DE2340353A1 - Wattless current measurement in conductors - is for those of unknown resistance using penetrators without current break - Google Patents

Abstract

An adjustable auxiliary curent is supplied by way of an ammeter to two penetrators applied to the conductor at complementary distances. A galvanometer is connected to two other penetrators applied between the first two penetrators. The auxiliary current is set so that the galvanometer has no deflection. The auxiliary current can be set by means of an automatic compensator according to control pulses produced by the galvanometer.

Description

Procedure for powerless current measurement

The most common method of measuring current is to take the voltage drop that the current across a known Creates resistance, is determined. If there is no known resistor built into the circuit in question, the circuit must be separated and a measuring resistor (e.g. shunt) switched on. A voltage drop occurs at the measuring resistor that loads the circuit. This is particularly useful for power sources with a very low internal resistance or low load capacity changes the current to be measured and falsifies the measurement.

For the measurement of direct currents without loading the circuit in question, the one specified by Merz and Stanek Known suction circuit (e.g. ATM J 932-2). Here, in the circuit in which the current is to be measured, a zero galvanometer switched on and an auxiliary circuit applied to its terminals. The auxiliary current is set so that that the Nullgalvanorneter is de-energized. In this case, the auxiliary current has the same magnitude as that of to measuring current or is in a known relationship to this, if corresponding series and shunt resistances are im Auxiliary circle are available.

In all of the measurements described, the circuit in which the current should definitely be grounded must be separated it to turn on a shunt or to connect a zero galvanometer.

The present invention is based on the object of specifying a Keß method in which the line to the current

VPA 9/391/3706, Gra / Scl

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measurement does not have to be separated. It is sufficient if a line section is accessible via test probes. The measurement can therefore also be carried out on assembled and soldered circuit boards or on devices that are in continuous operation to run.

The new measuring method is characterized in that two test probes placed on the conductor at a mutual distance an adjustable auxiliary current is supplied via an ammeter that is fed to two more between the first test probes applied test probes a galvanometer is connected and the auxiliary current is set so that the Galvanometer shows no rash. The current to be determined can then be read on the ammeter in the auxiliary circuit will.

The use of four test probes has the advantage that the measurement is not influenced by changing contact resistances at the test probes. This would then be the case if only two test probes were used to connect the auxiliary circuit and the galvanometer. The voltage drop at the contact resistances would falsify the measurement result. Because the circle in which the galvanometer is located has a high resistance is in proportion to the contact resistances and a zero method is applied, these affect the Measurement not. A compensation current is set in the auxiliary circuit, which is supplied by the auxiliary power source the contact resistances have no influence here either.

The measuring method of the invention will be explained in more detail with the aid of two schematic circuits in the drawing.

According to Figure 1, the current I is to be measured, which of -the current source U is supplied and which flows through the resistor R and the line resistance R-. The auxiliary

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Circuit contains the auxiliary voltage source Uj ₁ , an adjustable resistor FL and the current measuring instrument I. This circuit is fed to the line resistance via the test probes a, d. With the help of the two other test probes b, c within the connection a, d, the high-resistance circuit with the galvanometer U is applied. The test probes can be designed as desired, for example in the shape of a cutting edge or a cone. The tips a and b as well as c and d can be mechanically connected to one another to form a unit, the mutual electrical insulation being maintained. The connection can be rigid or elastic or resilient. With the help of the resistor Rj ₁ , the current delivered by the auxiliary voltage source is changed until the galvanometer shows no deflection. In this case, the entire current I flows through the instrument I and can be read there. The self-consumption of the instrument I and that of any contact resistances that may arise is generated by the auxiliary power source.

According to Figure 2 it is indicated that the auxiliary current via a automatically working compensator K can be set, which is set according to the control pulses which the control galvanometer V emits.

2 claims
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Claims (2)

VPA 73/3784. Λ Claims 1. Procedure for powerless current measurement in conductors unknown Y / resistance via test probes without power interruption, characterized in that two test probes applied to the conductor at a mutual distance an adjustable auxiliary current via an ammeter! is supplied to two other between A galvanometer is connected to the test probes applied to the first test probes and the auxiliary current is connected in this way adjusted so that the galvanometer shows no deflection. 2. The method according to claim 1, characterized in that the auxiliary current via an automatically operating Compensator is set according to control pulses generated by the galvanometer. ORIGINAL INSPECTED 5 0 9 8 0 8/0 5 9 U