SU989758A1 - Device for supplying gas discharge lamp - Google Patents

Description

(5) DEVICE FOR POWER SUPPLY OF GAS-DISCHARGE LAMP

one

 The invention relates to electrical engineering and can be used. to power high frequency electrodeless lamps.

A device containing a rectifier of a mains voltage of 120 V, a capacitor and a filter resistor, a transistor oscillator with an autotransformer feedback with an inductor of a high-frequency electromagnetic field, which serves to transfer energy to an electrodeless discharge, is known.

The inductor is made on a ferrite core, in which there are additional energy losses, which reduces the efficiency of the device. In addition, there is an additional start winding for igniting the discharge on the core.

The closest technical solution to the invention is a device for supplying electrodeless gas discharge lamps, comprising a line voltage rectifier (120V), a filter capacitor, a transistor oscillator with capacitive feedback (Clapp circuit) with a high-frequency electromagnetic field inductor, a blocking choke, included between the positive bus, you, and the collector of the transistor. The inductor serves to transfer energy to the electrodeless discharge, and its wire is wound on a ceramic mandrel.

In addition, there is a positive bias circuit consisting of a resistor connected between the positive bus and the base of the transistor, and a parallel RC circuit connected between the emitter of the transistor and about the amplifier line and the rectifier. The resistor is used for temperature stabilization of the mode of the autogenerator, and the capacitor is used to pass the harmonic components of the high-frequency emitter current 2. The disadvantage of this power source is the low efficiency and the need for transistors with a high frequency limit, which is difficult to accomplish at high levels of collector voltage. The purpose of the invention is to increase the efficiency of the device. The goal is achieved by the fact that a device for powering gas-discharge lamps containing a rectifier, a smoothing capacitor, a blocking choke, an inductor of a high-frequency electromagnetic field, a p-transistor, a positive-bias resistor, a coupling capacitor, a feedback capacitor and a blocking capacitor, and the input capacitor The mitel is connected to the terminals for connection to the AC mains, the output of the rectifier is connected to the plates of the smoothing capacitor, block choke and blocking condenser the torus is connected in series and connected in parallel with the smoothing capacitor, the collector of the pnp transistor and one of the terminals of the positive bias resistor are connected to the positive side of the smoothing capacitor, the emitter of the pnpn transistor is connected to one of the plates of the feedback capacitor and to the junction point a blocking throttle with a blocking capacitor, the other side of the feedback capacitor through the coupling capacitor and the inductor winding of the high-frequency electromagnetic field is connected to the lecturer to pv-n-p-n transistor, provided with a self-bias resistor,

a coupling resistor and a phasing capacitor, where the automatic bias resistor is connected to the emitter of a pnp transistor by one output and connected to another pin of a positive bias resistor by another terminal and connected to the base of a pnp transistor connected to a phasing capacitor with a different feedback capacitor plate, and a npp transistor collector is structurally connected to the housing.

The drawing shows a circuit diagram of the device

The device contains rectifier 1, smoothing capacitor 2, block 9

electrodeless arc discharge in the lamp (worn on the inductor 8). The locking choke 3 prevents the high-frequency voltage source from being closed through the filter capacitor 2, rectifier 1 and the network.

The proposed scheme of a high-frequency power supply for an electrodeless lamp makes it possible to use powerful high-voltage transistors, in which the collector is connected to the housing and the cut-off frequency is of the order of 3-5 MHz, while the maximum light supply of the electrodeless lamp is observed at a frequency of 36.0 MHz, and without increasing radio interference, you get 84 vacuum choke 3, pnp transistor C, coupling capacitor 5 feedback capacitor 6, blocking capacitor 7, inductor 8 high-frequency electromagnetic field, phase capacitor 9, cut a positive bias 10, an auto bias resistor 11 and a communication resistor 12. Elements 4-12 together form the oscillator 13. The device operates as follows. The rectified network voltage from rectifier 1 is fed to the smoothing capacitor 2 and to the oscillator 13 through the blocking choke 3. At the initial moment, when there are no oscillations in circuit 5-8, only the positive bias created by by means of resistors 10-12, and, the charge of capacitors starts, 7 and 9. Then oscillations appear in circuit 5-8. The feedback voltage across the capacitor 9 is applied to the base of the transistor k. In the circuit 5-3, an increase in oscillations occurs, and a negative bias appears and increases at resistors x 11 and 12, which is fed to the base of transistor 4. The autogenerator 13 enters a steady state, and a negative cutoff angle of the collector is established by negative bias current. Capacitors 5 and 6 and inductor coil 8 (inductor) form a series resonant circuit. Due to this, the voltage on the inductor 8 can be increased to a value sufficient for breakdown and ignition

Claims (2)

Claim 1. A device for supplying a gas discharge lamp, comprising a rectifier, a smoothing capacitor, a blocking inductor, a high-frequency electromagnetic field inductor, a rpn transistor, a positive bias resistor, a coupling capacitor, a feedback capacitor, and a blocking capacitor, the rectifier input being connected to the terminals for connection to the AC mains, the output of the rectifier is connected to the plates of the smoothing capacitor, the interlock choke and the interlock capacitor are connected in series and under are connected in parallel to the smoothing capacitor, the collector of the n-ρ-π transistor and one of the terminals of the positive-bias resistor are connected to the positive side of the smoothing capacitor, the emitter of the pnp transistor is connected to one of the plates of the feedback capacitor and to the junction point of the blocking inductor with a blocking capacitor, another lining of the feedback capacitor through the coupling capacitor and the coil of the inductor of the high-frequency electromagnetic field is connected to the collector of a pnp transistor, distinguishing I mean that, in order to increase the efficiency of the device, it is equipped with a communication resistor, an auto bias resistor, and a phasing capacitor, and the auto bias resistor 15 is connected to the emitter of a transistor by one output and connected to the other output of a positive resistor by another output the bias and through the coupling rotor is connected to the base of the transistor ¹ 20 of the resistor, connected through a phasing capacitor to another lining; feedback capacitor. 2. The device according to claim 1, with the fact that, in order to reduce the level of interfering influences, the collector of a transistor of a transistor is structurally connected to the housing.