NL9200885A - Single-use disposable chip card - Google Patents

Abstract

The present invention relates to a single-use disposable chip card. The invention is characterized in that the data transmissions from and to the chip, possibly together with a clock signal, and the electrical supply of the chip take place via two contact points which are arranged on opposite sides of the card and likewise are arranged, via a very simple joining technique, on contact areas on the top and bottom of the chip. Another characterizing feature is that the signal transmission is compatible with non-contact card systems, thus allowing virtually the same infrastructure to be used for read-out and optional programming of the cards.

Description

Disposable single-use chip card.

The present invention relates to a disposable single-use chip card for, for example, public transport in buses, trams, metro and train or as an entrance ticket for a one-off ride in ski areas or as an entrance ticket at football matches or, for example, in parking systems.

The object of the invention is to create an opportunity to produce a disposable ticket at low cost that is as compatible as possible with the contactless identification systems produced by the applicant, so that the infrastructure with regard to the transceivers for these contactless systems can also be maximized are used to read and possibly write down these tickets. In these contactless identification and registration systems equipped with an integrated electronic circuit, both energy and data transfer may take place together with a clock signal to and from the card via a single coil. In order to be as compatible as possible, the data transfer as well as the energy supply and possibly the transfer of a clock signal to and from the chip in the card according to the present invention therefore takes place via two contacts. The data protocols and the structure of the data can then be fully compatible with the contactless systems described above. A great advantage of a ticket according to the invention is furthermore, the high degree of security of the data and the difficulty, by using an electronic chip in which the data is stored, to copy this ticket, in contrast to for instance tickets provided of magnetic strips.

In order to produce the cheapest possible ticket, it is necessary to avoid complicated production techniques. The card according to the invention therefore consists exclusively of an electronic chip, a plastic or paper carrier and two contacts. It is characteristic that these contacts are connected on either side of the chip, i.e. on relatively large contact surfaces. A relatively expensive carrier for the chip, as well as the relatively expensive bonding or connection of the contact pads to the chip and the covering with, for example, epoxy material, are omitted. The invention will be described and elucidated with reference to Figure 1.

Figure 1 shows a card (1), for example, with dimensions corresponding to the commonly used magnetic cards, with underneath a tenfold enlarged section along the line (4). At a position centrally in the card, a square opening is punched, in which the electronic chip (2) is mounted. This electronic chip contains, inter alia, a memory in which the data can be stored and is designed such that the silicon on which the integrated circuits are arranged forms one of the two connection surfaces to the chip. The other connection surface is formed by one large connection path, which is arranged over almost the entire chip surface on the opposite side. In addition to, for example, programmable memory, the chip contains electronic circuits for modulating and demodulating the data to and from the chip, possibly together with a clock signal, on and of the electrical supply, which is also supplied to the chip via the same contacts. The connection surfaces (3) and (5) are arranged on both sides of the card (1) and of the chip (2). These consist, for example, of a seal of thin aluminum foil, which is glued on both sides of the card (1) and on the chip (2) with electrically conductive glue.

If the modulation of the data on the power supply is performed in such a way that there is always sufficient supply voltage on the chip, then no buffer capacitors need be applied to the chip, so that the required chip area can be kept to a minimum.

By making the card (1) slightly thinner than the chip (2), this chip will protrude slightly above the surface of the card on either side, creating a better connection between the aluminum foil and the chip. Of course, this technique can also be applied in cards of other dimensions than as described.

Claims (4)

1. Disposable chip card, for example for single use in a system, possibly together with contactless chip cards, characterized in that this card is provided with an electronic chip, in which both the electrical supply of this chip and the data transfer, possibly together with a clock signal, to and from this chip takes place via only two contact points, which are arranged on, or which are electrically connected to, the bottom surface and the top surface of this electronic chip, respectively, the bottom surface consisting of the material, for example silicon, on which the integrated electronic circuit is constructed and the top surface consists of a final conductive layer, which covers all or part of the built-up integrated electronic circuit. Disposable chip card, for example, for single use in a system, possibly together with contactless chip cards, according to claim 1, characterized in that the contact points arranged on either side of the card consist of thin pieces of metal foil of, for example, aluminum, which are provided with the aid of electrically conductive glue on the card as well as directly on the connection surfaces, which are located on the bottom and top of the chip. Disposable chip card, for example, for single use in a system, possibly together with contactless chip cards, according to one or both of the preceding claims, characterized in that the data transfer to and from this card with regard to the data modulation technique and optionally the transfer of a clock signal is compatible. contactless data transfer via a coil, so that this data can also be read and, if necessary, programmed via a minimal extension of the contactless transmitter / receiver. Disposable chip card, for instance for single use in a system, possibly together with contactless chip cards, according to one or more of the preceding claims, characterized in that the thickness of the chip is chosen a fraction larger than the thickness of the card material surrounding the chip, in order to in this way to create an optimum electrically conductive connection between the contact foil on both sides of the card and the chip.