CS230688B1 - Connection of ohmmeter with luminous diode as reference element - Google Patents

Abstract

The circuit is intended for simple, direct-indicating ohmmeters for measuring resistances from units of ohms to units to tens of MO, it is especially suitable in the form of an electronic kit for polytechnic education. The circuit consists of a current source, a light-emitting diode as a reference element and an operational amplifier with a feedback network.

Description

(54)

The wiring is designed for simple, directly showing ohmmeters for resistance measurement from units of ohms to units up to tens of MOs, especially suitable in the form of an electronic kit for polytechnic education. The circuit consists of a current source, a light emitting diode as a reference element and an operational amplifier with a feedback network.

230 688

230 688

The invention relates to the connection of an ohmmeter with a linear scale, an operational amplifier and a light-emitting diode as a reference element, intended in particular for use in the form of a pole set for technical education.

Electronic measuring instruments' kits designed especially for young people must be simple, easy to implement, easy to set up, resistant to improper handling and working in a wide range of working conditions. The disadvantage of conventional wiring of current and voltage ohmmeter is nonlinear scale, limited measuring range and necessity of calibration before measurement, in some wiring of electronic ohmmeter both dependence on supply voltage, complexity and difficult adjustability.

These disadvantages are eliminated by connecting an ohmmeter with a light emitting diode as a reference element according to the invention.

It is an object of the invention that the positive terminal of the power supply is connected both via a normal resistor with an inverting input of an operational amplifier, through a light-emitting diode with a non-inverting input of an operational amplifier. with a negative power supply terminal. The non-inverting input of the operational amplifier is connected to the collector of the second transistor whose emitter is connected both to the base of the first transistor and to the negative terminal of the power supply via the first resistor. The non-inverting input of the operational amplifier is connected via a micro-ammeter and the third resistor to the output of the operational amplifier, which is connected to the inverting input of the operational amplifier via the measured resistance.

230 688

The main advantages of this new wiring are simplicity, easy adjustability, suppressed dependence on supply voltage, low power consumption, economical indication of operating status, linearity of the scale and wide measuring range.

BRIEF DESCRIPTION OF THE DRAWINGS The invention is illustrated in greater detail in the accompanying drawing in which an ohmmeter is shown with a light emitting diode as a reference element.

The inverting input of the operational amplifier 8 is connected via the normal resistor 2 to the positive terminal 11 of the power supply and through the measured resistance 6 to the output of the operational amplifier 8, which is connected to the non-inverting input of the operational amplifier 8 via the third resistor 10. The power supply is connected via a light-emitting diode 7 to the collector of the second transistor 2 and simultaneously with the non-inverting input of the operational amplifier 8 and through the second resistor 4 to the base of the second transistor 2 and to the collector of the first transistor. The negative terminal 12 of the power supply is connected both to the emitter of the first transistor χ and through the first resistor 3 to the base of the first transistor JL and simultaneously to the emitter of the second transistor 2,

The first and second transistors 1 and 2 form a simple current source for supplying the diode 7. The voltage drop across the diode 7 is utilized as a reference voltage, which is amplified by the operational amplifier 8 in the ratio of the measured resistance 6 and the normal resistance 5. measuring range.

The deflection of the microemeter 9 corresponds to the magnitude of the voltage at the output of the operational amplifier 8, thus it is linearly dependent on the magnitude of the measured resistance 6.

The ohmmeter setting can be done by changing the magnitude of the third resistor 10, the one-time setting at a single operating point.

The wiring is suitable for realization of simple matching ohmmeters for measuring resistances from units of ohms to units of tens of MOs, preferably when supplied from unstabilized sources (eg batteries), especially in the form of an electronic kit for polytechnic education.

Claims (1)

SUBJECT OF THE INVENTION 230 688 Ohmmeter wiring with LED as reference element, characterized in that the positive power supply terminal (11) is connected both via the normal resistor (5) and the inverting input of the operational amplifier (8) and via the LED ( _t) (7) with the non-inverting input through the second resistor (4) to the base of the second transistor (2) and at the same time to the collector of the first transistor (1) whose eraitor is connected to the negative terminal (12) of the power supply while the non-inverting input of the operational amplifier (8) is connected by 8 collector of the second transistor (2), whose emitter is connected both to the base of the first transistor (1) and through the first resistor (3) to the negative terminal (12) of the power supply, the non-inverting input of the operational amplifier (8) via a micro-ammeter (9) and a third resistor (10) and an operational amplifier output (8), which is connected to the inverting input of the operational amplifier via the measured resistance (6) o amplifiers (8),