RU97231U1 - SUPPLY POWER SUPPLY - Google Patents

Abstract

 1. The power source of a discharge lamp, which is powered by a constant voltage source, containing an inverter on transistors shunted by diodes, a capacitive divider, inductor and capacitor, characterized in that the inductor, made on a single frame with a ferromagnetic core, has a main and additional windings that are connected between one of the terminals and these terminals is connected to the inverter output, the other terminal of the additional inductor winding is connected to the first terminal of the capacitor, the second terminal is conden Ator connected to the negative pole of the power source, the other terminal of the primary winding of the choke is connected to one of the lamp terminals, and a capacitive divider is connected to the other terminal of the lamp. ! 2. The power source of the discharge lamp according to claim 1, characterized in that between the second terminal of the capacitor and the negative pole of the constant voltage source, a resistor is connected, which serves as a sensor for the absence or malfunction of the lamp. ! 3. The power source of the discharge lamp according to claim 1, characterized in that between the drain of the lower transistor and the minus of the constant voltage source, a resistor is connected that serves as a sensor for the absence or malfunction of the lamp. ! 4. The power source of the discharge lamp according to claim 1, characterized in that a capacitor is connected between the outputs of the inductor windings connected together and the inverter. ! 5. The power source of the discharge lamp according to claim 1, characterized in that a capacitor is connected between the lamp and the capacitive divider. ! 6. The power source of the discharge lamp according to claim 1, characterized in that between the output of the inverter and the positive pole of the source

Description

The device relates to electrical engineering and can be used to power discharge light sources, which must first be ignited with high voltage (from 500 volts).

The device can be used in lamps used for street, perimeter, greenhouse lighting.

The prior art device for powering a discharge lamp, containing a push-pull converter of constant voltage to alternating voltage of adjustable frequency, the input terminals of which are connected to the terminals of the constant voltage source, and the output terminals to a series resonant LC circuit, to the capacitor of which electrodes of the discharge lamp are connected, while the winding of the resonant inductor has an additional tap connected to the input terminals of the DC / DC converter mennoe voltage variable frequency through respective diodes, the cathode of the first of which is connected to the positive input terminal, a second anode - the negative. RU 77529 U1.

This device is simple and reliable by reducing the quality factor of the resonant LC circuit through the use of diodes connected between the poles of the power source and an additional tap of the inductor winding.

The disadvantages of this device include the demand for the choice of the ignition frequency of the lamp and the need to use two high-voltage elements - an inductor and a resonant circuit capacitor.

The purpose of the claimed technical solution is to expand the set of tools for this technical field, as well as to increase reliability, simplify and reduce the cost of discharge lamp power supplies.

This goal is achieved due to the fact that the power source of the discharge lamp, which is powered by a constant voltage source, containing an inverter with transistors shunted by diodes, a capacitive divider, inductor and capacitor, characterized in that the inductor made on a single frame with a ferromagnetic core has the main and an additional winding, which are interconnected by one of the conclusions and these conclusions is connected to the inverter output, the other output of the additional inductor winding is connected to the first water capacitor, the second capacitor terminal is connected to the negative pole of the power source, the other terminal of the primary winding of the choke is connected to one of the lamp terminals, and a capacitive divider is connected to the other terminal of the lamp.

The technical result provided by this set of features is to reduce the cost of the device and high reliability. Only the inductor should be high-voltage, since the ignition voltage of the lamp will be formed on it. Another significant advantage is that the magnitude of the ignition pulse depends weakly on the frequency of operation of the inverter.

The device is presented in figure 1.

The device consists of a constant voltage source 1, an inverter on transistors 2 and 3, diodes 4 and 5, a capacitor 6, a choke with a main 7 and an additional 8 windings, a capacitive divider formed by capacitors 9 and 10, a lamp 11 is connected to the device.

The device operates as follows. When turned on, a constant voltage is supplied to the inverter from source 1, transistors 2 and 3 of the inverter begin to open in turn. The current from the source 1 flows alternately through the transistors 2 and 3 of the inverter and the additional winding of the inductor 7, thereby recharging the capacitor 6, as a result of which the emf is induced on the main winding 8 of the inductor, which is determined by the ratio of the turns of the main 8 and additional 7 windings, the magnitude of the voltage of the source 1, degree magnetic coupling of the windings 7 and 8 of the inductor, with the capacity of the capacitor 6. When the voltage on the main winding becomes sufficient, the lamp 11 lights up, current begins to flow through the lamp 11 and the main winding 8, which is limited t lamp current. The capacitor 6 through an additional winding together with diodes 4 and 5 helps to switch transistors 2 and 3 at zero voltage, thereby increasing the KPD devices. It is important that the inductance of the main winding 8 is much greater than the inductance of the additional winding 7. A capacitive divider, consisting of capacitors 9 and 10, forms a constant voltage on one of the terminals equal to half the voltage of the source 1. The role of the DC voltage source can be performed by the mains voltage rectifier with a filter with or without it, active or passive power factor corrector.

Claims (6)

1. The power source of a discharge lamp, which is powered by a constant voltage source, containing an inverter on transistors shunted by diodes, a capacitive divider, inductor and capacitor, characterized in that the inductor, made on a single frame with a ferromagnetic core, has a main and additional windings that are connected between one of the terminals and these terminals is connected to the inverter output, the other terminal of the additional inductor winding is connected to the first terminal of the capacitor, the second terminal is conden Ator connected to the negative pole of the power source, the other terminal of the primary winding of the choke is connected to one of the lamp terminals, and a capacitive divider is connected to the other terminal of the lamp. 2. The power source of the discharge lamp according to claim 1, characterized in that between the second terminal of the capacitor and the negative pole of the constant voltage source, a resistor is connected, which serves as a sensor for the absence or malfunction of the lamp. 3. The power source of the discharge lamp according to claim 1, characterized in that between the drain of the lower transistor and the minus of the constant voltage source, a resistor is connected that serves as a sensor for the absence or malfunction of the lamp. 4. The power source of the discharge lamp according to claim 1, characterized in that a capacitor is connected between the outputs of the inductor windings connected together and the inverter. 5. The power source of the discharge lamp according to claim 1, characterized in that a capacitor is connected between the lamp and the capacitive divider. 6. The power source of the discharge lamp according to claim 1, characterized in that a capacitor is connected between the inverter output and the positive pole of the power source.