SU462280A1 - Frequency to current converter - Google Patents

Description

The invention relates to electrical engineering) 1) Regulation and can be used in secondary standards of direct current and voltage, as well as in precision devices controlled by direct current.

A known secondary standard DC voltage H contains a magnetic magnetic resonance sensor, the output of which is connected to the input of a regulated current source, in the output circuit of which a current-magnet zero transducer is connected in series with the load, the magnetic field of which is located in the magnetic field.

The purpose of the invention is to convert the current into the frequency of the centimeter range and increase the stable slope of the frequency-current conversion.

The proposed frequency converter into current is characterized in that a microwave resonator is introduced into it on a single-crystal ferrite sphere oriented along a quasi-isotropic axis, to the output of which an amplitude detector is connected, the output of which is connected to the input of a phase-sensitive amplifier, and the output through the low-pass filter is connected to the input a controlled current source, with the control winding of the microwave resonator pa of a single-crystal ferrite sphere oriented along quasi-isotropic small-pox,

is connected in series with the load to the output circuit of the regulated current source, and the modulation winding of the microwave resonator is connected to the output of the modulation generator, the other output of which is connected to the input of the reference signal of the phase-sensitive amplifier.

The drawing shows the block diagram of the proposed Converter.

An amplitude detector 2 is connected to the output of the microwave resonator 1 on a single-crystal ferrite sphere, oriented along the quasi-photonic axis, the output of which is connected to the input of the phase-sensitive amplifier 3, the output of which is connected through the 4 ppppp frequency filter to the output circuit of which is controlled The control winding of the resonator 1 is switched on with the load 6. The generator winding 7 is connected to the modulation winding of the resonator 1, the other output of which is connected to the input of the reference signal of the amplifier 3.

A microwave signal fon is applied to the input of the resonator 1, which has a tuning frequency / p. The signal obtained at the output of the resonator 1 is detected by the detector 2 n and is applied to the amplifier 3, where the error signal UP is produced, which is fed through the filter to the input of the current source 5. The output current

The current source 5, flowing through the control winding of the resonator 1, is varied so that equality is achieved up to a residual misalignment error. At the same time / B / pX5 / oiiX-S (S is the slope of the transformation).

Thus, the device provides frequency conversion / op to current / in, and the relative instability of the steepness of the conversion is determined by the accuracy of the oriental single-crystal ferrite sphere along the quasinzotropic n axis is / degree. C °.

PREPARATION METHOD

A frequency to current converter containing an adjustable current source, characterized in that, in order to convert frequencies into current

centimeter range and the increase in frequency stability of the frequency-to-current steepness, a microwave resonator on a monocrystalline ferrite sphere oriented along a quasi-isotropic axis, the amplitude detector connected to the output of which is connected to the phase-sensitive amplifier, is connected to the device with the input of an adjustable current source, and the control winding of the microwave resonator on a single-crystal ferrnite sphere, oriented quasi-isotropically axis, connected in series with the load in the output nep controlled current source and to the modulation coil connected to the output the modulation generator microwave cavity, the other output is connected to the input of phase-sensitive amplifier onornogo signal.