MD900Z - Device for synchronization and power supply in a constant mode - Google Patents

Abstract

The invention relates to electronics and can be used for synchronization of static inverters and direct-current and alternating-current sources.The device for synchronization and power supply in a constant mode comprises a control unit (1), at least a synchronization unit (2), each connected to a synchronized and power supplied device (3). The synchronization unit (2) comprises a transformer (T), the primary winding (W1) of which is connected to the outputs of the control unit (1), with the possibility of parallel connection of primary windings of the transformers of other synchronization units (2i, 2n). The secondary winding (W2) of the transformer (T) is connected to the device (3) via an optocoupler (OC).

Description

The invention relates to electronics and can be used for synchronizing static inverters and direct and alternating current sources.

The remote control device of the electronic inverter with output transformer is known, which contains a low-power transformer, the output winding of which is connected to the input of the rectifier bridge, an output of which is connected to the first terminal of the capacitor filter, and also contains a capacitor, connected between the control terminals of a pair of thyristors connected in opposition and in parallel, at the same time the circuit, consisting of the second capacitor, the photoemitters of the optocouplers and the adjustable resistor connected in parallel, is connected in parallel with the capacitor filter, the second terminal of which is connected to another output of the rectifier bridge, and the photoreceivers of the optocouplers are intended for connection in the control circuits of the inverter start switch, at the same time the pair of thyristors connected in opposition and in parallel is connected consecutively with one of the secondary windings of the output transformer [1].

The disadvantage of this device is that an additional low-power transformer is used to power the thyristor control device, and a second power transformer is required to perform the load current control process.

There is also known a device for synchronizing uninterruptible power supplies, which contains an intellectual ISM synchronization module for uninterruptible power supplies UPS. The UPS system comprises at least one of: a first UPS group or a second UPS group, which is separate and independent, and each of the two UPS groups has a main UPS module. The ISM module comprises a processing scheme and a storage medium, which is read by the processing scheme, where commands are stored for execution by the processing scheme in order to: designate the first UPS group as the main group and the second UPS group as the auxiliary group; and transmit the phase information relating to the main group to the auxiliary group, which allows the main UPS source of the auxiliary group to synchronize with the main group [2].

The disadvantage of this device is that digital codes are used for phase synchronization, which requires special programs.

The problem solved by the invention consists in reducing the elements of the synchronization and power supply device scheme by increasing the number of devices synchronized and powered by a single control device without applying digital code programs.

The device, according to the invention, eliminates the above-mentioned disadvantages by being formed by a control block, at least one synchronization block, each connected to a synchronized and powered device. The synchronization block contains a transformer, the primary winding of which is connected to the outputs of the control block, with the possibility of connecting the primary windings of the transformers of other synchronization blocks in parallel. One end of the secondary winding of the transformer is connected to the anode of a diode, to the cathode of another diode and to a current-limiting resistor, and the second end of the secondary winding is connected to the "-" terminal of a capacitor, to the "+" terminal of another capacitor, to the anode of a diode and to the cathode of an optocoupler. The second end of the resistor is connected to the cathode of the diode and to the anode of the optocoupler. The cathode of one diode is connected to the “+” terminal of the capacitor, the anode of another diode is connected to the “-” terminal of the capacitor and to the “-U” power terminal of the synchronized and powered device. The ground terminal of the optocoupler is connected to the connection point of the diode and the cathode of the optocoupler and connected to the control terminal of the synchronized and powered device. The power terminal of the optocoupler is connected to the connection point of the diode and the capacitor and connected to one end of a resistor and to a “+U” power terminal of the synchronized and powered device, and the output of the optocoupler is connected to the second end of the resistor and to a synchronization terminal of the synchronized and powered device.

The technical result of the invention consists in that a single transformer is used to form the synchronization signals and supply currents, and a series of synchronization blocks is used for one and the same control block to synchronize a series of devices.

The invention is explained by the drawing in the figure, which represents the diagram of the device for synchronizing and continuously supplying several devices synchronized and supplied from a single control block, where:

1 - continuous control block of electrical energy sources;

2, 2i and 2n - the device synchronization block in continuous mode;

3, 3i and 3n - synchronized and continuously powered devices;

T- transformer;

W1 - primary winding of transformer T;

W2 - secondary winding of transformer T;

VD1, VD2, VD3 - diodes;

R1 - current limiting resistor;

C1, C2 - capacitors;

ОС- optocoupler;

"com" - control terminal of the synchronized and powered device;

"Sync" - synchronization terminal of the synchronized and powered device;

“+U” - power terminal of the synchronized and powered device;

"-U" - power terminal of the synchronized and powered device.

The device operates in the following mode.

From control block 1, periodic current pulses are applied to device 2 (to devices 2...2n) through the primary winding W1 of transformer T.

The anode and cathode of diodes VD1 and VD2 are connected to an output of the secondary winding W2 of the transformer T.

For a positive pulse period, the current at diode VD1 will be rectified and applied to the “+” terminal of capacitor C1, which is used as a positive voltage filter, and to the “+U” terminal of device 3.

For a negative pulse period, the current will be rectified at diode VD2 and applied to the “-” terminal of capacitor C2, which is used as a negative voltage filter, and to the “-U” terminal of device 3.

The periodic pulses from the W2 winding reach the photodiode in the ОС optocoupler through the resistor R1, in parallel with which the diode VD3 is connected, through which the input of the OC optocoupler is protected from reverse voltages.

The output of the optocoupler ОС, galvanically isolated from the input and powered from the “+U” and “com” terminals, is applied to the “Sinc” terminal of device 3.

Resistor R2 represents the load of the optocoupler output ОС.

Thus, by means of the claimed device, the device 3 or a set of devices 3 can be powered and synchronized simultaneously and continuously.

1. RU 2407129 C2 2010.12.20

2. RU 2064729 C1 1996.07.27

Claims (1)

Synchronization and continuous power supply device, which consists of a control block (1), at least one synchronization block (2), each connected to a synchronized and powered device (3); the synchronization block (2) contains a transformer (T), the primary winding (W1) of which is connected to the outputs of the control block (1), with the possibility of connecting the primary windings of the transformers of other synchronization blocks (2) in parallel; one end of the secondary winding (W2) of the transformer (T) is connected to the anode of a diode (VD1), to the cathode of another diode (VD2) and to a current-limiting resistor (R1), and the second end of the secondary winding (W2) is connected to the "-" terminal of a capacitor (C1), to the "+" terminal of another capacitor (C2), to the anode of a diode (VD3) and to the cathode of an optocoupler (OC); the second end of the resistor (R1) is connected to the cathode of the diode (VD3) and to the anode of the optocoupler (OC); the cathode of the diode (VD1) is connected to the "+" terminal of the capacitor (C1), the anode of the diode (VD2) is connected to the "-" terminal of the capacitor (C2) and to the power terminal (-U) of the device (3); the ground terminal of the optocoupler (OC) is connected to the connection point of the diode (VD3) and the cathode of the optocoupler (OC) and connected to the control terminal (com) of the device (3); the optocoupler (OC) power terminal is connected to the connection point of the diode (VD1) and the capacitor (C1) and connected to one end of a resistor (R2) and to a power terminal (+U) of the device (3), and the optocoupler (OC) output is connected to the second end of the resistor (R2) and to a synchronization terminal (Sinc) of the device (3).