METHOD AND ARRANGEMENT FOR ESTIMATION OF LINE PROPERTIES

METHOD AND ARRANGEMENT FOR ESTIMATION OF LINE PROPERTIES

The length and attenuation of a signal line between a transmitter and a customer premises equipment is to be estimated. A frequency dependent line input impedance (Zin,(f)), as seen from the transmitter, is measured and an absolute impedance value (ae Zin,(f) ae) is generated. The latter is shown as...

Ausführliche Beschreibung

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Bibliographische Detailangaben
1. Verfasser: ADAM WIA
Format: Patent
Sprache:eng ; spa
Schlagworte:
DETECTING MASSES OR OBJECTS
ELECTRIC COMMUNICATION TECHNIQUE
ELECTRICITY
GEOPHYSICS
GRAVITATIONAL MEASUREMENTS
MEASURING
MEASURING ANGLES
MEASURING AREAS
MEASURING ELECTRIC VARIABLES
MEASURING IRREGULARITIES OF SURFACES OR CONTOURS
MEASURING LENGTH, THICKNESS OR SIMILAR LINEARDIMENSIONS
MEASURING MAGNETIC VARIABLES
PHYSICS
TELEPHONIC COMMUNICATION
TESTING
TRANSMISSION
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Beschreibung
Zusammenfassung:The length and attenuation of a signal line between a transmitter and a customer premises equipment is to be estimated. A frequency dependent line input impedance (Zin,(f)), as seen from the transmitter, is measured and an absolute impedance value (ae Zin,(f) ae) is generated. The latter is shown as a curve (Al) in the diagram with the frequency (f) on the abscissa and the impedance (ae Zin,(f) ae) on the ordinate. Extreme values (Max.l, Max2, Max3; Minl, Min2, Min3) are denoted and a frequency distance (FD1- FD4) between two consecutive of the extreme values is generated. The line length (L) is generated as L=1/2 bull vop/FD1, in which vop is the velocity of propagation of a signal on the line. The attenuation is estimated by multiplying the line length with an average attenuation value for the actual line type. The advantages are that the line length can be estimated with good accuracy in a simple manner for short lines and that the line attenuation is estimated in a simple manner. Se debe estimar la longitud y atenuacion de una linea de senales entre un transmisor y un equipo en instalaciones de cliente. Une impedancia de entrada de linea dependiente de la frecuencia (Zin',(f)), como se puede observar a partir del transmisor, se mide y se genera un valor de impedancia absoluta (° Zin'(f)). Este valor se muestra en forma de una curva (A1) en el diagrama con la frecuencia (f) en la abscisa y la impedancia (° Zin'(f) °) en la ordenada. Valores extremos (Max1, Max2, Max3; Min1, Min2, Min3) se indican y se genera una distancia de frecuencias (FD1 - FD4) entre dos valores de extremo consecutivos. La longitud de linea (L) es generada como L = 1/2 ° vop/FD1, en donde vop es la velocidad de propagacion de una senal en la linea. La atenuacion es estimada multiplicando la longitud de la linea con un valor promedio de atenuacion para el tipo de linea real. Las ventajas son que la longitud de la linea puede ser estimada con buena exactitud en forma sencilla para lineas cortas y que se estima la atenuacion de linea en forma sencilla.