SU394712A1 - USSR Academy of Sciences - Google Patents

Description

one

The invention relates to the field of analytics, Czech Instrument Engineering, in particle, to radio spectrometry.

High resolution nuclear magnetic resonance (NMR) spectra are observed and usually recorded by sweeping the magnetic field at a fixed frequency. When operating in the sideband, using a variable frequency modulation of the magnetic field, it is possible to carry out a sweep of the NMR spectra in frequency. The advantages of the latter method are the higher reproducibility of the spectra with the use of internal stabilization, the absence of a zero-line drift, and an easier interpretation of the double resonance spectra.

Stabilization and phase control is conveniently carried out not in the modulating amplifier, but in the reference voltage channel.

The disadvantages of the known devices are phase distortions of the signal and changes in the transmission coefficient.

The aim of the invention is to eliminate this drawback.

To achieve this, a bridge circuit is inserted between the frequency sweep generator and the inductive phase shifter, ensuring the stability of the reference voltage phase as its frequency changes. The amplitude of the oscillations is stabilized by amplifiers with automatic gain control. One of the lengths of the bridge circuit contains 111griruyu1.u tsenochke, which with BbicoKoii accuracy ensures the phase shift by 90 ° in

all dianazone frequencies. Thus, the equality of the two voltages applied to the windings of the inductive phase shifter or its potentiometric equivalent is ensured.

A drawing is a block diagram of the proposed device, where / is a two-stroke fantastic generator with a voltage form converter; 2 - recording device; 3 - power; 4 - and a converging chain; 5 p 6 - controlled amplifiers; 7 - phase regulator; 8} 9 - detectors; 10 - phase detector.

Frequency sweep generators generate non-sinusoidal output voltages. In this case, it works in conjunction with a voltage form converter. The frequency of the generator is controlled by the voltage from the recording device 2. After the conversion, the voltage of the criss-shaped form is fed to the amplifier, compensating for the attenuation of the integrating chain 4. The output of the 1H1 of the integrating circuit is delayed in phase by 90 °. The two voltages differing in phase and 90 ° are stabilized in amplitude at

equal levels of controlled amplifiers o and 6 and applied to the phase regulator 7, the role of which is performed by the inductive phase-shifting of its potential-metric equivalent. In the latter case, the Iair Women are applied to the extreme conclusions of the game. If the engine is not displaced, the phase of this line will change.

If you attach a janpus shifted 90 ° to each other, to the four terminals of the circular notionometer, then the voltage phase on the slider may vary within 360 °.

Simultaneously with the horizontal shift of the recording device 2, the oscillator frequency / is swept. As a result, the voltage amplitudes after the shape converter and the integrated cross-section 4 change. After amplifying these amplitudes, they compare with the voltage of the reference voltage. The pa outputs of the 8 n. 9 detectors according to the control signals, depending on the difference between the outputs of the amplifiers 5 n 6 and the reference control panel, respectively. The control grids change the mode of the amplifiers 5 to 6 so that the output voltages remain constant and constant. The constancy of the amplitude and voltages and the phase shift between them, equal to 90 °, ensure the operation of the phase regulator 7 with minimal phase distortions and a small dependence of the amplitude of the output voltage on the frequency. The output voltage is used as the reference voltage of the phase detector 10. The NMR signals from the low-frequency signal amplifier at the receiver are detected by the phase detector 10 in a certain constant phase, and the resistor 1 is recorded using its own 2.

P r e, a m ete and 3 o b e te n n

A device for stabilizing the phase of a supported pattern at a frequency sweep of nuclear magnetic resonance spectrums, comprising a frequency sweep controller controlled from a recording device, an inductive phase shifter and a phase detector. characterized in that, in order to reduce phase distortion in the spectrum recording spectrum, a bridge circuit is included between the frequency sweep generator and the inductive phase shifter, one leg of which contains an amplitude-controlled amplifier, and the other arm contains a preamplifier integrated preamplifier integrating a voltage to shift the oscillation phase by 90 ° and an amplifier, stabilized in amplitude, both arms of the bridge circuit are closed by an inductive phase shifter so that the outputs of each of the amplitudes are stabilized The amplifiers are connected to the opposite extreme terminals of the phase shifter, and its adjustable midpoint is connected to one of the inputs of the phase detector.

Hanpstwenuf Moaw

Signal from reception