Apparatus and method for monitoring a communications system
First Claim
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1. Apparatus for monitoring a communication system in which information signals are transmitted within a particular frequency band, comprising, in combination:
- means generating test signals falling within said particular frequency band for transmission over the communication system simultaneously with the information signals, said test signal generating means including first oscillator means generating as a first output a carrier signal at a first fixed frequency within said frequency band, second oscillator means generating as a second output a signal swept across at least a portion of said frequency band, and control means coupled to said first and second oscillator means for determining the particular output of said test signal generating means;
a plurality of monitor circuits each in communicative connection with said test signal generating means and each disposed at different preselected points in the system, each said monitor circuit including;
detector means for detecting all signals in said frequency band as received at the respective point of said monitor circuit,local oscillator means for generating a local carrier signal at a discrete fixed frequency falling outside said frequency band, the carrier frequency of the oscillator of each monitor circuit being different so that the identity and location of each said monitor circuit can be recognized, andmodulator means coupled to said detector means and said local oscillator means for modulating said local carrier with said detected signals; and
signal analysis means in communicative connection with said monitor circuits and disposed at a position remote therefrom to receive and analyze said modulated local carriers, said signal analysis means including means for selectively receiving the individual modulated local carriers of each of said monitor circuits, means for detecting the percent of modulation of each of said received local carrier signals, means for storing the output of said percent of modulation detector, and oscilloscope means for displaying the frequency response of each received local carrier signal;
the amplitudes of said test signals generated by said first and second oscillator means being greater than said information signals such that modulated local carrier signals received by said signal analysis means and resulting from the transmission of either of said test signals may be differentiated from received modulated local carrier signals resulting from the transmission of information signals, whereby the operative status of the entire system may be monitored at a central location.
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Abstract
Apparatus and method for monitoring the quality and integrity of a communications system, such as a cable television system, which includes several monitoring circuits placed throughout the system to detect and amplify RF or audio frequency signals received at any number of selected points. The detected signals are used to amplitude modulate a continuous wave oscillator at a selected one of several discrete frequencies identifiable with the position of the monitoring circuits. The modulated CW signals are then fed upstream for processing at a central location. Each monitoring network includes a broadband detector so as to enable the detection of one or more discrete frequency signals or a band of signals. The use of several discrete frequency signals for normal monitoring purposes allows reliable monitoring to be carried out on a continuous basis without casing interference to the information signals being transmitted through the system. If a fault or deviation is detected, a swept band of signals can be fed into the system whereupon the monitor circuits will detect the entire band and return to the central point a full frequency response pattern to facilitate detailed analysis.
61 Citations
7 Claims
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1. Apparatus for monitoring a communication system in which information signals are transmitted within a particular frequency band, comprising, in combination:
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means generating test signals falling within said particular frequency band for transmission over the communication system simultaneously with the information signals, said test signal generating means including first oscillator means generating as a first output a carrier signal at a first fixed frequency within said frequency band, second oscillator means generating as a second output a signal swept across at least a portion of said frequency band, and control means coupled to said first and second oscillator means for determining the particular output of said test signal generating means; a plurality of monitor circuits each in communicative connection with said test signal generating means and each disposed at different preselected points in the system, each said monitor circuit including; detector means for detecting all signals in said frequency band as received at the respective point of said monitor circuit, local oscillator means for generating a local carrier signal at a discrete fixed frequency falling outside said frequency band, the carrier frequency of the oscillator of each monitor circuit being different so that the identity and location of each said monitor circuit can be recognized, and modulator means coupled to said detector means and said local oscillator means for modulating said local carrier with said detected signals; and signal analysis means in communicative connection with said monitor circuits and disposed at a position remote therefrom to receive and analyze said modulated local carriers, said signal analysis means including means for selectively receiving the individual modulated local carriers of each of said monitor circuits, means for detecting the percent of modulation of each of said received local carrier signals, means for storing the output of said percent of modulation detector, and oscilloscope means for displaying the frequency response of each received local carrier signal; the amplitudes of said test signals generated by said first and second oscillator means being greater than said information signals such that modulated local carrier signals received by said signal analysis means and resulting from the transmission of either of said test signals may be differentiated from received modulated local carrier signals resulting from the transmission of information signals, whereby the operative status of the entire system may be monitored at a central location. - View Dependent Claims (2, 3, 4, 5)
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6. A method of monitoring a communication system in which information signals are transmitted within a particular frequency band of the communication system frequency spectrum, comprising the steps of:
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(a) generating at least one test signal having an amplitude greater than said information signals and a fixed frequency falling within said particular frequency band; (b) generating a test signal having a frequency swept at least partially across said particular frequency band; (c) transmitting pulse bursts of said fixed frequency test signal over the communication system simultaneously with the transmission of information signals; (d) detecting all signals in said particular frequency band as received at a plurality of points in the system; (e) generating at each point a carrier signal having a different discrete frequency falling outside said particular frequency band and within the communication system frequency spectrum; (f) modulating each of said carrier signals with the respective signals detected at each point; (g) transmitting said modulated carrier signals back through the system to a central location; (h) receiving and separately analyzing each of said modulated carrier signals at said central location to determine the existence and location of a fault; and
, when a fault is detected;(i) transmitting said frequency swept band of test signals over the communication system; (j) repeating steps (d) through (g); and (k) receiving the modulated carrier signals from the point of said detected fault and examining the frequency spectrum thereof. - View Dependent Claims (7)
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Specification
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Current AssigneeBroadband Technologies, Inc.
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Original AssigneeBroadband Technologies, Inc.
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InventorsMcVoy, David S.
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Primary Examiner(s)Stellar, George G.
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Application NumberUS05/835,981Time in Patent Office991 DaysField of Search179/1 MNUS Class Current379/22CPC Class CodesH04B 17/405 generated by local multipli...H04N 7/173 with two-way working, e.g. ...
