SU1670677A1 - Dc voltage stabilizer - Google Patents

Abstract

The invention relates to electrical engineering, in particular, to sources of secondary power supply for electronic equipment. The goal is to improve the accuracy of voltage stabilization at a remote load. The stabilizer contains a three-output stabilizer 1 with a fixed output voltage, a differential amplifier 2, a negative feedback resistor 3, a ballast resistor 4, a resistive voltage divider on resistors 5, 6, auxiliary two-pole power supply 7, power conductors 8, 9, conductors 10, 11 feedback. The transmission coefficient of the negative feedback of the differential amplifier 2 is chosen equal to one. By switching on the non-inverting and inverting inputs of the differential amplifier 2 to the difference of the voltages V ₈ + V ₁₇ and V ₁₇ , as well as connecting the common pole of the auxiliary power source 7 through the feedback conductor 11 to the corresponding terminal for connecting the load, equal to the fixed output voltage of the three-output stabilizer 1, regardless of the resistance of the power conductors 8, 9 and the magnitude of the load current. 1 il.

Description

The invention relates to electrical engineering and is intended for use in the implementation of secondary power supply of electronic equipment.

The purpose of the invention is to improve the accuracy of voltage stabilization at a remote load.

The drawing shows a circuit diagram of a DC voltage regulator.

The device contains a three-output stabilizer 1 with a fixed output voltage, a differential amplifier 2, a negative feedback resistor 3, a ballast resistor 4, a resistive voltage divider with resistors 5, 6, an auxiliary two-pole power supply 7, power conductors (lengths of power bus) 8.9, conductors 10, 11 feedback. The diagram also shows pins 12, 13 for connecting the primary power source 14, pins 15, 16 for connecting the load 17 and intermediate pins 18-21 of the device. The input and output pins of the stabilizer 1 with a fixed output voltage are included in the first power bus located between the terminals 12.15 (with intermediate terminal 18 and section 8). The second power bus is located between terminals 13, 16 (with intermediate terminal 19 and section 9).

The output terminal of the differential amplifier 2 is connected to the common terminal of the stabilizer 1 with a fixed output voltage, and the supply terminals to the corresponding polar poles (+ EP, -Ep) of the auxiliary power supply 7, having a common pole (COMM). The output terminal of the resistive voltage divider 5-6 is connected to the potential output of the non-inverting input of the differential amplifier 2. The first output of the ballast resistor 4 is connected to the potential output of the inverting input of the differential amplifier 2. One ends of the feedback conductors 10, 16 are connected respectively to the terminals 15, 16 , while others are connected respectively to the second terminal of the ballast resistor 4 (via intermediate terminal 20) and the common pole of auxiliary power source 7 (via intermediate terminal 21). The input and common terminals of the resistive divider 5-6 voltage are connected respectively to the output of the stabilizer 1 with a fixed output voltage and a common pole of the auxiliary power source 7. The transmission coefficient of the negative amplifier 2 covered by negative coupling 2, taking into account the resistance of the ballast resistor 4, is chosen equal to one.

For ease of analysis of the operation of the device, we assume that the current of the common output of the stabilizer 1 with a fixed output voltage, as well as the input currents of the differential amplifier 2 is much less than the load current 17 and, therefore, the voltage drop from the passage of the indicated currents through the power sections 8, 9 neglected. Note that the output voltage of the differential amplifier 2 with the transfer coefficient of the latter equal to one is equal to the difference of the input voltages.

The device works as follows.

From the diagram, it can be seen that the Uie-19 voltage between pins 18, 19 is defined as

Uie-19 Us + Uiv + Ug Ui + U2 + Ug. For output voltage 1) 2 differential amplifier 2 is true

5U2 (Ue + Ui7) -Ui7 Ua.

Thus, we have

l) 8 + Ui7 + Ug Ui + U8 + U9. The obtained equality is observed only with. Consequently, the device maintains a voltage on the load 17 equal to the fixed output voltage of the three-output stabilizer 1, regardless of the resistance of the power conductors 8.9 and the magnitude of the load current.

5 This makes it possible, when using this DC voltage regulator in mass-produced products, to refrain from the necessity of setting the voltage on the load 17.

Claims (1)

Formula of invention A DC voltage regulator containing a three-output stabilizer with a fixed output voltage, switched on by the input and output 5 pins in the first power bus, located between the first pins for connecting the primary power source and the load, a differential amplifier with negative feedback, output The output 0 of which is connected to the common output of the stabilizer with a fixed output voltage, and the supply terminals to the corresponding polar poles of an auxiliary power source having 5 common pole, resistive voltage divider, the output of which is connected to the potential output of the non-inverting input of the differential amplifier, the ballast resistor, the first output of which is connected to the potential output the inverting input differential connection is connected respectively to the second amplifier, the second power bus, the output terminal of the ballast resistor and the common ground between the second terminals for the pole of the auxiliary power source — the connection of the primary power source, the input and common terminals of the resistive voltage and the load, the first and second conductors of the voltage divider are connected by feedback, one ends of which are connected with the output of the stabilizer, respectively, with the first and second with the fixed output The arcing of the eye leads for connecting the load, and the common pole of the auxiliary one is different in that, for the purpose of the power supply source, and the transfer coefficient improves the accuracy of stabilization of the -10 differential amplifier, taking into account the state at the remote load, the other resistance of the ballast resistor and second conductors reciprocally equal to one.