SU1644296A1 - Stand-alone power supply system - Google Patents

Abstract

The invention relates to electrical engineering and can be used in autonomous direct current power supply systems of maintenance-free radio relay lines, hydrometeorological installations, aircraft, etc. The purpose of the invention is to improve the weight and dimensions of the ASEP. The autonomous power supply system contains a primary source of limited power, such as a solar battery, and a battery to cover peak loads when using battery charge and discharge controllers. At the end of the charge of the battery, the existing charge regulator is used to discharge the excess power of the primary source, disconnecting it from the battery and connecting it to the primary source through the newly entered contacts of the threshold device. 1 il.

Description

The invention relates to electrical engineering and can be used in autonomous power supply systems (AELPs) of direct current in maintenance-free radio relay lines, hydrometeo systems, and aircraft.

The purpose of the invention is to improve the mass-size parameters of the system.

The drawing is an electrical system diagram,

The autonomous power supply system contains a source of direct current 1 (for example, a photoelectric converter) with an intermediate terminal 2, power buses 3 and 4 of source 1 connected to a load 5, a pulsed charge control regulator 6 with its own input terminals 7.8 buses 3 and 4, and output terminal 9. Pulse regulator of discharge 10 with its input terminals 11, 12 is connected to a battery (AB) 13, and output terminal 14 to a power

Bus 3. The control unit 15 of the charge controller 6 is connected to the measuring terminals 16, 17 to the load 5. The control unit 18 of the discharge controller 10 is connected to the test leads 19, 20 to the load 5. The threshold device 21, which controls the keys 22, 23, connected by measuring leads to power buses. The input pins of the keys 22, 23 are combined and connected to the output terminal 9 of the pulse charge controller. The output terminal of the key 22 is connected to the battery 13, and the output terminal of the key 23 is connected to the intermediate terminal 2 of the current source 1.

The control unit 15 of the charge regulator 6 consists of a series-connected pulse-width modulator 24 and an input connected to the output of the differential amplifier 25. A non-inverting input of the differential amplifier is connected to the (L

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of the voltage connected to the test terminals 16, 17. A voltage source 26 is connected to the inverting input of the differential amplifier.

The control unit 18 of the discharge regulator 10 consists of a series-connected pulse-width modulator 27, an input connected to the output of the differential amplifier 28. A voltage source 29 is connected to the non-inverting input of the differential amplifier, and the output of the amplifier the connection connected by Q measuring pins 19, 20,

Autonomous power supply system operates as follows.

In the case when the source 1 does not generate energy, the load 5 is supplied from the battery 13 through the pulse regulator 10. When the energy generated by the source 1 increases, the regulator 10 stops its operation. The load 5 is supplied from source 1, and the excess energy through charge regulator 6 and closed switch 22 is supplied to charge of battery 13. As the battery charges, the voltage on it increases, the charge current decreases, for example The threshold device 21 is triggered on the source and load tires and when the set value corresponding to the level of charged batteries is reached, the key 22 opens, disconnecting the battery from charge regulator 6, and the output terminal of regulator 6 is connected via switch 23 to intermediate The main terminal 2 of the source 1. The control unit 15 produces control pulses of such duration that the voltage on the load 5 remains constant.

In this way, the system uses not three different types of controllers (source power control regulator, AB charge regulator, AB discharge regulator), but only AB 6 charge regulator and regulator, AB 10 discharge, where the functions the controller 6 is expanded: it can be both a charge controller and a source 1 power limiter. This leads to an improvement in the weight and size parameters of the system’s control equipment,

Claims (1)

Claims. Autonomous power supply system. containing a DC source of limited power with an intermediate output, whose power buses are connected to the load, a pulsed charge controller with a series connection the key and the throttle, the input terminals of which are connected to the power buses of the system, and the output to the battery, the pulse discharge controller, the input terminals of which are connected to the battery the battery, and the output pins to the power buses of the system, the control devices for the charge and discharge controllers, the measuring pins of which are connected to the load, which is different. with In order to improve the mass and size parameters of the system, two key elements and a threshold device are introduced in it that controls these key elements in antiphase, the input pins of keys connected to the output terminal of the charge regulator, the output terminal of the first key element is connected to the battery, and the output terminal of the second key element is connected to intermediate output DC source.