RU33681U1 - Device for ignition and power supply of a discharge lamp of direct current - Google Patents

Description

Device for ignition and bending of a discharge lamp by direct current

The inventive utility model relates to electrical engineering, namely, equipment for electric lighting, and can be used for pulsed ignition and power of gas discharge lamps, such as arc mercury lamps, and similar lamps in which the ignition voltage is generated using diode-capacitor multiplication cells voltage.

A device for ignition and power of a gas discharge lamp with direct current (see RF application No. 94026563 "Device for ignition and power of a gas discharge lamp with rectified current, MPK-6 Н05В 41/391, declared. 1994.07.18).

A known device based on diode-capacitor voltage multiplication cells, contains diodes 1-4, comprising a bridge rectifier, a magnetic amplifier 5, the working winding of which is connected to the mains by one output and the opposite terminals of diodes 3 and 4, two identical chains of which are connected in series by posistors and capacitors 6 and 7, 8 and 9 respectively, the common connection point of which is connected to the opposite terminals of diodes 1 and 2 and to the second network wire, and the free terminals to the bridge output rectifier and to the electrodes of the discharge lamp 10. In the control winding of the magnetic amplifier, current is generated with the help of an external voltage source Ey.

The known device is reliable enough and extends the range of current regulation in a gas discharge lamp. However, its disadvantage lies in the cumbersomeness of the circuit, which contains a magnetic amplifier and an additional external voltage source for starting it.

MPK-7: Н05В 41/232

ignition and power supply of a gas discharge lamp with direct current according to the Russian Pattspts No. 2080749, MTZh-6 Н05В 41/232, declared 1997.05.27.

The prototype contains diodes 1-4 that make up the bridge rectifier, inductor 5, which is connected to the network with one output and the diodes 3 and 4 with the opposite terminals, two identical chains of series-connected posistors and capacitors 6 and 7, 8 and 9, respectively. The common point of connection of these chains is connected to the opposite leads of the diodes 1 and 2 and to the second wire of the network, and the free leads to the output of the bridge rectifier and to the electrodes of the discharge lamp.

Like the device according to the aforementioned analogue, the prototype is aimed at improving the efficiency and reliability of ignition and power of a gas discharge lamp, but has a simpler circuit, because a magnetic amplifier with an external voltage source is replaced by a choke.

The disadvantage of the prototype is the high coefficient of flicker of the lamp due to insufficient smoothing of the voltage supplied to the discharge lamp.

The objective of the claimed utility model is to reduce the flicker coefficient and increase the stability of the discharge lamp while reducing the voltage in the network.

The technical result that ensures the achievement of the task is to smooth out the voltage ripple in the circuit by changing the capacitive load in the ignition and power circuit of the lamp and connecting the inductor between one output of the lamp and one of the leads of the rectifier bridge.

This problem is achieved by the fact that in the known device for ignition and power of a gas discharge lamp with direct current, containing a inductor, four diodes forming a bridge rectifier, each consisting of a series-connected capacitor and a semiconductor resistor, are two identical circuits.

SJXPi iUOef 2

the common connection point of the terminals of the semiconductor resistors is connected to the opposite terminals of the first and second diodes of the bridge rectifier and one of the network terminals, the second terminal of one of the chains is connected to the cathodes of the first and third diodes, the second terminal of the second chain is connected to the anodes of the second and fourth diodes and one of the terminals lamp, characterized in that the inductor is connected by one output to the second output of the lamp, the second to the cathodes of the first and third diodes, and the first output of the capacitive-resistor e is connected to the second output of the network ementa, the second terminal of which is connected to heteronymic terminals of third and fourth diodes.

A device for igniting and supplying a gas discharge lamp with direct current may have a capacitance-resistor element in the form of two additional series-connected circuits, each of which consists of a capacitor to which a resistor is connected in parallel.

A device for igniting and supplying a gas discharge lamp with direct current may have a capacitance-resistor element in the form of a capacitor, to which a resistor is connected in parallel.

Studies conducted on the sources of patent and scientific and technical information have shown that we declare a device for ignition and power supply of a discharge lamp by direct current is unknown and does not follow explicitly from the studied prior art, i.e. meets the criterion of "novelty.

The inventive device can be manufactured in industrial conditions of the factory floors of factories or specialized small enterprises on standard equipment that is produced by both domestic and foreign industry.

The proposed set of essential features informs the claimed device of new properties that allow solving the posed problem.

Due to the connection of the capacitance-resistor element to the network output and the input of the bridge rectifier, as well as the connection of the inductor between the discharge gas discharge

lamps and cathodes of the first and third diodes, the best smoothing of the rectified voltage is achieved. As a result, the flicker coefficient decreases significantly when the voltage drops in the network: up to 90 V for 220 V and 125 V for 380 V.

The inventive device for ignition and power of a gas discharge lamp with direct current is illustrated by the drawings, which are presented on:

FIG. 1 - circuit diagram according to claim 2 of the utility model formula;

FIG. 2 is a circuit diagram according to claim 3 of the utility model formula.

The inventive device for igniting and supplying a gas discharge lamp with direct current contains diodes 1-4, forming a bridge bridge; 1b, two identical first and second circuits, each of which consists of a series-connected capacitor and a semiconductor resistor: 5, 6 and 7, 8, respectively. The common point 9 of the connection of the terminals of the semiconductor resistors 6, 8 is connected to the opposite terminals of the diodes 1, 2 (the anode of the diode 1 and the cathode of the diode 2). In addition, the connection point 9 is connected to an electrical network voltage of 220 V or 380 V.

The second output of the second chain, consisting of a capacitor 7 and a semiconductor resistor 8, is connected to the anodes of the diodes 2, 4 and the first output of the discharge lamp 10. A choke 11 is connected to the second output of the discharge lamp 10, the second output of which is connected to the cathodes of the diodes 1 and 3 and the capacitor 5.

The second terminal of the network is connected to the first terminal of the capacitance-resistor element, which, in accordance with paragraph 2 of the utility model formula, is two series-connected circuits consisting of each capacitor and a resistor connected in parallel to it: 12, 13 and 14, 15, respectively . The second terminal of the capacitance resistor element is connected to the opposite terminals of the diodes 3 and 4.

M / e9b4

in accordance with paragraph 3 of the utility model formula, capacitive resistor

the element is a capacitor 12 and connected in parallel to it

resistor 13. This circuit is designed to turn on and power a gas discharge lamp at the so-called standby time, when lighting of shops, streets, etc. is not required. spaces in the full value of the glow of the lamp electrodes.

The inventive utility model works as follows.

The mains voltage is supplied to the capacitors 12, I, and when charging, they feed it to the input of the bridge rectifier, namely to the opposite terminals of the diodes 3, 4. Through the indicated diodes 3,4, the capacitors 5 and 7 are charged to the amplitude value. that the resistance of semiconductor resistors 6, 8 is small, they limit the charge and discharge currents of capacitors 5, 7. The total voltage of tea, having reached a certain value and passing through inductor 11, ignites a discharge lamp 10. The operating mode is set in the circuit.

After starting the lamp 10, a greater current flows through the semiconductor resistors 6, 8 than when the lamp is ignited, and they heat up so that the resistance in the circuit increases significantly. As a result, the charge currents of the capacitors 5, 7 decrease, which do not affect the further operation of the circuit.

At the standby time, the circuit shown in FIG. 2, when a twice lower voltage is applied to the mains input, and the lamp runs in full.

The advantages of the claimed device:

-Reducing the flicker coefficient when lowering the voltage in the network;

- stable ignition at low temperatures due to the rapid heating of the lamp;

-reliability of work and durability of lamps;

M :) 5

Claims (3)

1. A device for igniting and supplying a gas discharge lamp with a direct current, containing a choke, four diodes forming a bridge rectifier, each of which is connected in series with a capacitor and a semiconductor resistor, two identical circuits, a common connection point of the terminals of the semiconductor resistors is connected to the opposite terminals of the first and second diodes of the bridge rectifier and one of the terminals of the network, the second terminal of one of the chains is connected to the cathodes of the first and third diodes, the second terminal of the second chain is connected It is connected with the anodes of the second and fourth diodes and one of the lamp leads, characterized in that the inductor is connected with one output to the second output of the lamp, the second to the cathodes of the first and third diodes, and the first output of the capacitor-resistor element is connected to the second output of the network, the second output which is connected to the opposite conclusions of the third and fourth diodes. 2. The discharge lamp according to claim 1, characterized in that the capacitance-resistor element is two series-connected circuits, each consisting of a capacitor, to which a resistor is connected in parallel. 3. The discharge lamp according to claim 1, characterized in that the capacitance resistor element is a capacitor to which a resistor is connected in parallel.