SU1432686A2 - Secondary power suppldy system - Google Patents

Abstract

The invention relates to electrical engineering, in particular, to sources of secondary power supply for electronic equipment. The purpose of the invention is to improve the quality of output voltage stabilization under the influence of destabilizing climatic factors. The power part of the system contains an adjustable inverter 1, f2 1-5 0-multiwinding transformer 2, rectifier 3.1-3.p, filters, 4.1-4.P, power programmable switch 5. The main switch 6 enters the feedback channel and an additional feedback switch 7, a scaled E1 resistive element 9 with resistors 10.1-lO.m and a measuring element 11. The switch 7 is made inversely programmed with respect to the switch 6 and consists of 8.1–8.t keys. Through these keys, the disconnected terminals of the resistors of the scaling resistive element 9 that are not involved in the scaling process are connected to the common output terminal 15. As a result, parasitic leakage from the resistor inserted into the feedback channel is prevented by moisture, otherwise and dew. 1 il. d-0sh ate 14)

Description

The invention relates to electrical engineering and is intended for use in the implementation of power supply to consumers with software-varying supply voltages, operating under conditions of a significant change in the characteristics of the environment, namely moisture, inine and dew, and is an improvement of the invention auth. No. 964903.

The purpose of the invention is to improve the quality of output voltage stabilization under the influence of destabilizing climatic factors.

The drawing shows a functional diagram of a secondary power system.

The system contains adjustable .inverter 1, p-winding transformer 2 rectifiers 3.1-3.and filters 4.1-4.P, power programmable switch 5, main programmable 111 feedback switch 6, additional switch 7 o6paTHofi communication, inverter programmable in relation to the main feedback switch 6 and consisting of keys 8.1-8, t, scale the resistor element 9 with resistors 10.1-10. t, the measuring body

11. The diagram also shows the conclusions.

12.13 for connecting a primary constant voltage source, a potential output terminal 14 and a common output terminal 15, intended for connecting the load 16.

The power input of the adjustable inverter 1 is connected to pins 12 and 13, and the output through the transformer is the 2nd inlets of 1 channels consisting of series-connected upstream 3.1-Z.p and filters 4.1-4. switch 5 is connected between the outputs of the filters 4.1-4.P and output. pins 14 and 15. The output of the measuring body 11 is connected to the control input of the adjustable inverter 1, and the input through the scaling resistive element 9 and the main feedback switch 6 is connected to the output of the power switch 5. The input of the measuring body 11 is connected to the source of the reference voltage E (not shown). Keys 8,1-8, t additional feedback switch 7 included between the common output terminal 15 and the un-connected terminals of the resistors 10.1-10. TP of the scaling resistive element 9.

Consider the operation of the system: by the example of providing the object of power supply with the following nominal voltages and currents: 5 A; 12.6 HF A; + 12.6 volts f-2 au -12.6 volts 2A; 27 2 A.

A transformer 2 with four identical secondary windings, i.e. . In this case, the system has four identical galvanically distributed supply channels, and the number of birds coming to the power switch is 5 wires. By means of the switch 5, galvanically developed supply channels can be connected in parallel as well as in series.

With parallel connection of four supply channels () at the output of power switch 5 there is a voltage equal to the voltage of one channel and the allowable load current increased three times compared with one channel. Using the main switch 6 feedback. To the output of the power switch of the switch 5, the measuring element 11 is connected via one of the calibrated resistors, for example 10.1, the scaling resistive element 9, the resistance of which determines the output voltage. In this case, the unconnected terminals of the remaining resistors 10.2-lO.m are connected to the output terminal 15 via the closed 8.2–8 keys of the additional feedback switch 7. If each supply channel of the system provides the maximum load current of 2 A, and a calibrated resistor of 10.1 mas- tering resistance element 9 connected to the output of the power switch 5 causes an output voltage of 5V, then in this case the output of the power switch 5 is 5 A. In this case, one supply channel of the system provides 5 A.

Resistors 10.2-10. T, which in this case do not determine the specified output voltage, do not have a shunt effect through parasitic leaks and the resistor 10.1, which sets the output voltage, because all the parasitic leakages between the terminals of the resistors 10.2- lO.m and a resistor 10.1 pin

are turned on between the output pins of the power switch 5

With a serial connection of two parallel-connected power channels at the output of the power switch 5, we have twice the voltage and twice the load current compared with one channel. When using the main feedback switch 6, a calibrated resistor 10.2 of the scaling resistive element 9 that determines the output nominal 12.6 V is connected, another output voltage and current of 12.6 Vx4 A is obtained at the output of the power switch 5. The power supply channel of the system provides 6.3 A. The unconnected terminals of the remaining 10.1 10.3-lO.m resistors are connected to the common output terminal 15 via the closed keys 8.1,8.3-8. of the additional feedback switch 7.

Resistors 10.1,10.3-10. T, in this case, the specified nominal output voltage is not determined, do not have a shunt effect through parasitic leaks on the resistor 10.2, which sets the nominal output voltage, since all the parasitic leaks between pins of resistors 10.1,10.3-10.m. and pins of resistor a 10.2 are included between the output

the leads of the power switch 5. With a serial connection

the two series-connected channel ports at the output of the power switch 5 have twice the positive polarity voltage and twice the negative polarity voltage as compared to the voltage of one channel, and the load current is equal to the permissible load current of one channel. When connecting with the help of the main switch 6 feedback calibrated resistor 10. (t-1) of the scaling resistive element 9 at the output of the switch 5 relative to the common output the following voltage and current values + 12.6 V «2 A and -12 , 6 A. At the same time, one supply channel of the system provides 6.3 BK2 A. Necessary terminals of the remaining resistors 10.4-10. (T-1), lO.m are connected to the common output terminal 15 through 8.1-th closed keys. () Zt additional feedback switch.

Resistors 10.1-10. (T-2), 10.t, which in this case do not determine the specified output voltage, do not have a shunt effect through parasitic leaks on the resistor 10. (t-1), which sets the output value voltages, since all there are parasitic leaks between the terminals of the resistors 10.1-10. (t-2), 10.m and the output of the resistor 10. (t-1) are connected between the output pins of the power switch 5.

When four supply channels are connected in series at the output of the power switch 5, there is a fourfold voltage increase compared to one channel, and the maximum allowed current is equal to the maximum allowed current of one cable. When a calibrated resistor lO.m connects through the main switch 6 feedback a scaling resistive element 9 causing an output rating of 27 V, the output of the power switch 5 has a rating of 27 A. At the same time, each supply channel of the system provides 6.75 A. The required terminals of the remaining resistors 10.1-10. (Ml) are connected to the common output terminal 15 via closed keys 8.1-8. (T-1) of the additional feedback switch 7.

Resistors 10.1-10. (W-1), which in this case do not determine the specified output voltage, do not have a shunt effect through parasitic leaks on the resistor Y.sh, which sets the output voltage nominal, since all the parasitic leaks of the meddad are resistors 10.J-10. (t-1) and the output of the resistor JO.m are included between the output pins of the power switch 5.

Claims (1)

Invention Formula Secondary power supply system by auth. No. 964903, characterized in that, in order to increase the quality of output voltage stabilization under the influence of destabilizing climatic factors, an additional feedback switch, which is invert-programmed with respect to the main feedback switch and introduced of 1A32686 56 the keys included between the common resistor outputs are scalable; its resistive output and the uncoupled output element.