RU2528270C2 - Dc sensor with isolation - Google Patents

Abstract

FIELD: measurement equipment.

SUBSTANCE: invention relates to the field of measurement equipment. A DC sensor with isolation comprises a measuring shunt, the first output of which is connected to the common power supply bus, and the second one - to a load, an operational amplifier (OA), a four-winding transformer, the first winding of which via the first diode is connected to the input of the first filter, the output of which is the output of the device, the second winding of the transformer via the second diode is connected to the input of the second filter, the positive output of OA power supply is connected to the plus power supply bus, and the negative one - to the common power supply bus. The sensor also comprises two resistive voltage dividers with equal division ratios; the first divider is connected between the plus power supply bus and the second output of the shunt, and the second one - between the plus power supply bus and the common bus; the inverting input of the OA is connected to the output of the first divider, and the non-inverting one - to the output of the second divider; the positive output of the second filter via the introduced resistor is connected to the non-inverting input of the OA, and the negative one - to the inverting input of the OA. A capacitor is introduced into the device, which is connected between the output and the inverting input of the OA; a p-n-p- transistor is introduced, the emitter of which is connected to the first output of the shunt, the base via the resistor - to the OA output, and the collector - to the input of the introduced RC-filter; the output of the RC-filter is connected to the power supply buses of the blocking generator, and newly introduced diode, two resistors, a capacitor and a transistor.

EFFECT: increased reliability, noise immunity.

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Description

The invention relates to measuring equipment and can be used in various spacecraft systems.

A known direct current measuring transducer (RF patent No. 2234706), containing a magnetic circuit covering the current path with a measured current, the magnetic circuit has a narrow gap in which the Hall sensor is located, a power amplifier, and its input is connected to one of the output terminals of the Hall sensor, and the other the output terminal of the latter is connected to the ground bus, a negative feedback winding connected between the output of the power amplifier and the load, the other terminal of which is connected to the ground bus, the power amplifier contains um a series-connected AC voltage amplifier based on a differentiating operational amplifier, a storage device and a current amplifier, and the current clamps of the Hall sensor are connected to a sinusoidal current source, one of the current terminals being connected to the ground bus, and the other terminal connected to the voltage comparator and the former pulses, the output of the latter is connected to the control input of the storage device.

The known device has undoubted advantages, such as:

- the presence of galvanic isolation of the output of the device (12) from the current lead (2);

- it does not require a model resistor (shunt);

- current lead (2) can be connected to any bus in which it is necessary to measure the current, both in positive and negative.

However, this device is not reliable enough, since it has a large number of functional units (4, 6, 10, 11) and, therefore, elements, it also requires a secondary power source (not shown in Fig. 1), which generally increases the number of elements in the device, increases its dimensions and mass.

A known direct current measuring transducer (patent SU No. 1291889) containing the first and second magnetic cores, the first of which is the first working winding, the second is the second, the bias winding, compensation and measuring windings, valve block with two input pins, the first of which is connected to the first output. the output of the alternating current source, the first output terminal of the valve unit is connected to the second through the DC source and the bias winding, the first output of the compensation winding is connected to the first output of the measuring device, and the outputs of the measuring winding are connected to the input buses, a reference resistor, a DC amplifier and a shunt resistor, while the magnetic cores are placed in a magnetic screen, on top of which are placed measuring and compensation windings, the valve block is made with with two additional pairs of output terminals, to each of which one of the working windings is connected, the second input terminal of the valve block is connected to the second output terminal of the AC source, a reference resistor is connected between the first and second terminals of the valve block, in addition, they are connected to the input of a constant amplifier current, parallel to the terminals of which a shunt resistor is connected, the first terminal of which is connected to the second terminal of the compensation winding, and the second terminal is connected to the second terminal of the measuring device.

However, this device for measuring current is not reliable enough and has large dimensions and weight due to the presence of a large number of elements necessary for its implementation (elements: in the AC source (9); valve units (10, 11); in the DC amplifier ( 13), for which a secondary power source is required (not shown in Fig. 1); circuit elements (1-8), on which a magnetic amplifier is essentially made).

Closest to the proposed technical essence (prototype) is a device for measuring current, containing a DC amplifier with isolation (patent SU No. 1336200) with a measuring shunt connected to its input.

The disadvantages of the prototype are: insufficiently high reliability due to the presence of a large number of elements - to power the amplifier (1) requires an additional bipolar secondary power source, which increases the total number of elements and dimensions of the device at least twice; insufficiently high noise immunity due to the presence in the device of both positive and negative feedbacks.

The aim of the invention is to simplify the device, increasing reliability and noise immunity.

This goal is achieved by the fact that in a current sensor containing a measuring shunt, the first output of which is connected to a common power bus, and the second to the load, an operational amplifier (OA), a four-winding transformer, the first winding of which is connected through the first diode to the input of the first filter, the output of which is the output of the device, the second winding of the transformer through the second diode is connected to the input of the second filter, the positive output of the op-amp power supply is connected to the plus power supply bus, and the negative - to the common power supply bus; two resistive voltage dividers with equal division factors were introduced; the first divider is connected between the positive power bus and the second terminal of the shunt, and the second between the positive power bus and the common bus; the inverting input of the op-amp is connected to the output of the first divider, and the non-inverting input to the output of the second divider; the positive output of the second filter through the introduced resistor is connected to the non-inverting input of the op-amp, and the negative is connected to the inverting input of the op-amp; a capacitor is introduced, which is connected between the output and the inverting input of the op-amp; a pnp transistor is introduced, the emitter of which is connected to the positive power bus, the base through the resistor to the op amp output, and the collector to the input of the inserted RC filter; the output of the RC filter is connected to the power buses of the blocking generator assembled using the third and fourth windings of the transformer and the newly introduced diode, two resistors, a capacitor and a transistor.

The drawing shows a circuit diagram of the device (for simplicity, the diagram does not show: discharge resistors connected in parallel with filters (20, 22); base-emitter resistor of the transistor (5)).

A DC sensor with galvanic isolation of the device’s output from the power bus and the measuring bus contains: a measuring shunt (1), the first output of which is connected to a common power bus, and the second to the load (2); an integrator assembled on an operational amplifier (3) and a capacitor (4); a control transistor (5), the base of which through a resistor (6) is connected to the output of the op-amp (3), and the emitter is connected to the positive output of the op-amp power and a positive power bus; the negative power terminal of the op-amp is connected to a common power bus; the collector of the transistor (5) is connected to the input of the RC filter (7, 8); four-winding transformer (9) with windings (10-13); on the elements (9-11, 14-18) a blocking generator is assembled, the power bus of which is connected to the output of the RC filter (7, 8); in the transformer (9), the windings (12 and 13) have the same transformation ratio; winding (13) through a diode (19) is connected to a filter (20), which is the output of the device; winding (12) through the diode (21) is connected to the filter (22), the positive output of which through the feedback resistor (23) is connected to the non-inverting input “A” of the op-amp (3), negative - to the inverting input “B” of the op-amp (3) ; a first resistive voltage divider, which is assembled on resistors (24, 25) and connected between the positive power bus and the second terminal of the shunt (1); the output of the first divider (connection point 24 and 25) is connected to the inverting input "B" of the OS (3); a second resistive divider, which is assembled on resistors (26, 27) and connected between the positive power and the common bus; the output of the second divider (connection point 26 and 27) is connected to the non-inverting input "A" of the OS (3); the division factors of the dividers must be necessarily the same, but such that they do not exceed the allowable input common-mode voltage of a particular op-amp (3).

The device operates as follows. When power is applied, current flows through the shunt (1) and the load (2); a voltage drop appears on the shunt (1):

$$U_w=R_w\cdot I_n,\left[\text{one}\right]$$

where U _W - voltage drop on the shunt (1);

R _W - the resistance of the shunt (1);

I _{n is the} load current (2).

With the same resistances (24-27), the division coefficients of the first and second dividers will be equal to two, so you can find the voltage between the non-inverting “A” and inverting “B” inputs of the OS (3):

$$U_{A-B}=\frac{UP\mathrm{and}t-Uw}{2}-\frac{UP\mathrm{and}t}{2}=-0.5\text{Ush}\left[\text{2}\right]$$

From the expression [2] it can be seen that U _AB is independent of the supply voltage Upit.

Due to the negative feedback, the integrator on the op-amp (3) and the cascade on the transistor (5) will supply such a supply voltage to the blocking generator so that the rectified positive voltage coming from the filter (22) through the resistor (23) to the point “A” , compensated for the negative voltage present at point "A" with respect to point "B" and became negligible.

When the load current changes, the compensating voltage on the filter (22) and the voltage on the filter (20) will equally change, i.e. the conversion U = f (I) will be performed with galvanic isolation.

The proposed device is simpler, since it contains fewer elements, and therefore its reliability is higher, the noise immunity of the device is increased due to the introduction of an integrator (3, 4) and an RC filter (7, 8).

The prototype, when measuring current from 0 to 0.5 A with a shunt of 0.1 Ohms and an output voltage of 0 to 6 V under normal conditions, had a non-linearity of the output characteristic U = f (I) of not more than 0.2% at Upit = 8-30 V.

A prototype device was assembled on a 140UD17A chip, 2T313B and 2T3117A transistors, a TIL2V transformer, 2DS627A diode assembly, C2-29A, C2-33 resistors and K10-17, K53-65 capacitors.

Of the patent information materials known to the applicant, no signs were found that are similar to the totality of the features of the claimed object.

Claims (1)

Isolated DC sensor containing a measuring shunt, the first output of which is connected to a common power bus, and the second to the load, an operational amplifier (OA), a four-winding transformer, the first winding of which is connected through the first diode to the input of the first filter, the output of which is the output devices, the second winding of the transformer through the second diode is connected to the input of the second filter, characterized in that the positive output of the op-amp power supply is connected to the positive power bus, and the negative one to the common power bus; two resistive voltage dividers with equal division factors were introduced; the first divider is connected between the positive power bus and the second terminal of the shunt, and the second between the positive power bus and the common bus; the inverting input of the op-amp is connected to the output of the first divider, and the non-inverting input to the output of the second divider; the positive output of the second filter through the introduced resistor is connected to the non-inverting input of the op-amp, and the negative is connected to the inverting input of the op-amp; a capacitor is introduced, which is connected between the output and the inverting input of the op-amp; a pnp transistor is introduced, the emitter of which is connected to the positive power bus, the base through the resistor to the op amp output, and the collector to the input of the inserted RC filter; the output of the RC filter is connected to the power buses of the blocking generator assembled using the third and fourth windings of the transformer and the newly introduced diode, two resistors, a capacitor and a transistor.