DE29825268U1 - stopover - Google Patents

Abstract

stopover (10) with a radio transmitting and receiving unit (35), characterized in that the intermediate station (10) has a Interface (45) for a transmission optical data signals between a first terminal (1) and the intermediate station (10), in particular in an infrared frequency range, comprising that in the intermediate station (10) a conversion between the optical data signals and radio data signals takes place and that the Radio data signals via the radio transmission and reception unit (35) transferable between the intermediate station (10) and a base station (5) are.

Description

State of the art

The Invention is based on an intermediate station according to the preamble of the independent claim 1 off.

method for wireless data transfer between a terminal and a base station are already known and are used for cordless telephony applied. Dancall also offers the DECT Repeater "RP8001" (DECT = Digital Enhanced Cordless Telecommunications) acting as a relay station in a cordless telephone system designed as a DECT system works and enlarges an existing radio cell. Such a DECT repeater is usually placed on the edge of a radio cell. A trained as a DECT handset Cordless phone can be outside the radio cell, that is too big Distance from the radio cell spanning base station one connection build up to the DECT repeater. The DECT repeater then builds connects to the base station and forwards the data the DECT handset and the base station transparent. Of the DECT repeater thus acts in the direction of the DECT handset as a Base station and towards the base station like a DECT handset.

Out the radio show 19/95 it is known, data between computer and Printers or phones wirelessly in an infrared frequency range transferred to, the optically coupled devices in this way respectively an infrared interface, for example according to the IrDA standard (Infrared Data Association). Such IrDA interfaces are already in portable personal computers, PDAs (Personal Digital Assistants), printers etc. installed.

The EP-A 585 030 shows a procedure according to which a handset is connected to a mobile unit, which in turn can establish a radio connection to a telecommunications network.

The same applies to the EP-A 748 139 , Again, a PC is connected via a wireless interface to a mobile device, which in turn can transmit data in a telecommunications network.

Advantages of the invention

The inventive intermediate station with the characteristics of the independent Claim 1 has the opposite the advantage of having data between the terminal and one in a radio cell the base station arranged intermediate station transmitted by optical signals and that the data between the intermediate station and the base station through Radio signals, preferably transmitted according to the DECT standard become. That way you can terminals with an optical transmitting and / or receiving unit with the trained for radio communication Base station communicate. Thus, by means of the intermediate station in a simple way a transition of terminals with optical interface in a radio system allows.

By in the subclaims listed activities are advantageous developments and improvements of the independent claim 1 specified intermediate station possible.

Especially it is advantageous that at a connection request of the terminal from the intermediate station a radio channel is switched to the base station. Thus, the terminal with the optical interface in a particularly simple manner to the radio communication system connected, with for this connection conventional Radio channel can be set up. To the base station must therefore no special access points possibly still be connected by suitable wiring, the one organize optical data exchange with the appropriate terminal. Rather, it can affect the existing infrastructure of the radio system Integration of the terminal used with optical interface which saves effort and costs.

One Another advantage is that of the base station received data to a connected data or telecommunications network become. The cordless telephony system can thus be used both locally as well as public networks be coupled so that from the terminal with optical interface Access to remote, connected to the data or telecommunications network Calculator possible is. Since the access over the Radio system is done, is not a separate interface of the optical transmission system to the local or public Network required.

A further advantage consists in that the intermediate station radiates radio signals derived from radio signals received by a second terminal to the base station. In this way, the functionality of the intermediate station is considerably extended by the intermediate station acts both as a repeater for located outside of the base station spanned radio cell located wireless devices or cordless telephones, as well as the transition of terminals with optical interface in the radio system allows. Due to the integration of the repeater function for trained as radios or cordless telephones terminals and the transition of terminals with optical interface in the radio system in a single intermediate station effort and Saved costs, so that no separate intermediate station is required for the transition of the terminals with optical interface in the radio system.

drawing

An embodiment of the invention is illustrated in the drawing and explained in more detail in the following description. Show it 1 a block diagram of a radio system to which a terminal is connected with an optical interface, and 2 a flowchart for the operation of the method according to the invention.

Description of the embodiment

In 1 features 5 a base station of, for example, a cordless telephone system. The cordless telephone system can be based, for example, the DECT standard. However, the radio system can also be a mobile radio system, for example, according to the GSM standard. To the base station 5 is a first transmit / receive antenna 50 connected. The base station 5 spans a radio cell 65 on. To the base station 5 can a printer 30 connected according to 1 within the radio cell 65 but also outside the radio cell 65 could be located. Alternatively or in addition to the printer 30 can to the base station 5 at least one data or telecommunication network 15 . 20 . 25 be connected. This can be a local or public network. According to the embodiment according to 1 is the base station 5 to an ISDN network 15 (Integrated Services Data Network), a local area network 20 and a trained as Internet data network 25 connected. In this way, the base station 5 with subscribers of these data or telecommunication networks 15 . 20 . 25 communicate. These participants can be far outside the radio cell 65 be arranged. Inside the radio cell 65 but preferably in an edge region of the radio cell 65 is a stopover 10 arranged. The stopover 10 comprises a radio transmitter / receiver unit 35 to which a second transmit / receive antenna 55 connected. Between the waypoint 10 and the base station 5 can thus be a first radio connection 70 be constructed, which may be a DECT radio connection, a GSM radio connection or the like depending on the use of the underlying radio standard. In the described embodiment, the DECT standard is used, so that the first radio link 70 represents a DECT radio connection. Outside the radio cell 60 there is a second terminal 40 , which may be formed as a cordless telephone, as a mobile phone, as a mobile device, as a handheld radio, as a work radio or the like. In the present example, the second terminal 40 be designed as a cordless phone according to the DECT standard. To the second terminal 40 is a third transmit / receive antenna 60 connected. Between the second terminal 40 and the waypoint 10 can have a second radio connection 75 be constructed, which is based on the DECT standard according to the described embodiment. The stopover 10 thus operates as a relay station in the described radio system and thereby increases the range of the base station 5 , Since the second terminal 40 outside the radio cell 65 There may be no direct radio connection with the base station 5 take up. However, it may have the second radio connection 75 to the intermediate station 10 build up. The stopover 10 then builds the first radio connection 70 to the base station 5 and directs corresponding radio data signals between the second terminal 40 and the base station 5 transparent on. The stopover 10 acts in the direction of the second terminal 40 like a base station and towards the base station 5 like a terminal. Conversely, in a similar way from the base station 5 a radio connection via the intermediate station 10 to the second terminal 40 being constructed.

The stopover 10 further comprises an interface formed as an optical transmitting / receiving unit 45 , the interface 45 can be designed, for example, for emitting and receiving optical signals in an infrared frequency range. This can be done by the interface 45 For example, be formed according to the IrDA standard (Infrared Data Association). About a conversion unit 80 is the radio transmitter / receiver unit 35 with the interface 45 connected. According to the embodiment according to 1 is outside the radio cell 65 a first terminal 1 arranged. The first terminal 1 but also within the radio cell 65 be arranged. The first terminal 1 comprises an optical transmitter / receiver unit 85 , The optical transmitter / receiver unit 85 of the first terminal 1 can also emit and receive optical signals, for example in an infrared wavelength range. For example, it may also be designed according to the IrDA standard. Between the first terminal 1 and the waypoint 10 can in this way an optical connection 90 be set up for an optical data transmission. By means of the conversion unit 80 a conversion between optical data signals and radio data signals can take place, so that the first terminal 1 also with the base station 5 can communicate. In this way, both between the first terminal 1 and a subscriber of one of the data or telecommunications networks 15 . 20 . 25 or the printer 30 as well as between the second terminal 40 and a subscriber of one of the data or telecommunications networks 15 . 20 . 25 or the printer 30 Data is exchanged. For example, from the first terminal 1 or from second terminal 40 Data about the intermediate station 10 to the base station 5 and from there to a subscriber of one of the data or telecommunication networks 15 . 20 . 25 or the printer 30 to get redirected. In addition or instead of the printer 30 can to the base station 5 be connected to any data output unit and in a corresponding manner with the first terminal 1 or the second terminal 40 communicate. Likewise, to the base station 5 a local database server, a domotic system, etc., and be connected via the base station 5 and the waypoint 10 with the first terminal 1 and / or the second terminal 40 communicate in the manner described.

In a connection request from the first terminal 1 or from the second terminal 40 is from the waypoint 10 a radio channel to the base station 5 switched, over which the data from the first terminal 1 or from the second terminal 40 to the base station 5 be transmitted. Correspondingly, conversely, from the base station 5 a radio channel to the intermediate station 10 be switched over the data of a subscriber of one of the data or telecommunication networks 15 . 20 . 25 or further to the base station 5 connected facilities to the intermediate station 10 for forwarding to the first terminal 1 and / or the second terminal 40 be transmitted.

In 2 is a flowchart for an exemplary operation of the method according to the invention shown. At a program point 100 checks the intermediate station 10 , whether from the first terminal 1 a connection request is present. If this is the case, then becomes a program point 105 otherwise it becomes a program point 125 branched. One from the first terminal 1 outgoing connection request is doing by one of the transmitting / receiving unit 85 of the first terminal 1 radiated, in the described embodiment in the infrared frequency range lying optical request signal of the intermediate station 10 communicated. At program point 105 switches the intermediate station 10 a radio channel to the base station 5 , At program point 125 will go through a waiting loop. Then becomes program point 100 branches back. After program point 105 becomes a program item 110 branched. At program point 110 checks the intermediate station 10 , whether from the first terminal 1 optical data signals in the interface 45 be received. If this is the case, then becomes a program point 115 otherwise it becomes a program point 130 branched. At program point 115 converts the conversion unit 80 converts the optical data signals into radio data signals and causes the radio transmitting / receiving unit 35 for radiating the radio data signals to the base station 5 , Subsequently, becomes a program point 120 branched. At program point 120 checks the intermediate station 10 whether the connection has ended. If this is the case, the program part is left, otherwise it becomes program point 110 branches back. At program point 130 checks the intermediate station 10 , whether radio data signals from the base station 5 in the radio transmitter / receiver unit 35 were received and whether these radio data signals to the first terminal 1 are addressed. If this is the case, then becomes a program point 135 branches, otherwise becomes program point 120 branched.

At program point 135 converts the conversion unit 80 the radio data signals into optical data signals. The optical data signals are then made by means of the optical connection formed in this embodiment as an infrared connection 90 to the first terminal 1 from the interface 45 radiated. Then becomes program point 120 branched.

Instead of a bidirectional optical data transmission between the intermediate station 10 and the first terminal 1 can also be provided a unidirectional data transmission, depending on the direction of transmission then at the first terminal 1 only an optical transmitting device or only an optical receiving device is to be provided and the interface 45 only an optical receiving device or an optical transmitting device must include. Accordingly, then at the intermediate station 10 to provide only a radio transmission unit or a radio receiving unit. In this case, however, is between the second terminal 40 and the base station 5 no data exchange possible.

By means of the intermediate station 10 can be implemented in the typical applications of radio repeaters, such as DECT repeaters for large office space, factory buildings or the like in addition to the relay function for corresponding radios, such as DECT cordless telephones, a transition from terminals with optical interface in the corresponding radio system become.

Claims (6)

Intermediate station ( 10 ) with a radio transmitting and receiving unit ( 35 ), characterized in that the intermediate station ( 10 ) an interface ( 45 ) for a transmission of optical data signals between a first terminal ( 1 ) and the intermediate station ( 10 ), in particular in an infrared frequency range, comprises that in the intermediate station ( 10 ) a conversion between the optical data signals and radio data signals is carried out and that the radio data signals via the radio transceiver unit ( 35 ) between the intermediate station ( 10 ) and a base station ( 5 ) are transferable. Intermediate station ( 10 ) according to claim 1, characterized in that the interface ( 45 ) comprises an optical transmitting / receiving unit, in particular according to the IrDA standard (Infrared Data Association). Intermediate station ( 10 ) according to claim 1 or 2, characterized in that the intermediate station ( 10 ) from the first terminal ( 1 ) converted optical data signals into radio data signals and the radio data signals to the base station ( 5 ) radiates. Intermediate station ( 10 ) according to claim 1, 2 or 3, characterized in that the intermediate station ( 10 ) from the base station ( 5 ) converts received radio data signals into optical data signals and transmits the optical data signals to the first terminal ( 1 ) radiates. Intermediate station ( 10 ) according to one of claims 1-4, characterized in that the intermediate station ( 10 ) at a connection request of the first terminal ( 1 ) a radio channel, preferably according to the DECT standard, to the base station ( 5 ) switches. Intermediate station according to one of claims 1-5, characterized in that the intermediate station ( 10 ) from a second terminal ( 40 received radio signals to the base station ( 5 ) radiates.