DE202007001285U1 - RFID reader and RFID chip with crystals as a signal body - Google Patents

Abstract

RFID chip with an antenna, an analogue circuit for receiving and Send (transponder), as well as a digital circuit and a permanent memory, wherein the RFID chip (7) via a radio wave connection with a RFID reader (11) communicates, characterized in that at least the RFID chip (7) at least one crystal (5) is arranged upstream, by the radio waves is excited to shine.

Description

The Innovation relates to an RFID reader and an RFID chip with crystals as a signal body. field of use are all Applications where RFID chips in the form of tags, tags, signalers and the like, and with one or more readers via radio waves communicate. Such RFID chips can also be used in radio remote controls used for motor vehicles become.

Of the Structure of an RFID transponder sees in principle an antenna, a analogue circuit for receiving and transmitting (transponder), as well as a digital circuit and a permanent memory before. The digital one Circuitry is a Von Neumann architecture for more complex models.

RFID transponder can over one have multiple writable memory in which during the Lifetime information can be stored.

To Application area also differ the other key figures such as B. radio frequency, transmission rate, Lifetime, cost per unit, storage space, read range and Functions.

in principle The RFID communication works as follows: The reader generates a high - frequency electromagnetic alternating field, which the Antenna of the RFID transponder receives. In the antenna coil arises, as soon as they are close of the electromagnetic field comes, induction current. This activated the microchip in the RFID tag. The induced current is at Passive tags also charge a capacitor, which is durable Power supply of the chip provides. This takes over one active tag built-in battery.

is Once activated, the microchip receives commands from the reader modulated into its magnetic field. By the day an answer modulated into the field emitted by the reader, he sends his serial number or other data requested by the reader.

The tag itself does not send a field, but only changes the electromagnetic field of the reader. Here, the RF tags differ at 13.56 MHz from the UHF tags to 865-869 MHz (European frequencies):
HF tags use load modulation, which means they consume the energy of the alternating magnetic field by short-circuiting. This can detect the reader. By bonding to the alternating magnetic field, this technique works exclusively in the near field. The antennas of a Nahfeldtags therefore form a coil.

UHF Tags use the far-field electromagnetic field to transmit the answer, the process is called backscattering. Here is the electromagnetic wave either absorbed or with as possible great Backscatter reflected. The antennas are usually dipoles, the Chip sits in the middle of the RFID tag.

There the power supply of the microchip in both processes throughout must be covered (a commercial UHF tag with Phillips chip according to EPC 1.19 Standard required for the chip about 0.35 microamps of power), the reader needs a permanent Create field. This is called in the UHF range "Continuous Wave" the fact that the field strength square decreases with distance and this distance in both Directions - from reader to the day and back - covered must be, this Continuous Wave must be quite powerful. Usually used here between 0.5 and 2 watts EIRP.

To the Read out the tags are in the UHF range 10 free channels with a Power of 2 watts available. All channels extend over a width of 200 kHz. The tag response is done by modulating the response signal at 200 kHz to the CW, thereby creating a Sideband 200 kHz above and below this CW, so it lies exactly in a neighboring canal.

The Innovation also affects active RFID chips, which come with a built-in Power supply are provided and over a period of several Years are able to send out active radio waves by the reader be received and evaluated.

It was perceived as insufficient, the radio communication between one reader and a transponder chip can not be visually recognized. Out Fear of losing the so-called informal self-determination there is even a campaign called "StopRFID." Such fears could be caused by visualization of the traffic.

Of the Innovation is therefore the object of an RFID reader and possibly also to form the RFID chip in communication with him in such a way that the traffic can be made visually visible.

To solve the problem, the innovation is characterized in that at least on the RFID chip at least one crystal body is arranged, which is interspersed by the radio waves and thus excited to optically visible radiation.

In order to There is the advantage that the radio traffic between a RFID reader and that of it can be made visible to him controlled RFID chip (and vice versa). It is aesthetically pleasing appealing effects, the RFID chip, which is designed as a keychain is to light up.

In A further development of the innovation is envisaged that such a crystal body also on the RFID reader is arranged and interspersed by the radio waves and in such a way to optically visible radiation is excited.

The Innovation is not limited to only - for example - at the Front of reader and chip to arrange a crystal body, by radio waves is interspersed. In a continuing education can also on the back a crystal body be arranged, consisting of one same or another, by Radio waves to visible radiation excitable material.

As well can Reader and / or RFID chip completely in a crystal body be embedded.

It This results in impressive visual effects, because the reader and / or the chip light up during of radio communication (mysterious) in the form of a (single or multi-colored) Crystal structure.

is the RFID chip in a crystal body embedded, which formed as a key chain is, then the carrier can key fob's "his" RFID chip mysteriously as soon as it enters the radio range of an RFID reader.

Vice versa the user also sees by lighting up the crystal structure of the Reader, where the reader is located. This can - in addition to the Creating impressive visual effects - even fears of anonymous, data-collecting devices contained become.

One Crystal is a, from a special composition of the starting materials made glass-like Material that impresses in its purity and color. (Globally known manufacturer of crystals is for example the company Swarovski in Austria). This artificial Crystal can have any shape and is usually used in finishing ground. In addition to these artificial Crystals, the invention also relates to the use of natural Crystals.

Natural crystals have a higher one Density as their amorphous counterparts. Non-metallic inorganic crystals are harder, but also more brittle. All As a rule, metals solidify in crystalline form.

The The behavior of light in crystals is described by the crystal look. Important related properties and phenomena are the optical activity, the polarization, birefringence and pleochroism. Periodic dielectric Structures, so-called photonic crystals, show novel optical properties.

Lots Gemstones are especially beautiful and size Crystals of different minerals. The rock crystal is one colorless variant of quartz crystal, the violet variant is the amethyst. The diamond is a crystalline one Form of carbon and the hardest Naturally occurring mineral. Silicon also crystallizes in the diamond lattice. It is probably the substance that is most abundant in large quantities monocrystalline is used (semiconductor technology). In contrast to gallium arsenide (GaAs) has the so-called zincblende structure.

All Crystals have metallized or ionizable surfaces that excited by radio waves to an optically visible radiation can be.

The Invention is accordingly that a RFID chip (Radio Frequency Identification) so with a (or two) crystals combined, it is used for identification on access control readers, time attendance devices, closet lock systems, but also for cashless payments or any other applications which can be realized with such an RFID chip used can be.

there It should be noted that behind the crystal both an active, as well as a passive RFID chip can be located.

The Idea is, a, otherwise only to the design of design diverse Elements such as facades, chandeliers, jewelery, etc. used crystal, so to combine with the electronic chip, making it a completely new Field of application for this Product is created.

The The challenge lies in placing the RFID chip between the crystals to place that despite the metallic coatings of the crystals (Metal dampens the reading field to a large extent) a data exchange between reader and RFID chip in the trailer (tag or key fob) yet given to that extent is that a flawless function in the various applications guaranteed is.

In a further embodiment of the new The reader is also equipped with the crystal bodies.

The Invention is that one or more crystal (s) so in an RFID reader for passive or active RFID chips is integrated, that he through the additionally placed lamps (e.g., LED's) ideal as a signal body with special design for the operator guidance be used. (For example, crystals glow red means "none Access authorization, crystals glow green means "door unlocked, access authorization available).

The outstanding idea is, one, otherwise only to the designerischen Design of various elements such as facades, chandeliers, jewelery etc used crystal so with electronic RFID reading electronics to combine that into a whole new field of application for this Product is created. (E.g.

Access control, but also other old applications that work with an RFID chip).

The The challenge is to make the crystal so decorative and electronic elements combine that both the function of the RF reading field, the operator control over Guaranteed light effects in the crystal and yet the high priority of the overall design is its consideration place.

So were e.g. with the readers in the representation the designerischen Elements made of chrome steel at the same time as an inductance for the antenna used. This setup can vary depending on customer needs change as you like.

Of the Subject of the present innovation does not arise only from the subject of the individual claims, but also from the combination the individual protection claims among themselves.

All in the documents, including Summary of information and features, in particular the spatial training shown in the drawings as claimed essential to the invention, as far as they individually or in Combination opposite the prior art are new.

It demonstrate:

1 Key fob with RFID chip in a crystal body in two different versions

2 the key fob in side view

3 the key fob in exploded view

4 RFID reader with red and green signal lights, 1st version

5 RFID reader with red and green signal lights, 2nd version

6 RFID reader with red and green signal lights, 3rd version

In the 1 to 3 are two different versions of a key fob 1 shown. The key fob consists of a ring 2 , a chain attached to it 3 and a housing attached thereto 4 ,

In the upper half of the figure is a key fob with one on the front and back of the case 4 arranged crystal 5 shown while the lower half of the figure a key chain 1 with a crystal arranged only on one side of the housing 5 shows. The housing may be made of metal, wood, a composite material or plastic.

The Crystals are disc-shaped Elements that consist here of cut lead glass and on the surface are slightly cambered.

In both versions, it is important that in the interior of the housing a disc-shaped RFID chip 7 which is spaced apart from the surface parallel to the surface of the crystal 5 is attached. As spacers are non-metallic spacers 6 . 8th used, which are well-permeable to radio waves.

Instead of using spacers 6 . 8th can also webs, projections and the like. Be arranged in the housing, which the RFID chip 7 at a distance to the parallel surfaces of the crystal 5 hold. The spacers then omitted.

The 4 to 6 show a reader 11 with a transmitter integrated therein and a receiver. It is important that the transmitting antenna is integrated in a crystal body or the transmitting beams of the transmitting antenna, the crystal 5 penetrate, so that it is excited to radiation. The nature of the crystal and its luminous surfaces can be chosen so that the crystal shines red in radio traffic (see 4 - 6 , upper half of the illustration) or green (see 4 - 6 , lower half of the illustration).

Of course, the invention is not limited to brin the crystal only by the action of radio waves to shine In addition or in isolation, an active light source (eg an LED) can also be arranged, which is either visible itself or emits the crystal.

The transmitting antenna is as a decorative element 9 trained the crystal 5 surrounds.

1

key Chain

2

ring

3

Chain

4

casing

5

crystal

6

spacer

7

chip

8th

spacer

9

decorative element

10

holder

11

reader

Claims (9)

RFID chip with an antenna, an analogue circuit for receiving and transmitting (transponder), as well as a digital circuit and a permanent memory, wherein the RFID chip ( 7 ) via a radio-wave connection with an RFID reader ( 11 ) communicates, characterized in that at least the RFID chip ( 7 ) at least one crystal ( 5 ), which is excited by the radio waves to shine. RFID chip according to claim 1, characterized in that the crystal ( 5 ) is a lead crystal (glass element). RFID chip according to claim 1, characterized that the crystal is a natural one Crystal is. RFID chip according to claim 1, characterized in that the luminous body in which the chip ( 7 ) is composed of a body ionizable by radio waves which emits visible light upon ionization. RFID chip according to one of claims 1 to 4, characterized in that the chip ( 7 ) works actively. RFID chip according to one of claims 1 to 4, characterized in that the chip ( 7 ) works passively. RFID reader with a transmitter and a receiver that in radio contact with an RFID chip, characterized in that that a crystal body on the RFID reader is arranged and interspersed by the radio waves and in such a way to the optical visible radiation is excited. RFID reader according to claim 7, characterized that one or more crystal (s) so in a RFID reader for passive or active RFID chips is integrated, that he placed through the addition Lamps (e.g., LED's) ideal as a signal body with special design for the operator guidance be used. RFID reader according to claim 7 or 8, characterized that a purely different to the design design Elements such as facades, chandeliers, jewelery, etc. used crystal so combined with electronic RFID reading electronics is that from it completely new application for this product is created