Passive single-ended line test
First Claim
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1. A method for estimating properties of a transmission line, said transmission line having a first end and a second end opposite to the first end, comprising the steps of:
- measuring a spectrum of a noise at the first end of the transmission line; and
estimating one or more transmission properties based on one or more features of said spectrum,wherein said noise enters said transmission line at an intermediate location between the first end and the second end,wherein said one or more transmission property estimates are estimates of transmission properties of the transmission line or a segment of the transmission line, said segment being the part of the transmission line between the location where the noise enters the transmission line and the second end of the transmission line,wherein the measuring of the spectrum results in measured noise characteristic data of a noise interference pattern comprising extreme values, including one or more of maximum values at resonance frequencies and identified minimum values at anti-resonance frequencies,wherein said one or more transmission properties include whether the line termination of the line or line segment is high impedance or low impedance, and is determined by the steps of;
determining autocorrelation function values of the measured spectrum of the noise;
determining if the greatest extreme value is a peak or a dip of said autocorrelation function values; and
setting the line termination as high impedance if the greatest extreme value is a peak and setting the line termination as low impedance if the greatest extreme value exhibits a dip.
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Abstract
The present invention relates to a method for estimating properties of a transmission line by means of features of a noise spectrum generated by noise entering said transmission line at an intermediate location between the ends of the line. The invention provides possibility to estimate a number of properties, e.g. length of a portion of the transmission line, line attenuation of said line portion and even line termination.
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Citations
7 Claims
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1. A method for estimating properties of a transmission line, said transmission line having a first end and a second end opposite to the first end, comprising the steps of:
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measuring a spectrum of a noise at the first end of the transmission line; and estimating one or more transmission properties based on one or more features of said spectrum, wherein said noise enters said transmission line at an intermediate location between the first end and the second end, wherein said one or more transmission property estimates are estimates of transmission properties of the transmission line or a segment of the transmission line, said segment being the part of the transmission line between the location where the noise enters the transmission line and the second end of the transmission line, wherein the measuring of the spectrum results in measured noise characteristic data of a noise interference pattern comprising extreme values, including one or more of maximum values at resonance frequencies and identified minimum values at anti-resonance frequencies, wherein said one or more transmission properties include whether the line termination of the line or line segment is high impedance or low impedance, and is determined by the steps of; determining autocorrelation function values of the measured spectrum of the noise; determining if the greatest extreme value is a peak or a dip of said autocorrelation function values; and setting the line termination as high impedance if the greatest extreme value is a peak and setting the line termination as low impedance if the greatest extreme value exhibits a dip. - View Dependent Claims (3, 4)
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2. A method for estimating properties of a transmission line, said transmission line having a first end and a second end opposite to the first end, comprising the steps of:
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measuring a spectrum of a noise at the first end of the transmission line; and estimating one or more transmission properties based on one or more features of said spectrum, wherein said noise enters said transmission line at an intermediate location between the first end and the second end, and said one or more transmission property estimates are estimates of transmission properties of the transmission line or a segment of the transmission line, said segment being the part of the transmission line between the location where the noise enters the transmission line and the second end of the transmission line, wherein the measuring of the spectrum results in measured noise characteristic data of a noise interference pattern comprising extreme values, including one or more of maximum values at resonance frequencies and identified minimum values at anti-resonance frequencies, wherein said one or more transmission properties include attenuation along the line or the line segment, and is determined by; determining an upper envelope by using the detected maximum values from the measured spectrum of the noise and a lower envelope by using the detected minimum values from the measured spectrum of the noise; subtracting corresponding lower envelope values from upper envelope values; setting a difference in magnitude per frequency as an estimate of a function of the line or line segment attenuation; and inverting said function numerically or analytically.
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5. A transceiver unit electrically connectable to a transmission line having a first end and a second end opposite to the first end, comprising:
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an input for receiving a first signal; an output for transmitting a second signal; and a processor configured to; measure a spectrum of a noise at the first end of the transmission line, wherein the measuring results in measured noise characteristic data of a noise interference pattern comprising extreme values, including one or more of maximum values at resonance frequencies and identified minimum values at anti-resonance frequencies; and estimate one or more transmission properties based on one or more features of said spectrum, wherein said one or more transmission properties include whether the line termination of the line or a line segment is high impedance or low impedance; determine autocorrelation function values of the measured spectrum of the noise; determine if the greatest extreme value is a peak or a dip of said autocorrelation function values; and set the line termination as high impedance if the greatest extreme value is a peak and set the line termination as low impedance if the greatest extreme value exhibits a dip, wherein said noise enters said transmission line at an intermediate location between the first end and the second end, and wherein said one or more transmission property estimates are estimates of transmission properties of the transmission line or the segment of the transmission line, said segment being part of the transmission line between the intermediate location where the noise enters the transmission line and the second end of the transmission line. - View Dependent Claims (6, 7)
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Specification