CS270889B1 - Compensation circuit of hall probe - Google Patents

Abstract

This invention permits a more correct compensation of disturbing the voltage of the Hall's probe due to its asymmetry. It belongs to the area of measuring, measure engineering and automation. The circuit consists of a photo-transistor (9) to a collector (10) and/or emitter (11) and base (12) of which a divider with a centre outlet (4) is connected in a parallel way and a potentiometer (7) with a cursor (8). The centre outlet (4) and cursor (8) make a part of the series with first (1) and second (2) voltage outlet of the Hall's probe (3) and the load (16). The phototransistor (9) is a part of the opto-electronic connecting element (14) with an emitting diode (13). The Hall's probe (3) and emitting diode (13) are connected to a feeding circuit (15).<IMAGE>

Description

(57) Riertenie allows for a more correct compensation of the disturbing voltage of the Hall probe given by the unbalance. It belongs to the field of measurement, measuring technology and automation.

> The circuit poses from a phototransistor (9) »to whose collector (10) and / or emitter i (11) and to the base (12) A parallel divider with a medium outlet (4) and a potentiometer (7) is connected to 8 fans (8). . The center terminal (4) <and the runner (8) are in series with the first * (0 and second (2) voltage probes of the Hall probe (3) and the notch (16).) The potentiometer (9) is part of the optoelectronic connecting element (14) an emitting diode (3), a Hall probe (3) and an emitting diode (13) are connected to the supply circuit (15).

CS 270 889 B1

CS 270 889 B1

The present invention relates to a compensating circuit of a Hall probe when powered by unidirectional laundry.

Since the Hall probe has some geometric or electrical asymmetry, its voltage outlets do not generally lie on equipotentially flat. Surge compensation circuits are used to eliminate the potential difference on the voltage outlets under zero magnetic field induction conditions. Most often, ea compensates the voltage from the power supply and the laundry outlets and to one of the voltage outlets a and supplies an adjustable resistive network. The disadvantage is that such a compensating circuit galvanically connected to the power supply partially affects the laundry field of the Hall probe, which may affect the magnitude of the Hall voltage, respectively. linearity of the probe.

This drawback removes the compensating circuit of the Hall probe according to the invention, which is based on the fact that a photovoltaic collector and / or phototransistor emitter is connected in parallel with a middle outlet of two resistors and a potentiometer with a runner, The photo transistor is a part of an emitting diode optoelectronic coupler, which, like the Hall probe, is also connected to the power supply circuit.

The advantage of the compensation circuit is the galvanic separation of the 2-volt compensation voltage source and the power supply, thereby achieving the original unrelated shape of the laundry field in the Hall probe as in a state without compensating disturbing voltage.

The attached figure shows an example of a compensation circuit connection using a phototransistor type npn with a connected collector and emitter.

A collector of two equal resistors g, 6 with a middle outlet a and a potentiometer 2 with a slider 8 is connected in parallel to the collector 50 connected to the emitter £ of the phototransistor 2 and to the base 2 of the phototransistor 2. with the first inventive terminal £, the second voltage terminal 2 of the Hall probe J and the load £ 6. Phototransistor 2 of an emitting diode £ 2 forms an optoelectronic coupler £ 4. The order voltage of the Hall probe J and the emitting diode £ 2 is fed from the supply circuit £ 2.

When passing the laundry through the Hall probe 2, even at zero magnetic field induction, disturbing unidirectional voltage and randomly oriented polarity are generated at the nipple terminals 4 and 2. When the laundry flows through the emitting diode 62 of the optoelectronic coupler 48, the phototransistor 2 behaves as a galvanically isolated gate photoelectric cell with the polarity between the collector 62 and / or emitter 62 and the base 72 given by its conductivity type. For npn phototransmitter g This is a positive polarity based on £ 2.

With the potentiometer 2, the magnitude and polarity of the unidirectional compensating voltage between the current 8 and the center terminal 4 are varied at zero magnetic field induction until it is equal in size to the disturbing voltage between the voltage terminals 8 and 2 of the Hall probe 2 but polarity is reversed. This achieves a zero voltage at load 6 and the Hall probe 2 is ready to measure the magnetic field induction or other use regardless of its asymmetry.

Given the values of the Hall 2 laundry emitters 2 * of the emitting diode £ 2, the power supply circuit 8g can supply two dependent DC currents to the elements from one source, thereby rendering the voltage of the Hall probe 2 linearly dependent on the supply current of the Hall 2. It has an automation actuator, since at constant temperature the compensating voltage will follow the disturbing voltage at the voltage outlets 6 and 2 of the probe 2 and the voltage at the load 6 will remain zero.

A substantial part of the compensation circuit, namely the controllable source of univariate voltage of millivolt size, can be used wherever galvanic isolation and continuous change of the magnitude of this voltage of both polarities is required.

CS 270 889 B1

Claims (2)

OBJECT OF THE INVENTION Hall probe compensation circuit, characterized in that a collector (10) of two equal resistors is connected in parallel to the collector (10) and / or emitter (11) of the phototransistor (9) and to the base (12) of the phototransistor (9). (5), (6) and potentiometer (7) with slider (8), the middle outlet (4) and slider (8) being in series with the first steam outlet (1), the second voltage outlet (2) the Hall probe (3) and the impedance (16) and the phototransistor (9) are part of an optoelectronic coupler (14) with an emitting diode (13) which, like the Hall probe (3), is also connected to the power circuit (15) .