SU855459A1 - Device for nuclear magnetic resonance signal registering - Google Patents

Description

one

This invention relates to nuclear magnetic resonance spectroscopy (NMR).

Known devices for recording signaling NMR used in stationary NMR radio spectrometers when recording absorption signals (phase shifter with manual phase adjustment)

eleven.

The disadvantage of this NMR is the lack of stabilization of the phase of the absorption signal.

The closest in technical essence to the present invention is a device for recording NMR signals containing a frequency synthesizer, the first output, which is connected to the sensor input, the receiver, the first input of which is connected to the output of the sensor, and the second input - to the first output of the pulse generator, the second output of which connected to the first input of the frequency synthesizer, phase, the detector, the first input of which is connected to the first output of the receiver, and the second input - to the phase shifter, the first input of which is connected to the second output of the synthesizer t, the phase detector output is connected to the oscilloscope input, the registrar.

the outputs of which are connected respectively to the first and second inputs of the operation mode switch, the first output of which is connected to the second input of the frequency synthesizer 2.

In this device, setting the desired value of the phase of the reference voltage on the phase detector is done manually. Phase Instability

10 times leads to a distortion of the absorption spectrum of the sample; in addition, the disadvantage is the need to manually adjust the phase of the absorption signal and the lack of stabilization of the signal phase during the experiment.

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The purpose of the invention is to improve the quality of the recorded spectra of the test substances by automatically controlling the phase.

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To achieve this goal, the device for recording signals of nuclear magnetic resonance, containing a frequency synthesizer, first

25 whose output is connected to the input of the sensor, and the second input - to the first output of the pulse generator, the second output of which is connected to the first input of the frequency synthesizer, phase

30 detector, the first input of which is connected to the first input of the receiver, and the second input with the phase shifter, the first input of which is connected to the second output of the frequency synthesizer, the output of the phase detector, is connected to the inputs of the oscilloscope and the recorder, the outputs of which are connected respectively to the first and second inputs of the mode switch works, the first output of which is connected to the second input of the frequency synthesizer, additionally introduced a phase detector of the dispersion signal, an integrator and a memory device, with the first input of the phase detector the dispersion signal torus is connected to the second output of the receiver and the second input to the second output of the phase shifter, the second input of which is connected to the output of the storage device, the first input of which is connected to the second output of the operation mode switch, and the second to the output of the phase detector of the dispersion signal, the second input of the integrator is connected, with the second output of the operation mode switch. i The drawing shows a diagram of a nuclear magnetic resonance device.

The device includes a frequency synthesizer 1, sensor 2, receiver 3, phase absorption signal detector 4, phase shifter 5, recording unit 6, oscilloscope 7, operation mode switch 8, pulse generator 9, dispersion signal phase detector 10, integrator 11, memory 12.

The device works as follows.

The frequency synthesizer 1, controlled in frequency by the first input through the switch 8 of the operating mode of the oscilloscope 7 or recording unit 6, generates a high-frequency voltage on the phase shifter 5. The second input of the frequency synthesizer 1 receives pulses from the generator 9 pulses that modulate the high-frequency voltage The output from synthesizer 1 is frequency to sensor 2 and then to receiver 3. At the other input of receiver 3, pulses are received from the generator 9 pulses that lock the receiver for the duration of the high-frequency synthesis pulses 1 ora frequencies.

The NMR signal from sensor 2 through receiver 3 is fed to the input of the phase detector 4 of the absorption signal and simultaneously to the input of the phase detector 10 of the dispersion signal. With a phase shifter 5, the first ofiopHOe voltage, VC, is supplied to another input of the phase detector 4 of the absorption signal, and the second reference voltage, EO, moved relative to the first by 90, is fed to another input of the phase detector 10 of the dispersion signal from the output of which the dispersion signal goes input. integrator. If the integrator not only receives the dispersion signal, but also partially absorbs the signal, then at its output a phase deviation voltage other than zero is obtained, which is fed through the memory to the phase shifter 5 and causes a change in the phase of the reference voltage O and 90 supplied to the phase detectors 4 of the absorption signal and 10 dispersion, so that the output of the phase detector 4 produces an absorption signal, which is fed to an oscilloscope 7 and a recording unit 6. Adjusting the phase of the absorption signal and its stabilization carried out between recordings of spectra of substances by the recording unit 6, when the frequency synthesizer 1 is controlled by the operation mode switch 8 by the oscilloscope 7. When the frequency synthesizer 1 is controlled by the work mode switch 8, the recording unit 6 from the work mode switch 8 is supplied to the integrator 11 and a storage device 12 for disconnecting their inputs, which is carried out by the operation mode switch 8 during a change in the direction of the beam path of the oscilloscope 7,

which is fed from oscilloscope 7

to switch 8 mode.

The present invention is implemented in a device layout for recording NMR signals.

As a result of using the proposed device, the quality of the recorded spectra is improved, the performance of the NMR radio spectrometer is increased due to the installation and stabilization of the phase of the absorption signal by the dispersion signal.

Claims (2)

1. Authors certificate of the USSR 566175, cl. G 01 N 27/78, 1977. 2. RI2302 nuclear magnetic resonance nuclear spectrometer. Technical description and operating instructions (prototype). I