CS251818B1 - Magnetron heating current regulator - Google Patents

Abstract

The solution concerns a magnetron heating current regulator, which controls the size of the heating current depending on the size of the direct anode current of the same magnetron. The regulator transformer has, in addition to the primary winding and the secondary winding, an additional winding through which the direct anode current flows, which causes the transformer to oversaturate. A series choke is included in the primary winding circuit, which limits the increased magnetizing current of the transformer.

Description

The present invention relates to a magnetron heater current regulator. Magnetrons in industrial high frequency generators used for high frequency heating and other purposes have a cathode heated by alternating current supplied externally to the magnetron and further heated by the anode current flow. In order for the magnetron to function properly, the cathode must have the correct temperature to maintain its longest life.

It is therefore necessary that the energy delivered to the cathode from the glow source decreases in proportion to the increasing energy supplied from the vacuum tube system by anode current flow, which reaches from zero to maximum in operation. The dependence of the heater voltage drop on the anode current is determined by the magnetron manufacturer. The required control is performed either stepwise by using relays or by means of stepless controllers which contain active elements and which are adjusted by a voltage proportional to the current anode current.

The disadvantages of the prior art solutions are in particular that in the case of the incandescence control the desired quality of the control using a reasonable number of jumps cannot be achieved and in the case of a continuous controller with active elements the disadvantage is the component density and correspondingly increased possibility of failure.

Disadvantages of the known solutions are overcome by the magnetron heater current regulator, which consists of a transformer and a ballast connected between the primary winding of the transformer and an AC power supply, the transformer still having a control winding connected in series with the magnetron anode.

The advantages of the solution according to the invention are simplicity and high working reliability. Moreover, the solution is inexpensive in part, since the glow transformer is necessary for glowing magnetron even when using a conventional regulator, and likewise a ballast choke is often used to reduce the glow current impact into the cold cathode.

An example of a magnetron heater current regulator is in the attached drawing. The magnetron cathode 1 is connected to a regulator consisting of a transformer 2 ^{and a} ballast J. The filament of the magnetron cathode 1 is connected to the secondary winding 2 of the transformer 2. The magnetron anode χ is connected to one end of the control winding Z of the transformer 2.

Once the DC anode current begins to flow through the control winding Z, the core of the transformer 2 begins to supersaturate and decreases its ability to transform, resulting in a decrease in the glow current. The increased magnetization current of transformer 2 will be limited by the choke J. This control chain achieves that by heating the cathode due to the anode current, the heating of the cathode decreases by energy from the transformer 2.

Claims (1)

A magnetron heater current regulator comprising a transformer (2) and a series choke (3) connected between the primary winding (5) of the transformer (2) and the AC power supply (4), the transformer (2) further comprising a control a winding (7) which is connected in series and an anode of the magnetron (1).