DE10261097A1 - Method for releasing a data transmission between a read / write device and at least one mobile data memory, as well as read / write device and identification system for such a method - Google Patents

Abstract

The invention relates to a method for releasing data transmission between a read / write device (SLG1, SLG2) and at least one mobile data memory (DT1-DT6), a cyclic (ZT) RF carrier signal (TS ) is generated and sent. This signal is linearly frequency modulated in a frequency band (FH). A reflected RF carrier signal (RS) received by the data memory is mixed with the generated RF carrier signal to form a frequency difference signal (FDS) (MIX). A distance value (DIST ') is then determined, which represents the distance (DIST1) between the read / write device and the respective data memory. The distance value is formed from the ratio of the frequency difference (dF) in the frequency difference signal to the frequency band. An enable signal (FS) for data transmission is formed if the distance value is less than a predefinable limit value (GW). This means that read / write devices and mobile data storage devices can be installed closer together without undesired interference between them. The invention further relates to a read / write device and an identification system for carrying out such a method.

Description

The invention relates to a method to release a data transfer between a read / write device and at least one mobile data storage, in particular in a Identification system with at least one attached to objects mobile data storage for recording object-related status and / or process data e.g. in a shipping, transportation and / or Manufacturing system of the individual objects.

Identification systems are state of the art known that contain one or more stationary read / write devices, what data with mobile data storage via a usually on radio based data transmission path contactless change. Such systems are used in technical facilities used in which a variety of objects or goods as quickly as possible and have to be moved freely. The objects can be of various types, e.g. Parcels in a shipping facility, Assembly parts in a manufacturing plant, luggage in a transport system and much more.

An example of such an identification system is in the ISO-18000-4-MOD3 standard with the title "Radio-frequency Identification Standard for Item Management - Air Interface ".

The standard provides that through the read / write device there is a query for the presence of a mobile data memory in the detection area. The read / write device sends an unmodulated first carrier signal with a fixed carrier frequency, e.g. with a frequency of 2.45 GHz. This carrier signal can be passive from a mobile data storage located in the reception area e.g. sent back to the read / write device by so-called "back scattering" become.

Regardless of this, the mobile modulates Data storage the impedance or the carrier phase of a in the mobile data storage integrated transmit / receive antenna in cyclic sequences with a significant recognition sequence to identify the mobile Data storage in a read / write device. Is that returned? and first carrier signal modulated with the recognition sequence from the read / write device receivable and valid has been recognized, this creates another carrier signal. With the mooring of the second carrier signal the read / write device signals the mobile data memory, that a data transfer will follow. The second carrier signal is therefore for the data transmission modulated. This carrier signal is from the mobile data storage cyclically and at short intervals an existence is queried. If this is the case, the mobile can Data storage the data recipient for the Switch on the following data transmission.

When operating two or more, in particular of read / write devices arranged close to one another and mobile data storage, e.g. in neighboring production lines, that occurs Problem on that unwanted Interference caused by lack of distinction between neighboring read / write devices and mobile ones Data storage occur. Interferences can e.g. Overreach of the The reception area of a read / write device is determined by metallic surfaces in the area of the production line. This makes it e.g. possible that it an undesirable Data transfer between the read / write device the first production line and a mobile data storage device of the second production line. The consequence of this can disorders be in the manufacturing process or in the logistics of manufacturing.

The invention is based on the object Method for releasing a data transmission between a read / write device and at least one offer mobile data storage. Furthermore, a read / write device and Identification system for such a procedure can be offered.

This task is accomplished through a process solved with the features of claim 1. Advantageous process variants are in the subclaims 2 to 9 described.

The method can also be advantageous in an identification system with at least one of objects attached mobile data storage for the acquisition of object-related Status and / or process data are operated.

For the read / write device is the task by the features of claim 10 and for the identification system solved by the features of claim 11.

In the method according to the invention to release a data transfer between a read / write device and at least one mobile data store is in at least one transmission channel with multiple channels a sinusoidal and cyclically repeated RF carrier signal generated and then sent. The RF carrier signal is in one Frequency band linear between a lower and upper frequency of the Frequency band frequency modulated. Then one of the respective received and transmitted with mobile data storage reflected RF carrier signal the generated RF carrier signal in the read / write device mixed into a frequency difference signal. A distance value is then determined, the distance between the read / write device and the respective mobile data storage represents. The distance value is the ratio of the current frequency difference in the frequency difference signal to the frequency band of the RF carrier signal educated. It will eventually an enable signal for data transmission between the read / write device and the respective mobile data storage, if the distance value is less than a specifiable limit.

This is particularly close to each other other arranged read / write devices and mobile data storage allows a distance determination between individual read / write devices and mobile data storage. This means that read / write devices and mobile data storage devices can be installed at a closer distance from one another without undesired interference caused by the lack of differentiation between adjacent read / write devices and mobile data storage devices.

According to an advantageous process variant the mixed frequency difference signal subsequently integrated. The temporal integration acts like a filtering, which one increase of the signal-to-noise ratio. With the reflected signals with different phase positions a distance determination can then be carried out, using such methods with signals of different frequencies and their evaluation regarding their phase position is known per se.

The method according to the invention is advantageous an enable signal is only formed if one of the respective Mobile data storage modulated received in the reflected RF signal Data storage identification as valid has been recognized. Not for the respective read / write device certain mobile data storage devices are consequently no longer considered. It can then be followed by the actual user information that follows can be read from the mobile data memory. As described at the beginning, the data storage recognition and the useful information are modulated using the backscatter process.

In the case of a valid data storage identifier is another according to the invention and data-modulated RF carrier signal for data transmission from Read / write device generated and sent to the respective mobile data storage, if it is according to the disk identifier is a mobile data storage device which also receives and can save.

According to an advantageous process variant the distance measurement in a transmission channel with four channels carried out. Signals of different frequencies are used on the individual channels sent out.

The method according to the invention is advantageous to release a data transfer to the ISO 18000-4-MOD3 standard transmission method ajar and takes over under modification at least one channel present there.

Adapting the ISO-18000-4-MOD3 standard can the transmission channel comply with the notification channel of the ISO-18000-4-MOD3 standard. U.U. can do this also at least one channel of the communication channel accordingly the above Standard.

With the respective assignment, the channels of the transmission channel R2 channels be in the notification channel of the ISO 18000-4-MOD3 standard.

The read / write device according to the invention and the serve identification system according to the invention to use the described method according to the invention and can thus to carry out a release of a data transfer between read / write device and mobile data storage can be used.

The invention is based on the following Figures closer explained. It shows

1 : an example of the use of two read / write devices and several mobile data storage devices on two neighboring production lines,

2 : an exemplary data structure of a transmission channel,

3 : an exemplary cyclic and frequency-modulated RF carrier signal and an associated reflected RF carrier signal in a common representation, and

4 : An exemplary structure of a radar unit of a read / write device for performing the method according to the invention.

1 shows an example of the use of two read / write devices SLG1, SLG2 and several mobile data memories DT1-DT6 on two adjacent production lines F1, F2. The mobile data storage devices DT1-DT6 can be attached to wagons or goods to identify them, for example. Furthermore, the respective desired communication area KB1, KB2 with the associated communication distance DIST1, DIST2 of the read / write device SLG1, SLG2 is shown. In this case, the two identification systems, consisting of the two read / write devices SLG1, SLG2 and the associated mobile data memories DT1-DT6, do not interfere. A distortion of the communication area is possible due to the metallic surfaces mentioned at the beginning as an example. This is shown in the example of the figure. For this purpose, a distorted communication area VE1 of the read / write device SLG 1 can be seen in broken lines, in which the undesired mobile data memory DT5 is now located.

2 shows an exemplary transmission channel of a mobile data memory DT1-DT6, which corresponds to the notification channel based on the ISO-18000-4-MOD3 standard. When carrying out a distance measurement, one or more of the channels K1 to K4 are now provided, which are used for the distance measurement according to the method known per se. Based on the ISO-18000-4-MOD3 standard, these channels K1 to K4 correspond to the R2 channels in the notification channel of the ISO-18000-4-MOD3 standard.

3 shows an exemplary cyclic ZT and frequency-modulated RF carrier signal TS and an associated reflected RF carrier signal RS in a common representation in a time / Fre quenz diagram t, f. The two RF signals TS, RS have a linear frequency profile between the two frequencies f1, f2 according to a sawtooth curve. On the basis of the above-mentioned standard, the frequency shift FH, ie the difference between the two frequencies, can be 80 MHz in order to achieve sufficient accuracy for the distance measurement. The two frequencies f1, f2 themselves can be, for example, in a frequency range from approximately 2.4 GHz to 2.5 GHz. The figure also shows the transit time difference dT between the transmitted TS and the reflected RS HF carrier signal and the difference frequency dF present for a selected point in time.

4 shows an exemplary structure of a radar unit RAD of a read / write device SLG1 for performing the method according to the invention. A sawtooth generator SG, which controls a voltage-dependent frequency generator VCO, is used to generate the sawtooth-shaped RF carrier signal TS. The generated RF carrier signal TS is then transmitted or emitted as an electromagnetic wave TW via a transmitting antenna ANT1. These "radar waves" can be passively reflected or backscattered by a backscatter antenna BSA from a mobile data memory DT1-DT6 located nearby. Independently of this, the respective mobile data memory DT1-DT6 modulates its backscatter antenna BSA in order to cyclically transmit data, such as, for example the data memory identifier SIG to modulate the reflected RF carrier signal RS. The backscattered “radar waves” RW are received by a receiving antenna ANT2 of the read / write device SLG1 as a further RF carrier signal RS and at the same time by means of the RF carrier signal TS intended for the radiation a mixer MIX mixed to form a frequency difference signal FDS. This signal FDS can subsequently be filtered FIL by interfering frequency components. The difference frequency dF formed in the frequency difference signal FDS is then proportional to the signal transit time dT between the emitted and reflected RF carrier signal TS, RS. Difference frequency dF - linked via the constant speed of light for the propagation speed of the "radar waves" TW, RW - is also proportional to the distance DIST between the read / write device SLG and the respective mobile data memory DT1-DT6. The arithmetically simulated distance value DIST 'then becomes with a limit value GW that can be stored in the read / write device SLG1 by means of a comparator CMP If the distance value DIST 'is smaller than the limit value GW or in other words the respective mobile data memory DT1-DT2 is within a permissible predeterminable communication range KB1, then an enable signal is generated FG is forwarded to the signal processing unit SV of the read / write device SLG. The data modulated in the data signal DS and by the mobile data memory DT1-DT6 can then be further processed. The read / write devices SLG1, SLG2 and the mobile data memory DT1-DT6 can also be used smaller distance DIST1, DIST2 z can be installed with each other without undesirable interference due to the lack of differentiation between adjacent read / write devices SLG1, SLG2 and mobile data storage device DT1-DT6.

Claims (11)

Procedure for releasing a data transfer between a read / write device (SLG1, SLG2) and at least one mobile data memory (DT1-DT6), in at least a transmission channel (N-CH) with multiple channels (K1-K4) a) a sinusoidal and cyclically (ZT) repeated RF carrier signal (TS) is generated and transmitted, which is in a frequency band (FH) is linear frequency modulated, b) a reflected RF carrier signal (RS) received and with the generated RF carrier signal (TS) to a frequency difference signal (FDS) is mixed (MIX), c) a distance value (DIST ') is determined, which the distance (DIST1) between read / write device (SLG1) and the respective mobile data memory (DT1-DT6) and which one out of proportion of the current frequency difference (dF) in the frequency difference signal (FDS) to the frequency band (FH) of the RF carrier signal (TS) is formed, and d) an enable signal (FG) for data transmission between the read / write device (SLG1) and the respective mobile data memory (DT1-DT6) is formed, if the distance value (DIST ') is less than a predefinable limit value (GW). The method of claim 1, wherein the mixed (MIX) Frequency difference signal (FDS) is subsequently integrated. A method according to claim 1 or 2, wherein an enable signal (FG) is only formed if one from the respective mobile data storage (DT1-DT6) modulated data storage recognition received in the reflected RF signal (TS) (SIG) valid is. Method according to one of claims 1 to 3, wherein after formation the release signal (FG) another and modulated RF carrier signal for data transmission from the read / write device (SLG1) to the respective mobile data storage device (DT1-DT6). Method according to one of the preceding claims, wherein the transmission channel (N-CH) four channels (K1-K4). Method according to one of the preceding claims, wherein the method to the ISO-18000-4-MOD3 standard is based. The method of claim 6, wherein the transmission channel corresponds to the notification channel of the ISO-18000-4-MOD3 standard. Method according to one of claims 6 or 7, wherein the channels (K1-K4) in the transmission channel (N-CH) the R2 channels in the notification channel according to the ISO-18000-4-MOD3 standard. Use of the method according to one of the preceding Expectations in an identification system with at least one of objects attached mobile data storage (DT1-DT6) for the acquisition of object-related Status and / or process data. Read / write device (SLG1, SLG2), in particular in an identification system for data transmission with at least one mobile data storage device attached to objects (DT1-DT6), for implementation of the method according to one of claims 1 to 9. Identification system for the acquisition of object-related Status and / or process data, with at least one read / write device (SLG1, SLG2) according to claim 10 and at least one mobile data memory (DT1-DT6).