RU2116701C1 - Device for commutation - Google Patents

Abstract

FIELD: equipment for payment using debit plastic cards. SUBSTANCE: device has inner assembly which has card receiver, electronic circuit for measuring and analysis of card assets, mechanism for destruction of card assets, electronic circuit for processing of commands by actuating mechanism for payment. In addition device has external member which is designed as paper or film-polymer card which has at least one film resistive members which are card asset carriers during payment operation. Device may be used preferably for public payment telephones and other automatic service equipment. Service is provided if card with available asset is inserted into device, characteristics of film resistive member are in range of tolerance, card is not moved during asset destruction, surface of card has no additional resistive members, i.e. it is not faked. Said conditions are provided by card receiving unit which has four-probe contact system. Film resistive members are made from composite materials which provide stable resistance after staged thermal processing. EFFECT: increased precision of card measurement, increased reliability. 4 dwg

Description

The invention can be used in the following fields of technology:
a) pay telephone machines (pay phones);
b) access restriction machines (turnstiles);
c) other automatic devices for the provision of paid services.

 Recently, non-cash payments for services are widely practiced in Russia through various cards: electronic, magnetic, induction, resistive and others. Common to various devices that carry out non-cash payments for services through cards is the “switching device” (K. U), which determines the status (asset) of the card, changes it when the service is provided, and generates commands to executive mechanisms to perform certain actions.

 The card is an integral external part of the switching device, which, in interaction with its internal, hardware part, determines the result of this interaction, controlling the provision of services.

 Card switching devices are most used in telephony, which is associated with the presence in the country of a large fleet of coin payphones, which, through modernization, are transferred from a coin (or token) to a card, non-cash principle of operation.

The need for such modernization is due to the following main reasons:
- the practical disappearance, due to inflation, of monetary circulation in Russia;
- the common practice of cracking payphone piggy banks in order to steal revenue, including tokens;
- significantly increased costs for the collection of revenue from pay phones.

 Thus, the modernization of coin-operated payphones, in particular local-area payphones such as AMT-69/2, will allow for the restoration of paid pay-phone service in the country at low cost.

 Cards for telephone calls after their use lose their value, with the exception of cases when an expensive card carrier is used that allows the regeneration of the card's asset in a specially equipped production environment.

 Known switching device "Tariff TET-15 (A.S. Ivanov," Tariff for AMT-69 "," Messenger "N 6, 1995, p. 21), including a switching device containing a card-receiving unit with contacts, an electronic determination circuit the status of the card’s asset, changes in its state during the provision of the service, control over the conversational telephone circuit, the card consists of a ceramic carrier (board) and a removable chip with 15 resistive cells. When the card is inserted into the tariffifier at the beginning of the conversation (after the called party answers) the fixer finds a cell suitable for resistance value, burns it out, rechecks the cell, finally establishes its destroyed state and provides the client with a 3-minute talk time, after which the process is repeated until all the card resistances are burned.

 The main disadvantages of the described method of managing the provision of services are as follows.

 1). The use of expensive material - ceramics as a card carrier. To reduce the unit cost of manufacturing a card's tariff cell, you have to use a large number of cells on one carrier (chip), as well as provide for the possibility of replacing the chip, for which it is necessary to organize a card collection service with the population. Each cell is designed to provide one service, which in turn has its own cost. The sale price of a card to customers of a city payphone network, determined by the total cost of services, becomes excessively high for the mass user and limits consumer demand. For conversations on a city payphone, the most characteristic feature is the transmission of short messages, arrangements, etc. Customers are more comfortable with a card designed for one or two calls, which is relatively cheap.

 2). A card with a burned asset deprives the client of the ability to visually control the remainder of the card's asset. To control the asset of the card, a special stationary device (apparatus) is needed that reads the asset and displays it on the indicator board. Equipping the city with such devices seems problematic, since ultimately it significantly increases the cost of the communications company operating such card payphones.

 3). When burned, the resistance changes from a given value to infinity. However, the same effect can be achieved by shifting the position of the card with a violation of the contact of the probes with resistances. The fact of a change in the magnitude of the resistance is only fixed, but the reason for its occurrence is not controlled.

 The invention is an analogue of the TET-15 tariffifier by the method of storing and reading information using resistive elements, the information carrier in it is a paper (cardboard) or film-polymer (plastic) card, which provides a cheaper sale price, designed for a small number of services ( optimally two tariff cells), which does not require regeneration, is generally more attractive to the client.

 A similar prototype for the card material is the switching device developed by the Nizhny Novgorod Research Institute for Quartz, which is a removable unit for the AMT-69/2 payphone and uses a paper card for two calls. The principle of operation is capacitive, induction, non-contact [1].

 The advantages of the prototype are the low cost of the card material, the relatively low cost of its manufacture and, as a result, the low selling price in comparison with other types of cards.

 The prototype device contains a card receiving unit, an electronic circuit for determining the validity of a card, a mechanism for destroying a card asset and an electronic circuit for connecting a telephone circuit (providing a service).

 The drawing, applied with conductive paint on a paper card, provides when it is placed in the KU card-receiving unit, galvanic connection between two capacitive circuits, the capacitor plates of which serve, on the one hand, the elements of the card's pattern spaced by location and, on the other hand, metal elements corresponding to them in location electrodes on the printed circuit board of the card receiving unit. The dielectric material of the coupling capacitors is the varnish coating of the card pattern. When a valid card is inserted, the electrical vibrations of a generator built on one of the circuits are transferred to the other along the conductive part of the card drawing. The fact of such a transfer is established by the corresponding electronic circuit and is a sign of the validity (availability of an asset) of the card.

 A card rupture in the inter-circuit area (violation of the integrity of the conductive coating) leads to the termination of communication between the circuits, which is a signal to begin the action to provide a service - telephone communication between subscribers. In the described prototype, the card is destroyed by the client himself, who, upon hearing the response of the called subscriber, takes it out of the card-receiving unit of the switching device. Being captured by a special clip, the card is torn at the point of transition from one capacitive circuit to another.

 The main disadvantages of the used capacitive principle of storing and reading an asset, which determine the design of both the switching device itself and the payment card, are as follows.

 1). Lack of a system for direct measurement of the transmitted signal. The magnitude of the signal transmitted from one circuit to another is determined by a large number of electrophysical and structural parameters. The capacitive characteristics of the circuit depend on the thickness and properties of the varnish coating of the card pattern, the degree and uniformity of its pressing against the board of the KU card receiving unit (since air gaps can drastically change the dielectric characteristics of capacitors), on the accuracy of placing the card in the KU card receiving unit, which determines the combination of capacitor plates on the board and the card, from the resistance value of the conductive part of the card drawing connecting the two circuits.

 The scatter in these parameters, which is natural for the mass production of KUs and cards, forces us not only to use the threshold measurement method, which is transmitted to the second signal circuit according to the principle: there is a signal / no signal, but also strive to reduce the value of the shelf life. This, in turn, leads to low security of cards from the simplest fakes, such as shorting with metal household foil or a jumper applied with a soft pencil to the place where the card was torn, since these operations do not significantly affect the transfer coefficient. Moreover, the smaller the resistance value of a fake, the closer its parameters to the original.

 2). A change in the card asset when it is broken is a signal to start the provision of services. However, the same result can be achieved by shifting the position of the card relative to the capacitor plates without destroying it with a certain client skill. KU Nizhniy Novgorod NIPI "Quartz" is arranged in such a way that after the conversation is finished with the hanging up card, the card can be removed from the card-receiving unit without destroying it. Using the non-contact capacitive method does not allow you to clearly control the reason for the appearance of a signal about a change in the card’s asset and, therefore, effectively protect the payphone from a rough substitute for cards.

 3). The low threshold sensitivity of the method, high power consumption with limited current source (urban PBX station battery) do not allow the method of light indication of the correct position of the card in the card-receiving unit, the compliance of its asset with eligibility criteria, which deprives the customer of the convenience of using a payphone.

 The invention uses, in contrast to the Nizhny Novgorod prototype, a method of measuring the resistance of a resistive film element on a paper or plastic card using a contact method, followed by comparing its value with a given value and generating a control signal for the provision of services only if the card has resistance in strictly defined tolerances, a control method the position of the card at the time of the destruction of its asset, providing the client with information about the readiness of KU to provide the service and a warning about the upcoming end and the service (if necessary).

KU internal hardware contains
a) a contact node having four probes, two of which serve to measure the resistance value of the resistive film element, which is the tariff cell of the card, by applying a potential difference to the cell resistor, the third probe transfers the voltage of the resistance section between it and one of the measuring probes to the electronic circuit KU, establishing the fact of the correctness of the position of the card and its invariability during the entire preparatory operations and during the destruction of the asset of the card; the fourth probe, electropotential, is installed so that if a conductive layer not provided for by the design of the card is applied to the surface of the card, a potential appears on the probe that blocks the operation of the electronic circuit;
b) an electronic circuit consisting of a current generator and a comparator, the inputs of which are supplied with voltage from the measured resistive element and which determines the correspondence of the measured value to a given value; the electronic circuit also includes a logic analyzer, which, according to the results of data analysis from the signal comparator from the 3rd and 4th probes, as well as the device U of the destruction of the card cell, issues commands to the control device for generating signals to the actuators;
c) a light indication device built on an LED indicating the validity of the card and the correctness of its position in the card receiving unit KU; the indicator device serves to notify the client about the start of the service and its completion;
d) a device for destroying a card asset by briefly pressing a lever on a client; when a valid card is inserted, the client using this device starts the service delivery mode.

 The card of the switching device is a paper or film-polymer card, the dimensions of which are associated with the dimensions of the card receiving unit KU, and the rigidity allows the use of a probe system for measuring its asset. A card may have one or more paper or plastic layers, on the surface of which or between which, by various methods, including silk-screen printing, one or more single-layer or multi-layer resistive elements of a given geometry are applied. Each of these elements is designed to provide one service. The optimal number of resistive elements on one paper (film-polymer) card is two. Resistive elements are covered with an insulating material (including paper or plastic layer), in which at specified distances between them and at certain places on the card there are contact windows that ensure that when the card is inserted correctly, the three probes of the card reader are in simultaneous contact. An insulating coating (material) in the area of the fourth, electropotential, probe protects the resistor from the possibility of contact with the fourth probe.

 The card asset is changed by mechanical destruction of the tariff cell when the client presses a special lever (button) until it stops and releases it. In this case, the card is cut with a special knife along with the resistive layer.

The service is provided to the client only subject to a number of conditions
1. The card inserted into the card reader unit KU has a resistance value of the resistive element lying within predetermined limits.

 2. The card is inserted correctly, without distortions and offsets.

 3. On the surface of the card are not applied conductive layers that do not match the design of the card.

 When these conditions are met, the indicator KU informs the client about the readiness to provide services.

 4. The client, by briefly pressing the lever, destroys the asset of one tariff cell of the card. In this case, the electronic circuit KU generates a command to start the process of providing the service, if the conditions in paragraphs 2 and 3 have not changed. At the same time, the light indicator goes off.

 Structurally, the KU card-receiving unit and the payment card are made in such a way that the measuring probes are in contact with the resistive layer in the contact windows spaced along the length of the resistive element, while the third probe, which determines the position of the card, its immobility at the time of the destruction of the resistive layer, is installed in one contact window with one of the measuring probes at some distance from the latter, providing galvanic contact between them through a section of the resistive layer. Geometrical contact windows have dimensions that ensure the violation of contact with the resistor for a given angular skew of the card and its displacement. The second measuring probe contacts the resistive layer in the second contact window.

 With a correctly inserted card, all three probes are simultaneously in contact with the resistive layer.

 KU protection from fake cards is provided by the parameters of an electronic circuit configured to work with a card having a resistance value of the resistive layer that is within specified limits. At resistances lower or greater than the specified values, the circuit does not work, the indicator of readiness of the KU for work does not light, the command to execute the service is not given.

 The resistance value is provided by the choice of its geometric dimensions (length, width and thickness), as well as the use of special resistive material.

 The most suitable resistive materials for these purposes are various kinds of composite compositions used to create film resistances in the electronics industry. After application and heat treatment, monolithic layers are formed with the required set of parameters. The complexity of the compositions, the inaccessibility of their compositions and the impossibility of their manufacture in domestic conditions greatly complicate the falsification of cards with the application of resistances of the desired size.

 Protection of KU from counterfeit cards is also provided by the introduction of the fourth (electropotential) probe into the design, which covers one of the contact pads and, in contact with the surface of the card, removes the potential of its surface. If any foreign conductive layer connected to the contact pads is applied to the surface of the card (and only in this case it can be used as a resistance simulator), the fourth probe removes the potential of the contact point with the specified probe, transfers it to the electronic circuit KU, which blocks the output service teams.

 The fourth probe will perform the same function if an external resistance with a switch (to simulate the destruction of the resistive layer of the card) connected to the pads using wires applied (or glued) to the surface of the card is used as a resistance simulator.

 The slot of the KU card-receiving unit, designed for the introduction of a card, has dimensions conjugated with the dimensions of the cards, and does not allow any insulated wires to be inserted there simultaneously with the card base.

 The invention is implemented in a specific product switching device (KU) as part of a removable removable unit to a coin-operated public telephone payphone "AMT-69" and a two-layer paper card with resistive elements applied between the layers. KU allows payphone "AMT-69" to provide paid communication on the card. By February 1996 in trial operation there were about 100 payphones "AMT-69" with KU, made in accordance with this invention. The needs of communications enterprises, according to preliminary applications for 1996, amount to more than 1 thousand pieces of switching devices with the corresponding number of cards.

 The standard coin-operated payphone unit AMT-69 consists of a telephone circuit unit and a coin mechanism unit. The switching device is fully interfaced with the telephone circuit unit and is designed on the basis of a redesigned coin mechanism unit (see Figs. 1 and 2). Together they form a single removable unit, in their design parameters, connecting dimensions are completely interchangeable with the standard withdrawal unit of the AMT-69 payphone.

 The switching device consists of a card receiving unit 1 with 4 probes 2 to 5 (Fig. 1), the two outermost of which (2, 5) serve to measure the resistance of the card, the 3rd probe fixes the position of the card, the 4th probe potential, covers part of the map on its surface. The control unit contains an indicator device 6 with an LED that lights up when a valid card is inserted correctly, lights up after dialing until the client presses the “Answer” lever 7, which punch 8 (Fig. 2) destroys the card in the area of the resistive layer. During a call, the LED is off and 20 seconds before the end of the paid talk time, which is set at the request of the customer in the range from 1 to 10 minutes, starts to blink, and short beeps are heard in the handset 20, 10 and 1 s before the end of the conversation signals.

 On the panel 9 of the coin receiving unit, a board 10 is mounted with an electronic circuit powered by a telephone line. The switching device in the described embodiment provides a paid service by connecting the microphone of the telephone handset of the payphone to the line.

 A functional diagram of the electronic circuit board of the switching device is shown in FIG. 4. When removing the handset from the device’s lever, the KU preset circuit mutes the microphone, sets the timer to “zero”, and prepares the logic analyzer for operation. However, the mechanical dialer relay blocks the microphone mute signal if the number of dialed digits is less than 4. This, in turn, allows you to make free calls to city special communications (police, fire, ambulance, etc.). With a set of 4 or more digits, the microphone is muted and can be switched on by turning the microphone on (off) only with a valid signal from the logic analyzer when the "Answer" lever is pressed.

 When the card is inserted, the voltage from probes 2 and 5 is supplied to the comparator, which determines whether its value is within the specified limits. A signal of type "Yes", "No" comes from the comparator to the logic analyzer, which in turn receives signals from probes 3 and 4. If there is a signal "Yes" from the comparator and the necessary signals from the probes, the logic analyzer turns on the LED through the display control circuit . When the “Answer” lever is pressed, the logic analyzer starts the time report timer and turns on the microphone if the potentials on probes 3 and 4 have not changed. In turn, the timer includes, at a set time, a circuit for generating and transmitting warning tones and light signals to the line. After the set talk time, the timer turns off the microphone.

 The circuit contains reference voltage sources, powered, as already mentioned above, from a telephone line.

The paper card consists of two rectangle 1 and 2 cable paper glued together (Fig. 3) of the type KVM-120 GOST 645-79, each with a thickness of 120 - 130 microns and sizes 39 • 70.5 mm. Two resistive film elements 3 (Fig. 3), made of a suspension of resistive UKO.045.009 TU with a specific resistance of 200. ..250 Ohm / cm ² and a thickness of 15 μm, are applied in the form of two strips 3 mm wide parallel to the short sides of the card at a distance 5 mm from the edges of the card onto the paper layer 1 (Fig. 3) before gluing. During the application of the suspension layer on a paper base, the suspension is heat-treated in air for 5 minutes at +200 ^o C, followed by exposure at +12 ^o C ... 130 ^o C for 3 hours. As a result, a resistive element with a resistance of 300 ± 20 ohms / square. In the paper layer 2, rectangular holes 4 (Fig. 3) (contact "windows") of 2 × 7 mm in size are punched in such a way that they open for each resistor, when gluing between the glued layers, two areas for contacting with probes. Measuring probes along the length of the resistor are placed at a distance of 32 mm. The probe (Fig. 1) is located at a distance of 3 mm from one of the measuring ones, and they contact the resistor in one "window".

 All sizes and parameters given in this section are for reference only and may change with the improvement of the design of the control unit and the technology of manufacturing cards.

Claims (1)

 A switching device (KU) that manages the equipment for providing paid services using debit payment cards, consisting of an external element - a debit payment card containing resistive film elements that are carriers of the card’s asset, and an internal element containing a card-receiving unit, an electronic measurement and analysis circuit card asset, card asset change mechanism, electronic circuit for generating a command to executive mechanisms for the provision of services, characterized in that the external element represents a paper card from one or more layers of paper, contains one or more single-layer or multi-layer precision resistive film elements of a given geometry, each of which is a card asset cell and is designed to provide one service and is covered with an insulating material, including a paper layer, providing for each resistive element at least two contact "windows" spaced a predetermined distance between them and allowing simultaneous contacting with the resistive layer three probes when the card is inserted into the card receiving unit, as well as protecting the resistive film elements from direct contact with the fourth electropotential probe, and the internal element contains the card receiving unit, which includes four probes, two of which are measuring resistance values when the card is inserted, each of them is in contact with one and with the same resistor in spaced "windows", the third probe, the controller of the presence of the card and the immutability of its position when the card is destroyed in the region of the resistor element, contacts a resistor in one contact "window" of the card, together with one of the measuring probes, and transmits the potential of the resistor in the vicinity of the measuring probe, the fourth probe is a protective one that controls the quality of the insulating coating of the card by reading the electric potential of its surface and has a structural shape that determines the presence of a resistive surface on the card or a conductive film not provided by the card design, an electronic circuit that determines the presence of a card in the card-receiving unit by a signal from a third probe a, the correspondence of the resistance value of the resistive element to a given value according to the signals from the measuring probes, the absence of conductive layers on the card surface that are not included in its design according to the signal from the fourth probe and generating a signal that the control unit is ready for operation, an indicator device indicating the correct position of the card in the card receiving unit and the correspondence of the resistor to the specified resistance value, the mechanical node of the destruction of the resistive film element of the card together with the corresponding section of the card, pr activated by means of a lever or button mechanism by pushing it all the way and releasing upon receipt of information from the indicator device about the suitability of the card and the readiness of the control unit for work, an electronic circuit that generates a command for the executive mechanism to provide services when the signal of readiness of the control panel, the signal about destruction resistance and signal from the invariance of the position of the card in the card-receiving unit during its destruction, an electronic switch located in the stop position of the lever or push-button destruction unit asset, fixing the fact of pressing a lever or button and releasing them and launching an electronic circuit for generating a command to the executive mechanism for the provision of services.

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