Optical sequence time domain reflectometry

a technology of optical sequence and reflectometry, applied in the field of optical sequence time domain reflectometry, can solve the problems of lowering the cost of dispatching, reflection or echo, and high cost of service technicians

Inactive Publication Date: 2002-10-31
MINDSPEED TECH INC
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

The dispatch of service technicians is expensive and hence, the less time the service technician must spend locating the line anomaly, the lower the cost of the dispatch.
Impedance irregularities in the line cause a reflection or echo when encountered by the pulse.
One disadvantage arises as a result of the necessary, but undesirable, use of a high power pulse.
Transmission of a high power pulse on a line disrupts communication and operation of the other pairs in the binder by creating crosstalk between pairs.
Another disadvantage of this prior art method arises because of the available echo processing methods.
This limits the detectability of weak return echoes which translate into a limitation on the ability of prior art pulse system to accuratel

Method used

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  • Optical sequence time domain reflectometry
  • Optical sequence time domain reflectometry
  • Optical sequence time domain reflectometry

Examples

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Embodiment Construction

[0092] FIG. 4 illustrates a more detailed block diagram of an example embodiment of one configuration of the invention. Broadly, the elements of FIG. 4 includes a transmit module 400 and a receive module 404. Connecting the transmit module 400 and the receive module 404 is a line interface 408 and other possible logic and lines (not shown). The line interface 408 connects the transmit module 400 and the receive module 404 to a communication channel 412. The line interface 412 includes apparatus to separate or filter the transmitted signal from the received signal and attempts to impedance match the transmit module 400 to the channel 412 and the receive module 404 to the channel. In one embodiment, the line interface 408 comprises a hybrid. The line interface 408 may also be configured to interface a single conductor of the transmit module 400 or the receive module 404 to twisted pair conductors. Although designed to reduce impedance mismatch, the line interface 412 often creates som...

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Abstract

A method and system for performing sequence time domain reflectometry over a communication channel to determine the location of line anomalies in the communication channel is disclosed. In one embodiment, the system generates a sequence signal and transmits the sequence signal over an optical channel. The system receives one or more reflection signals over the optical channel and performs reflection signal processing on the reflection signal. In one embodiment, the optical reflection is transformed to an electrical signal and correlated with the original sequence signal to generate a correlated signal. The time between the start of the reflection signal and a subsequent point of correlation and the rate of propagation reveals a line anomaly location. A circulator, beam splitter, or any other similar device may direct the reflection signal to the apparatus configured to perform reflection signal processing.

Description

[0001] This application is a continuation-in-part of application Ser. No. 09 / 810,932, entitled Method and Apparatus for Transmission Line Analysis filed Mar. 16, 2001.[0002] This invention relates generally to communications and in particular to a system and method for analyzing a transmission line.RELATED ART[0003] Historically, new communication technologies are continually being introduced to improve the ease and rate at which data can be exchanged between remote locations. One factor that must be considered when communicating electronic data is the medium over which the data will travel. This is often referred to as determining the channel quality, line characteristics, line transfer function, insertion loss, or channel impulse response. Numerous different types of conductors are utilized to conduct communication signals. One example medium that is commonly installed throughout the world is twisted pair conductors as are traditionally used to provide telephone service between a ...

Claims

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Application Information

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IPC IPC(8): G01R31/02G01R31/11H04B3/46H04L12/26
CPCG01R31/021G01R31/11H04B3/493H04L43/50Y04S40/168H04L12/2697G01R31/58Y04S40/00
Inventor JONES, KEITHREINTJES, MAURICEJONES, WILLIAM W.JONSSON, RAGNAR H.
Owner MINDSPEED TECH INC
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