SE413208B - MET AND / OR CONTROL DEVICE FOR DOCUMENTS - Google Patents

Description

v., _...._. n ._....._- ~ .-. e ~ u- fl ulqu nunnan-won- 10 15 20 25 7701769-1 2 different frequencies send eg light to or by an examined document, wherein the signals after reflection towards, or passage of the document are arranged to be applied to at least one receiver, for example a photodiode. The invention is characterized in that the output signal of the receivers is arranged to be applied to signal processing means for obtaining a mutual difference or ratio signal, which signal constitutes a control signal or sorting signal for the document, often in combination with a reference signal; wherein the receiver's nt signals are arranged to be rectified, suitably in a phase-controlled rectifier, and integrated in the difference generator in and before obtaining a composite signal, constituting a control or sorting signal for the document; and that the output signal from the rectifier is arranged to be applied to an amplifier, suitably integrating, the output signal of which is arranged to control the mutual signal level of the transmitters so that the output signal from the differential generator becomes 0 when the document is removed.

By means of such a device one essentially gets away from the problem of "driving" receiver, ooh in case the receiver drives, this applies to both signals ooh the error thus becomes. eliminated. Through integration and alignment, you can easily compare the two. the signals transmitted or modulated alternately, for example from a green and a red LED, whereby these signals after integration become simultaneous and can be compared with each other. An advantage of the above device is that it becomes simple, inexpensive and reliable.

One can also think of signal-separate receivers for the different signals, each signal being aphasia-specific. signnbemaiingen m: dust: 1 numemaamam, ï as before, »and compensation for" operation "caused by t e: temperature, aging and dirt can easily occur.

The invention is further exemplified in the accompanying figures, of which Fig. 1 constitutes a blockchain of the invention and Fig. 2 a more detailed embodiment of the invention, provided with a common receiver. Fig. 3 shows the different signals at the receivers and at the phase-controlled rectifiers.

Fig. 1 shows at 11 the approximate location where an examined dol document, such as a banknote, is to be deposited. From a LED A, for example emitting green light, a green light signal emanates, which is reflected towards or transmitted through the saddle 11, after which the transmitted or reflected signal is received in a photodiode or other light receiver. Another LED emits a light signal of a different color, for example red light, which is transmitted through or reflected towards the banknote 11, after which the transmitted or reflected signal is received by the same. light receiver 12. Of course, this can also be applied to black-and-white measurement in terms of goose scale variations. Of course, red and green are just examples. various. colors which can be emitted at the respective LEDs A, B. The output signal from the light receiver is applied to a signal processing means 13, the output of which is glued to a farce screen per color. The signal transmitted from 12 must also be integrated, which can take place in the device 13 or in a difference generator 14 intended to form an authentication signal, constituting a ratio or difference signal. The integrated signal, the difference signal, thus constitutes a measure of the color-gray or gray-white variations of the saddle, which is a good authenticity check, which can be output at 15 and used. customary manner, for example for the delivery of goods. after inserting a banknote, or to indicate an authentication signal 15. 18 is a frequency generator, for example for 500 Ez, its output signal is alternately applied to the light emitters i and B.

The difference generator 14 may be, for example. an integrating amplifier, and its output signal is arranged via a counter device to be applied to a reference signal generator or a memory 17 in the case of a non-plugged document 11. In the case of a document 11 in the measuring position, the signal from the differential generator 14 to the memory 17 is interrupted via thus becomes dependent on the value of the authentication signal at 15, i.e. the color difference, and it is applied to the light emitter i, whereby it is suitably arranged that the voltage to A becomes dependent on the output signal from the memory 17, which in turn (often) refers to any form of normal and / or reference surface. In this way a control loop is obtained which adjusts devices for zero difference at normal or reference surface.

From the fssstyrds lilsrilrtsrns. 13 taken life a sbsolutsignsl at 19, which. A reference device 20 is provided for the corresponding setting of absolute brightness, which device, for example, is an integrated amplifier, which is also the case with the memory 17. 21 is a reference signal sensor for the absolute value, which is also connected to the amplifier 20. The output signal for the amplifier 20 is applied the light emitter B, the voltage of which thus becomes dependent on the absolute. the output signal from the phase-controlled banknote 13 via the connection 19. In the case of a non-inserted banknote, a reference difference signal is thus obtained at 15, which should be controlled so that in the case of a non-inserted banknote it becomes equal to zero, and thus a good reference is obtained here to the dzlfferens or quota sign 15, which is obtained with inserted document 11. The means within the frame 22 can generally be referred to as automatic calibration. The advantage of a single receiver 12 for the two light transmitters A and B is noted here, but of course separate receivers for these two light transmitters are conceivable, each signal being evaluated separately. but otherwise the same signal processing as mentioned above can be used. A significant advantage of said device is the compensation for operation, for example aging of LEDs and photodiodes, which would otherwise entail inconveniences.

Fig. 2 shows where to insert the document 11 to be tested, for example a banknote, useful, for example, in connection with output receipts, such as petrol receipts.

At 22 is shown an oscillator with an output frequency of t e: 2000 Hz, which is applied to a bistable flip-flop 23, the output of which thus becomes 1000 Hz. This signal is applied to another bistable rocker. 24, whose output signal has a frequency of 500 Hz. This output signal controls a drive transistor 25 to the LED 26, and alternately with this the LED 28 is controlled via the transistor 27, the former for red light, the latter for green light. This bistable flip-flop 24 thus alternately receives a signal from the LED 26 and the LED 28, respectively, and these signals, which consist of red and green light, respectively, are transmitted through or reflected to the document 11, and a receiving diode 29 is connected to the receiving signal, connected to an amplifier. 30. Its output signal is applied via phase-controlled rectifiers 51 and 52, respectively, to a differential generator 35 »which consists of an integrated amplifier, and whose output consists of a ratio or difference, depending on the ratio and the difference of the received ones, respectively. the signals at photodiode 29. At 34, an authenticity control signal is thus obtained for the banknote. To obtain a reference signal for this authentication signal, a signal is output from an output amplifier or a memory 36 via an output amplifier or a memory 36 via a switch 55, connected to an uninserted document and broken to an inserted document, which is applied to an integrating amplifier or a memory 36. controls the voltage to the LED 28. Similarly, a signal is taken from the phase-controlled rectifier 51 to another integrating amplifier 38, corresponding to the reference device 20. The amplifier 36 corresponds to the memory 17 in Fig. 1. In this case, the photodiode receives the signals from the light transmitters 26 and 28 at unused document and a certain difference signal is obtained at the difference generator 33, which should suitably be zero and thus constitutes a reference for the difference signal for a later document examined.

Fig. 3 shows at M the output signal from the photodicde, where A is the signal at green light and IB at red light, and the alternating signal is shown in Fig. 5. The output signal from the phase-controlled purple light is shown at FG and after integration of this . signal, a signal Ua is obtained on the right in the figure. FG means the signal for green light and the FR signal for red light, the output of which Ur is also shown on the right in fi; 3.

Claims (6)

7701769-1 The device as above can be varied in many ways within the scope of the following patent claims. PATENT REQUIREMENTS 1. lüt- ooh / or control device for documents, such as banknotes, for control with respect to reflection and / or transmission characteristics nl., Te: förg- or grâkelle variations, in which device includes at least tvl aandnno (l, n), as aandom nod before-don olle-n wavelength, t a lyndlodon (26, 28), for mutually different. color or wavelength ranges, which. alternately or individually modulated with different frequencies, tea transmits light: to or through an examined document (11), the signals after reflection towards, or passage of the document being arranged to be applied to at least one receiver, tea: a photodiode ( 12, 29), characterized in that the output signal of the receiver (12, 29) is arranged to be applied to the signal processing means for obtaining a mutual difference or ratio signal (13, 14, 33), which signal constitutes a control signal or sorting signal. for the document (11), often in combination with a reference signal; the output signal of the receiver (12, 29) is arranged to receive a composite signal (13, 31), the input signal (13, 31), and the input signal (14, 33) in order to obtain a composite signal. - constitutive control or sorting signal for the document; and an ntoignlon from lmlktanon (13, 31) than arranged ott piraten on fanotänloon-o (ao, 38), preferably internet-anno, vnno utoigndl than onondnod to control the mutual signal level of the transmitters (A, ZB) so that the output signal from dlffenonnblldomon ( 14, 33) becomes zero when the document is deleted. 2. Device according to claim 1, characterized in that the output signal from the differential images when the document is removed is arranged to apply a signal memory (17, 36), the output signal of which controls the voltage of the transmitter (i). 3. Apparatus according to claim 2, characterized in that the excipient from the device to the transmitter / teeth is called a phnootyndo lmlxtnrod- lila-mamma (13, 31) an arranged a pear-oo phono tank, suitably incorporating (20, 38) output signal controls the absolute transmission level of the transmitters (A, B). 4. A device according to patent specification 2-3, characterized in that the obtained reference value (calibration value) is frozen in the memory (11, 31) at the document in measuring mode. 7707769-1 5. A device according to any one or more of the preceding patents, characterized in that devices are provided with devices for wetting on. stationary or on moving document. 6. Device according to something or some. of the foregoing patent, characterized in that in the case of a remote dolnnnent reference object replaces the document, whereby the device is set (calibrated) against the reference object. PROMISED PUBLICATIONS: n Fránkrake 2 115 714 (euro 7/00) Germany 2 440 552 (GÜ7D 7/00) US 3 122 227 (194-4)