SU1538289A1 - Pulsed lighting device - Google Patents

Abstract

The invention relates to electrical engineering and can be used to create pulsed flashes of light. The aim of the invention is to increase the reliability and efficiency of the device. The device contains a charging circuit connected to a power source, consisting of serially connected throttles 1, capacitor 2 and nonlinear throttles 5, connected in parallel to the capacitor 2, a discharge circuit consisting of the primary winding of the transformer 3 and the thyristor 7, which is shunted by a diode 6 in the reverse direction, the working circuit consisting of a pulsed lamp 10, is shunted by a capacitor 9 connected to the secondary winding of the transformer 3 through a diode 8. The thyristor 7 is turned on by a voltage pulse supplied to the control electrode of the thyristor through diode 4 with droplets 5 during the resonant charge of capacitor 2. A feature of the device is the return of energy not used in the lamp during its flash to the storage capacitor 2. 2 Il.

Description

| The invention relates to electrical engineering and can be used to create pulsed flashes of light.

The purpose of the invention is to increase reliability and efficiency.

Pa fig. 1 shows the electrical circuit of the device; in FIG. 2 is a graph of the process of transferring energy from the first to the second circuit of the device.

The device consists of a throttle 1,

0, one output of which is connected to the first output to connect, for example, the positive pole of the power source, and the other output of the inductor 1 is connected to the connection point of the first output of the capacitor 2 and the first output of the primary winding of the transformer 3. If the second output is connected to the negative pole of the power source diode 4 of reverse polarity with respect to the power source and a single output of a nonlinear inductor 5, the second output of which is connected to the connection point of the second output of the capacitor 2, the anode of the diode b and the cathode iristora 7. In this case the cathode of diode 4 is connected to a control electrode of the thyristor 7, the anode of which is combined with the cathode of the diode 6 and is connected to. the second output of the primary winding of the transformer 3. The non-linear inductor 5 together with the diode 4 form a control unit for turning on the thyristor 7. The first output of the secondary winding of the transformer 3, the same name as the second output of its cervical winding (for example, the beginning of these two windings), is connected to the anode of diode 8, the cathode which is connected to the first terminal of the capacitor 9 connected to the first terminal of the discharge lamp 10. The second terminals of the capacitor 8, lamp 10 and the secondary winding of the transformer 3 are interconnected.

In this case, the parameters of the elements of the device

3ί are selected according to the expression

U <

ϋΊ where L ,,

FROM,,

L ι G 2

L ₂ - values of inductances in the circuits of the primary and secondary windings of the transformer 3, respectively, GN;

C ₂ - capacitors in the circuits of the primary and secondary windings of the transformer, respectively, O;

U, - rated voltage V ": NYPSource,! and _g is the nominal working tension of the lamp, V,

The device works as follows.

When the supply voltage is applied, the capacitor 2 resonantly charges the circuit: inductor 1, capacitor 2, linear inductor 5 until time t ₄ (Fig. 2), after which the voltage across capacitor 2 begins to decrease as a result of the beginning of the half-wave of the reverse current in the circuit. This leads to the magnetization reversal of the core of the inductor 5 and to the generation of a voltage pulse on it, which through the diode 4 turns on the thyristor 7, through the last there is an oscillatory discharge of the capacitor 2 to the primary winding of the transformer 3.

At the time tι, the energy stored in the capacitor 2 completely transfers to the energy of the magnetic field of the primary winding of the transformer 3, after which t the polarity of the voltage changes on the capacitor 2. At the same time, t ₂ opens as a result of a change in the polarity of the voltage on the secondary winding of the transformer 3 diode 8 and the capacitor 9 is charged according to a sinusoidal law, determined by the ratio of the capacitance of the capacitors 2 and 9 and the inductances in the primary and secondary windings of the transformer 3.

At the time tj, the voltage across the capacitors 2 and 9 reaches its maximum value, which leads to the failure of the lamp 10, the discharge of the capacitor 9 through the lamp and a flash of light. At the same time tj, the current in the primary circuit of the transformer 3 changes direction, which causes fading of the thyristor 7 and the recharging of the capacitor 2 through the diode 6 to some residual voltage, a proportional energy that was not completely transferred to the capacitor 9. After that, the electrical circuit of the device goes into the initial state The charm and the cycle of his work is repeated.

conpo non

Claims (1)

55 The claims A pulsed lighting device comprising a sequentially connected primary winding of a transformer and a unipolar controlled key with a control unit, connected to ¹ first terminal for connecting a DC power supply with an appropriate polarity, connected in series to the secondary winding of the transformer, a diode and a flash lamp connected by a capacitor, moreover, the output of the secondary winding of the transformer of the same name with the output of the primary winding connected to the output of the controlled key, I connect It is connected to the diode anode, characterized in that in order to increase reliability and efficiency, the controlled key is made in the form of a thyristor, an inductor, a capacitor and a diode are additionally introduced, and an additional inductor is included between the free output of the transformer primary winding and the second output for connecting the source of lithium, an additional capacitor is connected in parallel to the circuit from the primary winding of the transformer and the thyristor, and an additional diode is connected counter-parallel to the thyristor, while the parameters of the elements of the device are connected s with each other according to the expression and, where U, - a nominal supply voltage, V; U ₂ - rated operating voltage of the lamp, V; L ^, L _? - the values of inductances in the circuits of the primary and secondary windings of the transformer, respectively, GN; C ,, C ₂ t capacitance values in the circuits of the primary and secondary windings of the transformer, respectively, F.