SU450325A1 - Magnetic pulse generator - Google Patents

Description

one

The invention relates to the field of pulsed technology.

A magnetic impulse generator connected to an alternating current source, containing an inductive-capacitive charging circuit and a switching transformer, the bias winding of which is connected to a bias current control device, is known, and the primary winding is connected to a magnetic proximity switch connected to a magnetizing current switch, connected to a source of control signals and a source of direct current, and several output channels, each of which contains in series Turning the magnetic units are connected to different loads.

However, the known device does not provide a sufficiently effective transfer of energy from the AC source to each of the output channels.

In order to ensure effective transfer of energy from the AC source to each of the output channels and eliminate parasitic oscillations in the proposed generator, the bias current control device is connected to the magnetization current switch.

The drawing shows the block diagram of the proposed magnetic pulse generator.

The generator works as follows.

A compression input stage 1 containing a switching transformer (choke) 2 receives power directly from an alternating current source 3 and is connected via a transformer switching stage 4 to a magnetic contactless switch 5 including connected pairs of saturation throttles, and the number of pairs of chokes is equal to the number of output channels generator.

The magnetic proximity switch is connected to output channels, each of which contains stages 6 and stages of formation 7 connected to loads 8. The parameters of the voltage or current pulses generated in each of the output channels, as well as the parameters of the loads, can differ significantly.

The connection of one or another kaial to the common stages of the generator is carried out by extinguishing the pair of chokes of a magnetic contactless switch, the switching of the magnetizing current in which is performed by the switch 9 of the current of magnetization connected to the magnetic contactless switch. A switch 9, which is controlled by signals from a source 10 and receives power from a direct current source 11, through a device 12 that controls the current of the magnetized transformer 2.

During operation of any of the output channels in the winding of the biasing trans- toror. Matrix 2, a sub-magnitude current is established that provides the input stage capacitor energy corresponding to the average power consumption at the moment of saturation of thrusts 2 in the load and elements of the connected output channel. All other channels of energy does not flow. When the output channels are switched by the signal from source 10 simultaneously with the switching of the magnetizing current, the signal from the switch 9 to the control device 12 arrives at the pair of chokes of the magnetic contactless switch corresponding to the working channel. The latter changes the bias current of the transformer 2, setting it so The capacitor of the input stage stored in this mode corresponds to the average power consumption of the connected output channel.

In this way, the matching of the input stage energy with any of the output channels is achieved. Thanks to this agreement

cascades eliminates over-discharges and overvoltages on the capacitors of the generator compression stages, which ensures a high energy transfer rate from the generator input to any of the loads in the absence of parasitic oscillations in the generator.

Subject invention

A magnetic pulse generator connected to an AC power source, containing an inductive-capacitive backup circuit and a switching transformer, the bias winding of which is connected to a bias current control device, and the primary winding is connected to a magnetic non-contact switch connected to a magnetizing current switch connected to a source of control signals and a source of direct current, and several output channels, each of which contains a successively included Magnetic units connected to different loads, characterized in that, in order to ensure efficient transfer of energy from the AC source to each of the output channels and to eliminate parasitic oscillations, the current control device is magnetized to a magnetizing current switch.