SU541299A1 - A device for the ignition of fluorescent lamps - Google Patents

Description

As a delay element, a thermistor with a negative temperature coefficient (Fig. 1), a photoresistance (Fig. 2) can be used. On the cores 7 of the magnetic amplifier, there are also working windings 8, which are self-magnetized by diodes 9.

Circuit with thermistors works as follows (Fig. 1).

When the power is turned on, the heating current flows through the electrodes of the lamp due to the fact that a very large resistance has been introduced into the feedback circuit, and the cores of the magnetic amplifier are saturated by self-magnetization. If the power, conducted to the thermistor, is greater than the energy sensitivity coefficient, its resistance decreases and the inductance of the amplifier increases, since the magnetizing forces of the windings are directed oppositely. The inductive capacitive ballast and the working windings of the amplifier form a resonant circuit, therefore, as the inductive resistance increases, the voltage applied to the feedback circuit and the lamp increases. By the end of the change in the parameters of the thermistors, a regime close to resonance takes place, the amplifier cores operate in the nonlinear part of the characteristic, and the no-load voltage of the apparatus becomes almost constant and does not depend on the supply voltage fluctuations.

After the lamp is ignited, the resonant mode is impossible, the energy balance is established in the feedback circuit, but the no-load current flows to the working windings of the amplifier.

The operation of the circuit with a photoresistor (Fig. 2) is distinguished by the fact that the time delay for ignition is mainly determined by the heating time of the electrodes and their light effect on the photoresistor.

The proposed device has an unlimited frequency range of application and provides the waiting for ignition of the lamps on the first attempt.

The use of a nonlinear resonant system and the separation of functions, performed by each element separately, allows one to stabilize the no-load voltage of the apparatus and, as a result, to sharply increase

reliability with a significant change in the supply voltage (so, at a frequency of 50 Hz, the device is operational at voltages of 120-240 V), and also to increase the range of operating temperatures. Circuit with photoresistorOLM

efficient from -60 to - | -80 ° С, with a thermistor from О to + 30 ° С.

Claims (3)

1. A device for igniting fluorescent lamps operating at an increased and industrial frequency, comprising an inductive-capacitive ballast, characterized in that, in order to provide stand-by ignition, In parallel with the lamp, the working windings of the magnetic amplifier with self-saturation are included, and an ignition delay element is introduced into the feedback circuit. 2. The device according to claim 1, characterized in that a thermistor with a negative temperature coefficient is used as the ignition element. 3. The device according to claim 1, characterized in that a photoresistor is used as the ignition delay element. Sources of information taken into account in the examination: 1. Ignatiev L. L. and others. Ignition circuits for fluorescent lamps using nosistors. M., Lighting, 1971, № 10, p. AND. 2. The patent of France No. 2005578, cl. H 05 41/00, 1969. 9 r -... ; “PTY 0f XX -Hh-t