SU1571519A1 - Pyroelectric meter of mcw-power - Google Patents

Abstract

This invention relates to microwave measurement technology. The purpose of the invention is to provide a continuous microwave power measurement. The pyroelectric microwave power meter contains a segment of a waveguide 1, a sensitive element 2 based on a pyroelectric plate 3, in the plane of polar sections of which the first 4 and second 5 nickel electrodes are located. The first electrode 4 does not have electrical contact with the waveguide section 1 and is connected to a series-connected matching amplifier 6 and indicator 7. The second electrode 5 is mounted on one of the walls of the waveguide section and is placed between the poles of the controlled electromagnet 8. Periodic heating of the pyroelectric plate 3, which occurs due to a change in the conductivity of the nickel electrode when a varying magnetic field of the electromagnet 8 arises, it causes the appearance of a proportional output signal. 1 il.

Description

The invention relates to microwave measuring technique and can be used to develop means for measuring and monitoring energy parameters — 5 meters of signals and high power levels.

The purpose of the invention is the provision of measuring continuous microwave power,

The drawing shows the design of a pyroelectric microwave power meter,

The microwave pyroelectric power meter contains a waveguide segment 1, a sensing element 2 based on a pyroelectric plate 3, in the plane of the polar slices of which nickel electrodes 4 · and 5 are placed, a matching amplifier 6 connected to the indicator 7, an electromagnet 8 variable 8 magnetic field and generator 9 control signals.

A pyroelectric microwave power meter works as follows. 25 When passing through a waveguide path, which includes a segment of waveguide 1, a modulated signal, for example, periodic sprinkling of microwave power, the pyroelectric sensitive element 39 undergoes pulsed heating, which leads to the appearance of a voltage on its electrodes that varies in proportion to the pulse power level Microwave signal. / 35

When passing in a continuous power path, a controlled electromagnet is switched on.

The changing magnetic field of electromagnet 8, concentrated in zone 49 of the absorbing nickel electrode, changes its conductivity, which leads to a corresponding change in the absorbed one due to dissipative losses in the metal of microwave power. This 45 leads to periodic (with the frequency of the control signals of the generator 9) heating of the pyroelectric plate 3 and causes the appearance of a proportionally changing output signal supplied to the matching amplifier 6 and recorded by the indicator 7.

With the passage of pulsed power in the path and the electromagnet $ 8 turned on, the pyroelectric sensitive element is certified, i.e. the conversion coefficient of the pyroelectric microwave power meter is determined by the change in the conductivity of the absorbing nickel electrode in the presence and absence of an external magnetic field.

Thus, the use of a nickel electrode and a magnetic system based on a controlled electromagnet 8 in a pyroelectric sensitive element provides an extension of the functionality of a power meter based on the pyroelectric effect, and also simplifies its calibration, which becomes possible with standard average devices.

Achieving the same result using other means, such as mechanical modulators, etc., in the paths of large power levels is unacceptable.

Compared with the prototype, in which continuous power measurement is not provided, the proposed meter has significantly greater functionality, expressed primarily in the measurement of both pulsed and continuous power, which expands the scope of pyroelectric pulsed power meters and allows their use in various microwave paths .

Claims (1)

Claim A microwave pyroelectric power meter containing a segment of a waveguide, a sensing element based on a pyroelectric plate, in the plane of the polar sections of which are placed nickel electrodes, the first of which is not in electrical contact with a segment of the waveguide, connected to a matching amplifier and indicator connected in series, characterized in that , in order to ensure the measurement of continuous microwave power, a second nickel electrode mounted on one of the walls of the waveguide segment is placed between the poles in Eden managed electromagnet.