RU162086U1 - LOAD COAXIAL AGREED - Google Patents

Abstract

Coordinated coaxial load, containing an inner conductor in the form of a contact rod connected to the first metallized end of a cylindrical resistor, the position of which is fixed by a sleeve, an outer conductor in the form of a housing, a nut, and also a matching section made in the form of a split collet, providing galvanic contact between the inner and external conductors installed with the possibility of its longitudinal movement along the load axis coaxial consistent, characterized in that the transverse with the cross-section of the non-through contact funnel-shaped hole in the split collet decreases towards the second metallized end of the cylindrical resistor according to the exponential law.

Description

The utility model relates to radio engineering and can be used in laboratory measurements as a measure of wave impedance, as well as a standard of reflection coefficient.

A device is known that contains an inner conductor in the form of a cylindrical resistor with metallized ends, one of which is connected to the central contact, and an external conductor with a matching section having a cross section that decreases towards the other metallized end of the cylindrical resistor, and connected with it, made in the form a split collet installed with the possibility of longitudinal movement (see Patent for invention SU No. 1078508 A, publ. March 7, 1984, Bull. No. 9), prototype.

The disadvantages of the prototype are the pronounced unevenness of the VSWR in the frequency range of 0.01-18 GHz, the strong dependence of the VSWR on the frequency in the millimeter range, as well as leakage of the contact between the inner conductor and the matching section.

The technical result consists in eliminating these drawbacks by modifying the design of the matching section, which allows for equal overall dimensions to provide better consistency with the path in the operating frequency range and protect the contact point with the inner conductor, ensuring its tightness.

The technical result is achieved by the fact that the matching section is made in the form of a split collet having a non-through contact funnel-shaped opening with a cross section decreasing in the direction of contact with the inner conductor and has the possibility of longitudinal movement. The peculiarity is that the cross section of a non-through contact funnel-shaped hole is described by an exponential function y (x) = d × e ^{A × x} , where d is the diameter of the inner conductor of the coaxial waveguide, A is the coefficient selected from condition A≥L, where L is the length split collet.

The essence of the utility model is illustrated by graphic material - a drawing, which shows a constructive solution to the coaxial load, when viewed from the side along the axial section.

Coaxial load matched contains an internal conductor in the form of a contact rod 1 connected to the first metallized end of the cylindrical resistor 2, an external conductor in the form of a housing 3, a nut 4, performing a threaded connection with elements of the coaxial path, and also a matching section made in the form of a split collet 5 having a non-through contact funnel-shaped hole with a cross section that exponentially decreases towards the second metallized end of the cylindrical resistor 2, is installed detecting with the possibility of longitudinal movement along the loading axis coaxial coherent. The matching section, made in the form of a split collet 5, provides galvanic contact between the inner and outer conductors. The position of the inner conductor is fixed by the sleeve 6, the position of the nut 4 is fixed by the locking ring 7. The longitudinal movement of the split collet 5 is carried out by threaded connection with the external conductor in region 8 and the presence of a turn-key protrusion 9. The length of the split collet 5 is selected from the conditions for matching overall dimensions and must satisfy the condition L≥1.7 (mm). The cutting collet 5 moves along the longitudinal axis of the load coaxial agreed with the help of turnkey protrusions to obtain the minimum value of VSWR.

The use of a coaxial matched matching section in the load in the form of a split collet, providing galvanic contact between the internal and external conductors, with a cross section exponentially decreasing towards the second metallized end of the cylindrical resistor, allows one to obtain a minimum VSWR that is almost uniform in the frequency range 0-18 GHz, weakly depending on the frequency in the millimeter range, and to ensure tightness of contact with the inner conductor, unlike the prototype.

Claims (1)

Coaxial load, coordinated, containing an inner conductor in the form of a contact rod connected to the first metallized end of a cylindrical resistor, the position of which is fixed by a sleeve, an outer conductor in the form of a housing, a nut, and also a matching section made in the form of a split collet, providing galvanic contact between the inner and external conductors installed with the possibility of its longitudinal movement along the load axis coaxial consistent, characterized in that the transverse with the cross-section of the non-through contact funnel-shaped hole in the split collet decreases towards the second metallized end of the cylindrical resistor according to the exponential law.

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