SU402170A1 - DEVICE FOR POWER SUPPLY OF PULSE DISCHARGE LAMPS - Google Patents

Description

The invention relates to pulsed power sources, in particular, to devices for powering pulsed gas discharge lamps of optical quantum generators. Devices for supplying pulsed gas discharge lamps are known, which contain a charge thyristor with an artificial switching circuit, a charge LC circuit, shunted by a diode connected in the opposite direction, a discharge thyristor, and a forming inductance. The known devices make it possible to regulate the voltage on the capacitive storage device to almost double the voltage of the power source only at certain ratios of the parameters of the discharge circuit and the lamp resistance, namely: T / j at Cn where the impulse lamp resistance; LP inductance of the discharge circuit; С „- storage capacitor capacity. If relation (I) is inversely related, i.e., i, then the circuit has a voltage reversal on the capacitive storage, as a result of which the value of this voltage can be up to 30% . This voltage, by virtue of the properties of the circuit of the charging circuit, through the diode that shunts this circuit, reverses for the second time. This makes it impossible to obtain a dual voltage source of a power source on a capacitive storage device, since it is known from the theory of transients: -c. max - f - t-c.ocT) () where E is the voltage of the power source; Uc. max is the maximum possible voltage of the storage capacitor during oscillatory charge; UC.OCT is the residual voltage of the storage capacitor. If the effect of the secondary reversal of the voltage on the capacitive storage device through the diode mentioned above is eliminated, the maximum possible voltage of the capacitive storage device can be increased beyond the double voltage of the power source by the residual voltage of the storage device, i.e. in this case: c. + setpoint (3) The purpose of the invention is to increase the efficiency of using the residual energy of a capacitive storage device in the charging circuit. The essence of the invention is that in series with the charging LC circuit to the junction point of the charging thyristor and

An additional thyristor is connected to the diode in the forward direction.

FIG. 1 shows a diagram of a device serving to clarify the principle of its operation; in fig. 2, a shows the current profile of the control pulses of the main charge thyristor and additional thyristor; in fig. 2.6 is the current profile of the control pulses of the switching thyristor; in fig. 2, in - the diagram of the current of the control pulses of the discharge thyristor; in fig. 2, g - diagram of the voltage of a capacitive energy storage device (the dotted line shows the mode of free oscillations); in fig. 2, d - plot of the current of the charge droplet (the dotted curve shows the mode of free oscillations); in fig. 2, e is the diagram of the current through the diode at the moment of non-transfer of the magnetic energy of the charge droplet into the capacitive storage; in fig. 2, W - plot of the discharge circuit current (flash lamp).

The device is powered from a constant voltage source 1. When a control pulse is applied (Fig. 2, a) to the charging thyristor 2 and the additional thyristor 3 through the charging choke 4, the oscillating charge of the capacitive storage 5 begins.

Upon reaching a predetermined level of electromagnetic energy in the LC circuit, for example, at the time of maximum charge current, a triggering pulse is applied to the switching thyristor 6 (Fig. 2, b). Unlocking this thyristor causes undercharging of the charge thyristor 2 as a result of recharging commuting capacitor 7. In this case, the magnetic energy of the charge droplet 4 through diode 8 and the additional thyristor 3 is converted into electrical energy of the capacitive storage. After the end of the process of transferring the magnetic energy of the charge throttle to the capacitive storage drive is started

discharge thyristor 9 pulses (Fig. 2, c). The operation of a discharge circuit consisting of a capacitive storage device, inductance 10 and pulse lamna 11, consider the presence of a voltage re-polarization at the capacitive storage device, i.e .:

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From the plot of the capacitive storage capacitor (Fig. 2, d) and the charge throttle current (Fig. 2e), it can be noted that the polarity reversal on the capacitive tip is carried out only through the discharge circuit of a pulsed lamp, which provides according to the expression ( 3) an increase in the maximum possible capacitive capacitance value from 25 to 25 + C / s. ost item of the invention

A device for filing pulsed gas discharge lamps containing a charge thyristor with an artificial switching circuit, a charge LC circuit, a diode-by-loop in the opposite direction, a discharge thyristor and

forming inductance, characterized in that, in order to increase the efficiency of using in the charging circuit of the residual electric energy of the capacitive storage, in series with the charging LC circuit

An additional thyristor is connected to the point of connection of the charge thyristor and diode in direct direction.

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