RU2080749C1 - Device for ignition and power supply of gas-discharge lamp by direct current - Google Patents

Abstract

FIELD: illumination devices. SUBSTANCE: device has diodes which shape bridge rectifier, choke which one terminal is connected to power supply line and which another terminal is connected to opposite terminals of two diodes, two identical serial circuits of resistors and capacitors. Common point of both circuits is connected to opposite terminals of two another diodes and to second wire of power supply line. Free terminals are connected to output of bridge rectifier and electrodes of gas-discharge lamp. EFFECT: increased functional capabilities. 1 dwg

Description

 The invention relates to non-starter devices for ignition and power supply of a gas discharge lamp with direct current, in which the ignition voltage is generated using diode-capacitor voltage multiplication cells and can be used in fixtures.

A known pulse ignition circuit of a discharge lamp containing a throttle (reactor), starter []
However, during operation of a gas discharge lamp, a rectifying effect arises in it due to the non-identical electrodes, which increases the pulsation of the light flux and the heating of the inductor.

Closest to the claimed object is a device for ignition and power of a gas discharge lamp with direct current, containing four diodes that make up a single-phase bridge rectifier, two capacitors, which are connected to the opposite terminals of the first and second diodes, and the other leads to the cathodes of the first, third and anodes second, fourth diodes, respectively, which are connected to the electrodes of the discharge lamp, as well as a choke connected between the input of the rectifier and the wires of the supply network [2]
However, in this device, the pulses of the charge current of the capacitors cause additional heating of the inductor. In addition, the reliability of ignition of a discharge lamp depends on the capacitance of these capacitors.

 The invention is aimed at improving the efficiency of the device and the reliability of ignition of a discharge lamp.

 This is achieved by the fact that in the device for igniting and supplying a gas discharge lamp with direct current, containing four diodes that make up the bridge rectifier, the first capacitor, which is connected to the cathodes of the first and third diodes by one output, and the second capacitor, which is connected to the anodes of the second and fourth by one output diodes, a choke, which is connected to the network with one output and the bridge rectifier with another output, has two posistors that have thermal contact with the bridge rectifier diodes, which have one terminal m are connected to oppositely charged terminals of the first and second diodes and a second wire network and the other terminal with the free terminals of the first and second capacitors.

 Due to the thermal contact of the posistors with the diodes of the bridge rectifier, after ignition of the gas discharge lamp and heating of the diodes by the working current, the resistance of the resistors increases significantly, which will significantly reduce the charge currents of the capacitors.

 When posistors are installed in the ignition and power supply of the gas discharge lamp, additional heating of the inductor is excluded and the circuit becomes less critical to the capacity of the input capacitors.

 The drawing shows a circuit diagram of the inventive device for ignition and power of a discharge lamp by direct current.

 The device 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 connection point of these chains is connected to the equivalent terminals of diodes 1 and 2 and to the second network wire, and the free terminals to the output of the bridge rectifier and to the electrodes of the discharge lamp.

 The scheme works as follows. First, the mains voltage is supplied through the inductor to the input of the bridge rectifier. Capacitors 7 and 9 are charged through diodes 3 and 4, respectively, to the amplitude value. Since the resistance of the posistors is small, they only limit the charge and discharge currents of the capacitors. The total voltage across the capacitors 7 and 9 becomes sufficient to ignite the discharge lamp 10, and then the operating mode is set in the circuit. Due to the thermal contact of the diodes of the bridge rectifier with the posistors 6 and 8, the resistance of the resistors increases significantly, therefore, the charge currents of the capacitors 7 and 9 decrease and do not affect the operation of the circuit in the future.

 The advantage of the claimed object in comparison with the prototype is that due to the installation of posistors in the device, the capacitor charge currents in the operating mode are significantly reduced, which eliminates additional heating of the inductor and as a result increases the efficiency of the device and the reliability of ignition of a gas discharge lamp.

Claims (1)

 A device for igniting and supplying a gas discharge lamp with direct current, containing four diodes that make up the bridge rectifier, a first capacitor, which is connected to the cathodes of the first and third diodes by one output, a second capacitor, which is connected to the anodes of the second and fourth diodes by one output, and a choke, which is one the output is connected to the first wire of the network, and the other output to the opposite terminals of the third and fourth diodes, and the opposite terminals of the first and second diodes are connected to the second wire of the network, different scheesya in that the device has two PTC resistor, one terminal of which are connected to oppositely charged terminals of the first and second diodes, and the other ends with the free terminals of the first and second capacitors, respectively, wherein the PTC resistors are in thermal contact with the diode bridge rectifier.