Circuit arrangement and method for determining a resistance change and methods for determining lead resistances

In a circuit arrangement for determining a resistance change, a measuring resistor can be connected by first and second supply leads and first and second sensor leads in a four-wire arrangement, such that the first supply lead and the measuring resistor form a first resistor of a first voltage divid...

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Hauptverfasser:	Balzer, Daniel, Saukoski, Mikko
Format:	Patent
Sprache:	eng
Schlagworte:	MEASURING MEASURING ELECTRIC VARIABLES MEASURING MAGNETIC VARIABLES PHYSICS TESTING
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creator	Balzer, Daniel Saukoski, Mikko
description	In a circuit arrangement for determining a resistance change, a measuring resistor can be connected by first and second supply leads and first and second sensor leads in a four-wire arrangement, such that the first supply lead and the measuring resistor form a first resistor of a first voltage divider, and the second supply lead and a supplementary resistor form a second resistor of the first voltage divider. The circuit arrangement has a second voltage divider with third and fourth resistors. The first and second voltage dividers form a Wheatstone bridge. The circuit arrangement is configured to apply a supply voltage across the Wheatstone bridge, to determine first and second supply voltage drops across the first and second supply leads, and to determine an ascertainment voltage in proportion to a reference voltage. The ascertainment voltage depends on a bridge voltage applied between the first and second voltage dividers.
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The circuit arrangement has a second voltage divider with third and fourth resistors. The first and second voltage dividers form a Wheatstone bridge. The circuit arrangement is configured to apply a supply voltage across the Wheatstone bridge, to determine first and second supply voltage drops across the first and second supply leads, and to determine an ascertainment voltage in proportion to a reference voltage. 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The circuit arrangement has a second voltage divider with third and fourth resistors. The first and second voltage dividers form a Wheatstone bridge. The circuit arrangement is configured to apply a supply voltage across the Wheatstone bridge, to determine first and second supply voltage drops across the first and second supply leads, and to determine an ascertainment voltage in proportion to a reference voltage. The ascertainment voltage depends on a bridge voltage applied between the first and second voltage dividers.</abstract><oa>free_for_read</oa></addata></record>
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subjects	MEASURING MEASURING ELECTRIC VARIABLES MEASURING MAGNETIC VARIABLES PHYSICS TESTING
title	Circuit arrangement and method for determining a resistance change and methods for determining lead resistances
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