SU1626265A1 - Probe contact device - Google Patents

Abstract

The invention relates to radio engineering. The goal is to improve the coordination and decrease the measurement error of monitored parameters when expanding the range of monitored products. To achieve it, the needle in the probe contact device is made in the form of a three-stage roller. The length of the middle step is equal to I / 4, where I is the wavelength. The size of the fork prong in a plane perpendicular to the axis of the center conductor in the direction perpendicular to the plane of the prong teeth, at least twice the distance between the prongs. The closure of the teeth of the plug with an additional jumper and the introduction of a second length of coaxial cable with a central conductor made in the form of an elastic needle, similar to that described, allows the transmission of the microwave signal without significant distortion. 2 hp f-ly, 4 ill. J

Description

The invention relates to radio engineering, and more specifically to the technique of measuring the parameters of microwave bipolar and quadrupole networks, and can be used in installations for measuring the transmission coefficient and noise figure of unpackaged diodes, transistors and integrated circuits.

The purpose of the invention is to improve the matching, reducing the measurement error when expanding the range of controlled products.

FIG. 1 shows a probe contact device for measuring two-terminal parameters, a general view; in fig. 2 - a device for measuring the parameters of a quadrupole, general view; in fig. 3 and 4 - a device for measuring the parameters of a quadrupole

with a controlled product (field microwave transistor).

Probe KU contains a segment of coaxial line 1, a segment of coaxial cable, the center conductor 2 of which is made in the form of an elastic needle and is a three-stage roller, the length of the middle stage 3 is equal to I / 4, the outer conductor in the form of a plug.

In the device for measuring the parameters of quadrupoles (Fig. 2), the teeth of the plug 4 are elongated and closed by an additional jumper 6 in which the second segment of the coaxial cable 3, made in the form of an elastic needle, is mounted (Fig. 1). The second section of coaxial cable (Fig. 2) is placed with the possibility of contact with the controlled product, and for contact with the other poles of four O

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pole introduced two contact pins 5.

The controlled product (Fig. 3) —the Schottky 7 field-effect transistor — is a typical four-pole device.

The device works as follows.

The input signal is fed to a section of coaxial cable, which, due to the described implementation of the inner and outer conductor, provides a consistent supply of a signal to the measurement object (OH). After conversion to the OI, the signal is co-recorded on a symmetrical and id 11 line of the specified segment of the coaxial cable and subsequently through the perv of the 1-line line is fed to the indicator for recording and processing.

The center conductor configuration provides input and output matching with the OI with a regular line due to the transforming properties of the needle associated with a step change in diameter. The central conductor section from the contact plane with the OI to the first step of the central conductor is inductive in nature and provides compensation for the capacitive component of the input resistance of the OI, and further transformation of the active component is accomplished by making the central conductor segment in the form of a roller with a changed diameter. With a constant distance between the teeth of the plug, the change in the diameter of the inner conductor acts as a resistance transformer, and the condition that it has an active character at the measurement frequency is that. The length of this region is chosen equal to A / A. In addition, the elasticity of the needle provides reliable contact and at the same time the possibility of non-destructive testing of OI parameters.

Essentially, this means that the matching element (needle) is as close to the OI as possible and the level of apparent losses is significantly reduced, as a result, an almost complete matching is achieved and only fine matching is required by external matching transformers. Due to this, the number of sub-subsurface operations is reduced, which leads to stability of the measurement results. In addition, the dimensions of the plug in the plane perpendicular to the axis of the center conductor in the direction perpendicular to the plane of the teeth of the fork, in order to ensure sufficient needle shielding, more than two distances between the teeth are made, which increases the repeatability of measurements, since the contact node represents

is a flat-rounded three-wire line (GOST 18238-72), which eliminates a random measurement error with an asymmetric OI connection, due to different deflection of the contact

needles of the center conductor, which leads to a decrease in measurement errors and a decrease in losses.

The closure of the teeth of the plug additional jumper and the introduction of the second segment

A coaxial cable with a central conductor made in the form of an elastic needle, which is similar to that described (a three-stage roller), with the possibility of contact with a controlled product, allows the transmission of a microwave signal without significant distortion, which reduces the systematic measurement error, resulting in an even greater reduction in own losses as well

expands the range of controlled products to quadrupoles (transistors and integrated circuits). In addition, using the proposed device, measurements can be made in the short-wavelength part of the centimeter and in the EHF-range.

Claims (3)

1. Probe contact device containing a length of coaxial cable the central conductor of which is made in the form of an elastic needle, and the outer one - in the form of a bifurcated plug, between the teeth of which there is a needle, characterized by that, in order to improve the matching and reduce the measurement error of the monitored parameters when expanding the range of monitored products, the needle is made in the form of a three-stage roller, and the middle stage is A / 4, where A is the wavelength. 2. The device according to claim 1, characterized in that the size of the prong of a fork in a plane perpendicular to the axis of the central the conductor in the direction perpendicular to the plane of the teeth of the fork, not less than twice the distance between the teeth. 3. The device according to claim 1, characterized in that the forks of the plug are closed by an additional jumper in which is placed the second section of coaxial cable with a central conductor made in the form of an elastic needle with the possibility of contact with a controlled product. FIG. I FIG. J source. stock gate