Kononov S.
PhD, Assistant professor, Vinnytsia National Technical University, Vinnytsia,
Ukraine
Bilyk O.
Postgraduate, Vinnytsia National Technical University, Vinnytsia, Ukraine
Oliinyk V.
Postgraduate, Vinnytsia National Technical University, Vinnytsia, Ukraine
HIGH-FREQUENCY GENERATOR FREQUENCY MEASURER
ON YIG-RESONATOR
Introduction. Modern development of telecommunication technologies
characterizes by increased requirements to the quality of communication services,
which involves the organization of measurements on communication networks.
For measurements in telecommunication systems, often use electronic-, radio
meters, which are manufactured by industry and are constantly being refined. The
specifics of telecommunication systems require the use of special measuring devices
intended for measurements only in the telecommunications.
Popular panoramic measuring instruments, such as frequency charakterographers,
spectrum analyzers of the serial type, panoramic receivers etc. [1]. They operate in a
wide frequency range, up to tens of GHz. The specificity is that they use frequency-
controlled, high frequency (HF) generators that uses for generation of a test signal or
as a local loop.
Such generators are often build based on YIG (iron-yttrium grenades) –resonators
[2]. YIG generators have a wide band of reconfiguration and low level of phase noise,
as well as linear characteristics of "current-frequency" control.
The
panoramic
measurements
of
the
frequency
characteristics
of
telecommunication nodes, communication lines, spectrum and other parameters and
characteristics of the signals that mentioned above are not possible without knowledge
about the RF generator’s frequency.
The purpose of the work is to develop a frequency meter for a frequency generator
based on YIG-resonator. Features and advantages of this method will be discuss below.
Research results. 1. Panoramic measuring devices. The peculiarities of the
construction of panoramic measuring devices and the location of the RF generator
(swip-generator) based on the YIG-resonator is studied.
In fig. 1.1 shows the frequency characterograph diagram.
The microcontroller with the display unit, which is the main part of the device,
performs functions of device control and processing of measuring information. The
following tasks will be solve: installation of frequency bands and frequency
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