RU2231884C1 - Current relay - Google Patents

Abstract

FIELD: electrical engineering.

SUBSTANCE: invention can be employed as electron current relay responding to increment of current. Current relay incorporates intermediate current transformer, rectifier, actuating element, three threshold units, two AND gates, reversible counter, single-shot multivibrator, clock pulse generator, frequency divider, algebraic adder, delay unit.

EFFECT: enhanced noise immunity of current relay.

2 dwg

Description

The invention relates to electrical engineering and can be used as electronic current relays that respond to a current increment, for example, a negative sequence current.

A device is known that contains a series-connected clock generator, a binary pulse counter, a decoder, a pulse shaper and an actuator made in the form of a transistor [1].

The disadvantage of this device is the relatively narrow functionality that does not allow its use as a current relay.

It is also known a device containing a series-connected intermediate current transformer, a rectifier, a smoothing filter, a threshold block and an actuator [2].

The disadvantage of this technical solution is the relatively low noise immunity.

The closest in technical essence to the claimed is a device containing an actuator, connected in series with an intermediate current transformer, the input of which is an information input of a current relay, a rectifier, the first, second and third threshold blocks, the first and second elements And, a reversible counter, one-shot and sequentially connected by a clock generator and a frequency divider, while the inputs of addition and subtraction of a reversible counter are connected to the outputs of the first and second elements Naturally, the first direct input of the first element And is connected to the output “less” of the first threshold block, with the output “more” of which the first direct input of the second element And is connected, the second direct input of the first element And is connected to the output of the clock generator, and the second direct input of the second And element is connected to the output of the frequency divider, the output of the reverse counter is connected to the input of the actuator and to the inputs of the second and third threshold blocks, the output is “greater” than the second threshold block and the output is “less” of the third threshold A new unit is connected to the inverse inputs of the first and second elements. And, accordingly, the output of the single-vibrator is connected to the input of the installation in the initial state of the reverse counter and to the start input of the clock generator, the input of the single-vibrator is the input of the start of the current relay [3].

In addition, the actuating element contains a threshold block, the input of which is the input of the actuating element, and the output directly or through an amplifying element is connected to the relay input with make contacts.

The disadvantage of this technical solution is the relatively low noise immunity.

The required technical result is to increase the noise immunity.

This technical result is achieved by the fact that in the current relay containing an intermediate current transformer connected in series, the input of which is the information input of the current relay, and a rectifier, actuator, first, second and third threshold blocks, first and second elements And, reversible counter, one-shot and series-connected clock generator and frequency divider, while the inputs of addition and subtraction of the reversible counter are connected to the outputs of the first and second elements AND, respectively, the first direct input of the first element And is connected to the output “less” of the first threshold block, with the output “more” of which the first direct input of the second element And is connected, the second direct input of the first element And is connected to the output of the clock, and the second direct input of the second element And connected to the output of the frequency divider, the output of the reversible counter is connected to the input of the actuating element and to the inputs of the second and third threshold blocks, the output is “greater” than the second threshold block and the output is “less” of the third threshold block with are connected with the inverse inputs of the first and second elements And, accordingly, the output of the single vibrator is connected to the input to the initial state of the reverse counter and to the start input of the clock, the input of the single vibrator is the input of the start of the current relay, an algebraic adder is introduced, the output of which is connected to the input of the first threshold block , and a delay unit, the input of which is connected to the input of addition of the algebraic adder and to the output of the rectifier, and the output is connected to the subtraction input of the algebraic adder.

Figure 1 presents the electrical structural diagram of a current relay; figure 2 - timing diagrams explaining his work.

The current relay contains a series-connected intermediate current transformer 1, the input of which is the information input of the current relay, and a rectifier 2, the first threshold block 3, the first 4 and second 5 I elements, the first inputs of which are connected respectively to the output “less” and the output “more” the first threshold block 3, a reverse counter 6, the addition input and the subtraction input of which are connected to the output of the first 4 and second 5 elements And, respectively, the second 7 and third 8 threshold blocks, the outputs of which are connected to the inverse inputs of the first about 4 and the second 5 elements And, respectively, and the actuator 9, the input of which is connected to the output of the reversible counter 6. The device also contains a series-connected generator 10 clock pulses (GTI), the output of which is connected to the second input of the first element And 4, and the divider 11 pulse frequency, the output of which is connected to the second input of the second element 5 And, as well as the one-shot 12, the input of which is the input of the start of the current relay, and the output is connected to the installation input in the initial state of the reverse counter 6 and with the input ska GTI 10. In addition, the device contains an algebraic adder 14, the output of which is connected to the input of the first threshold block 3, and a delay unit 15, the input of which is connected to the addition input of the algebraic adder 15 and the output of the rectifier 2, and the output is connected to the algebraic subtraction input the adder 14. In this case, the actuating element 9 can be made in the form of a fourth threshold unit 13, the input of which is the input of the actuating element 9, and the output directly or through an amplifying element is connected to the relay input with contact contacts.

The first 3, second 7 and third 8 threshold blocks, as well as threshold block 13 can be made in the form of standard comparators, a reverse counter according to the scheme presented in [4, p. 177, 187], an intermediate current transformer 1 and a rectifier according to the circuit shown in [2, p.113], the divider 11 - in the form of a binary counter. The remaining elements are standard elements of electronic technology.

The input of the intermediate current transformer 1 is the information input of the current relay, and the input of the one-shot 12 is the input of the start of the current relay.

Figure 2 presents the following timing diagrams: figure 2A - signal U ₂ at the output of the rectifier 2, on; figb - signal E ₆ at the output of the reversible counter 6 in analog form; on figv - the signal U ₁₃ at the output of the threshold block 13.

The current relay operates as follows.

When the current relay is turned on, power is supplied to all its elements, including the start input of the one-shot 12, which generates a pulse that goes to the installation input in the initial state of the reverse counter 6 and to the start input of the GTI 10. It is advisable to set the initial state of the counter to or slightly higher than the threshold the level of the actuating element Uee (figb). At the input of the intermediate current transformer 1, which is the information input of the current relay, an input signal is received, therefore, at the output of the rectifier 2, a half-wave rectified and non-smoothed voltage U ₂ is generated (Fig. 2a). In the algebraic adder 14 from the rectified voltage U ₂ is subtracted the same voltage, but delayed in block 15 delay. Thus, at the output of the algebraic adder 14, a voltage is generated proportional to the current current increment at the output of the rectifier 2, i.e. at the input of the current relay. This voltage is compared in the first threshold block 3 with the reference level Uo, which can be selected on the basis of permissible changes in the current value under normal operating conditions of the protected circuit. If the voltage is greater than the reference level, then the level of the logic unit is formed at the output “more” than the first threshold block 3, otherwise, at the output it is “less”. In the first case, the pulses of the GTI 10 through the second element 5 And go to the subtraction input of the reverse counter 6 after reducing the frequency of the pulses in the pulse frequency divider 11, in the second case, the pulses of the GTI 10 through the first element 4 And go to its addition input (Fig.2b) . As a result of this, with a significant increase in the amplitude of the input current, the signal E ₆ at the output of the reversible counter 6 will relatively quickly become lower than the threshold level of the actuating element Uee, which will lead to the formation of a logic unit level (short circuit signal) in the signal U ₁₃ at the output of the threshold block 13 operation of the closing contact of the current relay.

The second 7 and third 8 threshold blocks ensure the stability of the current relay. During prolonged operation in normal mode, when the input current is within acceptable limits, they do not allow to exceed the maximum preset signal level Uп + of the reverse counter, while the input signal is unacceptably high - it does not allow to become less than the minimum preset signal level Uп-.

This increases the noise immunity and reliability of the current relay, because provides a quick response of the relay to the increment of the input current.

Sources of information

1. Electrical reference book, in 4 volumes, t.2; Electrical products and devices / Under the total. ed. V.G. Gerasimova et al. - M.: Publishing House MPEI, 1998, p. 390, Fig. 35.10.

2. Chenobrovov N.V., Semenov V.A. Relay protection of energy systems. - M .: Energoatomizdat, 1998, p. 112, fig. 2.66. (prototype)

3. RF patent, No. 2192084, IPC ⁷ H 02 H 3/06, 3/08, 2002.

4. Bukreev and others. Microelectronic circuits of digital devices. - M .: Soviet Radio, 1975.

Claims (1)

A current relay containing an intermediate current transformer connected in series, the input of which is an information input of the current relay, and a rectifier, actuator, first, second and third threshold blocks, first and second elements AND, a reversible counter, a single-shot and a series-connected clock generator and divider frequency, while the inputs of addition and subtraction of the reversible counter are connected to the outputs of the first and second elements And, respectively, the first direct input of the first element And is connected to the output the house is “smaller” than the first threshold block, with the output “larger” of which the first direct input of the second element And is connected, the second direct input of the first element And is connected to the output of the clock generator, and the second direct input of the second element And is connected to the output of the frequency divider, the output is reversible the counter is connected to the input of the actuating element and to the inputs of the second and third threshold blocks, the output is “greater” than the second threshold block and the output “less” of the third threshold block is connected to the inverse inputs of the first and second electric of elements And, accordingly, the output of the one-shot is connected to the installation input in the initial state of the reversible counter and to the start input of the clock generator, the input of the one-shot is the input of the start of the current relay, characterized in that an algebraic adder is introduced, the output of which is connected to the input of the first threshold block, and a delay unit, the input of which is connected to the input of addition of the algebraic adder and with the output of the rectifier, and the output is connected to the subtraction input of the algebraic adder.

Images