SU888086A1 - Stabilized converter - Google Patents

Description

(54) PORTABLE CONVERTER

The invention relates to a converting technique and can be used for remote powering of remote sensing equipment and other electronic devices. Many cell remote power supply devices with pulse-width regulation are known, the cell outputs of which are diode-shunted and connected in series. High reliability of such devices is achieved by introducing redundancy, i. E. not full cell load by power. In the event of an accident of one of the cells, its output is shunted by a diode, and the rest of the cells start working at full power of 13. In normal mode, all cells are loaded on ml / Power of the cell and only in emergency mode, when one of the cells goes down, the rest of the cells work with rated power. The disadvantage of this device is the efficiency with incomplete loading of power tags. Closest to the invention is a stabilized converter containing km of power cells connected in series on the output, the inputs of which are connected to the control and switching nodes, the master oscillator and the pulse-width modulator. However, in this device, the backup cell is switched on only after the deviation from the nominal value of the load current of the multi cell converter, which increases the time of the device's transition process. In addition, the introduction of additional sensors is necessary for detecting a failed cell. The aim of the invention is to improve the quality of the stabilized load current by reducing the transient time caused by the replacement of a failed, redundant cell. The goal is achieved by the fact that in the stabilized converter, sensors for determining the accident are inserted into the output circuit of each power cell, the switching node is made in the form of electronic switches, respectively, connected to the inputs of the power cells, the inputs of each of which are connected to the outputs sensors detect accidents of all other cells.

All converter cells operate at their rated power, and the backup cell is in a disconnected state. When one of the cells fails, a backup cell is turned on.

The drawing shows a block diagram of a control device with a stabilized W cell converter.

The stabilized converter control device contains a generator 1, which operates at a fixed frequency, a pulse-width modulator 2, the output of which is through the electronic switches 3 connected to the input of the power cells 4, which, in turn, are connected in series along the output and shunted by diodes 5. Between the outputs cells and shunt diodes included sensors 6 for determining the accident. The operation of the electronic keys is controlled by the logic circuits AND 7, the inputs of which are connected to the devices for determining the accident. The feedback voltage is removed from the load current sensor 8, connected in series with the load 9, and fed to the input of the pulse-width modulator.

Consider the operation of the circuit on the example of a three cell converter.

The latitude-modulated pulses i of the control from the output of the pulse-width modulator 2 are fed to the inputs of all three cells via the electronic keys 3. The electronic keys are turned off if there are logical Units on both inputs of the AND logic circuits that control these keys, and; if the inputs of the AND logic circuits have at least one logical zero. The accident detection sensor 6 outputs a logical unit at the rated output current value of the converter.

If the two upper cells (Fig. 1) are working, then the logical AND unit of the lower cell receives two logical units from the upper cell crash detection devices, which results in the closing of the lower cell electronic key and its transition to the standby state. When one of the working cells fails, its output current differs from the nominal value, the accident detection device generates an alarm signal which, entering the Irina cell circuit, opens the electronic key and transfers it from the reverse to the working state.

Thus, this technical solution allows improving the quality of the stabilized load current by accelerating the transient process caused by replacing the outdated backup cell and, in addition, provides information both on the necessity of switching on the backup cell and on what exactly the cell went iZ str.

Claims (2)

1. USSR author's certificate No. 626431, CL. G 05 F 1/56, 1978. 2. USSR author's certificate 589672, CL. G 05 F 1/56, 1976. Ih-sh