CS262119B1 - Connection for digital display of nuclear magnetic resonance signal and its time base - Google Patents

Abstract

The essence of the connection is that the nuclear magnetic resonance signals and their time bases are converted to a digital quantity in two A—C converters, in which the moment of conversion is given by the clock frequency and whose output is routed via two output gates to the system bus connected to the video monitor of the nuclear magnetic resonance spectrometer, while the moment of writing the output data of both A—C converters is derived from each change in the output data of the second A—C converter of the time base signal using three monostable flip-flops and a logic circuit.

Description

The present invention relates to a circuit for digital imaging of a nuclear magnetic resonance signal and its time base, thereby enabling the display of the time course of a nuclear magnetic resonance signal on a digital display unit.

In conventional nuclear magnetic resonance spectrometers, analog oscilloscopes are used to display the nuclear magnetic resonance signal and its time base. This device is quite complicated and in operation is very unclear. Therefore, the use of digital video monitors becomes necessary in new designs of NMR spectrometers.

These previous drawbacks are eliminated by the connection of digitization of nuclear magnetic resonance signals and its time base for displaying on a video monitor, which consists of two AC converters, where the first A-C converter is connected via outputs through the first output gate to the system bus and the second A— The converter is connected via the outputs via the second output gate to the system bus connected to the video monitor. The first inputs of both A – C converters are connected via a divider to the clock terminal. The second input terminal of the first A-C converter is connected to the terminal of the nuclear magnetic resonance signal and the second input terminal of the second A-C converter is connected to the input terminal of the time base, the first output of the second A-C converter is connected to the first and second monostable circuit, the outputs of which are connected via the sum logic circuit to the input terminals of both output gates and through the third flip-flop to the system bus.

The main advantage of the circuitry according to the invention is that a constant number of nuclear magnetic resonance signal samples per period of the time base signal are provided, even at varying frequencies of the time base signal, thereby ensuring equivalence of the displayed waveform at different time base speeds.

BRIEF DESCRIPTION OF THE DRAWINGS The invention is illustrated in greater detail by the accompanying drawing, in which a block circuit of a nuclear magnetic resonance signal digitizing circuit and a time base for display on a video monitor are shown.

The essence of the connection consists of two A – C converters 2, 3, whose first input terminals C are connected to the output of the frequency divider 1 with the input terminal CL of the clock frequency. The second input terminal J of the first A-C converter 2 is connected to the terminal UA of the second A-C converter 3 to the input terminal T of the time base. The outputs of the first A —C converter 2 are connected to the inputs of the first output gate 8, the outputs of which are connected to the system bus 10 of the nuclear magnetic resonance spectrometer. The outputs of the second A-C converter 3 are connected to the inputs of the second output gate 9, the outputs of which are connected to the system bus 10 of the nuclear magnetic resonance spectrometer. The second A-C converter 3 is simultaneously connected to the first and second monostable flip-flops 4, 5 by its first output. Their outputs are connected via the sum logic circuit 6 to the input terminals S of both output gates 8, 9 and still through the third flip-flop 7. The output of the third flip-flop is coupled to the nuclear magnetic resonance spectrometer system bus 10 which is coupled to the video monitor.

When the circuit is operating in the NMR spectrometer, the clock clock input CL is applied to the clock input CL, which is divided in the frequency splitter 1 into the sampling frequency of the first and second A-C converters 2, 3 to which it is connected to the first input terminal C. the second input terminal I of the first A-C converter 2 receives an analogue nuclear magnetic resonance signal from terminal UA, while the second input terminal J of the second A-C converter 3 receives an analogue base signal of a triangular waveform.

The digitized nuclear magnetic resonance signal is applied to the outputs of the first A-C converter 2, similarly the digitized time base signal is present at the outputs of the second A-C converter 3. The digitized nuclear magnetic resonance signal is thus fed to the first output gate 8 from which it is routed. to the system bus 10 of the nuclear magnetic resonance spectrometer. The system bus 10 is also supplied with a digitized time base signal via the second output gate 9. The instant of writing the values of both digitized signals to the first and second output gate 8 and 9 is determined by the signal from the sum logic circuit 6 applied to their input terminal S and from changing the state of the lowest information bit at the first output K of the second A-C converter 3, the digitized time base signal. When the state of the lowest information bit K changes, a pulse appears at the output of the monostable flip-flop 5 which is fed to the sum logic circuit 0. The signal at the output of the sum logic 6 both writes data to the first and second gates 8 and 9 The flip-flop 7 produces a pulse that is applied to the system bus 10 of the nuclear magnetic resonance spectrometer, where it reports the validity of the data present on the system bus 10. The video monitor 11 then displays the progress of these functions.

The circuit is designed for circuits of automatic imaging of digitization of nuclear magnetic resonance signals and its time base.

Claims (1)

SUBJECT A wiring for digital display of a nuclear magnetic resonance signal and its time base for display on a video monitor, characterized in that it consists of two A-C converters (2, 3), where the first A-C converter (2) is connected via outputs through the first output gate (8) to the system bus (10) and the second A-C converter (3) is connected via the outputs via the second output gate (9) to the system bus (10) connected to the video monitor (11), the first outputs (C) of both A —The converters (2, 3) are connected via a divider (1) to the clock (CL) terminal, while the second input terminal (A) of the first A – C converter (2) is connected to the terminal (UA) of the nuclear magnetic resonance signal and a second input terminal (J) of the second A-C converter (3) is connected to the input terminal (T) of the time base, the first output (K) of the second A-C converter (3) is connected to the first and second monostable flip-flop ( 4 5), whose outputs are connected via the sum logic circuit (6) to the input terminals (S) of both output gates and via the third flip-flop (7) to the system bus (10).