KR20010035773A - Rejecting Apparatus of Spurious Noise - Google Patents

Abstract

PURPOSE: A device of eliminating spurious noises is provided to pass only upstream signals needed and prevents other elements of frequency from passing using a tunable band-pass filter. CONSTITUTION: In a device of eliminating spurious noises, a tuner(21) tunes the frequency of the data received from a coaxial cable network. A MAC/PHY chip(22) controls the input/output of data by analyzing the frequency of the tuned down-stream data. A CPU(23) controls the whole system. A transformer(24) transforms the frequency of the data produced from the MAC/PHY chip(22) under the control of the CPU(23). A gain control amplifier(25) adjusts the gain of the frequency of the data from the transformer(24) and amplifies the adjusted gain. A tunable band-pass filter(26) passes the upstream frequency of the output signal from the gain control amplifier(25) except for the harmonic noises and spurious noises.

Description

Rejecting Apparatus of Spurious Noise

The present invention relates to a communication apparatus, and more particularly, to an apparatus for removing spurious noise generated in a system employing a cable modem.

One of the most problematic problems in current cable modems is the spurious noise of the upstream return path. This spurious noise generates a lot of ingress noise on the upstream when the network is constructed using the cable television network, which affects the communication between the terminal and the head end of the cable modem or the like. Go crazy.

When transmitting a signal from the cable modem to the head end, a burst signal is generated, which minimizes spurious noise so that no other cable modem can interfere with the head end.

1 is a block diagram showing the configuration of a conventional noise removing device.

Conventional cable modems simply adjust the intensity of the transmit power upstream via a programmable gain controller 12 at a central processing unit (CPU) 11. At this time, the on / off control of the programmable gain control unit 12 was controlled by the enable terminal provided by the CPU 11 only. The controlled transmit power was transformed by a transformer 13 and passed low pass by a low pass filter (LPF) 14 and then tuned by a tuner 15 to connect with the coaxial network.

As described above, even if harmonic component noise and spurious noise are generated, if the noise in the low pass filter band to which the noise is applied passes through the low pass filter and enters the coaxial network through the tuner, such a signal is introduced into the head end. In this case, the carrier to noise ratio is adversely affected, which causes a problem in data communication between the head end and the cable modem.

The technical problem to be achieved by the present invention is to provide a spurious noise removing device for removing the spurious noise by passing only the upstream and suppressing the remaining frequency components using a tunable band pass filter.

1 is a block diagram showing the configuration of a conventional noise removing device.

2 is a block diagram showing the configuration of a spurious noise canceller according to the present invention.

A spurious noise canceller for solving the technical problem to be achieved by the present invention is a tuner for tuning data frequency transmission and reception of the coaxial network; A control unit configured to control data input / output by performing structure analysis on a downstream part of data frequencies tuned by the tuner; A gain control amplifier configured to amplify by adjusting the gain of the data frequency output from the controller; And a filter unit configured to pass only an upstream frequency excluding harmonic component noise and spurious noise among the outputs of the gain control amplifier and output to the tuner.

Hereinafter, with reference to the accompanying drawings will be described in detail the present invention.

2 is a block diagram showing the configuration of a spurious noise canceller according to the present invention.

The apparatus of FIG. 2 is a tuner 21 for tuning data frequencies transmitted from a coaxial network, and a MAC / PHY chip for performing data structure analysis on data frequencies of downstream parts tuned by the tuner 21 to control data input and output. (22), the gain of the data frequency converted by the CPU 23 for controlling the whole system, the transformer 24 for converting the data frequency output from the MAC / PHY chip 22 under the control of the CPU, and the transformer 24 is obtained. Tunable band pass filter 26 for outputting to the tuner 21 by passing only the upstream frequency excluding harmonic component noise and spurious noise among the outputs of the gain control amplifier 25 and the gain control amplifier 25 for adjusting and amplifying. It consists of.

Next, the present invention will be described in detail with reference to FIG. 2.

A hybrid fiber coaxial (HFC) network is an optical coaxial hybrid network that uses both optical and coaxial cables. In a cable television transmission network, a single cable broadcasting area is divided into multiple unit cells, and from a broadcast station to a unit cell, an optical cable is used. Each subscriber is a complex network of lines using coaxial cable.

One of the most important problems in this HFC network is the upstream pass noise, which uses a tunable band pass filter to remove this noise.

The data frequency input from the coaxial cable is tuned through the tuner 21.

The data frequency tuned in the tuner 21 is output to the MAC / PHY chip 22. The MAC / PHY chip (Media Access Control / PHYsicallayer) 22 is a core chip of Hyper LAN, a next-generation wireless LAN according to the European Telecommunication Standardization Organization (ETSI) standard, to control the input and output of data. In the tuned data frequency, the MAC / PHY chip 22 performs structure analysis on the data frequency of the downstream part to control data input / output.

The data input / output control signal output from the MAC / PHY chip 22 is input to the CPU 23, and the CPU 23 controls the entire system based on this.

The transformer 24 converts the data frequency output from the MAC / PHY chip 22 under the control of the CPU, and the gain control amplifier 25 adjusts and amplifies the gain of the data frequency converted by the transformer 24.

Harmonic voice noise and spurious noise are generated in the downstream data frequency and gain control amplifier 25 tuned by the tuner 21, and the tunable band pass filter 26 removes these noise components. The band of the tunable band pass filter 26 adjusts the center frequency in the MAC / PHY chip 22 under the control of the CPU 23. Even if harmonic component noise and spurious noise are generated by the tunable band pass filter 26, it is possible to remove harmonic component noise and spurious noise by passing only the upstream frequency regardless of whether the signal is an inband signal or not. .

The present invention is not limited to the above-described embodiments and can be modified by those skilled in the art within the spirit of the invention.

As described above, according to the present invention, a tunable band pass filter is used to remove harmonics and spurious noises, thereby enabling high quality data communication between the head end and the cable modem.

Claims (2)

A tuner for tuning transmission and reception of data frequencies in a coaxial network; A control unit configured to control data input / output by performing structure analysis on a downstream part of data frequencies tuned by the tuner; A gain control amplifier configured to amplify by adjusting the gain of the data frequency output from the controller; And And a filter unit configured to pass only an upstream frequency excluding harmonic component noise and spurious noise among the outputs of the gain control amplifier and output the result to the tuner. The method of claim 1, wherein the filter unit The spurious noise canceller, characterized in that the center frequency is changed by the band conversion control signal output from the controller to filter the output of the gain control amplifier.