PL48247B1 - - Google Patents

Description

Priority: Published: 10. VI. 1964 48247 IC. 21 a1 36/18 MKP UKD H 03 k UJSA Inventors of the invention: Zdzislaw Dorywalski, MSc, Edmund Zuchowski, MSc. Patent owner: Przemysłowy Instytut Telekomunikacji, Warsaw (Poland) rs; with SK4i The invention relates to a system that eliminates the excessive increase in voltage in a parallel system of a multi-lamp thyratron switch with an equalizing choke, used in linear pulsators. Parallel systems of thyratron switches with an equalizing choke are characterized by an equalizing choke. between the electrodes of the thyratrons during their ionization. The reasons for the formation of these interactions are the differences in the ionization times of individual copies of a given type of thyratrons, or the lack of control voltage pulses in one of the tyratrons. The increase in the voltage between the anode and the thyratron grid may reach four times the value of the charging voltage of the forming two-pole. The system according to the invention sufficiently protects the parallel multi-lamp thyratron switch with equalizing choke against the formation of harmful voltage flows between the a-node and the grid. Fig. 1 shows a diagram of a linear pulser with a double-block thyratron switch, and Fig. 2 - a substitute diagram of a linear pulsator discharge circuit for the time interval when only one of the thyratrons is conducting. The invention consists of a power supply 1 providing a voltage E0, a charging choke 2, a thyratron 3 and 4 connected with each other by an equalizing choke 5 with resistors 6 and 7 each with resistance R, with a forming junction 8 with a 5 in Z0 and the load 9 with resistance R0 Fig. 2 distinguishes between the line charging voltage - UL two-terminal wave resistance - Z0, the load resistance - R0, the choke leakage inductance and the equalizing inductance - Lr, the main inductance for the equalizing force - Lg, the anode-hydrogen thyratron grid CT and two values R. In order to limit the value of the voltage on the windings of the equalizing choke 5 during the ignition of thyratrons, resistors 6 and 7 of the same resistance R are activated in parallel to the windings of this choke. 20 Discharge current of the forming double-terminal 8, Flowing during this period through one of the parallel branches of the thyratron switch causes the voltage drop across the resistors 6 and 7. The maximum value of the voltage drop across the resistors 6 and 7 is determined by their resistances R and the discharge circuit parameters. With a sufficiently high resistance R, resistors 6 and 7 are sufficient to cause the ignition of thyratrons and at the same time protect against breakdown of the copper insulation The value of the resistance R is selected depending on the characteristic resistance Z0 of the formula 8-junction and depending on the internal resistance of the thyratrons used in the switch. The value may vary from 1Z0 to 10ZD. Correct functioning of the tyrathron switch in the system according to the invention requires the simultaneous activation of all the tyrats in the system. 10 4 PL

Claims (1)

1. Patent claim A system for eliminating excessive voltage increase in a parallel system of a thyratron switch with an equalizing choke, used in linear pulsers, characterized in that resistors (6 and 7) of the same resistance are connected parallel to the windings of the equalizing choke (5) ¬ noses (R), limiting the voltage value in the non-conductive branch of the thyratron switch at the moment of ignition of the thyratrons. Fig. 1 Ul 4Cr fig. 2 738, BSW "Press", Kielce. Mintage 250 copies PL