SU997130A2 - Circuit for ageing electronic devices - Google Patents

Description

The invention relates to electronic engineering and is intended to be used to increase the electrical strength and reliability of generator lamps, magnetrons, klystrons, traveling-wave lamps, vacuum capacitors, and dazzled vacuum devices (EVP) during their operation in radio engineering devices for various purposes, for example, in radio transmitters. lamp generators for industrial purposes, as well as for the operation of radio engineering generators for special purposes ...

BY MAIN auth. St. No. 693465 is a known training scheme for electronic devices, mainly used for high-voltage training of powerful generator lamps and other EEDs used in radio transmitting devices, which contains a source of training voltage that is connected to the electronic device through an adjustable bit, an electronic device and a gap are contoured. tori. When diluting the discharge electrodes and increasing the voltage of the source before the occurrence of breakdowns between the electrodes

The arrester carries out a short-term supply of source voltage to the device being trained, i.e. a pulsed training mode is provided, which makes it possible to increase the training voltage to values several times higher than the working one. Unthanging electronic device and capacitor capacitor and modifying

The magnitude of their magnitude also allows the discharge energy to be adjusted depending on the type of instrument being trained and the state of its electrical strength Cll.

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However, in this training scheme, there is a hard link between the initial current through the device and the energy released in the interelectrode gap of the trained device during discharge, as the capacitors charge to the full values of the training voltages. In addition, the initial value of the current through the spinning device during the development of the pro, which it is advisable to adjust during training, in the contrasted scheme cannot be lower than a certain value determined by the state of the device. Adjusting the capacitance of the capacitor leads to a change in the energy of the sample due mainly to a change in the duration of the discharge process. Thus, the instantaneous energy and the initial discharge current are practically not adjustable in the necessary limits. At the same time, the efficiency of treating by breakdowns is determined not only by the amount of energy of the sample necessary for heating, melting, and also for steam irregularities on the electrodes of the device, but also by the speed with which these processes occur. UeJib invention - improving the efficiency of training electronic devices. The goal is achieved by the fact that parallel to the trained device and the controlled discharge the additional regular driver is connected through the separate diode to the source of the grounding voltage. source of constant voltage, the output of which is shunted by a cumulative capacitor. The drawing shows a diagram of the training of electronic devices. Cxef-ia contains the source 1 of the training voltage, which is connected to the electronic device 2 via the adjustable voltage source 3. Electro n

The device 2 and the discharge 3 are shunted by a capacitor 4. Parallel to the trained device 2 and the adjustable discharge 3, an additional controlled constant-voltage source is connected to the first source 1 opposite to the first source 1, the output of which is bypassed by the storage capacitor 7.

Training electronic device in this scheme is as follows. .

With an increase in the voltage of source 1 to a value that ensures the occurrence of breakdowns between the diluted electrodes of the arrester, the training voltage is applied to the electronic device for a short time. If the Training Voltage exceeds the value of the electrical strength of the device, a breakdown occurs in the latter, which is maintained by the discharge of capacitor 4. When the voltage drops on the trained device and discharge due to a decrease in their internal resistance during breakdown below the source voltage b. the capacitor 7 through a series of “U1” diode 5 is discharged. the circuit and the device are under discharge, releasing the energy stored from the source 5.. In the proposed training circuit, since the storage capacitor 7. charging up to a voltage lower than the production of the voltage on the storage capacitor and its capacitance makes it possible to optimize the training process, i.e. ensure dominance

the intensity of the destruction of the existing irregularities on the electrodes over the intensity of the formation of new during training.

Using the scheme allows

reduce the time of entry of electronic devices in the operating mode and improve their reliability in the operation of the equipment. In addition, the use of this scheme in technological processes. the beam current, the discharge current is less than in the prototype circuit, in which the storage capacitor is charged before the breakdown voltage; The initial discharge current in this circuit can be controlled, saving the energy is constant, since the breakdown in the device is initiated by the voltage of source 1, and the additional source b with storage capacitor 7 serves mainly to control the current through the device and the energy released in it; during repeated breakdowns, the voltage on the storage capacitor 7 is adjusted as the internal resistance of the trained instrument changes. Due to the indicated advantages in this scheme, the more contiguous nature of the energy release of the storage capacitor in the interelectrode gap of the trained instrument is provided. Energy and discharge current control is effective, since it is possible to release energy in a trained instrument that is sufficient to melt and evaporate the micronerities present on the electrodes, without the risk of explosive processes at excessive values of the instantaneous power of the discharge. In this way. The production of EVP allows to increase the yield of products. invention formula The training of electronic devices by the author. St. No. 693465, in order to increase the efficiency of the training, parallel to the trained device and adjustable discharge through an isolating switch to the source of the training voltage, an additional regulated voltage source is connected, the output of which is shunted by a storage capacitor. Sources of information taken into account during the examination 1. USSR Author's Certificate No. 693465, cl. H 01 J 9/42, 05.01.77 {prototype).

Claims (1)

Claim Scheme of training electronic devices by ed. St. No. 693465, characterized in that, in order to increase the efficiency of the training, an additional adjustable constant voltage source is connected to the output of the training voltage bypassed by a storage capacitor in parallel with the training device and • adjustable arrester through a diode separator opposite the training voltage source.