EP1675071A1 - Sensor temperaturregelung - Google Patents

Sensor temperaturregelung Download PDF

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Publication number
EP1675071A1
EP1675071A1 EP04258013A EP04258013A EP1675071A1 EP 1675071 A1 EP1675071 A1 EP 1675071A1 EP 04258013 A EP04258013 A EP 04258013A EP 04258013 A EP04258013 A EP 04258013A EP 1675071 A1 EP1675071 A1 EP 1675071A1
Authority
EP
European Patent Office
Prior art keywords
banknote
temperature
light emitter
light
banknote validator
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Withdrawn
Application number
EP04258013A
Other languages
English (en)
French (fr)
Inventor
Christian Voser
Bernard Bouchet
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Crane Payment Innovations Inc
Original Assignee
Mars Inc
MEI Inc
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Mars Inc, MEI Inc filed Critical Mars Inc
Priority to EP04258013A priority Critical patent/EP1675071A1/de
Publication of EP1675071A1 publication Critical patent/EP1675071A1/de
Withdrawn legal-status Critical Current

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Classifications

    • GPHYSICS
    • G07CHECKING-DEVICES
    • G07DHANDLING OF COINS OR VALUABLE PAPERS, e.g. TESTING, SORTING BY DENOMINATIONS, COUNTING, DISPENSING, CHANGING OR DEPOSITING
    • G07D7/00Testing specially adapted to determine the identity or genuineness of valuable papers or for segregating those which are unacceptable, e.g. banknotes that are alien to a currency
    • G07D7/06Testing specially adapted to determine the identity or genuineness of valuable papers or for segregating those which are unacceptable, e.g. banknotes that are alien to a currency using wave or particle radiation
    • G07D7/12Visible light, infrared or ultraviolet radiation
    • G07D7/121Apparatus characterised by sensor details

Definitions

  • This invention relates to an apparatus for sensing optical characteristics of a banknote and other sheets of value such as, for example, cheques and tokens.
  • Such apparatus is commonly used to determine the authenticity and/or denomination of banknotes. Often, a banknote is moved along a path past optical emitters and receivers so that the transmission or reflection characteristics in respective areas of the banknote can be determined by scanning.
  • the apparatus may include emitters (typically LED packages or LED dies) which operate in multiple wavelengths, such as red, green, blue and infra-red. (It is noted that the terms “optical” and “light” are used herein to refer to any electromagnetic wavelength, and not merely visible wavelengths.)
  • the measured transmission or reflection characteristics are compared to defined acceptance criteria and a decision is made to accept or reject the banknote based on this comparison. These measurements are also used to determine the denomination of the banknote. There are a number of factors which influence individual measurements and which must be compensated to provide accurate comparison with acceptance criteria. Among these are the quality of the banknote, component drift and component variations from mechanism to mechanism which affects, for example, performance of the emitters and sensors.
  • the measurement from the reference surface or calibration paper can be compared to a predetermined value and the intensity of an emitter and/or the gain of a sensor varied until the measurement matches the predetermined value.
  • the measurement from the reference surface is incorporated into the process used to evaluate the banknote.
  • software incorporated into a validator may compensate measurements derived from a banknote according to stored reference surface measurements.
  • software compensations suffer from the disadvantage that the emitters and sensors may not be operating in their optimum range (e.g. the brightness of the emitter may be too low or high for the receiver to be operating in its most sensitive range).
  • Fluctuations in the operating temperature of the emitters affects the wavelength of the emitted light.
  • the wavelength emitted by infra-red LED's can change by up to 14 nm in the temperature range 0°C to 60°C. Therefore, at different temperatures, reflectance and/or transmittance at different spectral regions is measured.
  • the reflectance and transmittance of a reference surface does not vary significantly with a change in wavelength and therefore the use of the calibration methods described above will have little effect in respect of the change of the wavelength of the emitted light.
  • the temperature of the emitters may be regulated by providing means for regulating the temperature of the environment surrounding the emitter.
  • the temperature regulating means may be self-regulating or may include a heater or refrigerator and means for controlling the heater or refrigerator, such as a thermostat.
  • the temperature regulator controls the temperature of the emitter in a range defined by any reasonable minimum and maximum values.
  • the temperature regulator preferably maintains the temperature of the emitter in the range of between about 50°C and about 70°C.
  • the heater is self-regulating such as a positive temperature coefficient heater although Peltier elements also provide suitable heaters.
  • the validator includes a plurality of emitters and a plurality of temperature regulators so that each emitter is associated with a temperature regulator.
  • the validator also includes means for calibrating which may include a reference surface which is illuminated by the light emitters or may include a calibration sheet of reflectance or transmittance characteristics which do not vary substantially with changes in the operating environment which is fed through the validator in the same manner as a banknote.
  • the accuracy of the validator is improved over those known in the prior art as the calibration means compensates for device-to-device variations and those which vary regularly with changes in the operating environment, whereas regulating the temperature compensates for changes in the wavelength of the emitted light due to temperature fluctuations.
  • FIG. 1 illustrates a banknote validator.
  • the validator has an inlet 12 arranged to receive banknotes which travel along a path 14 to an apparatus 16 which is arranged to test the optical transmission and reflectance characteristics of the banknote. It is to be realised that although the invention is described with reference to an apparatus which measures the reflected and transmitted light from a banknote, it is equally applicable to any validation means which uses light to validate banknotes or other sheets of value.
  • a control means 18 is arranged to send signals to and receive signals from the apparatus 16 and to use the received signals to determine the authenticity and the denomination of the banknote.
  • the control means 18 is also arranged to send control signals to the apparatus 16 to perform a calibration operation, as will be described below.
  • the banknote travels from the apparatus 16 to a gate 20 which is controlled by the control means 18 in dependence upon the type of banknote received.
  • the gate can direct the banknote either to a path 22 leading to an outlet 24, or to a path 26 leading to a banknote store 28.
  • the apparatus 16 for sensing the optical characteristics of banknotes is shown in more detail in the perspective view of Figure 2.
  • Banknotes are conveyed in the scanning direction S by means of endless belts 30 and sets of rollers 32 at the inlet side 34 of the apparatus and endless belts 36 and sets of rollers 38 at the outlet side 40 of the apparatus.
  • the belts 30 and rollers 32 at the inlet side 34 of the apparatus are disposed laterally between the belts 36 and rollers 38 at the outlet side 40 of the apparatus.
  • Optical devices 42 are arranged in modules, or units.
  • a first unit 44 is disposed above the banknote path at the inlet side 34, and faces a second unit 46 below the banknote path.
  • Each unit comprises four optical devices 42 arranged in a line extending in the transverse direction T, each device comprising an emitter 48 and a pair of receivers 50, 52 arranged as shown to sense the reflectance and transmission characteristics in a banknote.
  • the units 44 and 46 are arranged for sensing the reflectance and transmittance characteristics of banknotes in scanned areas which extend between the inlet belts 30.
  • Two further units, 53 and 54, are disposed respectively above and below the banknote path at the outlet side 40. These are of similar structure and orientation to the modules 44 and 46, except that they are arranged to scan the areas between the outlet belts 36.
  • FIG 2 also shows a pair of calibration units 56, 58.
  • Each unit carries four reference bodies 60 and is mounted for pivotal movement about an axis parallel to the transverse direction T so that the body can be pivoted from a non-operational position, as shown in Figure 2, to an operational position in which each reference body 60 is located between an optical device 42 of one of the units (44 or 46) and the corresponding optical device 42 in another of the units (53 or 54).
  • the reference body is located in or near the banknote path, and is operable to transmit light from the emitter 48 of one of the devices to the receivers of the opposed device, and to reflect light from the emitter 48 of each device to its adjacent receivers 50, 52.
  • Each reference body has reflection and transmission characteristics which do not vary significantly with changes in the operating environment or over time, so that calibration of the apparatus can be performed by taking reflectance and transmission measurements while the calibration units 56, 58 are in their operational positions.
  • the operation of the validator 10 of Figure 1 is as follows.
  • a received banknote is delivered to the inlet side 34 of the apparatus 16.
  • the reference members 56, 58 are in their non-operational positions at this time.
  • the control means 18 continuously checks the light transmitted between the optical units 44, 46 in the inlet section 34 until it detects the significant change caused by the leading edge of the banknote.
  • control means 18 moves the reference members 56, 58 to their operational positions and takes both transmission and reflection calibration measurements which are used to adjust the power supply to the LED's of respective wavelengths so that the intensities of the outputs as measured by the receivers comply with a predetermined level, adjust the sensitivities of the receivers and/or alter the processing of the receiver outputs to achieve calibration of the apparatus.
  • the calibration operation may be performed only at the beginning of the transaction which may involve the measurement of one or more banknotes.
  • the measurements are initially carried out using the units 44, 46, but similar measurements are also carried out by the units 53, 54 when the leading edge of the banknote has reached these units.
  • the reference members 56, 58 could be replaced by a sheet, made of for example plastics material, with reflection and/or transmission characteristics which do not vary substantially with changes in the operating environment or over time.
  • This sheet could be fed along the banknote path, using the normal banknote feeding mechanism, and stored within the banknote apparatus, for example using a dedicated sheet store, so that the reference sheet can be discharged from the store to perform a calibration operation and then returned to the store.
  • each of the devices 42 the emitter 48 and the receivers 50 and 52 are mounted on a common circuit board 70.
  • a single circuit board is used for all the devices 42 within a single module.
  • Each emitter comprises an LED assembly which includes one LED die each of a respective wavelength red, green and blue and three different wavelength infra-red LED dies.
  • the circuit board includes a number of further emitters 72, 74 and 76 comprising respective LED dies and respective receivers 78, 80; 82, 84 and 86, 88.
  • FIG 4 illustrates the reverse side of the circuit board 70 illustrated in Figure 3.
  • a plurality of heaters 90, 92, 94 and 96 are mounted on the circuit board at opposed positions to respective emitters 48, 72, 74 and 76.
  • Suitable heaters are known in the art but in a preferable embodiment, the heaters are positive temperature coefficient (PTC) heaters which have the advantage of regulating the temperature without the need for a separate thermostat.
  • PTC positive temperature coefficient
  • the heaters heat the surrounding area which includes the portion of the circuit board 70 to which the emitters are attached and therefore regulate the temperature of the emitters to maintain it in a predetermined range of between about 50°C and about 70°C.
  • a suitable PTC heater which operates in this range is sold by Advanced Thermal Products, Inc. under the part number PS425C050S102H. This ensures that there are no substantial variations in the wavelength of the light emitted by the emitters due to temperature variations.

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  • Health & Medical Sciences (AREA)
  • General Health & Medical Sciences (AREA)
  • Toxicology (AREA)
  • Physics & Mathematics (AREA)
  • General Physics & Mathematics (AREA)
  • Inspection Of Paper Currency And Valuable Securities (AREA)
EP04258013A 2004-12-21 2004-12-21 Sensor temperaturregelung Withdrawn EP1675071A1 (de)

Priority Applications (1)

Application Number Priority Date Filing Date Title
EP04258013A EP1675071A1 (de) 2004-12-21 2004-12-21 Sensor temperaturregelung

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
EP04258013A EP1675071A1 (de) 2004-12-21 2004-12-21 Sensor temperaturregelung

Publications (1)

Publication Number Publication Date
EP1675071A1 true EP1675071A1 (de) 2006-06-28

Family

ID=34930951

Family Applications (1)

Application Number Title Priority Date Filing Date
EP04258013A Withdrawn EP1675071A1 (de) 2004-12-21 2004-12-21 Sensor temperaturregelung

Country Status (1)

Country Link
EP (1) EP1675071A1 (de)

Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4183665A (en) * 1977-12-07 1980-01-15 Ardac, Inc. Apparatus for testing the presence of color in a paper security
US5783909A (en) * 1997-01-10 1998-07-21 Relume Corporation Maintaining LED luminous intensity
US6111739A (en) * 1999-08-11 2000-08-29 Leotek Electronics Corporation LED power supply with temperature compensation
US20020179816A1 (en) * 2001-06-01 2002-12-05 Haines Joshua Paul Illumination apparatus utilizing light emitting diodes
US20030030012A1 (en) * 2000-03-07 2003-02-13 Bunderdruckerei Gmbh Of Oranienstrasse 91, D-10958 Handsensor for authenticity identification of signets on documents
US6819781B1 (en) * 1995-01-23 2004-11-16 Mars Incorporated Method and apparatus for optical sensor system and optical interface circuit

Patent Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4183665A (en) * 1977-12-07 1980-01-15 Ardac, Inc. Apparatus for testing the presence of color in a paper security
US6819781B1 (en) * 1995-01-23 2004-11-16 Mars Incorporated Method and apparatus for optical sensor system and optical interface circuit
US5783909A (en) * 1997-01-10 1998-07-21 Relume Corporation Maintaining LED luminous intensity
US6111739A (en) * 1999-08-11 2000-08-29 Leotek Electronics Corporation LED power supply with temperature compensation
US20030030012A1 (en) * 2000-03-07 2003-02-13 Bunderdruckerei Gmbh Of Oranienstrasse 91, D-10958 Handsensor for authenticity identification of signets on documents
US20020179816A1 (en) * 2001-06-01 2002-12-05 Haines Joshua Paul Illumination apparatus utilizing light emitting diodes

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