SU1226344A1 - Adjustable electron load - Google Patents

Abstract

The invention relates to electrical measurements and can be used in instruments for measuring the current-voltage characteristic of sources of lithium for direct voltage. The purpose of the invention is to improve the accuracy of the current setting, with the exception of the error caused by the dependence of the base-emitter voltage on the collector current and the non-linear relationship between the base current and the collector current. The load contains a transistor 1, a bias source 2, differential amplifiers 4, 5 and 7, resistors 3 and 6. The proposed regulated electronic load has a linear dependence of the current on the control voltage, which allows its use in automated measuring systems. 1 il.

Description

I

The invention relates to the field of electrical measurements and can be used in instruments for measuring the current-voltage characteristics of constant voltage power sources.

The purpose of the invention is to improve the accuracy of the current setting by eliminating the error caused by the dependence of the base-emitter voltage on the collector current and the non-linear relationship between the base current and the collector current.

The drawing shows an electrical circuit of an adjustable electronic load.

The adjustable electronic load contains a transistor 1, the collector of which is connected to the first bus, and the emitter is connected through a series bias source 2 and the first resistor 3 to a common bus, as well as the first differential amplifier 4, the inverting input of which is connected to the output of the second amplifier 5, which is made differential. The non-inverting input of the first differential amplifier is connected to the control bus, and its output is via the second resistor b to the base of transistor 1. Inverting1) the input of the second amplifier 5 is connected to the output of the third differential amplifier 7, the non-inverting input of which is connected to the output of the first differential amplifier 4, and the inverting input is to the base of transistor 1.

Adjustable electronic load works as follows

A DC voltage source under test (not shown) is connected between the first and the common busbars. A voltage proportional to the emitter current of the transistor 1 is applied to the first resistor 3, which is fed to the non-inverting input of the second differential device, lithy, l 5. At the second resistor 6 imposes a voltage proportional to the base current of transistor 1, which: through the third differential amplifier 7 is fed to the inverting input of the second differential amplifier 5, in which these two voltages are subtracted. As a result, the output of the second differential amplifier 5 has 226ЗД4I

is a voltage proportional to the collector current of transistor 1, i.e. load current of the tested power source. This voltage is then supplied to the inverting input of the first differential amplifier 4, in which it is compared with the voltage controlling the load current, coming in: 1 dim from the control bus to

to non-inverting input. As a result, the first differential amplifier 4 provides the base current of the transistor 1 such that it is a component of the voltage across the first resistor 3,

15 is proportional to the collector current, becomes equal to the control voltage.

Thus, a component error due to

20 the dependence of the base-emitter voltage on the collector current of transistor 1, as well as the error component, due to the non-linear relationship between the base current and the current

25 collector. Differences in adjustable electronic load improve the accuracy of the current setting. Adjustable electronic load also has a more linear relationship.

Jq current from control voltage

which allows it to be used in automated measuring systems.

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Claims (1)

Invention Formula An adjustable electronic load containing a transistor whose collector is connected to the first bus, and the emitter is connected via a series-connected bias source and the first resistor to the common bus, the first differential amplifier, the inverting input of which is connected to the output of the second amplifier If, in order to reduce the current setting error, the second amplifier is made differential, a third differential amplifier and a second resistor are added, and the resistor is connected between the output The first differential amplifier and the base of the transistor, the non-inverting input of the third differential 55 yci switch is connected to the output of the first differential amplifier, and the inverting input to the base of the transistor, the output of the third differential Invention Formula An adjustable electronic load containing a transistor whose collector is connected to the first bus, and the emitter is connected via a series-connected bias source and the first resistor to the common bus, the first differential amplifier, the inverting input of which is connected to the output of the second amplifier If, in order to reduce the current setting error, the second amplifier is made differential, a third differential amplifier and a second resistor are added, and the resistor is connected between the output The first differential amplifier and the base of the transistor, the non-inverting input of the third differential yci-shitel is connected to the output of the first differential amplifier, and the inverting input - to the base of the transistor, the output of the third differential 3.12263444 the amplifier is connected to the inverting terminal and the first resistor, and the non-inlet of the second amplifier, the non-inverting input of the first differentiating input of which is connected to the social amplifier, is connected to the unplugged terminals of the source control bus.