DE19730984A1 - Radio transmission method and cordless telephone, especially for the DECT standard - Google Patents

Abstract

The present invention relates to a radio transmission method between a transmitter apparatus and a receiver apparatus, wherein said method uses a service channel (area B) for transmitting voice signals and/or data signals as well as a signalling channel (area A) comprising an error correction symbol for transmitting signalling data. When a signalling pause is detected, the transmitter apparatus sends an identification signal for the signalling pauses (P) to the receiver apparatus through the signalling channel. The signals received during the reception of the identification signal for the signalling pauses at the service channel (area B) are not used by the receiver apparatus. Since the signalling channel includes an error correction, no signal can be reliably transmitted during the signalling pause at the receiver apparatus, thus avoiding the transmission errors that may occur upon transmission in the service channel during the signalling pause or subsequent to the actuation of a mute key.

Description

The invention relates to a method for radio transmission between rule a transmitter and a receiver and a cord Losing phone, especially according to the DECT standard.

Digital cordless phones according to the DECT (Digital Enhanced Cordless Telephone) standard are enjoying increasing popularity. The technical specification is described for example in David, Benter "Digital Mobile Radio Systems", Stuttgart, 1996, Chapter 8.1. The air interface defined by DECT is based on a combination of FDMA (Frequency Division Multiple Access) and TDMA (Time Division Multiple Access). The available frequency spectrum from 1880 MHz to 1900 MHz is divided into ten carriers, each with 1728 kHz channel spacing. As shown in the attached FIG. 1, each carrier is divided into 24 time slots, which form a frame with a total length of 10 ms. The first twelve channels are reserved for the downlink from the mobile part to the base station and the following twelve time slots for the uplinks between base station and mobile part. A duplex connection is formed by a pair of time slots, for example time slot 11 and time slot 23 . The upward and downward links are then separated from one another by a duplex spacing of 5 ms each.

Fig. 2 shows, starting from the reference Components 31 (1993), Issue 6, pages 215 to 218; S. Althammer, D. Bruckmann: "Highly optimized ICs for DECT cordless phones" the basic circuit structure of the base station BS and the mobile part MT of a cordless phone system. The base station BS and the mobile part MT then have a radio part FKT with an antenna ANT assigned for transmitting and receiving radio signals, a signal processing device SVE and a central control ZST, which are connected to one another in the manner shown. The radio part FKT essentially contains the known devices such as transmitter SE, receiver EM and syn thesizer SYN. The signal processing device SVE contains, inter alia, a coding / decoding device CODEC. The central control ZST has a microprocessor µP for the base station BS as well as for the mobile part MT with an OSI / ISO layer model [cf. (1): Unterrichtsblatt - Deutsche Telekom, vol. 48, 2/1995, pages 102 to 111; (2): ETSI publication ETS 300175-1. . . 9, October 1992] built program module PGM, a signal control part SST and a digital signal processor DSP, which are connected to each other in the manner shown. Of the layers defined in the layer model, only the first four layers that are essential for the base station BS and the mobile part MT are shown. The signal control part SST is designed in the base station BS as a time switch controller TSC and in the mobile part MT as a burst mode controller BMC. The main difference between the two signal control parts TSC, BMC is that the base station-specific signal control part TSC takes on additional switching functions (switch functions) compared to the handset-specific signal control part BMC.

The principle of operation of the above Circuit units is, for example, in the publication Components 31 (1993), No. 6, pages 215 to 218.

Taking into account that, as mentioned, ten carrier frequencies are available, the total capacity is total 120 duplex channels. A DECT cordless system then dials automatically table the channel with the best connection quality out.  

Fig. 1 shows the composition in the lower part schematically a single time slot of a total of 416.6 microseconds duration, corresponding to 480 bits. First of all, a 60-bit protective band is present in order to enable the safe separation of adjacent time slots. Of the remaining 420 bits, 32 bits are used for synchronization (S field) and 4 bits for parity control (X field). A signaling channel (A field) accounts for 64 bits, of which 16 bits are an error code, for example Cyclic Redundancy Check (CRC). The remaining 48 bits are available for signaling, for example information for establishing a connection, exchange of identifiers, forwarding to another network cell (handover). The signaling rate of a duplex channel is therefore 64 bits / 10 ms = 6.4 kilobits / s. The data transmitted in the signaling channel are protected from transmission errors by the error correction bits. The 320 bits of the user channel (B field), however, are not specially protected against transmission errors. The transmission rate in a user channel is 32 kilobit / s.

If there are signal pauses on a DECT cordless telephone handset, for example due to a pause in the cordless tele user, the surroundings can either be in the B channel sounds to the base station and then to the telephone partner be transmitted or the terminal transmits upon detection a silent signal (mute signal consisting of all ones) to the interlocutor. In the first case you can the ambient noise is perceived as being quite annoying, especially when the sensitivity of the microphone is on adjusts the detected signal level. If in the second case the Mute signals are transmitted in the useful channel (B field) this is decoded on the receiving side like normal audio data and generate with error-free reception on the receiving loudspeaker "Quiet". However, transmission errors occur with this mute-Si signal, violent noise may occur instead.  

The present invention is therefore based on the object a method for radio transmission between a transmitter and a receiving device and a cordless phone so on develop that the transmission quality is improved. In particular, the occurrence of interference signals or Störge noise during a signal pause can be prevented.

The invention proposes a method for radio transmission between rule a transmitter and a receiver in which when a signal pause is detected by the transmitter via the Signa lization channel (A field) a signal pause identification signal is transmitted to the receiving device, whereupon at the receiver while receiving the transmission pause identification signal Signals received in the useful channel are not used, preferably not decoded and / or amplified at all. Because the signal pause identification signal against transmission errors protected signaling channel (A field) can be transmitted the occurrence of transmission errors during signal pauses essential Lich be reduced.

The method according to the invention is particularly applicable to digital cordless phones according to the DECT standard.

The invention also proposes a cordless telephone, the one Device for recording a signal pause and a device device for transmitting a signal pause identification signal when a signal pause is detected.

The principle of operation of the method according to the invention is described in following explanatory example with reference to the figures tert in which

Fig. 1 shows schematically an example of a time frame structure used in the method to the invention OF INVENTION;

Fig. 2 is a block diagram of a known cordless telephone system according to the DECT standard.

Cordless phones are typically used in a combination of a base station and one or more mobile stations. The signals are forwarded by radio from the mobile station to the base station, which in turn is connected to the fixed telephone network and transmits the signals to the interlocutor, who can use a fixed line telephone, a cordless telephone or a cell phone or the like. For the transmission of signals from the base station to the mobile part, the time slots 0 to 11 , for the signal transmission from the mobile device to the base station (uplink), the time slots 12 to 23 are reserved. Base station and mobile part can, as shown in Fig. 2, be formed. However, the central control unit ZST of the mobile part MT additionally has a device which detects a signal pause, ie a pause in speech by the subscriber on the mobile part or the like, at an input level which is below a predetermined value. If a signal pause or signal interruption is known, a signal pause identification signal P is transmitted in the A field, ie the signaling channel of the time slot. The base station recognizes the signal pause identification signal P in the A field and interrupts the decoding, amplification and / or forwarding of the signals received in the B field. Since the signaling data in the A field are protected from transmission errors by an error correction coding (CRC), the signal pause identification signal can be transmitted reliably. Any transmission interference contained in the B-field reception data not coded for error correction is not forwarded by the base station and is therefore not audible on the receiving device. The transmission quality of the DECT cordless telephone system according to the invention is therefore improved.

Claims (5)

1. A method for radio transmission between a transmitting device (BS, MT) and a receiving device (MT, BS), wherein for the transmission of voice and / or data signals, a user channel (B field) and for the transmission of signaling data with error correction characters Provided signaling channel (A field) is provided, characterized in that when a signal pause is detected by the transmitter (BS, MT) via the signaling channel, a signal pause identification signal (P) is transmitted to the receiving device (MT, BS), whereupon on the receiving device (MT, BS) during the reception of the signal pause identification signal (P), the signals received in the useful channel are not further processed. 2. The method according to claim 1, characterized, that the on the receiving device (MT, BS) while receiving the Si Signal pause identification signal received in the useful channel Si signals are not decoded and / or amplified. 3. The method according to claim 1 or 2, characterized, that the sending device (BS, MT) and receiving device (MT, BS) cord Lost phones are according to the DECT standard. 4. Cordless phone for use in a phone system, in that for the transmission of voice and / or data signals User channel (B field) and for the transmission of signaling data a signal provided with error correction characters channel (A field) is provided, characterized, that the cordless phone (BS, MT) a device for capturing solution of a signal pause and a facility (ZST, SVE, FKT,  ANT) for transmission of a signal pause identification signal (P) when a signal pause is detected. 5. Cordless telephone according to claim 4, characterized, that the cordless phone (BS, MT) is a digital cordless phone is according to the DECT standard.