SU366823A1 - Device for powering the resonant circuit of an electromagnet - Google Patents

Description

one

The invention of ogosigs to the field of conversion technology used in power supply units for accelerators of charged particles.

It is known that in most synchrotrons the excitation of the harmonic field in the gap is carried out by including the electromagnet windings in the resonant circuit. For excitation in the circuit of continuous oscillations, make-up devices are used to cover the active losses in the resonant circuit. The most economical of these systems is a parallel inverter.

The power of active losses in the resonant circuits of electromagnets of modern synchrotrons reaches several megawatts; therefore, it is necessary to turn on valves in parallel with anode dividers, which provide the possibility of parallel valve operation. However, when using a parallel inverter, it is always desirable to have in the circuit veins, the smallest possible inductances, since the latter cause

the magnitudes of the switching angles and the magnitude of the ignition advance angle of the inverter valves, which in turn, significantly affect the energy characteristics of the inverter as a whole, since as the commutation angle and the advance angle increase, the inverter is loaded with reactive current.

The purpose of the invention is to create an inverter power supply that does not contain inductive elements in a switching circuit and that has sufficient stability when launched into a de-energized resonant circuit and in transient conditions.

This is achieved by the fact that two groups of inverter valves are combined into parallel cathode groups, the anodes of these valves are connected to the primary windings of individual output transformers, the secondary windings of which are connected to each other in series, and the medium points of the primary windings are connected to the cathodes of controlled rectifiers through the cathode reactors .

Claims (1)

The drawing shows a diagram of the proposed device. The device contains two groups of inverter valves, which are supplied from different generators through separate cathodic reactions. Both r-groups are combined in parallel cathode groups. Ventuyu anodes are connected to the primary windings of individual output transformers, the secondary windings of which are connected to each other sequentially and connected to the resonant circuit of the electromagnet. This inclusion of the secondary windings of the output transformers provides an electromagnetic connection between the primary half windings of valves 1-2 and 3-4, which will carry out the anodic division of currents in parallel to the operating rents. Igniting impulses on valves 1 and 2 and 3 and 4 Polakgs simultaneously. The proposed device uses artificial valve switching. For this purpose, common for both groups of inverter valves of the Koltur circuits, the art of the Commution of the Commuter, connected between parallel anode groups, has been introduced. Due to the inclusion of the artificial switching circuit, the same conditions of the switching processes of both groups of inverter gates are also indicated. This increases the stability of the device in transients at large disturbances of the inverter rectifier voltage and provides a stable start condition, devices for a secured resonant circuit, Rectifiers S and 6 of the inverter feed the network through the anode transformer 7, Control voltage regulation directors are rescued by grid control system 8, Controllable gates 1 form two I1tertor groups of the first developers, connected via output transformers 9 and 1O to a resonant circuit. agnita. The control system of the inverters 11 is synchronized with the frequency of the circuit and guides the driving pulses. Between the parallel cathode groups of the inverter of the first valves, the common circuit is artificially connected, consisting of a capacitor 12 and a reactor 13 with a midpoint. The midpoints of the primary windings of the output TpfiHC formers are cutters cathode type reactors 14 and 15 connected to the cathodes of the inverter rectifier valves. The resonant circuit of the electromagnet, formed from the capacitance 16 and inductance 17, is magnetized from a DC source 18. Depending on the specific conditions, the number of inverters connected in parallel; groups can be any. The proposed device can work on the resonant circuit of the inverter converter at the exit from the system of another. In this case, the maximum energy mode of the accelerator is reduced by half and the possibility of conducting physical experiments remains. Apparatus of the Invention A device for supplying a resonant KOHTjpa electromagnet, for example a synchrotron electromagnet, comprising an anode transformer, controlled rectifiers, reactors, inverter valves with a control system and an artificial switching circuit consisting of parallel-connected tanks and a mid-point reactor, characterized by that, in order to increase the reliability of the device, two groups of inverter valves are combined into parallel cathode groups, the anodes of these valves are connected to the primary windings separately output transformers, the secondary windings are VC / Yocheny each other in series and the middle point of the primary winding through the cathode reactors soedsh1e- us with cathodes actuated valves etc. tifiers BL.