RU29822U1 - Device for ignition and power supply of a discharge lamp of direct current - Google Patents

Description

The utility model relates to electrical engineering, in particular to electric lighting, and can be used for ignition and power of gas-discharge lamps, in particular, arc mercury lamps with corrected color (GLVD).

Various devices are known for igniting and supplying a gas discharge lamp with direct current (see .. Ru, 2082287, H 05 V 41/232, c. 18.07.94). This device contains a bridge rectifier assembled on four diodes, two identical chains of series-connected posistors and capacitors. The current-limiting element is made in the form of a controlled inductor or a magnetic amplifier, and for the automation of current regulation, a photodetector with an amplifier is additionally installed in the lamp. All this complicates the design of the device, and, as a result, reduces its reliability.

Closest to the claimed device is a device for ignition and power of a gas discharge lamp, comprising a reactor, four diodes forming a bridge rectifier, four capacitors, a common point of the first terminals of the first and second capacitors is connected to the opposite terminals of the first and second diodes of the bridge rectifier and one network terminal, the second terminal of the first capacitor is connected to the cathodes of the first and fourth diodes forming a bridge rectifier, and to the anode of the fifth diode, the cathode of which is connected to one of lamp, and the first terminal of the third capacitor, the second terminal of the second capacitor is connected to the anodes of the second and third diodes and the cathode of the sixth diode, the anode of which is connected to the second terminal of the lamp and the first terminal of the fourth capacitor, the common point of the second terminals of the third and fourth capacitors is connected to

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opposite terminals of the third and fourth diodes and through a ballast element with a second network terminal (see DE, 3116510 A1, CL H05B 41/232, 1982).

The technical result of the proposed device is to increase the reliability of the device, efficiency and the possibility of ignition and reliable operation of gas-discharge laminas, creating a reduced luminous flux, or to be disposed of.

This result is achieved by the fact that in the device for igniting and supplying a gas discharge lamp with a direct current containing a reactor, four diodes forming a bridge rectifier, four capacitors, a common point of the first terminals of the first and second capacitors is connected to the opposite terminals of the first and second diodes of the bridge rectifier and one the network output, the second output of the first capacitor is connected to the cathodes of the first and fourth diodes forming a bridge rectifier, and to the anode of the fifth diode, the cathode of which is connected to one of lamp, and the first terminal of the third capacitor, the second terminal of the second capacitor is connected to the anodes of the second and third diodes and the cathode of the sixth diode, the anode of which is connected to the second terminal of the lamp and the first terminal of the fourth capacitor, the common point of the second terminals of the third and fourth capacitors is connected to the opposite terminals the third and fourth diodes and through a chain with a second terminal of the network, a semiconductor resistor is connected in series with each capacitor, while the other terminal of the first semiconductor a resistor is connected to the cathodes of the first and fourth diodes and the anode of the fifth diode, another terminal of the second semiconductor resistor is connected to the anodes of the second and third diodes and the cathode of the sixth diode, another terminal of the third semiconductor resistor is connected to the cathode of the fifth diode and one terminal of the lamp, the other terminal of the fourth semiconductor a resistor is connected to the anode of the sixth diode and one output of the inductor, the other output of which is connected to the other output of the lamp, and the chain contains a third capacitor, in parallel with which yen resistor.

Such a connection of the first and second capacitors, the first and second semiconductor resistors, diodes of the bridge rectifier, the fifth capacitor and the inductor, allows for the joint operation of capacitive ballast, inductive ballast and electronic ballast. The degree of lamp protection from voltage drops increases. A resistor connected in parallel with the fifth capacitor allows you to quickly reduce the residual charge on this capacitor to safe limits. This increases the reliability of the claimed device.

The proposed inclusion of semiconductor resistors allows you to adjust the magnitude of the ignition pulse of a discharge lamp depending on temperature. In one device, a starting device and a current converter are combined. This allows for automatic thermal compensation. The circuit has semiconductor resistors with a positive temperature coefficient. At the moment the circuit is turned on, the diode bridge acts as a multiplier. After the lamp starts, the active load sharply increases, a large current flows through the semiconductor resistors, the semiconductor resistors heat up, their resistance increases noticeably, the capacitors cease to affect the further operation of the device, which continues to work in the mode of a conventional power supply. The device’s current consumption is reduced, which makes it more economical.

When starting gas-discharge lamps that have expired or must be disposed of, it is necessary to exclude the destruction of the lamp electrodes, which is possible with a normal pulse lamp start. For such lamps, it is also important to eliminate flicker, improve the frequency characteristics of the applied voltage, and also increase the luminous flux created by the lamp, since the exhausted lamps create less luminous flux.

a chain containing a sixth diode, a fourth semiconductor resistor and a fourth capacitor connected in series allows you to create a high rising voltage on the lamp, improve the frequency characteristics of the voltage supplied to the lamp and to prevent destruction of the lamp electrodes.

It was experimentally found that the claimed device allows you to light up to 90% of discharge lamps to be disposed of. Moreover, the luminous intensity of such lamps when working with the proposed device increases.

In FIG. 1 presents a circuit diagram of the inventive device.

The device contains two chains consisting of a series-connected capacitor 1 and a semiconductor resistor 2, and a capacitor 3 and a semiconductor resistor 4, a common connection point between the capacitor 1 and the capacitor 2 is connected to one network terminal and to the opposite terminals of the diode 5 and diode 6 of the bridge rectifier assembled on diodes 5-8. The findings of the semiconductor resistor 2 and the semiconductor resistor 4 are connected, respectively, to the cathodes of the diode 5 and diode 7, and the anodes of the diode 6 and diode 8. The anode of the diode 9 is connected to the cathodes of the diode 5 and diode 7, and the cathode is connected to the output of the semiconductor resistor 11 and one the output of the lamp 16. The cathode of the diode 10 is connected to the anodes of the diodes 6 and 8, and the anode is connected to the terminal of the semiconductor resistor 12 and one terminal of the inductor 13, the other terminal of which is connected to the other terminal of the lamp 16. The free terminals of the capacitors 14 and 15 are connected, respectively, to other findings Vodnikova resistors 11 and 12. The overall connection point of capacitors 14 and 15 connected with opposite pin diodes 7 and 8 and the input of additionally introduced chains consisting of parallel-connected capacitor 16 and resistor 17, the output of this circuit is connected to another input of the network.

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the voltage across these capacitors becomes sufficient to ignite the lamp 16. After starting the lamp 16, the active load sharply increases. A large current flows through semiconductor resistors 2 and 4, they heat up, the circuit resistance increases to tens of kilo-ohms, and capacitors 1 and 2 cease to affect the operation of the device, which continues to operate in the mode of a conventional power supply.

The parameters of the semiconductor resistors 11, 12 and the capacitors 14, 15 are selected in such a way that they allow you to create a high rising voltage applied to the lamp 18.

Thus, the proposed device is reliable, economical and allows you to light up to 90% of gas discharge lamps to be disposed of, the use of such lamps for lighting gives an additional economic effect, since the disposal of such lamps is not required.

Claims (1)

A device for igniting and supplying a gas discharge lamp, comprising a choke, four diodes forming a bridge rectifier, four capacitors, a common point of the first terminals of the first and second capacitors is connected to the opposite terminals of the first and second diodes of the bridge rectifier and one network terminal, the second terminal of the first capacitor is connected to cathodes of the first and fourth diodes forming a bridge rectifier, and with the anode of the fifth diode, the cathode of which is connected to one of the lamp terminals, and the first terminal of the third capacitor, The second terminal of the second capacitor is connected to the anodes of the second and third diodes and the cathode of the sixth diode, the anode of which is connected to the second terminal of the lamp and the first terminal of the fourth capacitor, the common point of the second terminals of the third and fourth capacitors is connected to the opposite terminals of the third and fourth diodes and through a chain to the second a network terminal, characterized in that a semiconductor resistor is connected in series with each capacitor, while the other terminal of the first semiconductor resistor is connected to the cathodes of the fourth and fourth diodes and the anode of the fifth diode, the other terminal of the second semiconductor resistor is connected to the anodes of the second and third diodes and the cathode of the sixth diode, the other terminal of the third semiconductor resistor is connected to the cathode of the fifth diode and one terminal of the lamp, the other terminal of the fourth semiconductor resistor is connected to the anode of the sixth diode and one output of the inductor, the other output of which is connected to the other output of the lamp, and the chain contains a third capacitor, in parallel with which a resistor is connected.