SU693465A1 - Method and circuit for ageing electron devices - Google Patents

Description

(54) SCHEME AND METHOD OF TRAINING THE ELECTRIC INSTRUMENTS

Claims (2)

 ; .,. . ... -. The invention relates to rb.pasti elektronnoy.tehyiki and can be used for strength and electrical povshenyy nadozhyysty risHep & TOpnBos lamps magnetrbnoy, klystrons, traveling wave tubes, vacuum capacitors and eloktrbVayuuynrs when burs (EEW) when egsspluatatsyy in radiotehnichgeskyh devices for various purposes, H5inj aWepBO of all types of rational transmission devices, in lamp generators of industrial purpose, microwave generators, and tayzhe when operating radio engineering -. Generator1) In SPEEDIALSE 6 purpose. / A device for pulse training of vacuum pods is known, which contains anodic, CADd and grid terminals for connection. electrodes of the device under test, a constant voltage source connected to the anode terminal through a limiting resistance, a tailor / constant grid bias connected to the grid terminal and to a pulse generator, while the pulse generator is connected to the anode electrode 1m through a separation diode, and the grid terminals are connected directly to the output load of the generator or its part. In addition, the source of a simple voltage and an impulse generator can be switched on with a second test device, the grid terminals of which: are powered from the output load of the pulsed generator; 1). . However, the above device cannot be effectively used to increase the strength of EECP and the prevalence but also for training the cathode%, since its principle of operation provides for the supply of positive pressure to the anode and to the grid of the instrument, as a result what the device opens, the potential for anoDay payayo and a current pulse passes through the device. Reducing the fallout NIPLAY with warnings of the occurrence of breakdowns associated with an increase in the applied voltage above the value of the electrical strength of the device, is necessary for a high-voltage workout of the SEM. The training schemes of electronic devices are known, which contain a source of training voltage connected to an electronic device and a method of training electronic devices by supplying a training voltage to an electronic device — and gradually increasing it. To ensure the automatic maintenance of voltage on the electrodes of the trained device to the point of occurrence of a breakdown in the training circuit between the source and the device, a high resistance ballast resistance, the value of which is at least an order of magnitude greater than the internal resistance of the device during the development of electrical breakdown 2, The disadvantages of this method are as follows. On the verge of breakdown, a dark (pre-breakdown) current passes through the device and microdischarges are observed. These phenomena, as is well known, are accompanied by intensive gas evolution from the electrodes and the transfer of catalysts. This leads to the formation of new irregularities on their surfaces. The same situation occurs when the voltage is increased, the electrical strength of the device is increased to the point of occurrence of a sample. In this method, a training regime is not provided in which the intensity of the destruction of existing irregularities, which are the centers of autoemission, is always greater than the intensity of the formation of new irregularities. Therefore, in some cases, the dielectric strength and reliability of the device decrease. A significant drawback of the method is that the training efficiency of the devices with low internal resistance of the trained interval is low, since, due to the voltage drop on the high-resistance ballast resistance, it is difficult to achieve a pre-impact training voltage. prome with / tke. The purpose of the invention is to increase the effectiveness of training. ... The goal is achieved by the fact that a regulated discharge is switched on between the electronic device and the source of the training. The electronic device and the capacitor are capacitor-protected. In the process of training, the adjustment of the schedule is changed as the frequency of the bits is improved. The drawing shows the scheme of tnirovki electronic devices. V It contains a source of 1 trip voltage, which is connected to an electronic device 2 through a rechargeable surge 3. A electronic device 2 and a discharge 3 are bridged by a capacitor 4. In addition, an electronic device 2 can be additionally bridged by a capacitor 5 Elements G and 7 denote sums of own and parasitic capacities of the discharger and the electronic device. The training of the electronic device is as follows. With a gradual change in the voltage of source 1, the distance between the terminals of the electrodes of the device and the voltage source, i.e. the adjustment of the gage is measured, and at the galvanic connection of the source 1 with the device being trained 2 they increase the voltage until the pre-breakdown state of the trained device is reached.2, and then they eliminate the galvanic coupling and increase the distance between the mentioned, conclusions until the discharges occurring in this gap cease, after which the source voltage increases until discharges occur between the terminals of the instrument's electrodes and the source, and as the intensity decreases or the discharges cease, The distance and, accordingly, the voltage of the unit to the maximum value of the latter set for the type of instrument being trained, and when non-stop bits follow, one of the indicated parameters (voltage or distance) is changed while maintaining the constant of the other until the intensity of the bits decreases. Then, in the case of source voltage, stepwise decrease the distance before the galvanic connection is restored to the output electrodes of the device, and the source is kept at each step until the intensity decreases or The termination of the resulting bits. . When the galvanic connection between the leads of the voltage source electrodes is eliminated, the discharge gap that arises here plays the role of variable limiting resistance, which ensures that the discharge voltage applied to the device and the energy applied to the device during discharges automatically adjustable depending on the state of its electrical strength. As a result, the destruction of the electrodes and the formation of new irregularities on them during training, i.e. increases the effectiveness of training. The resulting discharge gap during the removal of galvanic coupling between the terminals of the pick electrode and the voltage source provides a pulsed training mode and makes it possible to increase the training voltage to values several times higher than the working one. . In addition, (the adjustment of the electronic device and the discharge by capacitors 4 and 5 and a change in their value also makes it possible to adjust the energy of the discharge depending on the type of the device being trained and its state of electrical strength. However, to obtain the greatest amplitude of voltage applied to the electronic device during the sampling of the discharge, it is desirable to reduce its own capacitance of the discharge in comparison with the value of the capacitance shunting the electronic device, This is especially important when electronic The device is in a cold state and has a good vacuum, i.e. the device has a capacitance.With a bad vacuum in the device or with heated electrodes, due to sufficient internal conductivity of the device, the discharge capacitance can be increased, since at that voltage of the source to The breakdown state of the radar is applied almost completely to the discharge. Thus, the proposed scheme and method of training allows training of devices having a small internal resistance of the trained person. a, since with a sufficiently large distance between the leads of the electrodes of the instrument and the source, almost the entire source voltage is applied to this gap, which has a large resistance before the discharge, so that the current through the instrument becomes small and the power dissipated on the electrodes , do not exceed the allowable, and when discharging in the specified gap, all voltage is applied to the device. The use of the proposed circuit and method of training allows you to reduce the time to put the device into operation and to increase the reliability of electronic devices when operating them in radio equipment for various purposes. The introduction of the proposed scheme for the method of training electronic devices according to preliminary estimates gives savings in the national economy over 1.0 million rubles. 1. Circuit training electronic devices containing the source of the power voltage, connected to an electronic device, for example, with the .fTO, with the purpose of improving the efficiency of training, between the electronic device: the device and the source of training voltage included adjustable bit,. 2. The circuitry according to p, 1, is distinguished by the fact that the electronic device and the gaiter are shunted by capacitors. 3. The method of training electronic devices by supplying a training voltage to the electronic device and its gradual operation, which change the bit adjustment as the bit frequency decreases. Sources of information taken into account during the examination 1. USSR author's certificate t No. 374559, class, G 01 R 31/22, 1973, 2. USSR author's certificate №. 337845, cl. riOl 3-9 / 44, 1972 (prototype)