SU1119085A1 - Precision wire-wound resistor - Google Patents

Abstract

PRECISION WIRE RESISTOR containing a resistive element made in the form of a winding of a resistive wire placed on insulated and adjacently located current leads with adjacent ends for external connections the beginning and the end of the winding are located adjacent and at the ends of the current leads opposite to the ends for external connections. neny. (L with about QO SP

Description

The invention relates to a measurement technique and can be used in resistors intended for operation in DC circuits of ultra-low voltage levels, for example, in feedback circuits and setting zero micro and nV range meters. The invention can also be used to create ohmic resistance measures with an ultra low thermal emf value. At present, wire resistors, for example, type C5-5, containing a ceramic frame with a resistance element, are used in measuring circuits of direct current at ultra-low levels. The frame is reinforced with metal caps, to which the resistive element is electrically connected, and terminals. The distance between the points of electrical connection of the resistive element with the caps and the leads in different types of resistors is from 18 to 50 mm t 3B of the actual operating conditions in the devices, the resistors are affected by non-uniform and time-varying thermal fields. that the resistive element and the pins of the resistors are made by metals with different values of the specified thermal emf, between the terminals of the resistors the thermal emf changes with time, which leads to ti devices where they are used. The magnitude of thermoEMF at specified materials of the resistive element and conclusions is proportional to the magnitude of the temperature gradient between the points of electrical connection of the resistive element and the terminals, and the drift of thermoEMF with a change in ambient temperature is proportional to the change of temperature gradient in time The magnitude of the temperature gradient between these points is determined with the distance between them and the thermal conductivity the design of the resistor, the change in the temperature gradient over time also depends on the mass of the elements s resistor. The design flaws of the resistors, which cause the appearance of self-interference, are the large distance between the connection points of the resistive element, the leads, the low thermal conductivity of the frame with the resistive element, and the small ratio of the mass of the resistive element to the mass of the resistor. The closest to the technical essence of the invention is a precision wire resistor of the type C5-14T, containing a resistive element made in the form of a winding placed on insulated and closely spaced terminals with adjacent ends for external connections. In this resistor, the winding of the resistive wire is wound on a plastic frame, its ends are electrically connected to the leads pressed into the frame. The ends of the leads used for external connections of the resistor are placed on one side of the winding, and their middle part is surrounded by a winding located on the frame. The resistive wire and leads are made of materials with a small difference in specific thermo-emf 2. However, when a resistor is inserted into the measuring circuit, a plastic frame with low thermal conductivity contributes to the existence of a temperature gradient at the electrical connection points of the resistive wire with leads in the presence of a temperature gradient at the ends of the leads used for external connections, and the frame weight contributes to an increase in the residence time of the resistor. In this connection, self-interference occurs in the resistor. In micro and nanvolt range meters, the error from the thermo-emf is a significant part of the instrument error. The purpose of the invention is to increase the stability and accuracy in operation by reducing the thermo-emf. The goal is achieved by the fact that in a precision wire resistor containing a resistive element made in the form of a winding of a resistive wire placed on insulated and adjacently arranged current leads with adjacent ends for external connections, the beginning and end of the winding are located adjacent and at the end

Claims (1)

A PRECISION WIRE RESISTOR containing a resistive element made in the form of a winding of a resistive wire placed on insulated and adjacent current leads with adjacent ends for external connections, characterized in that, in order to increase stability and accuracy in operation by reducing the thermal EMF, the beginning and end of the winding are adjacent and at the ends of the current leads, opposite the ends for external connections. neniy. ·