LT4537B - Adjustable power supply of direct current, preferably for electrochemical protection against the corrosion - Google Patents

Abstract

This invention belongs to the field of electrical engineering, namely adjustable direct current power-supply sources intended for electrochemical protection equipment used to protect against soil corrosion of underground metallic equipment and mains. The power-supply source has more than one independently controlled output channels. The adjustable direct current power-supply source, which has an output voltage and current electronic controller and grounding transformer, the primary winding of which is connected through the first overload protection device and voltage indicator to automatic switch terminals of an alternating current power-supply source network, and a secondary transformer winding is connected to a diode bridge inlets, the leads of which are connected to a load circuit, where there is another overload protection device and voltage and current meters. The novelty is that the load circuit consists of one or more output channels, each of them having a switched-in separate output voltage and current electronic controller, a separate overload protection device and a separate voltage and current meters.

Description

The present invention relates to the field of electrical engineering, namely to regulated direct current power supplies for electrochemical protection devices used in the protection of underground metal equipment and pipelines against soil corrosion. In addition, the invention can be used as a DC power supply, for example in heating units, battery charging, galvanic coating baths, electric actuators of various mechanisms, etc.

A known regulated DC power supply for electrochemical protection devices is provided with a control unit lowering the transformer, the first winding of which is connected via an overload protection device and an indicator to the terminals of an AC circuit breaker and the secondary winding of the transformer is connected to a bridge voltage rectifier. , consisting of two thyristors and two diodes, with input inputs and a rectifier, a capacitor unit and an overload protector connected to the rectifier output circuit (see ripeo6pa3OBarenb 'runa Β-ΟΠΕ, nacnopT, 1996, developed at Kozlov's Minsk Electrical Engineering Plant).

This type of power supply has a high output voltage ripple, which depends to a large extent on the opening angle of the thyristor, so a power rectifier and a capacitor unit must be connected to the secondary winding. The device described is complex in design and bulky. In addition, this power supply is not designed to power more than one object at a time, requiring different voltages and currents.

T- LT 4537 B

The closest technical design and essence is an adjustable DC power supply for cathodic protection devices with a lowering transformer whose primary winding with a sequentially connected electronic voltage and current regulator is connected to an AC power supply through the first overload protection device and input voltage indicator the circuit breaker of the mains circuit breaker and the secondary transformer winding is divided into two windings, the terminals of which are connected to each other via a contact and connected to the bridge-type diode rectifier inputs, which are connected to a load circuit with another overload protection device and current and voltage meters . The voltage regulator in the primary transformer circuit is comprised of a bridge-type power rectifier with a regulating thyristor in the diagonal (See the patent specification of LT patent No. 4089).

The disadvantage of this unit is its narrow application because when connecting the power supply to several objects at the same time, there is no possibility to apply and regulate the voltage and current for each object separately because the electronic voltage and current regulator is connected to the primary transformer circuit and is a common output voltage and current regulator . In addition, this source is bulky and has low energy ratios, as the voltage regulator consists of a bridge-type power rectifier with a regulating thyristor on the diagonal.

The present invention seeks to provide a power supply having a wider range of functionalities by providing more than one independently adjustable output channel, simpler design, smaller dimensions and better power data.

The essence of this problem is that a regulated DC power supply, especially for electrochemical corrosion protection devices, has an electronic regulator of the output voltage and current and a lowering transformer, the primary winding of which is connected to the AC power supply through the first overload protection device and voltage indicator. with the terminals of the mains circuit breaker and the secondary transformer winding connected to the diode bridge inputs, which terminals are connected to a load circuit containing another overload protection device and voltage and current meters, it is new that the load circuit comprises one or more output channels each with a separate electronic output voltage and current electronic regulator, separate overload protection device and separate voltage and current meters.

The load circuit consists of one or more output channels, each of which has an electronic regulator of output voltage and current that extends the functionality of the source and allows simultaneous operation of several objects requiring different power supply voltages.

To reduce the source mass and dimensions and improve energy performance, the electronic regulator consists of a regulating thyristor connected in series to the channel load circuit so that its cathode is connected to the diode bridge diode anode point and the thyristor controlled electrode is connected to the output control unit connected to the secondary winding terminals and the load circuit channel output terminals, respectively.

In order to extend the functional capability of the power supply by limiting power fluctuations in the load circuit, a feedback current circuit is provided in each output channel, providing an automatic control system in each channel and ensuring the limitation of short circuit currents.

In addition, the feedback current circuit comprises a shunt connected in series to the channel load circuit between the common point of the thyristor cathode and the diode bridge diode anodes and coupled to the control unit to provide external feedback.

Each winding of the earthing transformer is made up of at least two coils to reduce power loss of the power supply and extend the range of output current and voltage control, and the secondary winding coils are connected to the diode bridge inputs through a switch that connects these coils in series or in parallel.

The invention is explained by the drawings which show:

Fig. 1 is a schematic electrical diagram of a single-output power supply.

Fig.2 is a schematic diagram of a power supply with two output channels.

Fig. 3 is a secondary winding coil switch that connects the coils in parallel.

Fig.4 - Secondary winding coil commutator, which connects the coils sequentially.

An adjustable DC power supply, particularly for electrochemical corrosion protection devices according to Figs. 1 has a lowering transformer 1 having a primary winding consisting of two coils 2 and 3 and a secondary winding consisting of two coils 4 and

5. The transformer 1 primary winding coils 2 and 3 are connected in series and connected to an AC mains circuit breaker 6. In parallel to the transformer primary winding, an overload protector 7, an input voltage indicator 8 and a capacitor 9 are provided. connected in series by two varistors, whose common point is earthed and designed for protection against lightning discharge. The secondary winding coils 4 and 5 of the transformer 1 are connected to the inputs of the commutator 10, which can connect the second winding coils 4 and 5 in series (Fig. 4) or in parallel (Fig. 3). In this way, the secondary winding of the transformer 1 is connected via the switch 10 to the inputs of the diode bridge 11. For connecting the output of the diode bridge 11 to a load circuit, which also includes an electronic voltage and current regulator consisting of a thyristor 12 connected in series to the cathode of the diode bridge diode anode common point, the control electrode is connected to the respective output control unit 13 the inputs connected to transformer 1 secondary winding coil 2 and the load circuit output terminals 14. A shunt 15 connected sequentially to the load circuit between the common anode point of the thyristor 12 cathode and the diode bridge 11 connected to the respective input and output terminals of the control unit 13 to form an external feedback connection. The parallel load circuit output terminals 14 connected to the output voltage meter 16 and the overload protection ⁵ LT 4537 B device 17 consisting of two varistors connected in series having a total point is earthed. A current meter 18 is connected in parallel to the shunt 15.

An adjustable DC power supply, particularly for electrochemical corrosion protection devices according to Figs. 2 is made up of analogous elements to the power supply according to FIG. 1, except that its load circuit has two independent output channels. The second output channel consists of a thyristor 19 connected in series to the load channel of the second channel, the cathode of which is connected to a common point of the diode anodes of the diode bridge 11 via a shunt 20 connected in series and the control input is connected to the corresponding terminals of the control unit 21. winding coil 3 and second channel load circuit output terminals 22. In parallel to the second channel output terminals 22 is connected an output voltage meter 23 and an overload protection device 24 consisting of two varistors connected in series with a common ground point. A current meter 25 is connected in parallel to shunt 20.

The invention is not limited to these two described power supply embodiments. The number of output channels in the load circuit can be customized and can be switched on or off by means of an output switch (not shown in the drawing). The number of coils constituting the transformer windings may also correspond to the number of channels or may have only one primary and one or more secondary windings. An adjustable power supply can operate powered from both single-phase and three-phase AC power, using a single-phase or three-phase earthing transformer, respectively.

Operation of an adjustable DC power supply.

By means of automatic switch 6, the regulated power supply is connected to the AC power supply. Indicator 8 indicates that the power supply is on and alternating current from the transformer 1 primary winding coils 2 and 3 flows. The voltage of the secondary winding of transformer 1 is compared with diode bridge 11.

The specific output voltage and current required is set by an adjustable potentiometer ⁶ LT 4537 B on the control unit 13, voltage and current meters 16 and 18. The output voltage in the load circuit is automatically stabilized by an electronic current and voltage regulator, thyristor 12 with an opening angle controlled by the forming block 13 trigger pulses synchronized with the network half-lives. The startup pulses are formed during each half-voltage of the network voltage and open the thyristor 12 in proportion to the change in the set output voltage. The degree of opening of the thyristor 12 can vary from 0 to the applied magnitude, in agreement with the linearly varying voltage generated by the direct current. In this way, the control unit 13 of the thyristor 12 provides an even control of the output voltage and current and stabilization of the set output parameters.

Since the opening angle of the thyristor 12 is independent of the mains voltage and its oscillations can cause power fluctuations in the load, a shunt 15 connected to the load circuit, which provides external feedback through the control unit 13, affects the control system and automatically compensates for disturbances in the load circuit.

Unexpected currents in the load or input circuits (for example, due to lightning discharge}) are protected by overload protection devices 17 and 7 connected in parallel to the input and output terminals, consisting of series-connected varistors with a common ground point.

The adjustable DC power supply according to Figs. 2 works analogously to the above. In this case, the load circuit has two output channels with separate electronic regulators 12 and 19 and their control units 13 and 21. When the dual-channel power supply is connected to the network, adjustable potentiometers in the respective control units 13 and 21 determine the required voltage values at the channel output terminals 14 and 22, each of which can be independently adjusted, adjusted and stabilized as described above.

Claims (5)

DEFINITION OF INVENTION 1. An adjustable DC power supply, particularly for electrochemical corrosion protection devices, consisting of an output voltage and current electronic regulator and a dimmer transformer, the primary winding of which is connected to the terminals of an AC mains circuit breaker through a first overload protection device and a voltage indicator; and the secondary winding of the transformer is connected to a diode-bridge rectifier inlet for connection to a load circuit containing another overload protection device and a current and voltage meter, characterized in that the load circuit comprises one or more output channels each of which is connected. separate output voltage and current electronic regulator, separate overload protection device and separate voltage and current meters. 2. A power supply according to claim 1, characterized in that the electronic voltage and current regulator applied to each channel comprises a regulating thyristor connected in series to the channel load circuit so that its cathode is connected to the common point of the bridge-shaped diode rectifier anodes, the thyristor controlled electrode is connected to the output control unit whose inputs are connected to the secondary winding terminals and the load circuit channel output terminals, respectively. 3. Power supply according to one or more of the preceding claims, characterized in that each load channel has a feedback current circuit, which comprises an automatic control system in each channel. 4. Power supply according to claim 3, characterized in that the feedback circuit comprises a shunt connected in series to the load circuit between the common point of the thyristor cathode and the diode bridge diode anodes and connected to the respective input and output of the control unit for external feedback. 8 EN 4537 B 5. Power supply according to one or more of the preceding claims, characterized in that each winding of the earthing transformer is made up of at least two coils, in addition, the secondary winding coils are connected to the diode bridge rectifier input terminals via a switch which connects these coils sequentially or in parallel. .