RU2529755C1 - Method for production of infrared radiation - Google Patents

Abstract

FIELD: electricity.

SUBSTANCE: to obtain infrared radiation an electrical signal is sent to the input of the preemphases unit. The preemphases unit changes the signal form by taking the 8-th root of it. The changed signal is then sent to the input of the infrared radiation source.

EFFECT: simplification and acceleration of signal processing.

3 dwg

Description

The invention relates to electrical engineering, in particular to converting technology, and may find application in converters of electrical signals to infrared radiation, in particular in devices widely used, for example, for various measurements in medical equipment.

A known device is a gas analyzer of a respiratory mixture containing a source of infrared radiation, providing a signal at the input and removing it from the source [L.1, 2].

A method of obtaining infrared radiation by means of the device described in [L.1, 2] consists in supplying a signal to the input of an infrared radiation source, removing the output from this signal source, measuring the parameters of this signal and its subsequent processing.

The above-described method for producing infrared radiation provides the removal of a rectangular infrared signal, the subsequent processing of which is associated with significant material and time costs.

The invention solves the problem of creating a method for producing infrared radiation, characterized by wider functionality due to the output of the signal in a sinusoidal shape, which is quite simple to process.

To solve the problem in a method for producing infrared radiation, characterized by applying a signal to the input of the infrared radiation source, measuring the parameters of the signal taken from the output of the infrared radiation source, and then processing it, it is proposed according to the present invention to apply the signal to the input of the infrared radiation source to the input of the predistortion block, which provides a change in the waveform by extracting an eighth root from it, then remove the signal from the output and block predistortion and apply a signal of a modified form to the input of an infrared radiation source.

The invention is illustrated by the example of the drawings, which show: in Fig.1 - functional diagram of a device that implements the inventive method; figure 2 - waveform taken from the output of the infrared radiation source; figure 3 is a waveform taken from the output of the predistortion module.

A device that implements the inventive method contains a sinusoidal signal generator 1, a predistortion unit 2, an infrared radiation source 3.

The essence of the proposed method is as follows.

The signal is fed to the input of a sinusoidal signal generator 1.

Then, the signal is taken from the output of the sinusoidal signal generator 1, it is fed to the input of the predistortion unit 2, in which the signal is modified by extracting the root of the eighth degree, and the modified signal is fed to the input of the infrared radiation source 3, which is subsequently removed from the output of the infrared radiation source.

The signal removed from the output of the infrared radiation source 3 has a sinusoidal shape and is easily amenable to all kinds of transformations.

Figure 2 shows the waveform taken from the output of the infrared radiation source, namely, the time in milliseconds is plotted along the abscissa axis, and the current value at the input of the infrared radiation source is plotted along the ordinate axis.

Figure 3 shows the waveform taken from the output of the predistortion module, namely the dependence of the radiation intensity on time: the time in milliseconds is plotted on the abscissa axis, and the radiation intensity in arbitrary units is plotted on the ordinate axis. In this case, the dependence of current or voltage on time will have a similar character.

From the characteristics shown in FIGS. 2 and 3, it follows that the signal obtained at the output of the infrared source has a sinusoidal shape.

A signal having a sinusoidal shape is characterized by ease of processing, since it does not require a constant component in the measurement path, which is necessary when there is a signal having a rectangular shape.

In accordance with the claimed decision, Triton-ElectronicsC LLC developed the technical documentation of the device - gas analysis module of the gas mixture as part of the patient monitor of the modular MPR-7, which implements the claimed method for producing infrared radiation, on the basis of which the specified device was manufactured. An analysis of its technical characteristics led to the conclusion about its significant superiority over similar products manufactured by various enterprises. At the same time, the operation process of this device made it possible to draw a conclusion about the operability of the proposed method and its wide practical application in the future.

Literature

1. Artema AION respiratory gas analyzer manufactured by Artema Medical AB, Sweden. Since 2001

2. Size Matters: The World′s Smallest Intrared Gos Analyzers; MSP Industry Alent; Medical Strategic Planning, Inc, vol. 8, No. 2, September, 2006.

Claims (1)

A method of obtaining infrared radiation, characterized by applying a signal to the input of the infrared radiation source, measuring the parameters of the signal taken from the output of the infrared radiation source, characterized in that before applying the signal to the input of the infrared radiation source, the signal is fed to the input of the predistortion unit, providing a change in the waveform by extracting from it the root of the eighth degree with subsequent removal of the signal from the output of the predistortion unit and supplying the signal of a modified form to the input of the infra red radiation.

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