RU2321047C1 - Alternating current voltage stabilizer - Google Patents

Abstract

FIELD: technology for automatically maintaining a set voltage in electric network.

SUBSTANCE: alternating current voltage stabilizer contains power device, indicators of input and output voltage, current indicator and indicator of synchronization impulses and additionally is provided with voltage inverter, microcontroller, two rectifiers, device for forming sinusoidal voltage, driver and indicator of transistors temperature. One rectifier is connected to voltage inverter, output of which is connected to second rectifier with filter, which is connected to device for generation of sinusoidal voltage. The voltage inverter through current indicator and indicator of transistors temperature is connected to microcontroller, inputs of which are connected to indicators of input and output voltage. The output of microcontroller is connected to voltage inverter. Device for generating sinusoidal voltage through output voltage indicator, current indicator and transistors temperature indicator is connected to driver, input of which is connected to indicator of synchronization impulses, and output - to generator of sinusoidal voltage. Power device is connected to driver and microcontroller.

EFFECT: possible reduction of device size, and also reduced weight and costs due to usage of voltage inverter which operates at increased frequency.

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Description

The invention relates to voltage stabilizers and can be used to automatically maintain a given voltage in an electrical network.

Known pulse voltage regulator containing a boost booster transformer, a key control element, a smoothing filter, a control element and a reference sinusoidal voltage source synchronized with the mains voltage (see patent RU No. 22246127, IPC ⁸ G05F 1/20, publ. 02.10.2005) .

The disadvantages of this analogue are the large size and weight, as well as its high cost.

Closest to the claimed technical solution is an AC voltage stabilizer comprising a power supply device, a stabilizer control device, input and output voltage sensors, a current sensor and a clock sensor (see RU patent for utility model No. 50691, IPC ⁸ G05F 1/20, H02J 3/10, H02J 3/12, published on January 20, 2006).

The disadvantages of this voltage stabilizer are large dimensions and weight, high cost.

The objective of the proposed technical solution is to reduce the size, reduce the mass and cost of an AC voltage stabilizer.

The solution to this technical problem is achieved by the fact that the known AC voltage stabilizer comprising a power device, input and output voltage sensors, a current sensor and a clock sensor, according to the invention is additionally equipped with a voltage inverter, a microcontroller, two rectifiers, a sinusoidal voltage generating device, a driver and a sensor temperature of the transistors, while the rectifier is connected to a voltage inverter, the output of which is connected to a rectifier with a filter, which th is connected to the sinusoidal voltage generating device, and the voltage inverter through the current sensor and transistor temperature sensor is connected to the microcontroller, the inputs of which are connected to the input and output voltage sensors, and the output of the microcontroller is connected to the voltage inverter, and the sinusoidal voltage generating device through the output voltage sensor, the current sensor and the temperature sensor of the transistors are connected to the driver, the input of which is connected to the clock sensor, and the output from the driver m sinusoidal voltage, wherein the supply device is connected to the driver and the microcontroller.

This device has significantly smaller dimensions and weight, almost inertialess, because It is a stabilizer of the electronic type of continuous operation in the absence of switching elements, moving parts, it allows to reduce energy losses, recovery time after an accident and has a relatively low cost.

The essence of the device is illustrated in the drawing, which shows a block diagram.

The AC voltage stabilizer consists of a rectifier 1 connected to a voltage inverter 2, the output of which is connected to a rectifier 3, with a filter, the output of which is connected to a sinusoidal voltage generating device 4, including power transistor modules connected by a bridge circuit.

The voltage inverter 2 through the current sensor 5 and the temperature sensor of the transistors 6 is connected to the microcontroller 7, the inputs of which are connected to the input voltage sensor 8 and the output voltage sensor 9, and the output of the microcontroller 7 is connected to the voltage inverter 2.

The device for generating a sinusoidal voltage 4 through the output voltage sensor 9, the current sensor 10 and the temperature sensor of the transistors 11 is connected to the driver 12, one of the inputs of which is connected to the clock sensor 13, and the output of the driver 12 is in turn connected to the sinusoidal voltage generator 4. Microcontroller 7 and driver 12 are connected to power device 14.

The device operates as follows.

After turning on the network, the voltage is supplied to the rectifier 1 and the power supply 14. From the power supply 14, the voltage is supplied to the microcontroller 7 and the driver 12. From the rectifier 1, the voltage is supplied to the voltage inverter 2 half-bridge type, operating at an increased frequency, and then through the rectifier 3 it is rectified is filtered and supplied to the device for generating a sinusoidal voltage 4. In the device for generating a sinusoidal voltage 4 using the driver 12, a sinusoidal voltage is generated, which is added with the sign (+) or (-) mains voltage and is supplied to the load. Using the clock sensor 13 and driver 12, when the voltage is less than the specified value, the network voltage is added to the voltage of the device for generating a sinusoidal voltage 4, because both of these voltages are in phase. When the mains voltage is higher than the specified voltage, the voltage of the device for generating a sinusoidal voltage 4 is subtracted both of these voltages are in antiphase. The voltage is stabilized in the load due to negative feedback through the output voltage sensor 9. To limit the current in excess of the permissible value through the voltage inverter 2, the signal through the current sensor 5 is fed to the microcontroller 2, which limits the current. Temperature control on the bodies of the output transistors of the voltage inverter 2 is carried out using a temperature sensor 6, the signal from which is fed to the microcontroller 7.

By means of the output voltage sensor 9, the voltage inverter 2 and the driver 12 regulate the voltage on the load so that it always remains at a given level.

Using the proposed AC voltage stabilizer will allow, in comparison with the prototype, to reduce the dimensions of the device, to reduce its weight and cost through the use of a voltage inverter operating at an increased frequency.

Claims (1)

An AC voltage stabilizer comprising a power device, input and output voltage sensors, a current sensor and a clock sensor, characterized in that it is additionally equipped with a voltage inverter, a microcontroller, two rectifiers, a sinusoidal voltage generating device, a driver and a transistor temperature sensor, while the rectifier connected to a voltage inverter, the output of which is connected to a rectifier with a filter, which, in turn, is connected to a sine wave forming device voltage inverter, and the voltage inverter through the current sensor and the temperature sensor of the transistors is connected to the microcontroller, the inputs of which are connected to the input and output voltage sensors, and the output of the microcontroller is connected to the voltage inverter, the device for generating a sinusoidal voltage through the output voltage sensor, current sensor, and temperature sensor transistors connected to a driver, the input of which is connected to a clock sensor, and the output to a sinusoidal voltage generating device, at Ohm, the power device is connected to the driver and the microcontroller.