UA112681C2 - POWER SUPPLY WITH CURRENT INPUT - Google Patents

Abstract

The invention relates to electrical engineering, in particular to power supplies with current input. The power supply unit with current input due to the use as an input transformer of the current of the phase transformer of the current of the power substation, the inclusion of a parallel power key to the two-period rectifier and the use as a key of a symmetric thyristor, ensures a reduction of its overall dimensions.

Description

The invention belongs to electrical engineering, in particular to power supply units for microprocessor devices of relay protection and automation, and can find application in the implementation of power supply units for the organization of powering devices from phase currents.

Quite often, distribution devices and transformer substations do not have a separate voltage circuit for operational power supply of microprocessor relay protection and automation devices. In this case, the power supply of the protection devices is organized from the circuits of the current transformers of the phases, usually for this purpose current transformers installed on the bus of phase A and bus of phase C are used.

A known power supply unit, including a current input, which contains an input current transformer, the primary winding of which is connected to the secondary winding of the phase current transformer of a transformer station (or switchgear), the secondary - to the input of a two-stroke rectifier loaded through a separation diode on a capacitive filter and at the same time connected to a power transistor connected in parallel, the power transistor is controlled by a control circuit, the information input of which is connected to a capacitive filter (power supply unit BPK-001, ODO "VNIIYR", Cheboksary - ner: /Lumly /paiIadKa.ru/? her - 259 - 11). This unit is installed on each microprocessor terminal of relay protection, has weight and dimensional characteristics similar to the characteristics of the actual microprocessor terminal.

The Orion-BP-2 device is also known (O.G. Zakharov. Sources of questions for schemes with digital devices of relay protection! - p.18-19 |2)), which is a power source with a current input, the structure of which is similar to the BIPK- 001. This device, like the one mentioned above, has large dimensions.

The closest to the proposed technical solution is the well-known BPK-4 power supply (O.G. Zakharov, pp. 14-15), made in accordance with the technical solution according to RF patent 2216844

IZI It contains an input current transformer connected to the secondary winding of the phase current transformer, which is installed on the phase bus and is an element of the electrical equipment of the transformer substation; two-half cycle rectifier, the input of which is connected to the secondary winding of the input current transformer; a power transistor switch connected by its power outputs in parallel with the output of a two-semi-periodic rectifier; control circuit, separation diode and capacitive filter; separation diode anode is connected to the positive output of the two-semi-periodic rectifier, cathode - to the capacitor of the capacitive filter; the information input of the control circuit is connected to the capacitor of the capacitive filter, and the control output is connected to the control electrode of the power transistor.

The principle of operation of the well-known BIPK-4 power supply unit is as follows. Suppose that in the initial state the capacitor of the capacitive filter is discharged and there is no voltage on it, the control circuit does not supply the control voltage to the power transistor and the transistor is closed, that is, no current flows through its power terminals. When current flows in the phase bus, the current transformer installed on it forms a current in its secondary winding, which enters the primary winding of the input current transformer of the device under consideration. The charge current of the capacitor begins to flow through the two-semi-cycle rectifier, separation diode and capacitor plates of the capacitive filter, and the voltage on it begins to increase. At some point in time, the voltage on the capacitor reaches the level of activation of the control circuit, which issues a control signal to the control electrode of the power transistor, transferring it to an open state, that is, to a state in which current flows through the power terminals of the transistor and the output of the two-semi-periodic rectifier is shunted by the power transistor. This leads to the fact that the charging current of the capacitor stops flowing, the voltage on it stops increasing and after some time begins to decrease due to the self-discharge currents of the capacitor and the current of the load connected in parallel with the capacitor of the capacitive filter. The discharge of the capacitor when the power transistor is closed is prevented by a separation diode.

After some time, the voltage on the capacitor of the capacitive filter will decrease so much that the control circuit will work again and close the power transistor, thus restoring the charge circuit of the capacitor of the capacitive filter. The voltage on the capacitor of the capacitive filter will begin to increase again and the described process of limiting the voltage on the capacitor will repeat again.

A known power source |Z| the disadvantages of the technical solutions discussed above are also inherent - the use of input current transformers leads to an increase in dimensions, such power supply units are often designed to service several microprocessor devices of relay protection and automation, which in some cases is unacceptable both for economic reasons and for the conditions of placement and reliability Provision of individual power supply from the current bo circuits of substations of each microprocessor device increases the reliability of protection of power distribution equipment, however, solving this problem with known technical solutions is associated with an increase in costs.

The task of the proposed invention is to reduce the price and reduce the dimensions.

The problem is solved by the fact that the phase current transformer of the transformer substation is used as the input current transformer, while the power switch is connected in parallel to the input of the two-semi-periodic rectifier, a symmetrical thyristor is used as the power switch, and the control circuit is made in the form of a circuit of a current-limiting resistor and a threshold element connected in series, for example, a symmetrical zener diode or a symmetrical suppressor, which is connected at one end 3 to the input of a two-semi-periodic rectifier, and at the other - to the control electrode of a thyristor.

The drawing shows the functional scheme of the proposed power supply unit.

The proposed device contains (see Fig. 1) a power switch 1, for which a symmetrical thyristor is used; control circuit 2 in the form of a chain of series-connected current-limiting resistor Z and a symmetrical zener diode (or symmetrical suppressor) 4; two-half cycle rectifier 5; capacitive filter 6; separation diode 7, connected in the direct direction between the positive terminal of the rectifier and the positive terminal of the capacitive filter 6. The power switch 1 is connected to the power terminals in parallel with the input of the two-semi-periodic rectifier 5.

A circuit of a series-connected current-limiting resistor C and a symmetrical zener diode (or suppressor) 4 is connected in parallel to the power outputs of the power switch 1, the other end of which is connected to the control electrode of the symmetrical thyristor of the power switch 1.

Outputs of the power switch 1 are the input of the proposed power supply unit, capacitor filter terminals 6 are the output of the power supply unit. Known DC-to-DC converters based on small-sized pulse transformers (conditionally not shown) can be used for galvanic separation with the load.

As a symmetrical thyristor 1, a TS132-80-10 type thyristor, which is serially produced by the Zaporizhzhya plant "Preobrazovatel", can be used. As a two-semi-periodic rectifier 5, a monolithic diode assembly produced in series can be used, for example - KVOTOM by StomproTesNpoioad, as a capacitive filter b can be used, for example, an electrolytic capacitor of the type

From TKATO1M2aI Z5M, which is serially produced by Datisop; as a separation diode 7, a semiconductor diode of the VUM2bE type from Mibpau can be used, the anode of which is connected to the positive terminal of the two-semi-periodic rectifier 4, and the cathode - to the positive terminal of the electrolytic capacitor of the capacitive filter 6; as other items, serially produced items may be used.

Let's consider the operation of the proposed device.

Suppose that the input of the device is connected to the secondary winding of the phase current transformer and that there is no current in it. Then, in the initial state, currents do not flow in the device and there are no voltages on the terminals of the components. In this case, the charging current of the capacitor of the capacitive filter 6 is absent, the voltage on the filter capacitor is practically zero, the control circuit 2 does not pass current to the control electrode of the triac 1, it is in a closed state, that is, the current does not flow through it. The voltage at the output of the device is zero.

Let a current appear in the secondary winding of the phase current transformer at some point in time. Since the power key 1 of the symmetrical thyristor is closed, this current will pass through the two-semi-cycle rectifier 5, the isolation diode 7 into the capacitor of the capacitive filter 6, the voltage on which will begin to increase. At the same time, the voltage on the power electrodes of key 1 and in control circuit 2 will begin to increase. At some point in time, the voltage on the control circuit 2 will reach the breakdown level of the symmetric zener (or symmetric suppressor), as a result of which the control current will begin to flow into the control electrode of the symmetric thyristor 1 and it will enter the open state, the voltage at its terminals will drop to a low level (from 2.2 to 2.5 V depending on the type of thyristor), the symmetrical zener diode (symmetrical suppressor) will stop passing current in the control circuit 2. The charging current of the capacitive filter 6 will be interrupted. The isolation diode 7 will prevent the discharge of the capacitive filter 6 through the charge circuit.

When the current polarity of the phase current transformer changes, the described processes of forming the charging current of the capacitive filter 6 will be repeated again.

In this way, the current of the phase transformer, external to the proposed device, is carried out with its periodic switching to the charge of the capacitive filter 6, the voltage of which will be maintained and its value will be determined by the breakdown voltage of the symmetric zener (symmetric suppressor) circuit.

List of sources 1. trans: /Llyumliu/paiaadkKa. ru/? id - 259 2. Zakharov O.H. Sources of questions for schemes with digital relay protection devices - M NPF "Znergoprogress", 2011. - P.14-15. 3. Pat. 2216844 Russian Federation НО2М7 / 12. Source of the combined question /

Ezersky S.V., Myrov A.V., Potapenko V.I., Alekseev Yu.A. - Published: 20.11.2003. Bul. Mo 32.

Claims (1)

DISCLOSURE OF THE INVENTION A current-input power supply unit comprising an input current transformer, a two-semi-cycle rectifier loaded through a diode divider to a capacitive filter, a power switch connected in parallel with the two-semi-cycle rectifier, and a control circuit that uses a phase current transformer as the input current transformer transformer substation, while the power switch is connected in parallel with the input of the two-semi-periodic rectifier, a symmetrical thyristor is used as the power switch, and the control circuit is made in the form of a circuit of a series-connected current-limiting resistor and a threshold element - a symmetrical zener diode or a symmetrical suppressor, connected at one end to the input of a two-semi-periodic rectifier , others - with the control electrode of the thyristor. shi , ! and and | Because Z N . : ЖЕ ЕЕ Ше ши | moto V shi i: piky "ЖЖ juv yuyu Kk sv nov vst v'v'n'ya is t SHIA shi