RU209937U1 - PORTABLE GAS-DISCHARGE HIGH-FREQUENCY PULSE GENERATOR - Google Patents

Abstract

The utility model relates to high-frequency technology and can be used to create high-frequency (HF) radiation generators. Unlike a portable gas-discharge generator of high-frequency pulses, the functional blocks of which are a gas-discharge chamber, a power supply unit, a load unit and a unit for ensuring the working gas pressure in the chamber, and the cathode of the chamber contains a cavity open from the anode side, the electrodes of the gas-discharge chamber are connected to the high-voltage output stage of the block power supply, the load unit is connected in parallel to the electrodes of the gas discharge chamber, the portability of the generator as a whole is ensured by the portability of its constituent functional units, in the proposed generator the portability of the unit for ensuring the working gas pressure is ensured by the small mass of the vacuum pump used, which is part of it, while the following technical parameters of the pump are observed: limiting residual pressure - no more than 0.05 mm Hg; speed of action at an inlet pressure of 0.1 mm Hg. - not less than 0.08 l/s. The technical result of the utility model is to ensure the portability (rational architecture) of the gas-discharge generator of high-frequency pulses without compromising its performance.

Description

The utility model relates to high-frequency technology and can be used to create high-frequency (HF) radiation generators.

Discharge with a hollow cathode [Moskalev B.I., Discharge with a hollow cathode, - M: Energia, 1969] has the following feature - under certain conditions (that is, under certain geometrical parameters of the cavity, at discharge gas pressure values lying in a certain range, and at values of the discharge current density exceeding a certain threshold value) in the process of its development, the discharge voltage is HF-modulated [Arbel D., Bar-Lev Z., Felsteiner J., Rosenberg A., Slutsker Ya.Z. "Collisionless Instability of the Cathode Sheath in a Hollow-Cathode Discharge", Physical Review Letters, 1993, v. 71. No. 18, p. 2919], while the amplitude of RF modulations can reach 100% of the discharge voltage.

Known gas-discharge generators of RF pulses based on a discharge with a hollow cathode, similar to the claimed generator [Vyalykh D.V., Dubinov A.E., Lvov I.L., Sadovoy S.A., Selemir V.D. Generator of powerful high-frequency pulses based on a discharge with a hollow cathode // PTE, 2005, No. 1, p. 86; Dubinov A.E., Lvov I.L., Sadovoy S.A., Selemir V.D. Vyalykh D.V. Powerful pulsed high-frequency generator based on a discharge with a hollow cathode. Izvestiya vuzov. Radiophysics. 2006, v.49, no.4. from. 300; Bulychev SV, Vyalykh D.V., Dubinov A.E. et al. "Results of studies of generators of high-power RF pulses based on a discharge with a hollow cathode", Plasma Physics. 2009, vol. 35, no. 11, p. 1019; Dubinov A.E., Vyalykh D.V., Lvov I.L. et. 106-110], including a gas-discharge chamber (the cathode of the chamber contains a cavity open from the anode side), a vacuum unit (a unit for ensuring the working gas pressure in the chamber), a power supply unit and an electrical load unit. The electrodes of the gas discharge chamber are connected to the power supply unit, the electrical load unit is connected in parallel to the electrodes of the gas discharge chamber. The basic element of the unit for ensuring the working gas pressure in the chamber is a pumping device (vacuum pump). With the help of the unit for ensuring the working gas pressure in the chamber, in its working space, the level of pressure of the working gas required for the implementation of RF modulations of the discharge voltage during ignition of the discharge with a hollow cathode is set and maintained. When a high voltage pulse is applied from the power supply to the electrodes of the gas-discharge chamber, a gas discharge with a hollow cathode is initiated in the gap between the hollow cathode and the anode (the working space of the chamber). The RF component of the discharge voltage fluctuations is the cause of the occurrence of RF voltage fluctuations on the electrical load, which, in turn, are a source of electromagnetic RF energy.

The levels of gas operating pressures for RF generators based on a discharge with a hollow cathode belong to the range of 0.1-0.2 mmHg, related to the medium vacuum region (from 25 to HO' ³ mmHg). The type of vacuum pump that provides the ultimate residual pressure within a given area, and thus the most suitable for use in the vacuum unit of a gas discharge RF generator, seems to be an efficient and easy to maintain and control rotary vane fore vacuum pump. In the devices indicated as analogues of the claimed generator, one of the most common models of a rotary vane pump, a 2NVR-5DM brand pump, was used to create and maintain a vacuum.

It should be noted that gas discharge chambers, which are the basic elements of RF generators of this type, have rather small mass and size characteristics - the most voluminous and massive samples implemented to date have characteristics that do not exceed several kilograms in mass and several cubic decimeters in volume. , while typical cameras have characteristics that are significantly less than those indicated. This circumstance makes it promising to use devices based on gas discharges with a hollow cathode in the development of compact portable RF generators.

At the same time, the mass characteristics of analogue devices corresponded to values of many tens of kilograms, and the largest contribution (up to 40%) to this parameter was made by an auxiliary element - a unit for maintaining the working pressure in the gas discharge chamber, mainly due to the mass of the vacuum pump used, equal to 26 kg.

The disadvantage of analog devices, which prevents their use as portable RF generators, is their excessively large mass.

To implement efficient portable RF installations based on gas-discharge generators, a more rational architecture of the developed devices is required.

Known portable gas-discharge generator [Utility model patent of the Russian Federation No. 90932, publ.20.01.2010], which is the prototype of the proposed device. The functional blocks of the prototype generator are a gas discharge chamber, a power supply unit, a load unit and a unit for ensuring the working gas pressure in the chamber, the cathode of the chamber contains a cavity open from the anode side, the electrodes of the gas discharge chamber are connected to the high-voltage output stage of the power supply unit, the load unit is connected in parallel to the electrodes gas discharge chamber. Ensuring the portability of the generator as a whole is achieved by increasing the degree of portability of its constituent functional blocks. In particular, one of the ways to ensure the portability of the RF generator is to reduce the mass and size characteristics of the unit for ensuring the working gas pressure in the chamber.

A variant of minimizing the mass-dimensional characteristics of the unit for ensuring the working gas pressure in the chamber is the organization of a sealed-off design of the gas-discharge chamber. Known portable gas-discharge RF generator [S.V.Bulychev, A.E.Dubinov, I.L. Lvov etc., "Autonomous portable pulsed-periodical generator of high-power radiofrequency-pulses based on gas discharge with hollow cathode", Rev. of Sci. Instr., 2016, vol. 87, no. 5, p.054707], made in accordance with the specified technical solution, which made it possible to abandon the use of pumping and vacuum control devices that have significant weight and dimensions. However, the power of RF pulses generated by sealed chambers is significantly less than the power of signals generated by evacuated gas discharge chambers, which can only be operated with a vacuum pump.

Thus, for the implementation of a portable RF generator characterized by a high generation power, it is not possible to avoid the use of a functional unit for maintaining the working gas pressure in the chamber based on a vacuum pump.

The technical problem of the utility model is the creation of a portable (portable, mobile, transportable) gas-discharge high-frequency pulse generator, which is a device whose components are in functional and structural unity, characterized by a high level of RF signal power.

The technical result of the utility model is to ensure the portability of a gas-discharge generator of high-frequency pulses without compromising its performance.

This result is achievable due to the fact that, unlike a portable gas-discharge generator of high-frequency pulses, the functional blocks of which are a gas discharge chamber, a power supply unit, a load unit and a unit for ensuring the working gas pressure in the chamber, and the chamber cathode contains a cavity open from the anode side, electrodes of the gas discharge chamber are connected to the high-voltage output stage of the power supply unit, the load unit is connected in parallel to the electrodes of the gas discharge chamber, the portability of the generator as a whole is ensured by the portability (rational architecture) of its constituent functional blocks, in the proposed generator in its composition, while the following technical parameters of the pump are observed: limiting residual pressure - no more than 0.05 mm Hg; speed of action at an inlet pressure of 0.1 mm Hg - not less than 0.08 l / s.

A trivial way to ensure the portability of an RF generator is to organize its functional blocks from elements with the smallest possible mass parameters - in particular, the use of a pumping device with a low mass. However, obviously, the mass parameters of the pump directly depend on its technical characteristics. Of course, it is unacceptable to use a pump that has a low mass, but does not provide the required operating pressure values in the gas discharge chamber, or sets an excessively long pumping time.

The choice of pump characteristics significant for maintaining the working state of the gas-discharge generator in the proposed design, ensuring the achievement of the claimed technical result, was carried out on the basis of the following considerations. The total volume of evacuated vessels, which are elements of a portable gas-discharge RF generator (gas-discharge chambers, a ballast cylinder and vacuum lines) does not exceed 10 liters. During operation of the generator, it may be necessary to pump this volume down to a pressure limit slightly less than 0.1 mmHg. For efficient operation of the device, the allowable pumping time should not exceed several tens of minutes.

These conditions are met by a pumping device with the following performance characteristics: limiting residual pressure - no more than 0.05 mm Hg; speed of action at an inlet pressure of 0.1 mm Hg - not less than 0.08 l / s.

Known rotary vane pumps that have performance characteristics not worse than those indicated, while having a mass significantly less than the mass of the pump 2NVR-5DM (26 kg). Examples include:

pump 2NVR-4.5D weighing 10 kg (speed of action at an inlet pressure of 0.1 mm Hg - 1 l / s; limiting residual pressure - 0.008 mm Hg);

pump 2NVR-0.1D weighing 1.7 kg (speed of action at an inlet pressure of 0.1 mm Hg - 0.08 l / s; limiting residual pressure - 0.05 mm Hg);

pump PK 2 DC (Welch, Germany) weighing 8 kg (speed of action at an inlet pressure of 0.1 mm Hg - 0.5 l / s; limiting residual pressure - 0.008 mm Hg).

The use of any of these pumps will significantly (by 20-30%) reduce the mass of the RF generator compared to analogous devices in which the 2NVR-5DM pump was used. In this case, the efficiency of the generator will not change.

Thus, the rational design of the unit for ensuring the working pressure in the gas discharge chamber according to the claimed technical solution will significantly increase the portability of the high-frequency pulse generator without any deterioration in its performance, which means the achievement of the set technical result.

Claims (1)

A portable gas-discharge generator of high-frequency pulses, the functional blocks of which are a gas-discharge chamber, a power supply unit, a load unit and a unit for ensuring the working gas pressure in the chamber, the chamber cathode contains a cavity open on the anode side, the electrodes of the gas-discharge chamber are connected to the high-voltage output stage of the power supply unit, the block load is connected in parallel to the electrodes of the gas discharge chamber, characterized in that the mass of the vacuum pump, which is part of the generator, is selected from 1.7 to 10 kg, subject to the following technical characteristics of the pump: limiting residual pressure - no more than 0.05 mm Hg. , speed of action at an inlet pressure of 0.1 mm Hg. - not less than 0.08 l/s.