs down but high precision is arranged.
Another purpose of the present invention provides a kind of power sensing technology, and it has the configuration of low clearance.
The present invention is intended to overcome the limitation of prior art.Cost of the present invention is low, because it uses the variable capacitive force transducer to replace strainmeter.In addition, the whole assembly of only being made up of two mechanical parts has further reduced cost and has made the structure of extremely thin input media be applicable to portable computer.
Because make firmly sensing, force sensing touchpad of the present invention can be widely used in the operation by finger and contact pilotage.Power sensing technology of the present invention is accurate, because the surface of contact of pad levitation device and pad is that an integral body is also because it is to use symmetrical physical construction to produce.Force sensing touchpad low cost of manufacture of the present invention accurately, and is occupied very small size, can use thus on as this class device of portable computer.
Power sensing technology of the present invention is mechanically connected to by the last planar member of using a plurality of springs will carry surface of contact can measure position and the amplitude that is applied to the power on the surface of contact on the infrastructural frame.As least cost, these springs preferably integrally form one with surface of contact, although independent spring can be connected between framework and the surface of contact.Power on each angle of surface of contact is to be determined by the displacement of measuring the every angle of surface of contact.By measuring these displacements, just can determine the value of power on each sensor.Just can calculate the position and the amplitude of the power of applying by the value of these power.
By arranging that on each angle variable condenser comes Displacement Measurement, a plate of variable condenser is located on the plane body, and another plate is located on the infrastructural frame.When power was applied on the surface of contact, the electric capacity that surface of contact shifts near reference field and each capacitor changed as the monotonic quantity ground that capacitor plate separation descends.Spring is the quadruple symmetry preferably, and the plate of capacitor can have the length breadth ratio identical with the length breadth ratio of surface of contact.In order to improve the linearity of sensor.Make dirt and dust leave oscillating plate, below framework and leave the plate place and comprise a following recess.So that the collection dust, or this system can seal with thin protective coating.
The electric capacity measurement of each capacitor is received each capacitor in the independent oscillatory circuit and is measured in sensor.Therefore the oscillation frequency of each separate oscillators is the monotonic quantity of its condenser capacity, also is the monotonic quantity that opposition is installed in the distance between each condenser armature on surface of contact and the reference frame.Determine the position of object on the surface of contact and apply the amplitude of power according to the oscillator output frequency.
Fig. 1 is the upper surface figure of the force sensing touchpad of the present preferred embodiment according to the present invention;
Fig. 2 a is the cross-sectional view of this power sensing surface of contact of obtaining by Fig. 1 center line 2-2;
Fig. 2 b is the cross-sectional view of embodiment variant of the force sensing touchpad of Fig. 2 a;
Fig. 3 a is the cross-sectional view that comprises the alternative embodiment of the force sensing touchpad that is arranged on the protective seam on the surface of contact according to of the present invention;
Fig. 3 b is the cross-sectional view of alternative embodiment that is provided in a side of the force sensing touchpad of surface of contact below according to its protective seam of the present invention and that be different from Fig. 3 a embodiment;
Fig. 4 is the backplan on the input surface of force sensing touchpad of the present invention;
Fig. 5 is the summary circuit diagram that possible be used for measuring according to the oscillatory circuit of the variable capacitance amount of force sensing touchpad of the present invention;
Fig. 6 is the integrally-built block diagram of data processing of expression feeler of the present invention;
Fig. 7 is the cross-sectional view of an outward flange part that expression is used for force sensing touchpad is installed to the force sensing touchpad of the present invention of a present method for optimizing on the external frame.
Common those of skill in the art in this area will be understood that the following description of this invention only is that usefulness is described, are not any type of restriction.For these those of skill in the art, themselves can easily recommend out other form of implementation of the present invention.
At first with reference to Fig. 1 and 2a, they are represented respectively according to the top view of force sensing touchpad 10 of the present invention and cross-sectional view.Cross-sectional view among Fig. 2 a is obtained by Fig. 1 center line 2-2.Contact mat 10 comprises frame parts 12, and it is made of rigid material such as metallic stamping pieces.Top plan part 14 is made of for example materials such as FR4 printed circuit board material or stamped metal spare, and it combines with framework 12 and forms a suspension system by a plurality of spring parts are set.
According to a preferred and illustrative embodiment of the present invention, this top plan part 14 constitutes rectangle, advises though other shape is also held by those of ordinary skills oneself.These those of ordinary skill in the art will understand, and the geometric configuration that top plan part 14 is adopted in disclosed here this illustrative embodiment of the present invention is relevant with the application of available notion of the present invention very significantly.
As preferred at present, suspension system of the present invention forms by produce a plurality of grooves 16 in top plan part 14 in single step.In this embodiment, groove 16 will comprise that the from one piece of top plan part 14 is divided into: inner region surface in contact 18, a plurality of spring sections 20 and an outer installing ring 22.As preferred at present, groove 16 is arranged to present desirable quadruple symmetry, has reduced any non-ideal characteristic that is produced by Machine Design thus.The outer installing ring of being determined by this single step 22 can use known method to be installed in periphery with reference to framework 12 easily, to form suspension system of the present invention.
According to the preferred embodiment of explanation here, the length of the left side of the length of level trough 16 and top plan part 14 and right-hand vertical channel 16 is identical, guarantees that thus the length of all springs 20 is identical and mates ideally thus.The material of formation top plan part 14 should come down to rigidity, so that will be delivered to linearly from the power that applies of surface in contact 18 on the spring 20, and surface in contact 18 is out of shape, this distortion will make the measuring accuracy degradation of making here, especially for measuring little power.
For embodiment disclosed herein is described, consideration power by an object for example a finger or passive contact pilotage apply, but those of ordinary skill in the art will see, the calibration one-tenth of the present invention is measured the power beyond the power scope that these objects can apply.Force sensing touchpad of the present invention comes work by measuring the actual gap that applies between the opposition point of result's top plan part 14 and framework 12 as power.
The cross-sectional view of Fig. 2 a is represented the outer installing ring 22 and the location of the contact between the framework 12 of top plan part 14, and a Demonstration Application of the expression principle of the invention.The presently preferred embodiment according to the present invention is provided with a plurality of capacitors 24 at the periphery of surface of contact 18.The upper plate of each capacitor is represented that by label 24a it is arranged on the below of surface of contact 18, and another plate is represented with label 246, and it is arranged in the framework 12 or with framework and is integral.
The pole plate 24a of each capacitor and 24b are isolated by air-gap medium 26.As present preferred form, to the distance between riser 24a and the 24b under the unable situation that puts on surface in contact 18 for about 5mils and about 20mils between.According to compromise design proposal, less condenser armature uses harder spring 20 apart from allowing, and it is insensitive that this makes that feeler 10 vibrates to external world.But manufacturing tolerance is stricter when using the design of smaller capacitive plate distance.Compromise from this two aspect, condenser armature is considered to receivable for about 5mils to about 20mils apart from scope when unable.Those skilled in the art will understand, and can consider by the size that only changes spring rate and air-gap medium 26 other embodiments of the invention.
According to a presently preferred embodiment of the present invention, framework 12 be by conductive material such as stamped metal spare constitute and for electrical ground.In this embodiment, condenser armature 24b is integral with framework 12.When surperficial 18 the time with finger or the downward press contacts of contact pilotage 28, the condenser armature 24a of capacitor 24 and 24b are with close to each other, and this has just increased the electric capacity of capacitor 24.If finger or contact pilotage 28 directly place the center of surface in contact 18, each capacitor 24 will reduce same amount to the distance between the riser, this has in theory just produced the identical electric capacitance change of all capacitors 24.But, if finger or contact pilotage 28 are placed on excentral place on the surface in contact 18, the distance between 24 pairs of risers of each capacitor will according to finger or contact pilotage 28 on surface of contact 18 the position and each reduces different amounts, and the change of electric capacity is with difference.
If last planar member 14 is done by printed circuit board material, condenser armature 24a can be formed by the copper figure of its lower surface.In addition, other circuit component 30, can be placed on the lower surface of planar member 14 as the element of the disclosed sensing circuit of the present invention of reference Fig. 5.This layout allows to produce the force sensing touchpad of a kind of compactness, integral body.Those skilled in the art will see that label 30 only illustrative ground expression is gone up the single structure of planar member 14 bottoms, and a plurality of independent structures such as one or more integrated circuit and/or resolution element can be used as circuit 30.
The tight vicinity of condenser armature 24 is grounded, so that make condenser armature 24 shieldings in case ambient noise.According to this present preferred embodiment of the present invention, whole framework 12 is grounded metal objects.As those of ordinary skills clearly, this framework 12 preferably extends inwardly past condenser armature 24b, shown in Fig. 2 a so that provide a shielding capacitor board 24b ground plate, come from the below radiation of surface in contact 18 central authorities to prevent noise.In addition, the surface of last planar member 14 also is a ground connection, so that screened condenser plate 24, prevent that noise from coming in from the top radiation of surface of contact 18.Therefore the upper surface of last planar member 14 is the ground plate of whole sensor, and it provides the ground connection to circuit 30 and framework 12.The upper surface of surface of contact 18 can cover the thin laminated polyester film of one deck, so that its sense of touch is good.
As an alternative embodiment, circuit 30 can place on the upper surface of framework 12.12 of frames will be made and earth-free by printed circuit board material.The lower surface of upper surface spare 14 is ground connection on the contrary.This alternative embodiment is more inadvisable, because the connection from circuit 30 to circuit board will cause higher manufacturing cost.
Another way, as shown in Fig. 2 b, a printed circuit board 25 can be bonded on the surface of contact 18, and this allows the deviser to use materials such as spring steel or the blue or green steel of phosphorus to make planar member 14.Those of ordinary skill in the art will understand, and these materials have better elastic property (as creep strength) than the printed circuit board (PCB) epoxy/glass compound substance of standard, though they make the assembling of whole force sensing touchpad more complicated.
Between the normal operating period of force sensing touchpad 10 of the present invention, dirt, dust, liquid or other chip may fall in the groove 16 and the work of influence power sensing touchpad by accumulating in air-gap dielectric 26.In order to relax this problem, framework 12 can be provided with and leave condenser armature 2b and the recessed area that comprises a dust collecting zone 32 thereunder.This recessed area 32 prevents that dirt, dust, liquid and other chip from moving in the air-gap dielectric 26 between condenser armature 24a and the 24b.Recessed area 32 can be located at the below of groove 16, best whole periphery along surface of contact 18.As the peripheral part that leaves condenser armature 24a and 24b, can below recessed area 32, cut out a ditch 34 (among Fig. 2 a and the 2b shown in the dotted line), overflow preventing.
Fig. 3 a represents the cross-sectional view of an alternative embodiment of the present invention.The embodiment of Fig. 3 a is similar to the embodiment among Fig. 2 a and the 2b, and different is that the force sensing touchpad top is sealed fully by a thin protective layer 36.This protective seam 36 for example can be made of near the neoprene rubber sheet that has the about 2mils of thickness, or is made of similar material.The embodiment of Fig. 3 a can avoid effect of dust, but has applied slight moment owing to be touched surperficial 18 tegillums 36, and this protective seam has influenced the precision of feeler.Those of ordinary skill in the art will understand, the embodiment of Fig. 3 a to surrounding environment be sealing and be protected in order to avoid the intrusion of dirt and dust, and do not need recessed area 32 and the ditch 34 relevant thus with them.
Referring now to Figure 36, its representation class is similar to the cross-sectional view of the alternative embodiment of Fig. 3 a.The place neoprene layer 36 that the embodiment of Figure 36 is different from embodiment shown in Fig. 3 a is arranged on below the surface of contact 18.
Referring now to Fig. 4, the backplan of planar member 14 is gone up in its expression.Present preferred embodiment according to the present invention is installed on the planar member 14 or has the length breadth ratio identical with surface of contact 18 with it for the condenser armature 24a of one, so that eliminate the nonlinear response that the inclination of capacitor non-zero size causes.Therefore, as shown in Figure 4, the mask of condenser armature 24a is selectively long and wide, so that the length and wide identical length breadth ratio of generation and surface of contact 18.
In the practical embodiments of a force sensing touchpad of making system according to the present invention, condenser armature 24a is made of the copper packing on the printed circuit board material, and condenser armature 24b and frame 12 constitute one, and it is the metal object of a ground connection.In this presently preferred embodiment, condenser armature 24a constitutes the rectangle (corresponding with the length breadth ratio of surface of contact 18) that 690mils comes the 460mils size.Specified air-gap dielectric thickness is 11mils, and the not stressed electric capacity of each capacitor 24 is about 20PF.
As appreciable by investigating Fig. 4, the circuit 30 that is installed on the planar member 14 is connected with condenser plate 24a and the non-other circuit that is positioned on the planar member 14 by conductor 38.Conductor 38 is formed in the drawing lines on the material that is used to form planar member 14, and it provides and a kind of convenient manner that is connected from the electronic signal that is installed in the circuit on surface of contact 18 bottom surfaces, and can not influence force measurement.Conspicuous as those skilled in the art, be used for sensor and outwards must do not covered the end of the conductor 38 of connection, so that can be connected with external system by benchmark framework 12.Be used for conductor 38 that sensor outwards connects and can terminate at the joint of stretching at the outer flooring of the main rectangle core body of last planar member 14 39.Though resemble the outside connection that little property conductor 38 is represented sensor with two in this accompanying drawing, those skilled in the art will understand, in implementing real system of the present invention, can consider to use a plurality of conductors and this will depend on concrete design.The ground connection that also can be provided with in joint connector 39 outside connects.The connection of this ground connection will be connected to the upper surface of planar member 14, so that the ground connection of whole sensor to be provided.
In a planar member 14 on it of the present invention is among the embodiment that is made of printed circuit board material, and the conduction drawing lines on the printed circuit board material that conductor 38 can advantageously constitute is as condenser armature 24a.Be appreciated that also and can lead for example be set send the signal that arrives circuit 30 from reaching with other method of attachment.This other method of attachment may cause the additional mechanical between planar member 14 and the framework 12 to connect, and may make the precision degradation of this system thus, in the time of especially will being suitable for detecting little power.For those skilled in the art, it is evident that, any be connected with circuit 30 but be not that the lead of going up the drawing lines on the planar member 14 should be done carefully as much as possible to reduce the decline of sensing accuracy.Be provided for drawing lines conductor 38 that sensor outwards connects and be connected with the outer installing ring 22 of upper surface spare 14 and can eliminate the inaccuracy that causes by this class signal conductor, and with the present invention be corresponding to for the purpose that obtains some responsive embodiment of light power (for example about 1 gram).Embodiment shown in Fig. 2 b does not allow the drawing lines conductor 38 that uses sensor external.
Many different electric capacitance measurement metering methods are known in the art.For example, can use the AC coupling between each plate of circuit measuring, or change the change that the electric charge of capacitor comes measurement result voltage.Other capacitance measurement circuit can be advised by those skilled in the art oneself.
Referring now to Fig. 5, this presently preferred embodiment according to the present invention, an oscillator 40 is connected with 24b with every couple of condenser armature 24a.Plate 24b keeps ground connection.Each oscillator 40 is enjoyed with the common ground of condenser armature 24b and is measured voltage on the plate 24a, and to produce digital square wave on output node 42, this output node alternately makes plate 24a charging and discharge by resistance 44.This oscillator 40 can be made of known " 555 " oscillator integrated circuit, and its essential characteristic is indicated on the figure for illustration purpose.The internal circuit of some 555 oscillator is indicated on Fig. 5, is used for reference.
Electric capacity between output node 42 top wave frequencies and plate 24a and the 24b is inversely proportional to.This presently preferred embodiment according to the present invention is selected the value of resistance 44, so that the oscillation frequency of Fig. 5 oscillator is near 100KHz, although this circuit can be worked on the frequency range of non-constant width.The setting of frequency needs to make between precision and power consumption compromise.When frequency reduced, power consumption number descended with frequency linearity ground.But, reducing with frequency, the phase noise in the oscillator will make the precision of contact mat reduce gradually.100Khz is considered to the excellent compromise between a precision and the power consumption.
Capacitor 46 is filter capacitors, and it is provided with elimination to be lower than the power noise of certain frequency.The value that the value of the value of capacitor 46 and resistance 48 (555 IC interior resistance) multiplies each other is answered selected as to be lower than the typical sampling time that this system uses, as 12.5 milliseconds.In this present preferred embodiment, the value that the value of the value of this capacitor 46 and resistance 48 multiplies each other is selected as 10 milliseconds.
Apparent as those skilled in the art, can use other oscillatory circuit, replace oscillator 40 as Schmidt trigger.This 555 integrated circuit oscillator is selected to reduce sensitive power consumption.In addition, those skilled in the art can use a kind of mixed signal VLSIASIC integrated circuit in the present invention with clear, and this circuit will use the oscillatory circuit that is replaced resistance by current source.
With reference to figure 6, it represents the block diagram of the data processing general structure of feeler of the present invention.Each capacitor 24 is connected with an oscillator 40, and the latter determines circuit 50 with the square wave cycle of sending on the output node 42.Frequency on output node 42 and/or cycle can use digital circuit well known in the art very accurately to measure.Many these class circuit are known and will obtain the precision of equivalence.As the illustrative examples of this kind circuit, can be referring to U.S. Patent No. 4,027,146 (licensing to Gilmore), U.S. Patent No. 4,052,620 (licensing to Brunnett) or U.S. Patent No. 4,350,950 (licensing to people such as Waldmann).In case determine its cycle for the oscillator that drives by the capacitor on every angle 24, can use microprocessor 52 to calculate the X and the Y-axis position of the power of applying and apply the value of power (Z).To be disclosed in the calculating that takes place in the microprocessor now.
Be proportional to the electric capacity of capacitor 24 oscillation period of oscillator 40 according to following formula:
T=KC, T is the cycle in the formula, C is that electric capacity and K are the constants that depends on the circuit that uses.This electric capacity C is relevant with distance between condenser armature 24a and the 24b according to following formula: C = C 0 + C 1 d C in the formula 0Be basic electric capacity, C 1Be positive specific capacitance, and d is the distance between two plates.This two formula is merged mutually, obtains: d = b ( T - a 0 ) A in the formula 0And b is a constant.
Very approaching linear by the spring 20 that FR4 makes, this means that the power F that puts on the angle observes following formula: F=S (d 0-d), S is the intensity of spring in the formula, d 0Be when unable distance when putting on surface of contact 18 between capacitor two plates.
After algebraic operation, the power on the angle is relevant with the cycle by following formula: F = a 1 ( T - T 0 T - a 0 ) A in the formula 0Definition as above, a 1Be constant, T 0It is unable oscillation period when putting on surface of contact 18.Therefore, for determining power, must determine three constant (T based on oscillation period 0, a 0And a 1).
Constant T 0By determining in the measurement of unable oscillation period when putting on surface of contact 18.In order to follow the frequency displacement of oscillator, microprocessor 52 will detect unable period T when putting on the time of surface of contact and storing unable applying 0" unable " detection at interval is as known in the art, and is described in the U.S. Patent No. 5,543,591 that is issued to people such as Allen.
Constant a 0And a 1Measured during fabrication, promptly when a series of known force be applied to pad accurately in the heart the time to measuring oscillation period.Constant a 0And a 1Can make for a by well known in the art 0And a 1Function become minimum approximation by least squares and calculate: &Sigma; i = 0 i &lsqb; Fi ( Ti - a 0 ) - ai ( Ti - T 0 ) &rsqb; 2 Fi is applied to that half i on the angle is known as (it is generally total power divided by 4) and Ti is i measuring period on the same angle in the formula.
In case the power on every angle is calculated, microcomputer 52 can pass through in U.S. Patent No. 4,121, disclosed method is calculated the power of applying in 049 (the authorizing Roeber) amplitude and position, and total power Z then is power F on four angles 1To F 4And:
Z＝F 1+F 2+F 3+F 4
The X position that applies power is two the power (F in the left side 1And F 2) subtract the right two power (F 3And F 4), advise a value of handling with Z: X = ( F 1 + F 2 - F 3 - F 4 ) Z
The Y position that applies power is two and goes up side force (F 1And F 3) subtract two following side force (F 2And F 4), advise a value of handling with Z: Y = ( F 1 + F 3 - F 2 - F 4 ) Z
In a word, disclosing a kind of cycle according to respective oscillator 40 finds the solution the method that is applied to the power on each angle.The cycle that this method depends on oscillator 40 is that the monotonic quantity of distance between condenser armature 24a and the 24b and the power that is applied to every angle are the facts of the monotonic quantity of this same distance.Therefore, this distance does not need directly to be calculated; Only be to calculate the amount that becomes monotone variation with distance.
Referring now to Fig. 7, its expression is of the present invention to be used for force sensing touchpad 10 is installed to the cross-sectional view of outer edge part of the force sensing touchpad of the present invention 10 of a present method for optimizing on the housing of housing 54, for example portable computer or keyboard.Only be that the installing ring 22 of going up planar member 14 should be connected on the housing 54 securely.Spring 20 and surface of contact 18 should make response apply the freedom of movement of power.
In order to improve the antidusting performance and to improve the attractive in appearance of device, frame 54 comprises the screening circle 56 that blocks spring 20.Because grieshoch can be pointed moves and sweep in the groove 16, a shield frame 58 has been installed at surface of contact 18 tops.This presently preferred embodiment according to the present invention, shield frame 58 be at the about 120mils height of its peak, and form a gap 60 with hiding circle 56, and this gap is not 15mils when having power to be applied on the surface of contact 18.Circle 54 and shield frame 56 can be made by any suitable inexpensive materials.Also can cover the good layer of one deck sense of touch on the shield frame 58.
Dynamometry feeler of the present invention is particularly useful for using in the notebook computer, because its height is less than the maximal value of 200mils.Dynamometry feeler of the present invention has the finger that can sensing about 1 restrains in about 300 gram scopes and the pressure of pen, and the positional precision on this scope is 9 bits.The high typical displacement to about 15mils of dynamometry feeler energy measurement of the present invention, its noise level is 14 bits.
Though diagram and described embodiments of the invention and application is not departing from the various remodeling that can make under the preceding topic of design of the present invention here beyond above-mentioned for those skilled in the art.Therefore the present invention is not limited by other except that the restriction that is subjected to setting up claims spirit.
1, a kind of force sensing touchpad comprises:
The surface of contact of rigidity in fact;
The framework of rigidity in fact;
Form whole a plurality of spring assemblies with described surface of contact, described spring assembly mechanically is connected with described framework; And
The variable condenser that a plurality of and described contact mat is connected; The electric capacity that each variable condenser has be described surface of contact and described framework the selection portion branch between the monotonic quantity of distance, each described variable condenser has sensing output.
2, according to the force sensing touchpad of claim 1, wherein said a plurality of spring assemblies stop laterally moving between described surface of contact and the described framework in fact.
3, according to the force sensing touchpad of claim 1, wherein said spring assembly is the shape of quadruple symmetry.
4, according to the power sensor mat of claim 1, also comprise the device that is connected with the described sensing output of described a plurality of variable condenser, be used for determining the amplitude and the position of power that surface of contact is applied.
5, according to the power sensor mat of claim 1, wherein said surface of contact has rectangular shape.
6, according to the power sensor mat of claim 5, wherein said a plurality of variable condenser comprise four variable condenser, and each described variable condenser is symmetrically located at the center on each angle of the rectangle on the described surface of contact.
7, according to the force sensing touchpad of claim 1, each of wherein said variable condenser comprises and is located at first plate on the described surface of contact and is located at second plate on the described framework.
8, according to the force sensing touchpad of claim 7, wherein each described variable condenser comprises first plate and second plate that is separated by the air-gap dielectric, first plate of described each variable condenser is located at the lower surface of described surface of contact and has rectangular shape with described surface of contact identical aspect ratio, and described second plate of described each variable condenser is located on the described framework.
9, force sensing touchpad according to Claim 8, wherein said framework comprise that described second plate of a conductive material and wherein said each variable condenser comprises the part of described framework.
10, according to the force sensing touchpad of claim 1, also comprise:
Each pierce circuit, each is connected the output of different in the described variable condenser of sensing capacitors, and the output frequency that described each pierce circuit has depends on the electric capacity of described variable condenser; And
Be used to measure described oscillatory circuit output frequency and determine that thus object applies the position of power and the device of described power amplitude on its contact mat.
11, according to the force sensing touchpad of claim 1, wherein said framework comprises recessed chip collecting zone.
12,, also comprise the thin protective coating that covers on described surface of contact and described spring assembly according to the force sensing touchpad of claim 1.
13,, also comprise the thin protective coating that is located at below described surface of contact and the described spring assembly according to the force sensing touchpad of claim 1.
14, according to the force sensing touchpad of claim 1, wherein said surface of contact comprises one deck material layer and material layer that operativeness of printed circuit boards is optimized to the mechanical spring characteristic optimizing.
15, according to the force sensing touchpad of claim 1, the maximum height that has is less than about 200mils.
16, according to the force sensing touchpad of claim 1, the lower end power susceptibility that has is about 1 gram.
17, a kind of sensing power of putting on contact mat applies the method for amplitude and application point, comprises the following steps:
A surface of contact of rigidity in fact is set;
A framework of rigidity in fact is set;
The a plurality of spring assemblies that become integral body with described surface of contact are set, and described spring assembly mechanically is connected with described framework;
The variable condenser that a plurality of and described contact mat is connected is set, the electric capacity that each variable condenser has be described surface of contact and described framework the selection portion branch between the monotonic quantity of distance, each described variable condenser has sensing output;
The power that is connected with the described sensing output of described a plurality of variable condenser is set determines device, in order to determine the amplitude and the position of the power on the described surface of contact that is applied to.
18, according to the method for claim 17, wherein setting power determines that the step of device may further comprise the steps:
Each pierce circuit is set, and each is exported with the different sensing in the described variable condenser and is connected, and described each pierce circuit has the output frequency that depends on described variable capacitance capacitor amount; And
Be provided for measuring the output frequency of described oscillatory circuit and determining that thus object applies the position of power and the device of described power amplitude on its contact mat.
CN97126478A 1996-11-06 1997-11-06 Force sensing touchpad CN1193768A (en)
US744,283 1996-11-06
US08/744,283 US5854625A (en) 1996-11-06 1996-11-06 Force sensing touchpad
CN1193768A true CN1193768A (en) 1998-09-23
CN97126478A CN1193768A (en) 1996-11-06 1997-11-06 Force sensing touchpad
KR (1) KR19980042097A (en)
TW (1) TW357315B (en)
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1996-11-06 US US08/744,283 patent/US5854625A/en not_active Expired - Lifetime
1997-11-04 TW TW086116365A patent/TW357315B/en active
1997-11-05 KR KR1019970058149A patent/KR19980042097A/en not_active Application Discontinuation
1997-11-06 JP JP30421797A patent/JPH10198503A/en active Pending
1997-11-06 CN CN97126478A patent/CN1193768A/en not_active Application Discontinuation
CN103530005B (en) * 2012-07-03 2017-03-22 元太科技工业股份有限公司 Positioning method for touch display panel
US5854625A (en) 1998-12-29
JPH10198503A (en) 1998-07-31
KR19980042097A (en) 1998-08-17
TW357315B (en) 1999-05-01
CN104969159B (en) 2017-12-15 Sensor device, input unit and electronic equipment
2003-04-30 WD01 Invention patent application deemed withdrawn after publication
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