CN201259667Y - Infrared transmitting or receiving circuit board unit and infrared touch screen - Google Patents

Abstract

The utility model discloses an infrared emitting or receiving circuit board unit which can be cut on any position and spliced with each other, and an infrared touch screen consisting of the circuit board units; a power cord, a grounding line, a clock signal line or a transmission protocol control line, an infrared pulse signal line and an infrared receiving line run through the entire circuit board unit and are arranged on the circuit board unit; a row drive and a column drive are arranged on the intermediate position of the circuit board unit; such circuit board units can be spliced into infrared touch screens of any size; the circuit board units are connected respectively through the corresponding ports of a controller unit; and synchronized segment scanning can be carried out simultaneously to effectively improve the scanning speed. The utility model aims at the infrared touch screen of different sizes to make redevelopment, thereby greatly improving the production efficiency; at the same time, the utility model has flexible splicing point selection, less processing condition restriction, as well as stable and consistent product quality and improves the product upgrading speed, and can unlimitedly increase and expand the product variety.

Description

A kind of infrared or receiving circuit board unit and infrared touch panel

Technical field

The utility model relates to the technical field of utilizing infrared, receiving the touching device of photoelectric device structure.

Background technology

Infrared ray touching technique development so far, comparative maturity says that from technical standpoint principle is very simple technically, but will produce the various sizes high resolving power touch-screen particularly difficulty that just seems.In the prior art, as Fig. 1, United States Patent (USP) 5 shown in Figure 2,162, in 783, all control circuits of infrared ray touching device comprise infrared, receiving tube, infrared, receiving circuit and microprocessor etc. all are to be integrated on the housing printed circuit board (PCB) on every side of touch-screen, and be connected with computer by RS232 serial ports or USB mouth, because infrared, receiving tube must be connected on the sweep circuit, if can cause infrared to circuit cutting wherein, received signal can't be delivered in the circuit of microprocessor or its corresponding connection, when at the large-scale infrared touch panel of design, prior art need be with whole emission, receiving array is divided into the several sections redesign, increase infrared according to screen-sized, the number of receiver pope and control circuit thereof, and each independent sector need interconnect, and need control each independent sector by microprocessor and finish scan control and coordinate setting, the coordinate with interceptor uploads on the computer then.Because the complicacy of circuit design of the prior art, when each different size design of touch panel, circuit must will be changed substantially, then the required printed circuit board (PCB) of product is redesigned and makes.

For this reason, in the prior art, in the Chinese patent 200420066268.7 at this problem, made corresponding countermeasure, and a technical scheme of utilizing flexible PCB (FPC) design infrared touch panel disclosed, this scheme by folding mode with unnecessary circuit part folded concealed, but the shortcoming of this scheme is flexible being limited in scope, and can not be with tens cun long infrared, circuit board for receiving is folded into the touch-screen of 10 cun sizes, this utility model can only be applicable to that range of small carries out freely stretching, as when the infrared touch panel of design 42 cun and 43 cun, the same circuit board that can use this conceptual design to go out utilizes FPC to have the change in size of 42 cun of folding characteristic adaptation and 43 cun, as seen this scheme can only be dealt with problems among a small circle, and for the bigger design of the size range deviation of touch-screen, this scheme is just felt simply helpless, infrared at different size, circuit board for receiving still needs again development and Design, in addition, this utility model also exists the technical matters in some specific implementation process, such as FPC being had certain design limit and requirement because flexible PCB (FPC) is different with P.e.c. board production technology commonly used, FPC can only make dual platen, and common printed circuit board (PCB) is to make 4,6,8 layers etc., promptly between the top layer of circuit board and bottom, can accompany multilayer circuit, generally speaking, infrared, circuit board for receiving must use 4 layers of the high density or the circuit board of more multi-layered number to make, otherwise be all circuit to be placed on the narrow frame, if use the words of FPC just need the FPC more than 2 or 2 to be folded, therefore the folding difficulty that strengthens, and increased folding space, on the other hand, whether super-strength can also be consistent after folding unaffectedly in folding back FPC electric property and reliability through this, this also is the problem that must consider as a well-designed.This technical scheme, though make moderate progress, because the scan control circuit design concept of infrared, receiving tube more complicated is not basically fundamentally dealt with problems.

Even to this day, existing large-scale liquid crystal, size Deng the particle televisor is on the increase, changing different televisor by and even 65 o'clock full range of sizes at 17 o'clock constantly releases, and the LCD TV of some same size but has difference on the size because of the difference of producer, add all kinds of computer display screens, rear-projection TV set, projector etc., so, has hundreds of different size, if at each size, design one to one, probably need design tens kinds, even the different circuit board of hundreds of size, obviously this is irrational, and can't meet the need of market, and product quality, performance and reliability, and consistance all can produce different difference because of different size, if use the touch-screen of unified standard size dimension, do not adorn again at some display screen, if this technology is applied on the electronic whiteboard, need again the size of each electronic whiteboard is redesigned manufacturing, because above variety of problems, limited the production and selling that infrared ray touches product to a great extent, more can't make infrared ray touch product and enter into the level that family reaches popular popularization and application.

In view of this, existing infrared ray touches the printed circuit board (PCB) that product all will be produced the needed different size dimensions of various touching devices according to the different size dimension designs of display, thereby the product early investment time is long, the cost of development height, when producing, increased different size touch-screen stock group, be that also to produce the labour's material resources that will pay in design all be that producer is reluctant to bear, so it is actually rare up to the present, to finish the producer of the design of various sizes and manufacturing.

In view of this, utility model is a kind of cuts, splices, and infrared, receiving circuit and the infrared touch panel that can take into account the different size size simultaneously just seem extremely important.As if at present, can produce extensive large-sized touch-screen has been a relatively thing of difficulty, still more wiring board is cut, splices, and this is impossible.In fact when infrared ray touch-screen size constantly increases, sweep velocity to infrared, receiving tube has proposed strict requirement, if design can not reach due sweep frequency, or signal fails effectively to transmit, this will directly influence the response speed and the result of use of seizure, and it is apparent that the most stroke phenomenon off and on may occur when writing, touch insensitive, or problem such as response speed hysteresis, maybe can't realize the requirement of handwriting functions.In view of this, because the restriction of all technical bottlenecks, after cutting, splicing, can effectively and don't be affected, guarantee that high-quality infrared, received signal are delivered to microprocessor and tackle the object location determination and will become this scheme key of success, as seen, if will design and arbitrarily to carry out the product that size is freely cut to printed circuit board (PCB), the particularly difficulty that just manifests, up to the present, what go back the neither one product on the market is to carry out freely cutting to P.e.c. in design, and the infrared ray of splicing touches product.

Summary of the invention

The purpose of this utility model be to design one can be according to the needs of screen size, can cut freely respectively one or several identical infrared or receiving circuit board unit, and when carrying out free splicing, the infrared or the receiving circuit board unit of convenient connection and process operation.

Another purpose of the present utility model provide a kind of circuit board unit can be carried out free splicing, the assembling to adapt to the infrared touch panel of different size, simultaneously, provide and to infrared, receiving tube segment sync scanning technique infrared touch panel device sweep velocity under large scale not to have been slowed down, effectively improved detection speed interceptor.

Technical solution of the present utility model is: a kind of infrared or receiving circuit board unit, comprise infrared or receiving tube that array is provided with, this circuit board unit is provided with power lead, ground wire, clock cable and the infrared ray received signal line that connects entire circuit plate unit, line driver and row driver are set on the centre position of circuit board unit, wherein the signal input port of line driver connects clock cable, and signal output port connects the signal input port of row driver; Be connected with row driver by row control triode respectively with the column drive wire that is connected of each infrared in the array or receiving tube, row drive wire is connected with the capable control line of line driver respectively.

On the centre position of described circuit board unit, be provided with described line driver of may command gating and described row driver, and have the code translator of enabling the control input end mouth.

Every infrared or receiving circuit board unit include power lead, ground wire, clock cable and the infrared ray received signal line that is extended to the other end by an end of circuit board, adjacent two circuit board units can be respectively realized splicing by the corresponding wiring of welding, and wherein power lead and ground wire are formerly to be used to provide the whole touch screen device needed power circuit; OK, row driver is distributed on the centre position of circuit board unit, the purpose of using this laying method is in order to constitute the infrared that can cut or receiving circuit board unit, because in emission, infrared in the receiving circuit board unit or receiving tube connect with array way, use this laying method, when when wiring board cuts, lead on the printed circuit board (PCB) is after cutting, horizontal drive circuit in the array, column drive circuit is unaffected, be placed with row, one section printed circuit board (PCB) of row driver still can be by row, coupled all infrared or the receiving tube of row driver control gating, and also just becoming one, this section printed board unit is different from original standard-sized infrared or receiving circuit board unit, this unit can be used for splicing with other circuit board unit, thereby draws a new size; Ranks driver and code translator are arranged on the centre position of preferred circuit plate, and select cutting from the two ends of circuit board, splice point can be set flexibly, and the pad of splicing place is away from IC chips such as row, column drivers, each chip of high-temperature damage that produces in the time of can not splicing because of heating, help simplifying working condition, and enhance productivity.

Wherein said line driver, row driver respectively has an input end of clock mouth, the input end of clock mouth of line driver links to each other with clock generator, the one-period that this clock generator produced is capable control line of pulse signal each gating of control of T, this row control line is again by a row drive wire in the triode control gating array, behind the gating of finishing n capable control line successively, promptly behind n clock period T, it is the nxT pulse signal that the output terminal of clock mouth of line driver produces one-period, this pulse signal is input to the input end of clock mouth of row driver, make the next row control line of each gating of row driver, so circulation all row and scanning of row in finishing whole infrared or receiving array.In the infrared of whole touch screen, receiving circuit, the method of sweep gate of only utilizing the row, column driver of all connections of a clock signal line traffic control is to realize the simplest project organization of synchronized transmissions, reception, advantages such as that this forwarding method has is fastest, the switch time-delay is short, the line number is few are fit to be applied to large-scale infrared touch panel device.Because what the input end of clock mouth of the line driver on radiating circuit plate unit and the receiving circuit board unit was used is same clock signal, so the scanning of the every pair of emission, receiving tube is synchronous, if produce the clock signal of two different sequential of priority by clock generator, and two clock signals are inserted the input end of clock mouth of line driver in emission or the receiving circuit respectively, can utilize asynchronous clock signal to realize asynchronous scanning.Described line driver, row driver are selected for use can be counter (Counter), shift register (ShiftRegister) or have the integrated circuit that is equal to effect, and described code translator can be selected shift register (Shift Register), I/O extender (I/O Expander) or code translator (Decoder) integrated circuit for use.

On this circuit board unit, be provided with at least one group of cable soldering opening that is connected with described power lead, ground wire, clock cable and infrared ray received signal line respectively, utilize default cable soldering opening can conveniently splice the welding job that is, the workload when reducing assembly unit.

In technique scheme, the line driver and the row driver that are provided with each emission of code translator control and receiving circuit board unit are enabled or are not enabled, thereby realize the spliced segmentation of each circuit board unit synchronous scanning simultaneously or sequential scanning.In each related circuit board unit, also this code translator can be set, because the clock signal of each circuit board unit is connected in parallel, when lose code translator enable control after, row, column driver in each circuit board unit is all followed the initial clock signal of importing and is begun scanning, realize the segmentation while scanning work of circuit board unit, but just can't realize by of the sequential scanning work of first circuit board system unit to a last circuit board unit.

As another kind of technical scheme, a kind of infrared or receiving circuit board unit, comprise infrared or receiving tube that array is provided with, this circuit board unit is provided with power lead, ground wire, host-host protocol control line and the infrared ray received signal line that connects entire circuit plate unit, and the line driver and the row driver that connect the host-host protocol control line respectively are set on the centre position of circuit board unit; The column drive wire that is connected with each infrared in the array or receiving tube is connected with row driver by row control triode respectively, and row drive wire is connected with the capable control line of line driver respectively.Can use and comprise and and be limited to and utilize existing SMBus, SPI, CAN, QSPI, MICROWIRE, I ²The control line of Data Transport Protocol such as C, UART, or the gating mode of certain row, column of the row, column driver directly by the address wire control linkage can be realized the linkage function of circuit board unit at cutting, splicing back circuit part equally.

On the centre position of described circuit board unit, be provided with described line driver of may command gating and described row driver, and have the code translator of enabling the control input end mouth.

On described circuit board unit, be provided with and connect entire circuit plate unit and connect the control line of enabling that described code translator is enabled input port, the row, column driver that can be used on several infrared of gating certain or certain or the receiving circuit board unit is worked together or is not worked, thereby can realize synchronous scanning is carried out in several infrared, receiving circuit board unit segmentation simultaneously, its objective is in order to shorten the scan period, improve sweep velocity, solved big cun touch panel device because the slow problem of increase sweep velocity of size.

On described circuit board unit, be provided with the infrared pulse signal wire that connects entire circuit plate unit and be connected with described row control triode, the infrared emission tube that when emission array begins to scan each is switched on sends the infrared ray that has frequency, promptly improves the antijamming capability of infrared wave.

The row, column drive wire that is connected with each infrared in the array or receiving tube is connected with the row, column driver by row, column control triode respectively, the emitter of each row control triode connects row drive wire, base stage connects the control line of line driver, and collector connects power lead; The collector of row control triode connects column drive wire, base stage connects the control line of row driver, emitter connects infrared pulse signal wire or infrared ray received signal line or ground wire, use triode to be equivalent to on-off action and may command raising current driving ability, avoid the excessive infringement that circuit is caused of load of row, column driver IC.The triode that connects the row, column drive wire in circuit board unit of the present utility model in related infrared, the receiving array is the NPN type, simultaneously also can select to use positive-negative-positive, the corresponding change of emitter and collector connected mode of row, column triode, but no matter use which kind of triode, its objective is the current driving ability and the switch conduction effect that improve the row, column drive wire.In use, the control line of row, column controller effectively then uses PNP, if high level effectively then uses NPN if being output as low level.Different but the variation this connected mode of the connected mode of NPN and PNP does not influence and utilizes the emission of row, column driver control scanned infrared line, receiving array final purpose.

The output port of described code translator is connected with an end of switch train, and the other end of this switch train is connected with the port of enabling of line driver, row driver respectively.By being preset in the gating item of the switch train on the circuit board unit, select this row, column driver to enable or do not enable, promptly reached and controlled this infrared or receiving array work or idle purpose.

Another purpose of the present utility model is achieved in that a kind of infrared touch panel, and it comprises that several which is provided with the infrared or the receiving circuit board unit of infrared or receiving tube array, and the controller unit that is provided with the unit controls port;

This controller unit comprises infrared signal processor, power end and the earth terminal that is provided with the microprocessor of enabling the control output end, clock generator, connection microprocessor, wherein clock generator connects microprocessor and is provided with clock signal output terminal, the infrared signal processor has infrared ray received signal end, or do not use clock generator, utilize microprocessor directly to produce a clock signal that can be used for controlling the line driver scanning array in emission or the receiving circuit;

Each circuit board unit is provided with the power lead that connects entire circuit plate unit, ground wire, clock cable and infrared ray received signal line, line driver and row driver are set on the centre position of circuit board unit, wherein the signal input port of line driver connects clock cable, signal output port connects the signal input port of row driver, no matter be clock-signal generator or the clock signal that produces by microprocessor, a clock signal can be connected in simultaneously the input end of clock mouth on the line driver in emission and the receiving circuit, realize synchronous scanning; Also the independently clock signal of two different sequential of priority producing by clock generator or by microprocessor can be inserted the input end of clock mouth in emission and the receiving circuit board unit respectively, utilize asynchronous clock signal to realize asynchronous scanning; Each infrared in the array or the column drive wire of receiving tube are connected with row driver by row control triode respectively, and row drive wire is connected with the capable control line of line driver respectively;

The power lead of each circuit board unit power end of controller that is connected in parallel wherein, the ground wire earth terminal that is connected in parallel, the clock cable clock signal output terminal that is connected in parallel, infrared ray received signal line parallel connects infrared ray received signal end.

On the centre position of described circuit board unit, be provided with described line driver of may command gating and described row driver, and have the code translator of enabling the control input end mouth, described code translator enable the control output end of enabling that the control input end mouth connects microprocessor respectively.

Through corresponding infrared or receiving circuit board unit are cut, the infrared touch panel that is assembled into, the corresponding wiring of each circuit board unit is connected with the corresponding port of controller respectively, can produce the infrared touch panel of different size, simplified the circuit design of touch-screen greatly, and there is not the IC chip on the corner location that is generally used for installing and fixing, fixed screw does not produce with each chip and contacts, therefore, ranks driver and code translator are arranged on the centre position of preferred circuit plate, need not reserve too much gap, help making ultra-thin infrared touch panel.By the different row, column drive operation of code translator gating on the microprocessor control various boards unit, can realize that segment sync scanning receives or realize that the segmentation asynchronous scanning receives, also can realize synchronous asynchronous sequential scanning, improve the sweep velocity of infrared touch panel greatly, be quick on the draw.

When in technique scheme, when in each related emission and receiving circuit board unit, need not to use the code translator control of setting, in controller unit, by the enabling the control output end and enable control line and also just need not to be arranged in the described circuit of microprocessor control, and be connected in each emission on the controller unit, the segment sync scanning work that the row, column driver in the receiving circuit board unit can be realized each circuit board unit according to clock cable in parallel.

Realize technical scheme as another kind, a kind of infrared touch panel, it comprises that several which is provided with the infrared or the receiving circuit board unit of infrared or receiving tube array, and the controller unit that is provided with the unit controls port;

Controller unit comprises the microprocessor that is provided with the host-host protocol control output end, infrared signal processor, power end and the earth terminal that connects microprocessor, and wherein the infrared signal processor has infrared ray received signal end;

Each circuit board unit is provided with power lead, ground wire, host-host protocol control line and the infrared ray received signal line that connects entire circuit plate unit, and the line driver and the row driver that connect the host-host protocol control line respectively are set on the centre position of circuit board unit; Each infrared in the array or the column drive wire of receiving tube are connected with row driver by row control triode respectively, and row drive wire is connected with the capable control line of line driver respectively;

The power lead of each circuit board unit power end of controller unit that is connected in parallel wherein, the ground wire earth terminal that is connected in parallel, infrared ray received signal line parallel connects infrared ray received signal end, and the host-host protocol control line connects the host-host protocol control output end of microprocessor respectively.

Described microprocessor is provided with enables the control output end, on the centre position of each described circuit board unit, be provided with the code translator of described line driver of may command gating and described row driver, this code translator enable the control output end of enabling that the control input end mouth connects described microprocessor respectively.So both can control the row, column drive operation by host-host protocol, and also can use microprocessor directly to control code translator gating row, column drive operation, further increase can realize the mode of segment sync scanning.

Described controller unit is provided with the infrared pulse generator of tool infrared ray output terminal, on described circuit board unit, be provided with the infrared pulse signal wire that connects entire circuit plate unit and be connected, the infrared pulse signal wire infrared pulse output terminal that is connected in parallel with described row control triode.When emission array begins to scan, can send the infrared ray that has frequency equally, make each infrared emission tube that is switched on also send the infrared ray that has frequency, improve the antijamming capability of infrared touch panel by control module.

The row drive wire that is connected with each infrared or receiving tube on each described infrared ray circuit plate unit is connected with line driver by row control triode respectively, the emitter of each row control triode connects row drive wire, base stage connects the control line of line driver, and collector connects power lead.

Be provided with on described circuit board unit and connect entire circuit plate unit and connect the control line of enabling that described code translator is enabled input port, this enables the be connected in parallel control output end of enabling of described microprocessor of control line.

The output port of described code translator is connected with an end of switch train, and the other end of this switch train is connected with the port of enabling of line driver, row driver respectively.

The utility model has the advantages that: project organization is simple, dependable performance, integrated level height, resolution height, production cost are low, can be in enormous quantities, produce on a large scale.The utility model compared with prior art, because the touch panel device that the utility model is produced, be to carry out the free position cutting by one or several identical infrared or circuit board for receiving, then it is spliced, need not at certain display screen or LCD TV, again carry out the development and Design once more and the debugging of touch-screen, reduce the early investment cost of product greatly, improve the speed of model change and the kind that can unrestrictedly increase and expand product, and the consistance when product is produced in enormous quantities is strong, the reliability height, ranks driver and code translator are arranged on the centre position of preferred circuit plate, and splice point is selected flexibly, and the processing conditions restriction is few, improved production efficiency greatly, constant product quality and consistance.And on price, the utility model also has suitable advantage, believes can improve that large-sized infrared ray touching device is used in daily life and popularize.

Description of drawings

Accompanying drawing 1 is the infrared or the circuit board for receiving design drawing of prior art;

Accompanying drawing 2 is the infrared or the circuit board for receiving design drawing of prior art

Accompanying drawing 3 is the utility model infrared touch panel circuit board cutting synoptic diagram;

Accompanying drawing 4 is the utility model infrared touch panel circuit board splicing synoptic diagram;

Accompanying drawing 5 is the emission in the infrared touch panel of the present utility model or the connection diagram of receiving circuit board unit;

Accompanying drawing 6 is the infrared of the utility model embodiment 1 or the circuit theory diagrams of dash receiver unit;

Accompanying drawing 7 is the circuit theory diagrams of the controller unit of the utility model embodiment 1;

Accompanying drawing 8 is the circuit theory diagrams of emission of the utility model embodiment 2 middle infrared (Mid-IR)s or dash receiver unit;

Accompanying drawing 9 is the circuit theory diagrams of the utility model embodiment 2 middle controller unit;

Accompanying drawing 10 is the inside schematic diagram of controller unit (CU) 16;

1, touch-screen, 2, infrared or receive bunch, 3, infrared or receive bunch 4, standard emission or receiving circuit board unit, 5, infrared after the cutting or receiving circuit board unit, 6, infrared after the cutting or receiving circuit board unit, 7, the cable soldering opening, 8, the cable soldering opening, 9, the cable soldering opening, 10, infrared emission tube in the array or receiving tube, 11, code translator, 12, line driver, 13, row driver, 14, infrared bunch, 15, infrared ray receives bunch, and 16, controller unit, 17, the USB connecting line, 18, the host-host protocol control line, 19, infrared ray received signal line, 20, clock cable, 21, the infrared pulse signal wire, 22, power lead, 23, ground wire, 24, enable control line, 25, row control triode, 26, row control triode, 27, switch train, 28, microprocessor, 29, clock generator, 30, the infrared signal processor, 31, the infrared pulse generator, 32, infrared ray received signal end, 33, the infrared pulse output terminal, 34, clock signal output terminal, 35, host-host protocol control line end, 36, enable the control output end, 37, power end, 38, earth terminal, 39, upper computer.

Embodiment

Embodiment 1:

A kind of infrared touch panel, it comprises that several which is provided with the infrared or the receiving circuit board unit of infrared or receiving tube 10 arrays, and the controller unit 16 that is provided with the unit controls port;

This controller unit (CU) 16 comprises infrared signal processor 30, power end 37 and the earth terminal 38 that is provided with microprocessor 28, the clock generator 29 of enabling control output end 36, the infrared pulse generator 31 that is provided with infrared pulse output terminal 33, connects microprocessor 28, wherein clock generator 29 connects microprocessor 28 and is provided with clock signal output terminal 34, and infrared signal processor 30 has infrared ray received signal end 32;

Each circuit board unit is provided with the power lead 22, ground wire 23, the clock cable 20 that connect entire circuit plate unit, enables control line 24, infrared pulse signal wire 21 and infrared ray received signal line 19, line driver 12 and row driver 13 that tool is enabled the code translator 11 of control input end mouth, controlled gatings by code translator 11 are set on the centre position of circuit board unit, wherein the signal input port of line driver 12 connects clock cable 20, and signal output port connects the signal input port of row driver 13; Each infrared in the array or the column drive wire of receiving tube 10 are connected with row driver 13 by row control triode 26 respectively, row drive wire is connected with line driver 12 row control lines respectively, the emitter of each row control triode 25 connects row drive wire, base stage connects the control line of line driver 12, and collector connects power lead 22; The collector of each row control triode 26 connects column drive wire respectively, and base stage connects the control line of row driver 13, and emitter connects infrared pulse signal wire 21 or infrared ray received signal line 19 or ground wire 23;

The power lead 22 of each circuit board unit power end 37 of controller that is connected in parallel wherein, ground wire 23 earth terminal 38 that is connected in parallel, clock cable 20 clock signal output terminal 34 that is connected in parallel, the infrared pulse signal wire 21 infrared pulse output terminal 33 that is connected in parallel, the infrared ray received signal line 19 infrared ray received signal end 32 that is connected in parallel, the control input end mouth of enabling of code translator 11 is enabled control output end 36 by what enable that control line 24 connects microprocessors 28 respectively.

As seen in Figure 3, a kind of infrared touch panel 1, standard emission or receiving circuit board unit 4 are arranged, infrared after the cutting or receiving circuit board unit 6 connect and compose touch-screen infrared bunch (IRTransmitting Cluster) 2, and by standard emission or receiving circuit board unit 4,4, the emission that infrared after the cutting or receiving circuit board unit 5 connect and compose bunches 3, in emission bunches 2,3 opposites are provided with reception corresponding with it bunch (IR Receiving Cluster) 2,3, its circuit structure is bunch identical with emission, each standard emission or receiving circuit board unit 4 comprise infrared or the receiving tube 10 that array is provided with, this circuit board unit is provided with the power lead 22 that connects entire circuit plate unit, ground wire 23, clock cable 20, infrared pulse signal wire 21, enable control line 24 and infrared ray received signal line 19, line driver 12 and row driver 13 that tool is enabled the code translator 11 of control input end mouth and controlled gatings by code translator 11 are set on the centre position of circuit board unit, wherein the signal input port of line driver connects clock cable 20, and the clock signal output terminal mouth connects the clock signal input terminal mouth of row driver 13; Be connected with row driver 13 by row control triode 26 respectively with the column drive wire that is connected of each infrared in the array or receiving tube 10, row drive wire is connected with line driver 12 row control lines respectively, the collector of each row control triode 26 connects column drive wire respectively, base stage connects the control line of row driver 13, and emitter connects infrared pulse signal wire 21 or infrared ray received signal line 19 or ground wire 23.The row drive wire that is connected with each infrared or receiving tube 10 in the array is connected with line driver 12 by row control triode 25 respectively, the emitter of each row control triode 25 connects row drive wire, base stage connects the control line of line driver 12, and collector connects power lead 22.

This circuit board unit is provided with some groups of cable soldering openings, comprising two groups of cable soldering openings 7 that are separately positioned on circuit board unit 4 two ends, below describes cutting, the joining method of circuit board unit 4 in detail;

At as seen in Figure 3 standard infrared or receiving circuit board unit 4 are standard-sized project organizations, wherein the cable soldering opening also comprises 8,9, be separately positioned on each IC chip both sides in circuit board centre position, and keep enough distances with the IC chip, reduce of the influence of splicing hot environment chip.Can be as required respectively from the two ends cutting, how be used to specify and by cutting, splicing this preferred circuit plate unit 4 be made into one and meet the emission of touch-screen size or receive bunches 2,3.And arranged on left and right sides at every group of cable soldering opening has a cutting mouth position, and after cutting, the one group of cable soldering opening that is positioned at opposite side is kept, and this group cable soldering opening can be used for connecting next circuit board unit.Such as forming a circuit board unit 5, form a circuit board unit 6 in the cutting mouth place cutting of one group of cable soldering opening 8 of another preferred circuit plate unit 4 in the cutting of the cutting mouth place of one group of cable soldering opening 9 of a preferred circuit plate unit 4.Circuit board unit 6 after two preferred circuit plate unit 4 and the cutting is spliced by Fig. 4 finding mode, and the one group of cable soldering opening 7 that is about to first circuit board unit 4 right-hand member end and one group of cable soldering opening 8 of the left end section start of second circuit board unit 6 utilize FPC or FFC to be welded to connect to form among Fig. 3,4 touch-screen emission or reception bunches 2; The cutting mouth place cutting of one group of cable soldering opening 9 of a preferred circuit plate unit 4 can be formed a circuit board unit 5 according to same method, two preferred circuit plate unit 4 are spliced by Fig. 4 finding mode, promptly one group of cable soldering opening 7 of the left end section start of one group of cable soldering opening 7 at first circuit board unit 4 right-hand member end and second circuit board unit 4 utilizes FPC or FFC to be welded to connect, one group of cable soldering opening 7 with the right-hand member end of second circuit board unit 4 utilizes FFC or FPC to be connected with one group of cable soldering opening 7 of the left end section start of next circuit board unit 5 again, form Fig. 3 then, touch-screen emission or receive bunches 3 in 4, the two groups of cable soldering openings that are positioned at two circuit board unit abutting end places in two adjacent cluster being utilized FFC or FPC will launch bunches 2 is connected with 3 again, receiving bunches 2 is connected with 3, emission bunches 2,3 with receive bunches 2,3 connect, select one group of cable soldering opening of the required corresponding appropriate location of touch-screen to be connected at last, form the entire circuit of a complete infrared touch panel device with a controller unit (CU) 16 corresponding units control ports.

Cutting provided by the utility model, joining method are applicable to infrared transmitter plate unit, also be suitable for simultaneously and receiving circuit board unit, no matter be any size touch-screen, as long as after finding suitable cutting position on the emission of standard or the receiving circuit board unit, cut according to dimensional requirement, can and utilize FPC or FFC to weld together with several circuit board unit splicings, can form required size.Circuit can continue maintenance work after cutting, be because row, column driver and code translator are arranged on the centre position of circuit board unit all, circuit board remaining infrared, receiving tube after cutting still links to each other with the row, column driver by triode with the row, column drive wire for this reason, and there is the respective lines lead to run through entire circuit plate unit, and in the both sides of each cutting mouth one group of cable soldering opening is arranged all, therefore possessed the purpose that the method that can use cutting, splicing reaches the touch-screen of making various different sizes.And owing to keep a determining deviation between cable soldering opening and the IC chip, high-temperature soldering can not have a negative impact to chip itself, both can simplify manufacturing procedure, and processing back product also can guarantee enough safe reliabilities.

Above-mentioned part describes emission, the receiving element that how to utilize a standard-sized infrared, receiving circuit board unit cutting, splices different size in detail, will describe spliced circuit in detail with the lower part and how to work;

As Fig. 5 finding, include several emissions or receiving circuit board unit 4 in each infrared bunch or in receiving bunch, 4,5,4,6 arrays, in each emission or dash receiver unit power valve or receiving tube 10 arrays that constitute by several power valves or receiving tube, the radiating circuit plate unit 4 that the utility model is related, 4,5,4, all kinds of circuitry lines in 6 promptly scheme shown in (6) 19,20,21,22,23,24 mutual correspondences are connected to form a big infrared bunches 14, with the same manner with receiving circuit board unit 4,4,5,4,6 are connected to form a big infrared ray receives bunches 15, simultaneously with all kinds of circuitry lines 19,20,21,22,23, the 24 mutual separately corresponding ports that connect controller units (CU) 16 promptly scheme shown in (7) 32,34,33,37,38,36, CU unit 16 is connected with upper computer 39 by USB connecting line 17.For improve sweep velocity can with the emission bunch, receive and bunch to be divided into two parts separately and to carry out synchronous scanning simultaneously, be about to radiating circuit plate unit 4 among Fig. 5, Tx1 in 4, Tx2 array and receiving circuit board unit 4, Rx1 in 4, Rx2 carries out synchronous scanning, simultaneously with radiating circuit plate unit 5,4, Tx3 in 6, Tx4, Tx5 array and circuit board for receiving 5,4, Rx3 in 6, Rx4, the Rx5 array carries out synchronous scanning, because have CU unit 16 by be connected enable control end enable control line 24, control code translator 11 sends enables or does not enable address information control, can make certain or certain several infrared, receiving circuit board unit work or do not work, thereby in can be at one time to the emission of touch-screen, the receiving tube array carries out segmentation synchronous scanning simultaneously, has reached raising touch-screen sweep velocity.It below is concrete grammar how to realize fractional scanning, reception;

Fig. 6 and Fig. 7 are respectively the circuit theory diagrams of a standard-sized infrared or receiving circuit board unit 4 and the circuit theory diagrams of controller unit (CU) 16, clock cable 20 is arranged in the circuit board unit 4, power lead 22, corresponding port 34 separately in ground wire 23 and the controller unit 16,37,38 circuit connect, wherein infrared pulse signal wire 21 links to each other with infrared pulse output terminal 33, infrared ray acknowledge(ment) signal line 19 links to each other respectively with infrared ray received signal end 32, clock cable 20 is connected with the input end of clock mouth of line driver 12, the output terminal of clock mouth of line driver 12 is connected with row driver 13, wherein the collector junction of row control triode 25 links to each other with power lead 22, the control line R1 of base stage and line control unit 12 ... Rn links to each other respectively successively, emitter links to each other with the row drive wire that is connected emission of array middle infrared (Mid-IR) or receiving tube 10, the junction of the emitter of row control triode 26 links to each other with infrared ray received signal line 19 or infrared pulse signal wire 21, the control line C1 of base stage and row controller 13 ... Cn links to each other respectively successively, collector links to each other with the column drive wire that is connected infrared or receiving tube 10, the control line 24 of enabling of code translator 11 is connected successively with the control port 36 of enabling of microprocessor 28, the output port of code translator 11 is connected with an end of a switch train 27, the other end meet of switch train 27 respectively with row, row driver 12,13 the port of enabling connects.When making touch screen circuitry plate unit, the radiating circuit plate unit 4 of fractional scanning will be needed among Fig. 5, SW1 in the switch train 27 of Tx1 in 4 connects with P1 and connects, SW2 in the switch train 27 of Tx2 and P2 connect, equally with receiving circuit board unit 4, SW1 in the switch train 27 of Rx1 in 4 and P1 connect, SW2 in the switch train 27 of Rx2 and P2 connect, the same manner can be with Tx3, SW3 among the Rx3 is connected with P3, Tx4, SW4 among the Rx4 is connected with P4, Tx5, SW5 among the Rx5 is connected with P5, connection can utilize welding manner that prefabricated pad is connected or use switch arranged side by side (DIP Switch) all can, when fractional scanning, by the address code information control code translator 11 of controller unit 16 by enabling control line 24 and sending, the output port P1 that makes code translator 11 is a low level, the P2 height, make management and control Tx1, the row of Rx1 array, row driver 12,13 enable simultaneously, this moment is because of the P2 height, Tx2, the row of Rx2, row driver is not enabled, note row, row drive enables that to be controlled to be low level effective, after the clock signal input terminal of line driver 12 has first cycle to be the pulse input of T, first row control line of 12 gatings of line driver R1, after second pulse input, second capable control line R2 of gating, until finish all row control line scannings successively by R1 to Rn after, promptly behind n recurrence interval T, producing one-period by line driver 12 is that (T) x (n) pulse signal is input to the row control line C2 on the row driver 13 backgating row drivers 13, system will do circulation like this and begin to scan R1 by the first row control line C1 ... Rn, secondary series control line C2 begins to scan R1 then ... Rn, until finishing Cn, until with each infrared in Tx1 and the Rx1 array, after receiving tube all scans and finishes, controller unit 16 sends address code information control code translator 11 and makes the P2 output low level, make Tx2, Rx2 enables, control P1 output high level simultaneously, make Tx1, Rx1 does not enable, and can be by as above the same manner with Tx2, Rx2 scanning is finished, P1 then, P2 exports the high-low level alternate cycles successively in turn, scan round (the Tx1 that can go round and begin again, Rx1), (Tx2, Rx2), at the same time, P3 is arranged equally, P4, P5 exports the high-low level circulation successively in turn, cycle control scanning array (the Tx3 that can go round and begin again, Rx3), (Tx4, Rx4), (Tx5, Rx5) finish different infrared or the receiving circuit board units of fractional scanning simultaneously, form and utilize same clock signal segmentation to carry out different scanning circulation separately.At infrared ray dash receiver unit R x1, first soldering opening position that is preset on the dash receiver unit of infrared ray received signal end 32 in the soldering opening position of the infrared ray received signal line 19 of Rx2 and the controller unit 16 is connected, Rx3, Rx4, the infrared ray received signal line 19 of Rx5 is connected with second soldering opening that is preset on the dash receiver unit of infrared ray received signal end 32, form the scanning receiver section of the twoth segmentation, the infrared signal processor 30 that the signal of two receiver sections is input in the controller unit 16 is handled, and sends the judgment processing that microprocessor 28 carries out intercepting position to.If do not need to use the words of fractional scanning, SW1 and the P1 of Tx1, Rx1 can be connected, the SW2 of Tx2, Rx2 and P2 connect, the SW3 of Tx3, Rx3 and P3 connect, the SW4 of Tx4, Rx4 and P4 connect, the SW5 of Tx5, Rx5 and P5 connect, by send address control signal control code translator 11 by controller unit 16 P1, P2, P3, P4, P5 are exported the high-low level circulation successively then, can finish sequential scanning work infrared all on the touch panel device or receiving circuit board unit 4.

Fig. 7 finding is the structure of controller unit (CU) 16, comprising one or more microprocessors 28, its have enable control end 36 and each circuit board unit 4 enable the corresponding successively connection of control line 24, and link to each other respectively with clock generator 29 with clock signal output terminal 34 and infrared signal processor 30, link to each other with upper computer 39 by USB port, the clock signal that clock generator 29 is produced is connected with corresponding clock cable 20 in each circuit board unit 4 by clock signal output terminal mouth 34, the pulse signal that infrared pulse generator 31 is produced is connected with the infrared pulse signal wire 21 of each circuit board unit 4 by infrared pulse output terminal 33, the infrared ray received signal end 32 of infrared ray receiving processor 30 is connected respectively with infrared ray received signal line 19 in each circuit board unit 4, power end 37 connects the power lead 22 of each circuit board unit 4, and earth terminal 38 connects each ground wire 23.

When touch panel device is started working, send recurrent pulse arrives each connection by clock cable emission or receiving circuit board unit 4 by clock generator 29, because transmit and receive the clock signal of array is to come from same signal source, so infrared in the array or receiving tube can scan synchronously, be to send an a pair of infrared of scanning cycle pulse by clock generator 29, receiving tube, simultaneously microprocessor 28 begins step-by-step counting that clock generator 29 is sent, when scanning certain to emission, during receiving tube if infrared signal is when being subjected to stopping, output to infrared ray received signal line 19 and pass back to again in the infrared signal processor 30 in the controller unit (CU) 16 by the variation of the photosignal of the output of receiving tube the end that compiles by each row control triode 26, treated signal is changed by A/D, judge the particular location of tackling object as can be known by microprocessor 28 again, if during fractional scanning, need have several infrared radiation receiving circuits and A/D to carry out synchronous processing simultaneously by the received infrared signal of different Scanning Sections, and then the digital signal after will handling is input to one or several microprocessors and carry out position judgment.Because the calculating of concrete intercepting position and determination methods are to exceed coverage of the present utility model, so will not specifically give unnecessary details at this, the infrared pulse generator 31 infrared pulses that produce be connected respectively to by infrared pulse signal wire 21 and reach each expelling plate unit 4, the emitter of each the row control triode 26 in each infrared plate unit 4 compiles end and is connected on the infrared pulse signal wire 21, the infrared emission tube that when emission array begins to scan each is switched on sends the infrared ray that has frequency, promptly improves the antijamming capability of infrared wave.If need not to use the infrared signal that has frequency, the emitter of each the row control triode 26 in each expelling plate unit 4 can be compiled end and be connected, make power valve in the infrared array when launching infrared ray, only produce a pulse voltage and get final product with ground wire 23.

Be provided with one or two clock signal output terminal on the clock signal output terminal mouth 34 in controller unit 16 on the set clock-signal generator 29, when the clock signal input terminal on the line driver set on radiating circuit plate unit and the receiving circuit board unit 12 is connected on the same clock signal terminal set on the clock signal output terminal mouth 34 of clock signal generator 29 simultaneously by clock cable 20, can realize emission, the synchronizing sequence scanning that receives, if when radiating circuit plate unit and the set clock cable 20 of receiving circuit board unit are connected respectively on two different clock cables on the clock signal output terminal mouth 34, can drive emission respectively by two different clock signals of priority sequential, line driver on the receiving circuit board unit utilizes this control mode can realize emission, the asynchronous sequential scanning that receives.

In above-mentioned implementation column, describe in detail and how to utilize each emission that is connected in parallel in the code translator control touch-screen on the controller unit, receiving circuit board unit is realized fractional scanning and sequential scanning, if need not whole each emission that is connected on the controller of sequential scanning, during receiving circuit board unit 4, can need not in described emission, code translator 11 is set in the receiving circuit unit 4, and in controller unit (CU) 16, also need not to be provided with enabling control output end 36 and being arranged on and enable control line 24 in each circuit board unit by microprocessor 28 controls, when on emission and receiving circuit board unit 4, code translator 11 not being set, owing to be connected in the emission on the controller unit 16 in parallel, lost the control of the control signal of enabling or not enabling on the receiving circuit board unit, each emission, receiving circuit board unit can be enabled after energising simultaneously, and follow clock signal on the clock cable 20, successively to being connected emission, power valve in the array of receiving circuit board unit 4 and receiving tube carry out independent separately scanning work, form several by single emission, fractional scanning work when receiving circuit board unit is formed, this with emission, receiving circuit board unit 4 can only be realized single emission for the segmentation while scan mode of section unit, the fractional scanning work of receiving circuit board unit, and be with the difference of the technical scheme of the fractional scanning that is provided with code translator, the advantage that is provided with code translator is to realize that one or several emissions or receiving circuit board unit finish cutting, new emission or receiving circuit unit 5 or 6 that splicing back forms carry out fractional scanning, and the quantity of splicing is unrestricted, can increase the various combination dirigibilities when utilizing preferred circuit plate unit 4 to constitute a complete touch screen circuitry so greatly, this dirigibility can be convenient produces various different sizes and can improve the touch-screen of sweep velocity after splicing.

Embodiment 2:

Cutting, the joining method of relevant infrared or receiving circuit board unit in embodiment 1, have been described in detail, in embodiment 2, be identical with embodiment 1 to circuit board cutting, joining method, different is in scheme 2, the clock cable 20 that is used to control the row, column driver is transmitted the agreement control line and replaces, as SMBus, SPI, CAN, QSPI, MICROWIRE, I ²Control line such as C, UART, or address wire control also can.Go simultaneously, row driver also different with utilize clock signal control gating capable described in the scheme 1, the principle of work of the output port of row driver, but adopt I/O extender (I/OExpander), led driver (LED driver), coder (Multiplexer), code translator (Decoder) or have the integrated circuit that is equal to effect, reach the row that can replace in each circuit board unit of clock signal line traffic control, the purpose of row driver, this change does not influence effect and original utility model purpose thereof of circuit board unit, should cut, splicing infrared or receiving circuit board unit, the infrared array Tx1 that one or several infrared transmitter plate unit controls are arranged as seen in Figure 8, Tx2 ... Txn, infrared ray receiving array Rx1, Rx2 ... Rxn constitutes infrared respectively, receive bunches 14,15, controller unit (CU) 16 is co-located on the same printed circuit board with infrared transmitter plate Tx1, controller unit (CU) 16 links to each other with upper computer 19 by USB line 17, and other parts remain unchanged.

Fig. 9 finding has host-host protocol control line 18 to be connected with the row, column driver of each circuit board unit 4 respectively, this line group 18 is connected on the host-host protocol control end 35 of the microprocessor 28 in the controller unit (CU) 16, the control signal of being sent by microprocessor 28 is controlled the high level of output successively of the row or column output end of driver mouth in each circuit board unit respectively, if what the row, column driver used is I/O extender integrated circuit or led driver integrated circuit, can select the suitable connected mode of using with this row, column driver, as SPI or I ²C, SPI is by four line traffic controls, I ²C only needs two and gets final product, if then need three or four address wires to drive with coder (Multiplexer) integrated circuit or code translator (Decoder) integrated circuit, no matter be to adopt the sort of mode, it finally is to send the scanning sequence that steering order is controlled the row, column driver output port when scanning in each circuit board unit by microprocessor, its operating principle will not be enumerated explanation with identical described in the embodiment 1 in detail at this.The order of the control line in this line group is counted the width size what only can influence circuit board, can't influence to cut to make to be used as.When using the I/O extender to be, translator unit 11 in Fig. 9 be can omit no, because the I/O extender has address mouth can be directly to receive the address signal that is sent by microprocessor 28 by host-host protocol signal wire 18, directly select for use the row or column driver of certain circuit board unit can realize the work of fractional scanning.

Figure 10 finding is the inside schematic diagram of controller unit (CU) 16, compare with embodiment 1, because need not to use clock signal, clock generator is cancelled, and the host-host protocol control line end 35 of the control of microprocessor 28 utilizes SMBus, SPI, CAN, QSPI, MICROWIRE, I ²The gating that host-host protocol such as C, UART control line connects the row, column driver on each circuit board unit and controls row control line, row control line reaches and finishes the purpose that interceptor is detected the infrared in the array, receiving tube scanning.Identical among other parts in controller unit (CU) 16 and the embodiment 1 will not specifically be given unnecessary details at this.

Above-listed detailed description is at the specifying of possible embodiments of the present utility model, and this embodiment is not in order to limiting claim of the present utility model, does not allly break away from the equivalence that the utility model does and implements or change, all should be contained in the claim of this case.

Claims (26)

1. infrared or receiving circuit board unit, comprise infrared or receiving tube (10) that array is provided with, it is characterized in that: this circuit board unit is provided with power lead (22), ground wire (23), clock cable (20) and the infrared ray received signal line (19) that connects entire circuit plate unit, line driver (12) and row driver (13) are set on the centre position of circuit board unit, wherein the signal input port of line driver connects clock cable (20), and signal output port connects the signal input port of row driver (13); The column drive wire that is connected with each infrared in the array or receiving tube (10) is connected with row driver (13) by row control triodes (26) respectively, and row drive wire is connected with the capable control line of line driver (12) respectively.

2. a kind of infrared according to claim 1 or receiving circuit board unit, it is characterized in that: on the centre position of described circuit board unit, be provided with described line driver of may command gating (12) and described row driver (13), and have the code translator (11) of enabling the control input end mouth.

3. a kind of infrared according to claim 1 and 2 or receiving circuit board unit is characterized in that: be provided with at least one group of cable soldering opening that is connected with described power lead (22), ground wire (23), clock cable (20) and infrared ray received signal line (19) respectively on this circuit board unit.

4. a kind of infrared according to claim 2 or receiving circuit board unit is characterized in that: on described circuit board unit, be provided with connect entire circuit plate unit and connect that described code translator (11) enables input port enable control line (24).

5. a kind of infrared according to claim 1 and 2 or receiving circuit board unit is characterized in that: be provided with the infrared pulse signal wire (21) that connects entire circuit plate unit and be connected with described row control triodes (26) on described circuit board unit.

6. a kind of infrared according to claim 1 and 2 or receiving circuit board unit is characterized in that: the row drive wire that is connected with each infrared in the array or receiving tube (10) is connected with line driver (12) by row control triode (25) respectively.

7. a kind of infrared according to claim 2 or receiving circuit board unit, it is characterized in that: the output port of described code translator (11) is connected with an end of switch train (27), and the other end of this switch train is connected with the port of enabling of line driver (12), row driver (13) respectively.

8. infrared or receiving circuit board unit, comprise infrared or receiving tube (10) that array is provided with, it is characterized in that: this circuit board unit is provided with power lead (22), ground wire (23), host-host protocol control line (18) and the infrared ray received signal line (19) that connects entire circuit plate unit, and the line driver (12) and the row driver (13) that connect host-host protocol control line (18) respectively are set on the centre position of circuit board unit; The column drive wire that is connected with each infrared in the array or receiving tube (10) is connected with row driver (13) by row control triodes (26) respectively, and row drive wire is connected with the capable control line of line driver (12) respectively.

9. a kind of infrared according to claim 8 or receiving circuit board unit, it is characterized in that: on the centre position of described circuit board unit, be provided with described line driver of may command gating (12) and described row driver (13), and have the code translator 11 of enabling the control input end mouth.

10. it is characterized in that: on this circuit board unit, be provided with at least one group of cable soldering opening that is connected with described power lead (22), ground wire (23), host-host protocol control line (18) and infrared ray received signal line (19) respectively according to Claim 8 or 9 described a kind of infrared or receiving circuit board units.

11. a kind of infrared according to claim 9 or receiving circuit board unit is characterized in that: on described circuit board unit, be provided with connect entire circuit plate unit and connect that described code translator (11) enables input port enable control line (24).

12. according to Claim 8 or 9 described a kind of infrared or receiving circuit board units, it is characterized in that: on described circuit board unit, be provided with the infrared pulse signal wire (21) that connects entire circuit plate unit and be connected with described row control triodes (26).

13. according to Claim 8 or 9 described a kind of infrared or receiving circuit board units, it is characterized in that: the row drive wire that is connected with each infrared in the array or receiving tube (10) is connected with line driver (12) by row control triode (25) respectively.

14. a kind of infrared according to claim 9 or receiving circuit board unit, it is characterized in that: the output port of described code translator (11) is connected with an end of switch train (27), and the other end of this switch train is connected with the port of enabling of line driver (12), row driver (13) respectively.

15. an infrared touch panel is characterized in that: it comprises that several which is provided with the infrared or the receiving circuit board unit of infrared or receiving tube (10) array, and the controller unit (16) that the unit controls port is arranged;

This controller unit (16) comprises infrared signal processor (30), power end (37) and the earth terminal (38) that is provided with the microprocessor (28) of enabling control output end (36), clock generator (29), connects microprocessor (28), wherein clock generator (29) connects microprocessor (28) and is provided with clock signal output terminal (34), and infrared signal processor (30) has infrared ray received signal end (32); Each circuit board unit is provided with power lead (22), ground wire (23), clock cable (20) and the infrared ray received signal line (19) that connects entire circuit plate unit, line driver (12) and row driver (13) are set on the centre position of circuit board unit, wherein the signal input port of line driver (12) connects clock cable (20), and signal output port connects the signal input port of row driver (13); The column drive wire that is connected with each infrared in the array or receiving tube (10) is connected with row driver (13) by row control triodes (26) respectively, and row drive wire is connected with the capable control line of line driver (12) respectively; The power lead of each circuit board unit (22) power end (37) of controller that is connected in parallel wherein, ground wire (23) earth terminal (38) that is connected in parallel, clock cable (20) clock signal output terminal (34) that is connected in parallel, infrared ray received signal line (19) the infrared ray received signal end (32) that is connected in parallel.

16. a kind of infrared touch panel according to claim 15, it is characterized in that: on the centre position of described circuit board unit, be provided with described line driver of may command gating (12) and described row driver (13), and have the code translator (11) of enabling the control input end mouth, described code translator (11) enable that the control input end mouth connects microprocessor (28) respectively enable control output end (36).

17. according to claim 15 or 16 described a kind of infrared touch panels, it is characterized in that: described controller unit (16) is provided with the infrared pulse generator (31) of tool infrared ray output terminal (33), on described circuit board unit, be provided with the infrared pulse signal wire (21) that connects entire circuit plate unit and be connected, infrared pulse signal wire (21) the infrared pulse output terminal (33) that is connected in parallel with described row control triodes (26).

18. according to claim 15 or 16 described a kind of infrared touch panels, it is characterized in that: the row drive wire that is connected with each infrared or receiving tube (10) on each described infrared ray circuit plate unit is connected with line driver (12) by row control triode (25) respectively.

19. a kind of infrared touch panel according to claim 16, it is characterized in that: on described circuit board unit, be provided with connect entire circuit plate unit and connect that described code translator (11) enables input port enable control line (24), what this enabled that control line (24) is connected in parallel described microprocessor (28) enables control output end (36).

20. a kind of infrared touch panel according to claim 16, it is characterized in that: the output port of described code translator (11) is connected with an end of switch train (27), and the other end of this switch train (27) is connected with the port of enabling of line driver (12), row driver (13) respectively.

21. an infrared touch panel is characterized in that: it comprises that several which is provided with the infrared or the receiving circuit board unit of infrared or receiving tube (10) array, and the controller unit (16) that the unit controls port is arranged;

Controller unit (16) comprises the microprocessor (28) that is provided with host-host protocol control output end (35), infrared signal processor (30), power end (37) and the earth terminal (38) that connects microprocessor (28), and wherein infrared signal processor (30) has infrared ray received signal end (32); Each circuit board unit is provided with power lead (22), ground wire (23), host-host protocol control line (18) and the infrared ray received signal line (19) that connects entire circuit plate unit, and the line driver (12) and the row driver (13) that connect host-host protocol control line (18) respectively are set on the centre position of circuit board unit; The column drive wire that is connected with each infrared in the array or receiving tube (10) is connected with row driver (13) by row control triodes (26) respectively, and row drive wire is connected with the capable control line of line driver (12) respectively;

The power lead of each circuit board unit (22) power end (37) of controller unit (16) that is connected in parallel wherein, ground wire (23) earth terminal (38) that is connected in parallel, infrared ray received signal line (19) the infrared ray received signal end (32) that is connected in parallel, host-host protocol control line (18) connects the host-host protocol control output end (35) of microprocessor (28) respectively.

22. a kind of infrared touch panel according to claim 21, it is characterized in that: described microprocessor (28) is provided with enables control output end (36), on the centre position of each described circuit board unit, be provided with the code translator (11) of described line driver of may command gating (12) and described row driver (13), this code translator (11) enable that the control input end mouth connects described microprocessor (28) respectively enable control output end (36).

23. according to claim 21 or 22 described a kind of infrared touch panels, it is characterized in that: described controller unit (16) is provided with the infrared pulse generator (31) of tool infrared ray output terminal (33), on described circuit board unit, be provided with the infrared pulse signal wire (21) that connects entire circuit plate unit and be connected, infrared pulse signal wire (21) the infrared pulse output terminal (33) that is connected in parallel with described row control triodes (26).

24. according to claim 21 or 22 described a kind of infrared touch panels, it is characterized in that: the row drive wire that is connected with each infrared or receiving tube (10) on each described infrared ray circuit plate unit is connected with line driver (12) by row control triode (25) respectively.

25. a kind of infrared touch panel according to claim 21, it is characterized in that: on described circuit board unit, be provided with connect entire circuit plate unit and connect that described code translator (11) enables input port enable control line (24), what this enabled that control line (24) is connected in parallel described microprocessor (28) enables control output end (36).

26. a kind of infrared touch panel according to claim 21, it is characterized in that: the output port of described code translator (11) is connected with an end of switch train (27), and the other end of this switch train (27) is connected with the port of enabling of line driver (12), row driver (13) respectively.

Images