DE102007006274A1 - Measuring device with a measuring wheel - Google Patents

Abstract

A device (100) and a method for measuring a property of electronic functional elements, in particular electronic functional elements produced by means of printing processes, wherein the electronic functional elements are formed by partial areas of a flexible band (2). The device (100) has a measuring wheel (1) which rotates at a rotational speed (11). The device (100) further comprises a tape guide (30a, 30b, 31a, 31b) which guides the tape (2) continuously at a rotational speed (21) about the measuring wheel (1), the rotational speed (21) thus the rotational speed (11) of the measuring wheel (1) is adjusted such that during the revolution the band (2) rests on a circumference of the measuring wheel (1) and the functional elements of the revolving belt (2) assume a constant position relative to the circumference, and the device (100) has a measuring device (13) integrated in the measuring wheel, which performs the measurement during the rotation of the belt (2) about the measuring wheel (1) on functional elements of the belt (2).

Description

The The invention relates to a method for measuring a property of electronic Functional elements, in particular produced by printing process electronic functional elements, and a corresponding device, wherein the functional elements of subregions of a flexible band are formed.

in the The following referred to as functional polymers plastics can in dependence from their chemical structure electrically conductive, semiconducting or have insulating properties. The polymer electronics, also referred to as organic electronics based on such Functional polymers.

In organic electronics manufactured electrical components, eg. As RFID tags can be in continuous printing processes produce flexible substrates very cheaply (RFID = Radio Frequency Identification). First become soluble functional polymers in solvents disbanded and processed into printable inks. After that, printing processes like flexo, offset, gravure or Screen printing used these inks in several layers on one Substrate to print. Often become very thin as a substrate and flexible films of polyester, e.g. For example, polyethylene terephthalate (= PET) used. By processing on printing machines is the production of big ones surfaces possible.

at the production of printed organic electronic circuits, z. For example an RFID tag, the print quality requirements are very high, for example, at the resolution or at the layer quality. That's why quality control comes through Measurement of the properties of electronic functional elements during the ongoing production is of great importance. As a property electronic Functional elements can z. B. an electrical resistance, an electrical Capacity, an electrical inductance, a frequency, an electrical voltage, a current, a electromagnetic radiation, etc. are measured / tested.

So far the exam takes place the electrical functionality organic electronic circuits each at the end of a running Manufacturing step.

It Now object of the invention, an apparatus and a method to provide an improved quality control of one on one flexible band-shaped carrier substrate manufactured electronics allowed.

The Task is with a device for measuring a property electronic functional elements, in particular by means of printing processes produced electronic functional elements, solved. there are the electronic functional elements of subregions of a formed flexible bands. The device includes a rotating speed rotating measuring wheel on. The device points beyond a band guide on, which continuously circulates the tape at a speed of rotation the measuring wheel leads. The rotational speed is thus at the rotational speed the measuring wheel is tuned, that during the circulation the band rests on a circumference of the measuring wheel and the functional elements of the circulating belt occupy a constant position relative to the circumference. Furthermore the device has a measuring device integrated in the measuring wheel, Preferably, a measuring electronics, on, during the circulation of the tape performs the measurement on functional elements of the circulating belt. The task will also work from a method of measuring a property of electronic Functional elements, in particular produced by means of printing electronic Function elements, solved. The electronic functional elements of subareas are of a flexible belt, and the method includes the following Steps: Provision of a measuring wheel with integrated measuring device, To lead of the belt at a circulating speed continuously around the Measuring wheel, where the rotational speed so on the rotational speed of Measuring wheel is tuned during that circulating the tape rests on a circumference of the measuring wheel and the functional elements of the circulating belt a constant position relative to the extent, and measuring the property of Functional elements of the circulating belt using the measuring electronics while the circulation of the tape around the measuring wheel.

The invention achieves several advantages:
The invention allows the continuous electrical characterization, ie the detection of characteristic properties role to role of printed electronics. A functional test of the electronics can thus be carried out in a simple manner between the individual steps for the production of the printed electronics, without disturbing or interrupting the production process.

The functional test The printed electronics can be done quickly and simultaneously a big Record the number of components.

advantageous Embodiments of the invention are described in the subclaims.

Preferably, the measuring wheel has an outer circumference which is adapted to a repetition length of the functional elements of the band. The Be For example, it is possible for the band to comprise three different functional elements A, B and C arranged in a sequential arrangement in the direction of travel of the band, ie in FIG the sequence ... ABCABCABCABC ... etc. Here, a first, minimum repetition length is defined as the distance between two similar, successive functional elements, eg as a distance between a first functional element A and a subsequent, next functional element A, a second repetition length is defined as the distance between a first functional element A and a function element A after the second, a third repetition length is measured as the distance between a first functional element A and a third closest functional element A, etc.

It is advantageous if the outer circumference of the Measuring wheel is chosen as big that a certain relative position of the measuring wheel to functional elements of the band after a complete revolution of the measuring wheel is reached again. This ensures that that the functional elements of the tape and the measuring electronics in the measuring wheel synchronized, d. H. a certain part of the measuring electronics is always the same type of functional element when circulating the belt assigned. To the o. A. Example with the three different functional elements To pick up A, B and C in a periodic order: In a certain position of the measuring wheel is part of the measuring electronics of the measuring wheel Assigned to functional element A. After one revolution of the measuring wheel the band has been wound so far that the same part of the measuring electronics is again assigned to a functional element A. It can be between these two functional elements A nor N further functional elements A located on the tape, with N = 0, 1, 2, 3, 4, ....

Preferably the measuring wheel is cylindrical, d. H. it has a circular circumference on; In this case, the outer circumference U of the measuring wheel is above the Equation U = D · π with the diameter D of the measuring wheel in relation (π = circle number).

According to one preferred embodiment of In the invention, the measuring electronics comprise at least one measuring module which is arranged along the circumference of the measuring wheel. Each of the one or several arranged measuring modules takes on one or more him assigned function elements of the circulating belt, the measurement in front. Advantageously, a measuring module takes on one or more functional elements, which are assigned to him radially, the measurement before. Then that is lying the functional elements assigned to the measuring module directly "above" the measuring module or in a range "above" the measurement module, with "above" radially outside of the measuring module means. It is also possible that several measurement modules for the Measuring on one and the same functional element are responsible, z. B. if it extended in terms of area Functional elements that, due to their area with more than one measuring module must be measured.

It is an advantage that the tape guide has an adjusting device, which determines the relative position of the measuring modules monitored to functional elements of the circulating around the measuring wheel bands and corrected. For this purpose, the adjusting device has a control unit on, in contact with the tape or contactless the position of the Detected functional elements of the tape. At the same time, the control unit detects the position of one or more measuring modules on the measuring wheel. The control unit compares the position of a measuring module with the position of a Function element and controls whether a possible deviation of the positions lies within a defined tolerance range.

If the control unit one outside tolerance range of the measured positions of the measuring module and the functional element, d. H. the measuring module not in a predetermined relative nominal position to the assigned Function element is arranged, it causes the correction of Position of the measuring module and / or the position of the functional element. This correction is done using one or more drive devices, which are controlled by the adjusting device such that the Rotational speed of the measuring wheel and / or the rotational speed of the tape changed for a short time is to the relative nominal position between a functional element and to produce a measuring module. It is possible that the drive device a one-time, short-term position correction of the tape and / or the measuring wheel makes, z. B. by a jerky shift or rotation.

Furthermore it is also possible that the control unit controls the drive device, for adaptation the belt speed in a way that a positional deviation will largely be avoided in the future.

Preferably the drive device is identical to a drive motor of the Measuring wheel and / or a belt drive of the tape guide is. In this case controls the control unit the drive motor of the measuring wheel and / or the Tape drive of the tape guide directly to. But it is also possible that the drive means as one of the belt drive / measuring wheel drive independent, separate drive device is formed.

Preferably the tape has markings that are used by the control unit determines the positions of the functional elements. It is possible that up the tape simultaneously with a printing process for printing a Polymer layer of a functional element printed a marker is, for. B. along a band edge, preferably in a defined relative distance to a functional element. An optical device the control unit records these markings. It is also possible that the electrical conductivity such a tape marking or a polymer layer of a functional element used to measure the position of the band / functional element is, for. B. by a non-contact inductive or capacitive measuring method.

According to one another preferred embodiment The invention relates to the measurement of the properties of the functional elements made without any galvanic contact between the measuring modules and the functional elements is produced. Such a contactless Measurement is possible, for example, using RF signals (RF = Radio frequency). For this purpose, a measuring module preferably has one Measuring head, the RF signals selectively in the direction of a function element associated with it radiates and a reflected signal or one of the functional element generated response signal receives and evaluates or for evaluation to a corresponding evaluation forwards.

Regarding the Measurement, another possibility has proved to be advantageous: So it is possible that on the measuring wheel contact elements are attached, the one galvanic / electrical contact between the measuring electronics and make the functional elements on the tape. These contact elements are on the outer circumference arranged the measuring wheel, so that the functional elements of the rotating Bands during the circulation of the belt around the measuring wheel with the contact elements in contact come. It can formed the contact elements as electrically conductive and mutually isolated elevations be.

It is possible, that the contact elements are formed as needles, the one electrical contact between the functional elements and the measuring modules produce. To conclude The needles make contact with the functional elements Springs are springing the needles radially outward against the functional elements to press.

Further Is it possible, that the contact elements are formed as elastic conductive plastics are. The contacts have a shape that is attached to the surface of the Functional elements adapted so that an electrical contact between the measuring electronics and the functional elements comes.

It is possible, too, the contact elements are designed as electrically conductive flexible foils are. For example, the elastic films have metallic coatings in the places where an electrical contact to the functional elements should exist.

In a further preferred embodiment of the invention, the Measuring device means for optical detection / measurement from displays acting as electronic functional elements of subregions of the flexible band can be formed. Functional elements of the circulating bands can be designed as a display. It is also possible that a separate display as an additional element arranged on the circulating belt and / or in or on functional elements is integrated. The display is preferably also by means of printing process produced. At the beginning of the optical detection / measurement process of the display, the display is supplied with electrical energy. The power supply of the display can be made contactless, z. B. over inductive / capacitive coupling, via RF signal, through Irradiation of light on one provided in the functional element Solar cell, or over electrical or galvanic contacts, z. B. using metallic Contact pins arranged on the measuring wheel. By the energy supply the display is activated. The function of the display can by a suitable control unit (camera, sensor, etc.), which is arranged in the measuring device, are detected and the Get evaluation.

It is possible for the display to include an LCD element or other passive display element that operates by the supply of electrical energy (LCD = Liquid Crystal Display). For functional testing or optical detection / measurement of the LCD element, the device comprises a camera (for example a CCD camera), which records the display of the LCD element and forwards it to an evaluation station for analysis (CCD = Charge Coupled Device). , It is also possible that the display is an LED element or other active display element, for. Example, an electroluminescent element, which occurs by the supply of electrical energy in function and emits light (LED = Light Emitting Diode). For functional testing or optical detection / measurement of the LED element, the device comprises a camera or a phototransistor or a photodiode which detects the light emitted by the LED element and forwards it to an evaluation station for analysis. But it is also possible that the display includes a photosensor, which comes into function by the supply of electrical energy. To function examination or optical detection / measurement of the photosensor, the device then comprises a light source which illuminates the photosensor. The radiation of the light source induces an output signal in the photosensor. The output signal of the photosensor display is forwarded to an evaluation station for analysis.

Further it is also possible that additionally has one RF signal and / or over galvanic contacts a control signal from the measuring device the functional element is created, which is the activation / deactivation the display causes.

It is appropriate that the circumference of the measuring wheel and / or the rotational speed of the Measuring wheel and / or a wrap of the band around the measuring wheel changeable is. Preferably, the device has an adjusting device to change the circumference of the measuring wheel. It is also possible that the tape guide adjustable tape rolls which, depending on their position relative to the measuring wheel a cause different wrap of the band around the measuring wheel. Thus, the time duration necessary for the circulation of a functional element needed around the measuring wheel will and for the measurement available stands within a wide range virtually infinitely on one predetermined value can be set. It is also possible that this by means of the above-mentioned drive means takes place, which is the rotational speed of the measuring wheel, and on it tuned the rotational speed of the band, change.

It has proven to be advantageous that the integrated into the measuring wheel Measuring electronics via sliding contacts and / or over an inductive power transmission is supplied with electrical energy. This energy transmission device can preferably be provided in the region of the end faces of the measuring wheel or integrated within the measuring wheel.

According to one another preferred embodiment The invention provides measurement results obtained by the measurement were, via sliding contacts and / or contactlessly transmitted to a control station. In the case of a contactless transmission is preferably an optical transmission device (Infrared, etc.), an inductive transmission device and / or a transmission device possible based on RF signals. Furthermore, it is possible that the measurement results in memory elements of the measuring modules or the measuring electronics are cached and preset Time points are transmitted to the control station.

Further It has proven to be advantageous, the measuring device between two manufacturing devices for to arrange the production of electronic functional elements. For example, it is possible that functionality a functional element before and after a workstation for the production an electronic functional element, for. B. before and after application a polymer layer, tested becomes. This is a characterization of the functional elements during the current production, in particular between different work steps the production of functional elements possible.

in the The following is the invention with reference to several embodiments explained with the aid of the accompanying drawings by way of example.

1 shows a schematic section through a measuring device according to the invention according to a first embodiment.

2 shows a schematic representation of a measuring device according to the invention for three different wraps of the band around the measuring wheel.

3 shows a schematic representation of an adjusting device for the measuring device.

4 shows a schematic plan view of a band with functional elements and an embodiment of an adjusting device.

5 shows a schematic representation of a measuring electronics according to a first embodiment.

6 shows a schematic representation of a measuring electronics according to a second embodiment.

7 shows three different embodiments of the contact elements according to the invention.

8th shows a schematic representation of a measuring device according to the invention according to a further embodiment of the invention.

1 shows a section through a measuring device 100 with a cylindrical measuring wheel 1 with integrated measuring modules 13 , where the measuring wheel 1 at a rotational speed 11 around a rotation axis 10 turns, a flexible band 2 with electrical functional elements, wherein the band 2 with a circulation speed 21 the measuring wheel 1 rotates and a tape guide 30a . 30b . 31a . 31b to lead the band 2 , The circulation speed 21 of the band 2 , the rotation speed 11 of the measuring wheel 1 and the diameter 14 of the measuring wheel 1 are chosen so that the Duration, which is a functional element of the band 2 for the one circulation around the measuring wheel 1 , required, corresponds to a predetermined value. The circulation of the tape 2 or a functional element of the band 2 around the measuring wheel is defined as the movement of the tape 2 or the functional element around the measuring wheel 1 from the casserole 3 on the measuring wheel 1 until the expiry point 4 from the measuring wheel 1 ,

During the circulation of a functional element around the measuring wheel 1 takes a measuring module assigned to this functional element 13 of the measuring wheel 1 a measurement on this functional element.

The diameter 14 of the measuring wheel 1 as well as the number and arrangement of the measuring modules 13 on the measuring wheel 1 are due to the arrangement of the functional elements in the band 2 customized. In particular, the arrangement of the measuring modules 13 to a repetition length of the functional elements in the band 2 customized. This is a continuous characterization of the functional elements of the tape 2 through the measuring modules 13 possible. In practice unavoidable inaccuracies, which in the course of several rotations of the measuring wheel 1 to a larger error with respect to the assignment of a measuring module 13 can grow to an associated functional element, by appropriate corrections of the rotational speed 11 and / or the rotational speed 21 corrected. The defined circulation of the tape 2 around the measuring wheel 1 and the rotational speed 21 of the band 2 is using the tape guide 30a . 30b . 31a . 31b achieved.

2 shows three different embodiments of a tape guide. 2a shows a measuring wheel 201 with a diameter 214 that is at a rotational speed 211 rotates. A band guide 230a . 231 leads a band 202a with a large wrap around and a wrap speed 221a around the measuring wheel 201 , 2 B shows that with the rotational speed 211 rotating measuring wheel 201 with a modified tape guide 230b . 231b that is a band 202b with a wrap around the in 2a shown wrap is formed less to the measuring wheel 201 leads. The belt speed 221b of the band 202b is on the rotation speed 211 of the measuring wheel 201 Voted. In 2c finally, even less wrap around a band 202c at the speed of rotation 211 rotating measuring wheel 201 shown. A band guide 230c . 231c is in relation to the measuring wheel 201 so arranged that the band 202c only on a small part of the outer circumference of the measuring wheel 201 rests. Here is the belt speed 221c of the band 202c to the rotational speed 211 of the measuring wheel 201 customized. By in the 2a to 2c shown various wraps of the measuring wheel, the duration, the one on the tape 202 provided functional element for circulation around the measuring wheel 201 needed, and thus the duration of a measurement can be varied.

In a first preferred embodiment, the measuring wheel 201 by its own drive, preferably with a belt drive of the tape guide for transporting the tape 2 is synchronized, driven. In an alternative embodiment, the measuring wheel has 201 no own drive, but by the frictional forces between the circulating belt 202 and the outer circumference of the measuring wheel 201 set in rotation.

3 shows a measuring arrangement according to the invention with a tape guide. The tape guide includes a first pair of tape rolls 330a . 330b , a second pair of rolls of tape 331a . 331b , An adjusting device with a control unit consisting of a camera 370 and a regulator 371 , The measuring arrangement comprises a drive device, consisting of the motor units 340 . 341 and 342 , A band 302 Using functional elements is using the first tape rolls 330a . 330b and the second tape rolls 331a . 331b with a circulation speed 321 around a measuring wheel 301 led, which deals with the rotational speed 311 rotates. During the circulation of the tape 302 or the functional elements around the measuring wheel 301 captures the camera 370 the position of the functional elements relative to defined markings on the outer circumference of the measuring wheel 301 , The marks on the outer circumference of the measuring wheel 301 give the positions in the measuring wheel 301 integrated measuring modules. The from the camera 370 captured images are in the camera 370 converted into electrical signals, and these from the camera 370 to the controller unit 371 transfer where they are evaluated.

If the controller unit 371 detects a deviation of the relative position between a functional element and a marker and this deviation is outside a predetermined tolerance range controls the regulator unit 371 the motor units 340 and 342 and / or the motor unit 341 at. The motor units 340 and 342 drive the first rolls of tape 330a . 330b as well as the second rolls of tape 331a . 331b at. In response to the control signal, the motor units effect 340 and 342 by a deceleration or acceleration of the tape rolls 330a . 330b respectively. 331a . 331b a change in the circulation speed 321 of the band around the measuring wheel 301 , The engine unit 341 causes a change in the rotational speed 311 of the measuring wheel 301 , By targeted control of the motor units 340 to 342 It is possible to return a possible position deviation to a tolerated range.

As mentioned above, it is also possible that the measuring wheel 1 does not have its own motor unit, but is set in rotation by the friction between the belt and the measuring wheel. In this case, a short-term change in the rotational speed of the measuring wheel 1 by a deceleration of the measuring wheel 1 respectively. For example, the measuring wheel 1 on its axis of rotation to a braking device, which is controlled by the adjusting device when needed.

4 shows a plan view of a band 402 , which is part of functional elements 450 having. In a border area of the band 402 are marks 455 appropriate. The functional elements 450 pointing in one direction of movement 421 of the band 402 a periodic distance 403 on. In the example shown, all functional elements 450 of the same type A. Therefore, the distance corresponds 403 the minimum repetition length. In addition, shows 4 Parts of an adjusting device consisting of a camera 470 and a regulator unit 471 , where the camera 470 contactless the position of the markings 455 detected.

According to the in 4 illustrated embodiment, the functional elements 450 in three in ribbon motion direction 421 parallel tracks of the band 402 intended. The marks 455 give the position of a transverse to the tape movement direction 421 running set of functional elements 450 of the band 402 at. It is also conceivable that the functional elements 450 in just one or two or more than three lanes of the band 402 are provided, wherein both the distance of the rows to each other and the repetition length 403 the functional elements 450 is set in a desired manner.

The parts of the band 402 formed functional elements 450 are realized as so-called printed electronics. Printed electronics are composed essentially of organic or polymeric materials, ie that preferably the semiconductive layers of the electronic functional elements 450 consist of organic materials, which materials may also be added fillers or dopants, which consist of other, for example, inorganic materials to z. B. to increase the conductivity or bring about the desired technological properties. In addition, for example, contact electrodes, interconnects, insulators or dielectrics of the functional elements 450 also consist of inorganic materials, such as metals or ceramics, which are preferably applied as well as the organic materials by means of a printing process. It is essential that the materials used are coordinated with one another in such a way that they produce the electrical functional elements 450 with essentially a roll-to-roll process using printing techniques.

The following is the structure of the tape 402 with the functional elements 450 from printed electronics described by way of example. As a substrate of the functional elements 450 For example, a polyester-based or polyamide-based tape-shaped film substrate is used on which the printed electronics are applied, in particular printed. The thickness of the film substrate is 12 to 200 microns, its width transverse to the direction of movement about 300-600 mm and its length about 2-3 km. The film substrate is initially wound on a roll and, as is customary in printing technology, is unwound continuously from the roll and fed to various production devices.

In a particularly preferred embodiment of the band 402 is a functional element provided with an arranged on the film substrate antenna for receiving and / or sending data. The functional element then has the functionality of a transponder, which after activation by means of a suitable transceiver wirelessly in an electronic circuit of the functional element 450 transmits encoded information. Using a conductive paste, for example a metal binder filled with metal particles, an antenna in the form of a planar printed circuit is printed by screen printing. The layers of an electrically conductive material have a thickness of 50 nm to 50 microns A likewise applied to the substrate in printing technology capacitor is electrically conductively connected to the antenna and forms with this a resonant circuit. The resonant circuit also serves as an energy source for supplying energy to the subsequently applied, electrical components.

Located above it yourself a layer of a conductive Polymers, for example conductive Polyaniline (PANI) obtained by a continuous film coating process, For example, a dipping method is applied. This layer serves as an electrode for the devices with transistor function. The conductive polymer is by exposure according to the requirements of electronic Structured circuit, so that in an insulating matrix electrically conductive Areas arise, which then present as gate electrodes of the electronic circuit Devices with Transistor Function (Field Effect Transistors = FETs) can serve.

An insulating polymer layer applied to this layer, e.g. As polyhydroxystyrene (PHS), serves as a gate dielectric for the field effect transistors used in the electronic circuit. Another semiconducting polymer arranged above layer, z. As polythiophene, takes over the function of the semiconductor. The electronic circuit is then completed by a second conductive layer, which for example also consists of conductive PANI. By appropriate structuring, conductor tracks and the respective drain and source electrodes of the respective FETs also form in this conductive layer.

A cover film or cover layer protects the entire assembly against mechanical and other environmental influences (light, humidity, gases). This cover layer may optionally be printed in the manner of stamps with advertising or with optically readable information, for example a barcode. After applying a topcoat are removed from the tape 402 the sections are punched out or cut, in which the functional elements 450 are formed. The detached parts can be used as RFID tags, possibly after further manufacturing steps.

Alternatively to a contactless method using an antenna of the functional element 450 or in addition, it is also possible in the electronic circuit of the functional element 450 stored information by direct contact read out. This is the functional element 450 provided with at least one electrical connection contact, which is provided for establishing an electrical connection with an external reading, writing or measuring device.

5 shows a section through a measuring wheel 501 with a circulating band on it 500 , which is a foil substrate 502 and a first functional element 550 and a second functional element 551 having. Along the outer circumference of the measuring wheel 501 are measurement modules 40 . 50 arranged with a central control unit 513 the measuring electronics are connected. A first measurement module 40 is the first functional element 550 assigned and includes an antenna 42 and a measuring head 43 , It's like a shield 41 surround that antenna 42 can only send and receive in the direction radially outward. The second measuring module 50 is the second functional element 551 assigned and includes an antenna 52 and a measuring head 53 , It is analogous to the first measurement module 40 so from a shield 51 surround that antenna 52 can only send and receive in the direction radially outward.

The functional elements 550 . 551 are on one side of the film substrate 502 Applied to the outer circumference of the measuring wheel 501 turned away.

The measuring modules 40 . 50 be through the central control unit 513 controlled and for performing a measurement of a property of their associated functional elements 550 . 551 causes. The measurement is made without contact with the functional elements 550 . 551 and is performed using RF signals from the antennas 42 . 52 be broadcast or detected. The illustrated functional elements 550 . 551 For example, components of an RFID tag form their function through the measurement modules 40 . 50 should be checked.

Once it is determined by an adjusting device (not shown) that the measuring modules 40 . 50 in a predetermined position with respect to the associated functional elements 550 . 551 located, the adjusting device outputs a signal to the central control unit 513 , Triggered by this signal, the central control unit initiates 513 the two measuring modules 40 . 50 to start the measurement. The measuring heads 43 . 53 generate an RF signal through the antennas 42 . 52 each to the functional elements 550 . 551 is sent. In response to the received RF signals, the functional elements emit 550 . 551 an appropriate response signal using the antennas 42 . 52 from the measuring modules 40 . 50 Will be received. The received response signals are transmitted via the measuring heads 43 . 53 to the central control unit 513 from where they are transferred to an analysis unit (not shown).

6 makes a section through a measuring wheel 601 that's about a band 600 rotates, which is a foil substrate 602 and a functional element 650 having. The functional element 650 is on one side of the film substrate 602 Applied to the outer circumference of the measuring wheel 601 is facing. On the outer circumference of the measuring wheel 601 there are contact elements 612 , which makes electrical / galvanic contact with the functional element 650 produce. Each of the contact elements 612 is through an electrical line 614 with a regulator unit 613 connected. Due to the electrical contact between the regulator unit 613 and the functional element 650 can be a property of the functional element 650 be measured.

7a shows a first embodiment of the contact elements. A band 700 includes a flexible film 702 , on the layers 7030 . 7040 . 7050 and 7060 a functional polymer are applied, wherein the first layer 7030 a conductive layer, the second layer 7040 an insulating layer and the third layers 7050 and 7060 represent semiconducting layers. The ribbon 700 becomes a tape guide around a measuring wheel 701 guided. On the outer circumference of the measuring wheel 701 there is a plastic layer 7080 , The plastic layer 7080 includes elastic plastic elements 7090 . 7100 . 7110 and 7120 , where the plastic elements 7090 . 7100 and 7110 are conductive and the plastic elements 7120 are electrically insulating.

The electrically conductive plastic elements 7090 . 7010 and 7110 are electric with a measuring module 713 connected and adapted to the conductive layer 7030 and the semiconducting layers 7050 . 7060 of the band 700 make an electrical contact. The plastic element 7090 put to the semiconducting layer 7050 , the plastic element 7100 to the conductive layer 7030 and the plastic element 7110 to the semiconducting layer 7060 an electrical contact.

The 7b shows a further embodiment of the contact elements according to the invention. On the slides 702 are located as in 7a described, the conductive, insulating and semiconductive plastic layers 7030 . 7040 . 7050 and 7060 of the functional polymer. In the measuring wheel 701 are needles 7140a . 7140b . 7140c provided, which on springs 7150a . 7150b . 7150c are stored. The needles 7140 are via electrical lines with the measuring module 713 connected. Due to the springy storage of the needles 7140 become the tips of the needles 7140 so to the plastic layers 7030 . 7050 . 7060 pressed that an electrical contact of the functional element to the measuring module 713 will be produced.

7c shows a third embodiment of the contact elements according to the invention. On the flexible foil 702 are the plastic layers 7030 . 7040 . 7050 and 7060 of the functional polymer, as in the 7a and 7b are formed described. On the outer circumference of the measuring wheel 701 there is a flexible foil 7160 whose top in three places metallic coatings 7170A . 7170b . 7170c having. Between the measuring wheel 701 and the foil 7160 there is an elastic intermediate layer 7180 that the foil 7160 against the layers 7030 . 7050 . 7060 of the functional element presses. The on the top of the slide 7160 provided coatings 7170 make an electrical contact between the layers 7030 . 7050 . 7060 and a measurement module 713 ago.

8th shows an arrangement of a measuring wheel according to the invention 801 and a tape guide according to the invention with a first roll 830 and a second role 831 , where the measuring wheel 801 between a first impression cylinder 878 and a second impression cylinder 879 is arranged. To the impression cylinder 878 . 879 and the measuring wheel 801 there is a band around 802 having a film substrate, are applied to the layers of a functional polymer. At the first impression cylinder 878 is through a printing device 880 a first layer of a functional polymer is applied to the film substrate. In strip direction 821 behind the first impression cylinder 878 there is a pulley 876 that the band 802 to the first role 830 the tape guide leads. From there will be the band 802 to circulate around the measuring wheel 801 brought where the functionality of the on the printing device 880 applied functional polymer layer can be checked. After measuring on the measuring wheel 801 becomes the band 802 about the second role 831 the tape guide and a second pulley 877 to the second impression cylinder 879 transported, where another layer of a functional polymer on the film substrate of the tape 802 is applied.

With the illustrated arrangement of the measuring wheel 801 between the two printing cylinders 878 . 879 For example, it is possible to test the functionality or a property of a component of the polymer electronics, consisting of printed layers of different functional polymers, during its production.

Claims (12)

Contraption ( 100 ) for measuring a property of electronic functional elements ( 450 ), in particular by means of printing process produced electronic functional elements ( 450 ), the electronic functional elements ( 450 ) of subregions of a flexible band ( 2 . 402 ), characterized in that the device ( 100 ) comprises: a measuring wheel ( 1 ), which has a rotational speed ( 11 ) rotates; a tape guide ( 30a . 30b . 31a . 31b ), which is designed to be the band ( 2 . 402 ) at a rotational speed ( 21 ) continuously around the measuring wheel ( 1 ), whereby the rotational speed ( 21 ) so on the rotational speed ( 11 ) of the measuring wheel ( 1 ) that during the circulation the band ( 2 . 402 ) on a circumference of the measuring wheel ( 1 ) and the functional elements ( 450 ) of the circulating band ( 2 . 402 ) occupy a constant position relative to the circumference; and one in the measuring wheel ( 1 ) integrated measuring device ( 13 ), which is designed so that during the circulation of the tape ( 2 . 402 ) on functional elements ( 450 ) of the circulating band ( 2 . 402 ) makes the measurement. Apparatus according to claim 1, characterized in that the measuring wheel ( 1 ) has a circumference which corresponds to a repetition length ( 403 ) of the functional elements ( 450 ) of the band ( 2 . 402 ) is adjusted. Apparatus according to claim 1, characterized in that the measuring device ( 13 ) one or more along a circumference of the measuring wheel ( 1 ) arranged measuring modules ( 13 ) that so are designed to be used during the circulation of the tape ( 2 . 402 ) around the measuring wheel ( 1 ) each at one or more associated functional elements ( 450 ) of the circulating band ( 2 . 402 ) make the measurement. Apparatus according to claim 3, characterized in that the tape guide ( 30a . 30b . 31a . 31b ) an adjusting device with a control unit ( 370 . 371 ), the control unit ( 370 . 371 ) is configured so that it is a position of one or more measuring modules ( 13 ) relative to the functional elements ( 450 ) and a drive device ( 340 . 341 . 342 ) for changing the rotational speed ( 11 ) of the measuring wheel ( 1 ) and / or the rotational speed ( 21 ), if the control unit ( 370 . 371 ) a deviating from a predefined set position position of the measuring modules ( 13 ) relative to the functional elements ( 450 ). Device according to claim 3 or 4, characterized in that the measuring modules ( 13 ) each comprise a measuring head for non-contact measurement of the property, preferably for transmitting and measuring radio-frequency signals or for measuring optical signals. Apparatus according to claim 3 or 4, characterized in that on the circumference of the measuring wheel ( 1 ) Contact elements ( 612 ), which requires an electrical contact of the measuring modules ( 13 ) to the functional elements ( 450 ), are formed. Device according to claim 6, characterized in that the contact elements ( 612 ) are formed as electrically conductive, mutually insulated elevations. Device according to claim 6, characterized in that the contact elements ( 612 ) than on feathers ( 7150a . 7150b . 7150c ) mounted needles ( 7140a . 7140b . 7140c ) and / or elastic, conductive plastics ( 7090 . 7100 . 7110 ) and / or metallically coated flexible films ( 7160 ) are formed. Device according to claim 1, characterized in that the device ( 100 ) a sliding contact and / or an inductive transmission unit for a power supply in the measuring wheel ( 1 ) integrated measuring device ( 13 ) having. Device according to claim 1, characterized in that the device ( 100 ) comprises a sliding contact and / or a non-contact transmission unit, preferably based on optical signals or radio-frequency signals, for transmission by the measurement results obtained to a control station. Device according to claim 1, characterized in that the device ( 100 ) between two production devices ( 878 . 881 ) for the production of electronic functional elements ( 450 ) is arranged. Method for measuring a property of electronic functional elements ( 450 ), in particular by means of printing process produced electronic functional elements ( 450 ), the electronic functional elements ( 450 ) of subregions of a flexible band ( 2 . 402 ), characterized in that the method comprises the steps of: providing a measuring wheel ( 1 ) with integrated measuring device ( 13 ); Leading the band ( 2 . 402 ) at a rotational speed ( 21 ) continuously around the measuring wheel ( 1 ), where the rotational speed ( 21 ) so to a rotational speed ( 11 ) of the measuring wheel ( 1 ) that during the circulation the band ( 2 . 402 ) on a circumference of the measuring wheel ( 1 ) and the functional elements ( 450 ) of the circulating band ( 2 . 402 ) occupy a constant position relative to the circumference; and measuring the property during the circulation of the tape ( 2 . 402 ) around the measuring wheel ( 1 ) using the measuring device ( 13 ).