CS232494B1 - Zero-setting wiring when measuring non-wavelength currents with a millet or aampro meter - Google Patents

Abstract

The connection allows the propagation of small current changes in a circuit through which a several times larger current flows. The principle of the connection is that an ammeter or microammeter is connected in parallel to the collector-base junction of a transistor, which is connected to a common base and in its auxiliary circuit an auxiliary source is connected through an adjustable resistor,

Description

(54, Connection to zero value when measuring DC currents by milliameter or microamperimeter

The wiring enables measurement of small current shifts in the circuit through which the current flows several times higher.

The essence of the connection is that the milliameter or mcroamparimeter is connected in parallel to a collector-base transistor which is connected to a common base and an auxiliary power supply is connected in its emitter circuit via a controllable resistor.

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232494 2

BACKGROUND OF THE INVENTION 1. Field of the Invention The invention relates to a connection for setting a zero value when measuring direct currents by a milliameter on a microamparimeter allowing the measurement of small current vοβη in a circuit that flows several times higher current.

If a small current change is to be measured Δ Even in a circuit through which several or more current flows, it is necessary to use a complex connection - for example an operational amplifier. The use of the shunt in this case is not satisfactory, because the current I / n flows through the ammeter at an n-fold increase in the range and here the current starts are reduced in this computer.

The situation is solved by the connection according to the invention, which transfers the exact current to the secondary branch, so that the measuring currents can be used with a substantially lower range and the principle of the invention is that the milliameter or microamperer is connected in parallel to the transistor which is connected with a common base and in its eaitor circuit is connected via an adjustable resistor an auxiliary power supply.

The greater effect of the circuitry according to the invention is manifested in particular in that it allows the measurement of small current changes in the circuit through which a much higher current flows, using a simple connection.

The attached drawing schematically shows a connection according to the invention. A milliameter ^{0 is} connected in parallel to the collector-base transistor I transistor, which is connected to a common base and an auxiliary power supply is connected via a controllable resistor in its emitter circuit.

Wiring the circuit of the enclosed diagram, it is apparent that a current I _of Iq a flows through the transistor 6. Ij, where a is the current gain factor of the transistor in common base connection. - -

Claims (1)

The current Iq can be controlled by a controllable circuit R ₀ to set its required value. The current Δ I, by which the measured current exceeds the basic value of I _Q , then flows through the microamparimeter or milliamperimeter. Both PNP and NPN transistors can be used. The wiring enables the measurement of small current shifts in a circuit through which a much larger current flows, such as changes caused by a change in resistance when connected with a thermistor, a magnetoresistor, a magnetodiode, a photodiode from underneath. For example, using a KC 508 transistor, current changes were measured with a microamperimeter range of 100 and > 4 in a 10 mA circuit. The wiring has been tested many times and its performance using silicon transistors at room temperature has been satisfactory. P 8 B days of the invention Zero value wiring for DC current measurement by a milliameter or microamparimeter, characterized in that the milliameter or microcamparimeter is connected in parallel to a collector-base transistor junction connected to a common base and an auxiliary circuit connected in its emitter circuit via an adjustable resistor source. 1 drawing