RU191197U1 - TERMINAL MULTI-PROBE CONVERTER OF TERMINAL TYPE - Google Patents

Abstract

The multi-probe power converter of the terminal type is designed to measure the power of electromagnetic waves in waveguide paths. The power conversion of electromagnetic waves is carried out in working thermistors, the resistance of which changes under the influence of electromagnetic waves. Structurally, working thermistors are located in the waveguide transition. The conclusions of the working thermistors are connected to the capacitors attached to the outer part of the waveguide transition, the working thermistors have a matching element inside the waveguide transition, the waveguide transition is closed by a protective housing, on which there is a connector for connecting an autolabeled thermistor bridge. discrepancies with the measuring path and reducing the error in measuring the power of electromagnetic waves. 1il.

Description

The utility model relates to measuring equipment, power meters of the final type (absorbed power), designed to measure and transmit a unit of power of electromagnetic waves in the microwave range in waveguide paths.

Known waveguide power converter of the final type, containing a waveguide transition in a protective casing, located inside the waveguide transition, a working thermistor insert (working thermistor), a thermocompensating thermistor insert, on the outer part of the junction is a thermal resistance, each element has its own conductor in the cable with plugs for connection to self-balancing thermistor bridge [1].

The disadvantage of the terminal type power converter is a large error in the power measurement caused by incomplete coordination with the measuring path, which is characterized by the standing wave voltage coefficient (VSWR), which increases the error in measuring the power of electromagnetic waves.

As the closest analogue (prototype) taken thermistor converters of the terminal type M5-4X [2].

The disadvantages of the prototype include a mismatch with the path, which leads to an additional error in measuring the power of electromagnetic waves.

The technical result of the utility model is to reduce the error in measuring the power of electromagnetic waves, by reducing the mismatch with the measuring path.

The technical result is achieved due to the fact that the multi-probe power converter of the terminal type includes a waveguide step transition from a regular channel to a reduced one, inside of which there are thermistors connected through capacitors to a connector connecting the converter and the auto-balanced thermistor bridge. The waveguide transition contains more than one thermistor, behind which an inverse step transition is additionally placed, in the channel of which a matching element is installed.

The device has two step transitions from a regular channel to a reduced one and from a reduced to a regular one. More than one thermistor is located in the reduced waveguide. Behind a gradual transition from reduced to regular, a matching element is located.

The figure 1 shows a multi-probe power converter of the final type, where 1 is a waveguide transition, 2 is a working thermistor elements, 3 is a capacitance, 4 is a matching element, 5 is a protective housing, 6 is a connector for connecting an auto-balance thermistor bridge.

The multi-probe power converter of the terminal type is similar to the prototype in the following ways: there is a waveguide transition from a regular channel to a reduced one (1), in which a working thermistor is located (2), the developed device differs in that a stepwise waveguide transition, in which there is more one working thermistor, there is no thermo-compensating thermistor insert, which simplifies the design, the terminals of the working thermistors are connected to capacitors (3), mounted on the outer part of the waveguide transition, behind the thermistor elements there is a reverse step transition to the regular waveguide channel, inside of which the matching element (4) is located, the waveguide transition is closed by a protective housing (5), on which there is a connector (6) for connecting an autobalanced thermistor bridge (not shown in the drawing) .

The design of the multi-probe waveguide converter of the final type allows the value of the VSWR of the input to be no more than 1.20 in the operating frequency range of the waveguide path, and at fixed frequencies of the VSWR not more than 1.05.

This device operates as follows, the microwave power is supplied to the input, while the electromagnetic wave propagating in the regular waveguide, through a step transition, enters the reduced waveguide channel, where it passes along the thermistors located in series parallel to the narrow wall. Each of the thermistors is included in its own auto-balanced thermistor bridge, supporting the set value of the resistance of the thermistor to direct current. The microwave power absorbed by each thermistor is measured by the replacement method, while the microwave power is replaced by direct current power, the measurement of which is determined by measuring the voltage on each of the bridges taking into account the operating resistance of the thermistor and bridge resistors. Behind the thermistors, there is an additional stepwise transition to the regular channel, in which there is a matching element for absorbing the residual microwave power.

To achieve the stated technical result, several working thermistors and a matching element are located in the waveguide junction, this allows us to provide the claimed characteristics of the utility model for VSWR, thereby reducing the mismatch error in measuring the power of electromagnetic waves.

Information sources

[1] - Technical description and instruction 2.120.008 TO art. 15

[2] - Primary measuring transducers M5-40 ÷ M5-45 GV4.681.016 TO

Claims (1)

The multi-probe power converter of the final type includes a waveguide step transition from a regular channel to a reduced one, inside of which there are thermistors connected through capacitors to a connector connecting the converter and an auto-balance thermistor bridge, characterized in that the waveguide transition contains more than one thermistor, which are additionally located reverse step transition, in the channel of which a matching element is installed.

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