SU82535A1 - Self-stabilizing combination tubes - Google Patents

Description

The electron bulbs currently used are usually powered by two batteries (the batteries and the anode batteries), and the lithium mode of these lasers and their lifespan depend on the output of the batteries and the batteries.

A design of combined electron lamines is proposed, in which the injection of the incandescent circuits is carried out by the flow of the anodic current through the lamps enclosed in a common balloon, while simultaneously stabilizing both the anodic current and the incandescent current. The stabilizing factor is cathode emission, which ensures an increase in lamp life.

The proposed lamps can find a wide variety in the technique of weak currents. Their application can be especially effective in cases when the source is removed a considerable distance from the location of the lamp, as well as in cases where there is only one high-voltage battery and power stabilization is required.

Lamps may have a higher efficiency than currently used.

A schematic representation of the lamps and their switching on as an amplifier is shown in FIG. 1 and 2.

Inside the balloon are placed the electrodes of two three-electrode lamps (Fig. 1), with the anode of the less powerful lamp (input) amplifier connected directly to the grid of the more powerful (output) lamp.

The cathodes of both lamps are connected to different ends of the heating element of the lamp and removed from the cylinder. The heating element should be designed so that its normal heating current is equal to the anode current of the output of the more powerful lamp, and the voltage falling on it should be approximately equal to the anode one.

voltage less powerful lamps. The temperature of the cathode of the output lamp must be slightly higher than the temperature of the cathode of the input lamp with the same heating current.

To bring the lamp to its operating position, pressing the button 3 turns on the battery for resistance 2 for some time, which warms the cathodes of the lamps to the normal operating temperature. This operation can be carried out, for example, using a time relay.

After warming up the cathodes switch the supply battery to the circuit. In this case, anode current must flow, which will flow through the heating element and thereby maintain the lamp in working condition, despite the absence of a battery heater.

The filament current and the anode current of the entire lamp will be maintained almost constant due to the fact that the temperature of the cathode of a less powerful lamp will automatically be set equal to that at which its cathode emission creates the necessary voltage drop across the resistance 4. Thus, the required output of the lamp the offset required to obtain an anode current equal to the heating current at which the cathode temperature of the output Lamp is sufficient to obtain full emission from it.

The amplifying effect of the lamp for alternating current is provided by switching on the capacitance 1, which eliminates negative feedback in the output lamp.

Similarly, more complex lamps can be combined in one balloon. For the example in FIG. Figure 2 shows an amplifier circuit in which the.-Electron. Pamp is a combination of two tetrodes, which feed the filament in the same way as troids in the circuit on (zig. 1.

PROPOSITION AND RESULTS

Self-stabilizing combined electron tubes that do not require a separate heat battery, characterized in that lamps are combined in one cylinder, the heating of which is produced by flowing their anode current through the heat circuit and stabilizing the supply current is provided by emitting one of the cathodes due to the direct connection of the anode one of lamps with a grid of another lamp, located in the same balloon.