SU1262599A1 - Vacuum coaxial lead-in - Google Patents

Abstract

The invention relates to radio engineering. The operating frequency band is expanded while providing a wave resistance of 50 ohms, and the vacuum and mechanical strength of the input increases. The outer conductor (P) 13 of the electrovacuum device together with the external P 2 of the input, with its internal. There, P I, having a constant diameter d, and with a plane-parallel disk (SPD) 3 form a coaxial transmission line of 50 Ω. The use of annular grooves (KP) 5, having from the annular groove 4 depth D

Description

The invention relates to radio engineering, in particular to coaxial inputs of electrovacuum devices, and is intended for their articulation with standard 50-ohm connectors of coaxial paths.

The purpose of the invention is the expansion of the operating frequency band while providing a wave resistance of 50 Ohms, an increase in vacuum and mechanical strength.

The drawing shows a vacuum coaxial input, General view.

Vacuum coaxial input contains I „.

there is an inner conductor 1 having a constant diameter cG fixed inside the outer conductor 2 using an insulator made of fiberglass material in the form of a plane-parallel disk 3 and installed in an annular groove 4 made under it in the outer conductor 2. On the inner surface of the outer conductor 2, on both sides of the plane-parallel disk 3 are compensators for the inhomogeneity of the wave 'resistance, made in the form of annular grooves 5 having a rectangular profile. The side walls 6 'of the annular grooves 5, closest to one another, lie in the same plane with the corresponding planes 7 of the plane-parallel disk 3. Depth d. annular grooves 5 from the annular groove 4 and their width h are respectively th - (0.3 ... O, 33) d, h = (O, 415 ... O, 42) d, and the thickness I of the plane-parallel disk 3 is £ = (1,0 ... l, 3) d. The vacuum coaxial input also contains a tip 8, fixed relative to the outer conductor 2 by a pin 9, a groove 10 and a union nut 11.

The vacuum coaxial input can be mounted on an electrovacuum device (not shown), for example, using a metal sleeve 12 soldered to the outer conductor 2, and the outer conductor 13 of the electrovacuum device is pressed against the outer conductor 2 by a spring 14.

Vacuum coaxial input works as follows,

Microwave power from an external generator is fed to the input of a vacuum coaxial input and transmitted through it to a consumer located in the vacuum part of the electrovacuum device. It is also possible to transfer power back from the vacuum part of the electrovacuum device to the consumer, when the electrovacuum device itself is the source of microwave energy.

Outer conductors 2 and 13 together with the inner conductor 1 and plane-parallel disk 3 form a 50 ohm coaxial transmission line, and it was experimentally established that for 4 = (O, 3 ... O, 33) d, h = (0.415 ... 0,42) d and 2 = (1,0 ... 1,3) d the maximum band of its working frequencies is provided. Plane-parallel disk 3 in addition to fixing the inner conductor 1 provides high vacuum strength of the device, since the material, size and shape of the plane-parallel disk 3 allow it to be securely junction with the inner and outer conductors 1 and 2. Performing compensating inhomogeneities of the wave resistance in the form of ring grooves 5 located on the inner surface of the outer conductor 2, provides high mechanical strength of the device, since the inner conductor 1 has a constant diameter in This is for vacuum coaxial input.

Claims (1)

The invention relates to radio engineering, namely to coaxial inputs of vacuum devices, and is intended for their coupling with standard 50-ohm connectors of coaxial paths. The purpose of the invention is the expansion of the operating frequency band while ensuring a wave resistance of 50 Ω, an increase in vacuum and mechanical strength. The drawing shows a vacuum coaxial input, a general view. The vacuum coaxial input contains the inner conductor 1 having a constant diameter d, fixed inside the outer conductor 2 by means of an insulator made of glass powder material in the form of a plane-parallel disk 3 and installed in the annular groove 4, made under it in the outer conductor 2, 1Н the inner surface of the outer conductor 2 on both sides of the plane-parallel disk 3 are located compensators for the inhomogeneity of the wave resistance, made in the form of annular grooves 5, having a right angle ny profile. The side walls 6 of the annular grooves 5, which are closest to each other, lie in the same plane with the corresponding planes of the 7 plane-parallel disk 3. The depth U of the annular grooves 5 from the annular groove 4 and their width h are respectively U - (0.3, ,, 0.33) d, h (0.415 ,, 0.42) d, and the thickness of the plane-parallel disk 3 is 2 (l, 0 ,,, I, 3) d, the vacuum coaxial input also contains a tip 8, fixed with respect to the outer conductor 2 by a pin 9, a groove 10 and a cap nut 11, the vacuum coaxial input can be fixed on an electrovacuum device (not cauldron), for example, using a metal cuff 12, soldered to the outer conductor 2, and the outer conductor 13 of the electrovacuum device is pressed to the outer conductor 2 by a spring 14, the vacuum coaxial input works as follows, microwave power from an external generator enters the vacuum coaxial inlet input and transmitted through it to the consumer, located in the vacuum part of the electronic vacuum instrument. It is also possible to transfer power back from the vacuum part of the electrovacuum device to the consumer, when the source of microwave energy is the electronic vacuum device itself. The outer conductors 2 and 13 together with the inner conductor 1 and the plane-parallel disk 3 form a 50-ohm coaxial transmission line, and it was experimentally established that with L (0.3, 0.33) d, h (0.415 ,, 0.42) d and (1.0 ,,, l, 3) d provides the maximum band of its operating frequencies. The plane-parallel disk 3, in addition to fixing the inner conductor 1, provides for a high vacuum strength of the device, since the material, dimensions and shape of the plane-parallel disk 3 allow its reliable junction with the inner and outer conductors 1 and 2 to be performed. on the inner surface of the outer conductor 2, provides a high mechanical strength of the device, since the inner conductor 1 has a constant diameter Vacuum coaxial input containing an inner conductor fixed by an insulator inside the outer conductor and compensators for impedance nonuniformity made in the form of annular grooves having a rectangular profile, characterized in that expanding the operating frequency band while providing a wave resistance of 50 ohms, increasing the vacuum and mechanical strength, the inner conductor has a constant diameter in it, an insulator in stekloporoshkovogo full of material in a plane-parallel disc shape and is mounted in an annular groove formed beneath it in the outer conductor, wherein the annular grooves are located on the inner surface of the outer conductor on both sides of a plane-parallel disk.a, their lateral sten312625994 ki, located close to one to the h dirin, are respectively goy, lie in the same plane with the corresponding i (0.3 ... 0.33) d, h (0.4I5 ... 0.42) d, where the planar disk is the diameter of the inner disk, the depth and the annular nickname, and the thickness f of the plane parallel plate from the annular groove and their width of the disk is r (1.0 .. 1.3) d.