RU29821U1 - Device for ignition and power supply of a discharge lamp of direct current - Google Patents

Description

DEVICE FOR IGNITION AND POWER SUPPLY OF A DISCHARGE LAGGSPA DC

The utility model is related to electrical engineering, in particular, to electric lighting and can be used to ignite and power high-pressure gas discharge lambs (GLED).

A device is known for starting the mercury-quartz lamp with a starting electrode, containing a washing rectifier (see USSR, AS 856047, N 05 V 41/34, 10. 01. 78g.). This device provides sufficient reliability for starting a mercury-quartz lamp with a starting electrode.

A device is known for ignition and power of a discharge lamp by direct current, sol1 || The diodes that make up the bridge rectifier are two identical circuits of series-connected posistors and a capacitor choke (see Ru, n. 2080749, Н 05 В 41/232, 27. 05. 97г.). The reliability of the ignition of this discharge lamp is achieved by eliminating additional heating of the inductor due to the installation of pechozistors in the device.

The technical result of the proposed device is to increase the reliability of the device, increase the degree of protection of the discharge lamp from mains voltages, the ability to control the magnitude of the pulse of ignition of the discharge lamp depending on temperature.

This result is achieved in that in a device containing a bridge rectifier, the first and second semiconductor resistors, the first and second capacitors, and the inductor, two circuits consisting of a series-connected capacitor and a semiconductor resistor, a common interface point of the circuits is connected to the opposite terminals of the first and second bridge rectifier diodes and one of

MKI7: N05V41 / 23

network leads, the second terminal of one of the chains is connected to the cathodes of the first and third diodes and one of the terminals of the lamp, the second terminal of the second chain is connected to the anodes of the second and fourth diodes and the other terminal of the lamp, the chain, one terminal of which is connected to the opposite terminals of the third and fourth diodes and the second terminal of the chain is connected to another terminal of the network, the specified chain contains a third capacitor, in parallel with which a resistor is connected, and a choke is connected between the cathodes of the first and third diodes and one of the lamp terminals.

As a semiconductor resistor, you can use a posistor.

In addition, a varistor can be used as a semiconductor resistor.

In addition, a zener diode can be used as a semiconductor resistor.

And finally, a dynistor can be used as a semiconductor resistor.

The presented connection of the first and second capacitors, the first and second semiconductor resistors, the bridge rectifier, the third capacitor and the inductor allows the joint operation of capacitive ballast (third capacitor), electronic ballast (assembled on the first and second capacitors, two semiconductor resistors, a bridge rectifier) and inductive ballast.

This increases the reliability of ignition of the discharge lamp. The degree of lamp protection from voltage drops increases. At the same time, the parameters of the circuit elements are selected in such a way that the most favorable lamp operating conditions are created, which increases the lamp life. A resistor connected in parallel with the third capacitor allows you to quickly reduce the residual charge on the third capacitor to safe limits. This protects the lamp electrodes from destruction and due to current overload arising from short-term power supply failure. The presence of a third capacitor, connected in front of the semiconductor resistors, makes the value of the passing current and allows to increase the reliability of the claimed device. In the case of a short-term shutdown of the mains supply voltage, semiconductor resistors play a protective role, excluding the supply of increased potential, which can lead to lamp failure due to a critical increase in currents that destroy the lamp electrodes. The proposed inclusion of semiconductor resistors allows you to adjust the magnitude of the ignition pulse of a discharge lamp depending on temperature. The combination in one device of the starting device and the current transducer allows for automatic thermal compensation and makes the inventive device adapted to work in various temperature conditions. This eliminates the use of various triggering devices for discharge lamps depending on the ambient temperature. The inventive device is suitable for ignition and power of discharge lamps operating in various temperature conditions. The use of such a device becomes cost-effective. In FIG. 1 presents a circuit diagram of the inventive device for ignition and power of a gas discharge lamp with direct current. The device contains diodes 1 to 4 constituting a rectifier, two circuits consisting of a series-connected capacitor 5 and a semiconductor resistor 6, and a capacitor 7 and a semiconductor resistor 8. The common connection point of these chains is connected to the opposite terminals of the diode 1 and diode 2 and to the second terminal network. The output of the semiconductor resistor 6 is connected to the cathodes of the diode 1 and diode 3 and to one output of the inductor 9. The output of the semiconductor resistor 8

connected to the anodes of diode 2 and diode 4 and to the electrode of the discharge lamp 12. Another output of the inductor 9 is connected to the other output of the discharge lamp 12. At the same time, a circuit consisting of resistors 10 and a capacitor 11 connected in parallel is connected to the first input of the network connected to the opposite terminals of diode 3 and diode 4.

First, the mains voltage through the capacitor 11 and the resistor 10 is fed to the input of the bridge rectifier. The capacitors 5 and 7 are charged. The total voltage at these capacitors becomes sufficient to ignite the lamp 12. The operating mode is set in the circuit. After starting the lamp 12, more current flows through the semiconductor resistors 6 and 8, the semiconductor resistors 6 and 8 heat up, the resistance in the circuit increases to tens of kilo-ohms, thereby the capacitors 5 and 7 stop affecting the further operation of the device, which continues to operate in the mode of a conventional power supply . The currents consumed by the circuit are reduced, which increases the efficiency of the device, while the luminous flux of the discharge lamp increases.

The parameters of the resistor 10, the capacitor 11, the inductor 9 are selected in such a way that allows you to adjust the luminous flux of the lamp 12 in a wide range.

Thus, the proposed device allows you to reliably protect the discharge lamp from voltage drops, more economically, in comparison with the prototype. The use of semiconductor resistors and capacitors in this connection with the other elements of the circuit allows thermal compensation. Therefore, the proposed device can be used in various climatic conditions, which is economically viable.

The inventive device has undergone trial operation in various climatic conditions, as well as at various industrial enterprises.

Claims (5)

1. A device for ignition and power of a discharge lamp, comprising a bridge rectifier, first and second semiconductor resistors, first and second capacitors and a choke, two chains consisting of a series-connected capacitor and a semiconductor resistor, a common connection point of the chains 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 and one of the lamp terminals, the second terminal of the second the cell is connected to the anodes of the second and fourth diodes and another terminal of the lamp, a chain, one terminal of which is connected to the opposite terminals of the third and fourth diodes, and the second terminal of the chain is connected to another terminal of the network, characterized in that said chain contains a third capacitor in parallel with which is connected a resistor, and a choke is connected between the cathodes of the first and third diodes and one of the terminals of the lamp. 2. The device according to claim 1, characterized in that as a semiconductor resistor it contains a posistor. 3. The device according to claim 1, characterized in that as a semiconductor resistor it contains a varistor. 4. The device according to claim 1, characterized in that as a semiconductor resistor it contains a zener diode. 5. The device according to claim 1, characterized in that as a semiconductor resistor it contains a dynistor.