Digital nuclear magnetic resonance signal source

A technology of frequency generation and nuclear magnetic resonance, which is applied in the direction of using nuclear magnetic resonance spectrum for measurement, magnetic resonance measurement, and magnetic variable measurement, etc., can solve the problem that the scale of ROM table cannot be made large enough, frequency adjustment cannot be realized, cost and design Issues such as increased complexity and power consumption

Inactive Publication Date: 2008-06-04
EAST CHINA NORMAL UNIV
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Problems solved by technology

However, DDS adopts digital frequency synthesis technology, which has the following disadvantages in the application of nuclear magnetic resonance: 1. Most DDSs use ROM waveform tables to generate signals. Due to the limitation of integrated circuit technology, the scale of ROM tables is impossible. If it is made large enough, generally only the high bit of the phase accumulator is used to address and output it, so the output spectrum contains spurious signals generated by the phase truncation error of the DDS device
The spurious signal caused by the phase truncation error is phase coherent in each acquisition of the NMR signal, so its influence cannot be reduced by accumulation
2. DDS uses a high-speed DAC to generate signals, so that its output spectrum is also mixed with spurious signals caused by the limited word length effect of DAC and nonlinearity.
If the above two kinds of spurious signals are mixed into the local oscillator of the receiv

Method used

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  • Digital nuclear magnetic resonance signal source
  • Digital nuclear magnetic resonance signal source
  • Digital nuclear magnetic resonance signal source

Examples

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Embodiment Construction

[0075] Set a given sample NMR center frequency f 0 =100.1MHz

[0076] Chemical shift spectral width SW = 200KHz

[0077] When actually receiving nuclear magnetic resonance signals, the spectral width of the receiver is generally larger than the range of the spectral width required for observation. Here we can set the bandwidth of the receiver as SW=200KHz. According to the indicators that the performance of commercial ADCs can achieve at present, take N=1, then the ADC sampling frequency

[0078] f s = 100.1 MHz - 200 KHz / 2 N = 100 MHz

[0079] and f s Satisfy formula [1]

[0080] Therefore, the frequency of the nuclear magnetic signal obtained by sampling falls in: DC≤f s0 ≤200KHz

[0081] From the above example, we can see that as long as the DD...

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Abstract

The invention relates to a measuring device or apparatus for nuclear magnetic resonance, concretely relates to a frequency generating device of nuclear magnetic resonance spectrometer, namely a digitalized nuclear magnetic resonance signal source, when the signal source ignites the nuclear self-rotating system of the sample, the sampling signal in receiving channel and the igniting signal in emitting channel are started at the same time, and the difference of igniting signal frequency and sampling signal frequency is not less than the 1/2 of spectrum width of nuclear magnetic resonance. Its merits lie in: it can generate radio frequency signal of the sample self-rotation system, it simplifies the design, avoids the dispersant signal in the resonance because of DDS, guarantees the phase interference of received nuclear magnetic signal.

Description

technical field [0001] The invention relates to a nuclear magnetic resonance measuring device or instrument, in particular to a frequency generating device of a nuclear magnetic resonance spectrometer, that is, a digital nuclear magnetic resonance signal source. Background technique [0002] In NMR spectrometers, the signal source, that is, the frequency source, is used to generate a radio frequency signal that excites the nuclear spin system of the sample, and is usually also used as the local oscillator (LO) signal of the heterodyne receiver. At present, most commercial NMR signal sources use analog synthesis technology to realize frequency synthesis and phase-locked loop technology. A typical example is the frequency source product series of PTS (Programmed Test Sources, Inc). In order to obtain the selective pulse required by the magnetic resonance experiment, the digital-to-analog converter (DAC) is generally controlled by an external computer to generate an amplitude ...

Claims

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Application Information

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IPC IPC(8): G01R33/32G01R33/46
Inventor 徐勤蒋瑜李鲠颖
Owner EAST CHINA NORMAL UNIV
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