WO2001006713A1 - Wideband network access system for transmitting speech and data - Google Patents

Abstract

The invention relates to a wideband network access system for transmitting narrowband low-frequency speech signals and wideband high-frequency data signals. According to the inventive system, an interface is defined between a codec (B-AAP) and a speech DSP (B-MuPP) which transmits both control data and the digital speech signal. A data DSP (AliDD) communicates with the codec via a defined data interface. The codec is supplied with the required sequence control information by the data DSP via speech DSP. The invention is used in xDSL processes, for example ADSL.Lite.

Description

description

Broadband network access device for voice and data transmission

The invention relates to a broadband network access device for voice and data transmission with one or more mutually parallel broadband subscriber line interface circuits which supply analog bidirectional telephone subscriber lines with power and for electrical adaptation to these subscriber lines and as a hook-up circuit for these bidirectional subscriber lines are used with a narrowband, low-frequency voice signals and broadband, high-frequency data signals in both transmission directions and separating the voice and data signals, and with a digital signal processor connected to a digital voice network for microprocessor-controlled processing of the narrowband, digitally coded Speech signals and a digital signal processor connected to a digital data network for microprocessor-controlled processing of the br broadband, digitally coded data signals.

Voice transmission via an analog subscriber line in the telephone network is carried out analogously. A frequency band is used, the so-called voice band, which represents only a relatively narrow frequency band of the entire transmission bandwidth of a copper pair (POTS = Piain Old Telephone System). With the so-called xDSL transmission methods

(xDSL = x-Digital Subscriber Line), the frequency ranges above the voice band are used broadband for data transmission in the telephone network.

HDDSL (High Bit Rate

Digital Subscriber Line), ADSL (Asymmetry Digital Subscriber Line) and VDSL (Very High Speed Digital Subscriber Line). The xD _S L _Ü be bertragungsverfahren network access broadband (Broad-Band Access Technology) referred to as, and include all of the transmission process via the telephone network, which the higher data transfer rate between a subscriber and the central office (CO = Central Office) than those with

Voice band modems allow achievable data transfer rate.

For this purpose, in the xDSL transmission method, a so-called xDSL data signal, which denotes a digital signal coded for the xDSL transmission method, is transmitted in a higher frequency band, the data band, which is separate from the voice band. The xDSL transmission methods can theoretically use the entire bandwidth of the copper twin wire available above the voice band and achieve data transmission rates in the Mbit / s range.

In a broadband network access device for such a voice signal / data signal transmission method, the coding / decoding device must be supplied with control information from the digital signal processor responsible for the voice signals and the signal processor responsible for the data signals for the purpose of their correct sequence control, both digital signal processors ei - are subject to a microprocessor control.

The object of the invention is to transmit the necessary sequence control information of the digital signal processor processing the digitally encoded data signals to the coding / decoding device in such a way that no dedicated control interface has to be provided for this.

According to the invention, which relates to a broadband network access device for voice and data transmission of the type mentioned at the outset, this object is achieved in that between the coding / decoding device and an interface is defined for the digital signal processor processing the voice signals, which serves both for the transmission of control data and the digital voice signal, that a dedicated data interface is provided for communication of the digital signal processor processing the data signals with the coding / decoding device, and that the control information required for a process is made available to the coding / decoding device by the digital signal processor processing the data signals by way of the digital signal processor processing the voice signals. The advantage of a broadband network access device designed according to the invention is, on the one hand, that the coding / decoding device does not require any further control interface, and, on the other hand, that the user very easily finds a synchronization between his data and his speech path and thus a complex external synchronization is avoided.

In the broadband network access device according to the invention, each broadband subscriber line interface circuit is advantageously designed in an em-channel manner, whereas the device which separates and encodes / decodes the voice and data signals in both transmission directions, and the two digital signal processors, are designed to be multi-channel.

The device separating and encoding / decoding the voice and data signals in both transmission directions expediently has four channels, the digital signal processor processing the digital voice signals containing eight channels and the digital signal processor processing the digital data signals containing four channels.

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in addition, the voice signal and the data signal are combined to form an overall analog signal which is sent to the subscribers via the subscriber line interface circuits B-SLIC and the subscriber lines 1.

A microprocessor μC controls the two digital signal processors B-MuPP and ALiDD for the processing and transmission of the digital voice signals and the digital data signals. Control information is also required for the sequence control of the coding and decoding in the device B-QAP.

In the case of the chipset shown in the figure, in which the blocks B-SLIC, B-QAP, B-MuPP, ALiDD and μC represented by an integrated circuit module 4 (= B-SLIC) or 5 (= B-QAP ) or 6 (= B-MuPP) or 7 (= ALiDD) or 8 (= μC), an interface between the module 5 containing the coding / decoding device B-QAP and the module 6 is used , which contains the digital signal processor B-MuPP responsible for voice signal processing.

This interface serves both for the transmission of control and control data and for the voice signal itself. The module 7, which contains the digital signal processor ALiDD responsible for processing the data signals, communicates with the module 5 containing the coding / decoding device B-QAP via a dedicated data interface.

The control information required for a correct operating sequence is provided by module 7, which contains the digital signal processor ALiDD responsible for processing the data signals, via module 6, which contains the digital signal process responsible for voice signal processing. Sor contains B-MuPP, the module 5 containing the coding / decoding device B-QAP provided.

The advantage of this type of transmission of control information of the module 1, which contains the digital signal processor ALiDD responsible for processing the data signals, to the module 5 containing the coding / decoding device B-QAP is that, on the one hand, no further dedicated control interface is required, and on the other hand in that the customer easily finds a synchronization between his data and his voice path and a complex external synchronization is avoided.

Claims

claims

1. Broadband network access for voice and data transmission with one or more mutually parallel broadband subscriber line interface circuits which supply analog bidirectional telephone subscriber lines with power and serve for electrical adaptation to these subscriber lines and as a hook-up circuit for these bidirectional subscriber lines, with a narrowband, low frequency Speech signals and broadband, high-frequency data signals in both transmission directions and the speech and data signals encoding / decoding device as well as with a digital signal processor connected to a digital voice network for microprocessor-controlled processing of the narrow-band, digitally coded voice signals and one a digital data network connected digital signal processor for microprocessor-controlled processing of the broadband, digitally coded D data signals, characterized in that an interface is defined between the coding / decoding device (B-QAP) and the digital signal processor (B-MuPP) which processes the speech signals and which serves both for the transmission of control data and of the digital speech signal that a dedicated data interface is provided for communication of the digital signal processor (ALiDD) processing the data signals with the coding / decoding device (B-QAP) and that the control information required for a process by the digital signal processor (ALiDD) processing the data signals is provided via the the speech signal processing digital signal processor (B-MuPP) of the coding / decoding device (B-QAP) is made available.

2. Broadband network access device according to claim 1, characterized in that the broadband subscriber line interface circuit (B-SLIC) is single-channel and that the device separating and encoding / decoding the voice and data signals in both transmission directions (B-QAP) and the two digital signal processors (B-MuPP, ALiDD) are multi-channel.

3. Broadband network access device according to claim 2, characterized in that the separating the voice and data signals in both transmission directions and coding / decoding device (B-QAP) has four channels that the digital signal processor processing the digital signal processor (B- MuPP) eight channels and that the digital signal processor processing the digital signal processor (ALiDD) contains four channels.

4. Broadband network access device according to one of the preceding claims, characterized by a use for implementing an xDSL (x-Digital Subscriber Line) system, e.g. an ADSL (Asymmetry Digital Subscriber Line) system.

5. Broadband network access device according to one of the preceding claims, characterized by an implementation in integrated circuit technology.

6. broadband network access device according to claim 5, characterized in that in a chipset each broadband subscriber line interface circuit (B-SLIC), the coding / decoding and thus integrates the voice and data signals in both transmission directions separating device (B-QAP), the the digital speech signals processing digital signal processor (B-MuPP), the digital data signal processing digital signal processor (ALiDD) and the signal processor microprocessor (μC) each with its own integrated circuit module (4 or 5 or 6 or 7 or 8) are formed.