DK145962B - CIRCUIT DEVICE FOR CREATING SPEED-CONTROL IMPACT - Google Patents

Description

(19) DENMARK

6 (12) SUBMISSION WRITING (n> 145962 B

DIRECTORATE OF THE PATENT AND TRADEMARKET SYSTEM

(21) Application No. 5529/75 (51) Int.CI.3 A 61 B 1/06 (22) Filing date Dec 8 1975 (24) Race day 8 Dec. 1975 (41) Aim. available Jun 19 1976 (44) Submitted May 2, 1985 (86) International Application No. - (86) International Filing Day - (85) Continuation Day - (62) Stock Application No. -

(30) Priority Dec 18 1974, 18? 1 55, DD

(71) Applicant VEB TRANSFORMATOR- UND ROENTGENWERK "HERMANN MATERN", 8Ο5Ο

Dresden, DD.

(72) Inventor Reiner Toast Man, DD.

(74) Associate Engineer Giersing & Stellinger.

(54) Circuit running device for generating = see of voice controlled pulse sequences.

The present invention relates to a circuit device for generating voice controlled pulse sequences with selectable phase position for the laryngostroscope, wherein a pulse sequence produced in a trigger controlled sawtooth generator is converted to a constant amplitude sawtooth voltage which voltage is applied to the input of an output pulse. ® serves to control a flash light.

Φ The task of laryngo's trobo scopy consists in the determination of ^ 7 speech disorders in the early diagnosis of malignant tumor-stained malaise processes and in decision-making on operative and therapeutic measures. All in all, it is possible to use stroboscope! *

Q

2 145962 in the study of speech physiological problems. It using stroboscope! visualized oscillations are in some sense an optical mean of many vocal oscillations. Each oscillation is illuminated for only a short period of time and due to the inertia of the human eye they are linked to an image. For the physician who uses strobe scopes, it is important to indicate the total oscillation sequence. · For this it is necessary that the present illuminated place at oscillation corresponding to the phase is variable. However, at the same time, it must be ensured that the phase position of the light from the flash remains constant within several oscillations. Unlike generator control, where the flash frequency can be changed by the physician using the stroboscopy, the microphone control determines the flash sequence of the tone of the examiner. Hereby, the connection between the frequency of the voice lip movement and the flash frequency is determined. As a rule, the flash frequency is equal to the voice lip frequency or an integer portion thereof. Using this method, an apparent state of the stroboscopic image is constantly considered. The current set phase of motion is purely random and cannot be predetermined. If a micro-motion is to be obtained by a slow-motion image, as is the case with generator control at a low frequency difference, then it is necessary that the phase of the light pulse sequence is continuously shifted in relation to the voice lip oscillation.

It is known from DL patent specification 107,855 to apply an alternating voltage corresponding to the fundamental oscillation of the voice to a broadband phase rotary joint which produces several mutually phase-shifted alternating voltages. These alternating voltages are applied to an electromechanical converter, to a rotary phase phase offset whose rotation corresponds to the frequency of the ground wave. In the rotor of the solver, a voltage is thereby induced, the phase position of which can be changed arbitrarily from the phase rotor in relation to the input voltage, the position of the rotor being changed by means of an electric motor drive.

By means of this device, an unlimited continuous phase shift can also be produced. The possibility of a fixed positioning of the phase position is given by the fact that there is adjustable a certain veil. It is obvious that such a device due to the use of electromechanical converter is relatively difficult to operate and is subject to interference. Furthermore, the mechanical inertia is a disadvantage of this device. A further disadvantage is the determination of the phase position between each other for the two alternating voltages, which is only possible by oscillographic methods.

1 a special print of medical technology 12Jg., 1972 »booklet A3» S.87f.f. there are described circuits "where the maximum phase shift is thus influenced by the frequency of the microphone voltage" that there is constantly swept over a complete course of movement. In a coupling device, £ ex. the pulses produced from the microphone voltage for two delay steps · One step delays with a constant time »the second step is controlled by a sawtooth generator. An impulse is always output from a coineidence step when, after a certain number of output pulses, the two-step delay difference is the same. Thus, the frequency of the apparent oscillations thus depends on the sawtooth controlled delay step. However, in controlling the delay step by increasing the saw-roof voltage, it must be observed that the steepness of the saw-roof voltage must be inversely proportional to the frequency of keeping the speed of the stroboscopic image constant. For this, a steepness control step is also required.

With a further circuit, the principle of impulse delay is also worked. The pulse sequence produced by the microphone voltage is converted directly into a sawtooth voltage in a sawtooth step »a steeply controlled step ensures that the amplitude becomes frequency independent · A slow-rise generator generates a slowly increasing voltage» whose period wavelength corresponds to the strooposcopic image's probing period. Both oscillation cycles are supplied with a comparative step "which also again gives an output pulse when the voltages are equal.

In order to keep the phase jump as small as possible, "it is necessary" that both amplitudes of the voltages be very constant and that a sensitive comparison step is available.

Furthermore, a circuit device is known in which the phase jump is completely avoided. However, for this, a sinusoidal input voltage is required which is modulated at a carrier frequency. In the resulting frequency mix, the lower sideband is filtered out by means of a band filter and an additional modulator is applied, where a further mixing takes place. Additional filter devices are required so that an output frequency of Δf greater or less than the input frequency is produced. Using this method, it is relatively difficult to set a particular phase of movement. Due to the wide range of filters and modulators, it is easy to realize that this method is also relatively well established *, 145962 h.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a circuit device for a laryngostroscope, where it is equally possible to ensure the indication of all the phases of the low-oscillation process. For this, the flash frequency must be adjustable and be phase-shiftable by means of a phase-shift arrangement over a frequency range from 60 Hz to 180 Hz. At the same time, a slow play rate setting option, i.e. changing the apparent oscillations of the period duration, so that when entering a particular voice lip phase the voice lip phenomena are well observed and the phase angle of the voice lip opening or other voice lip sub-processes are made measurable and / or indicated in a simple manner *

The object of the present invention is to provide a pulse generating circuit device for a stroboscope lamp where a comparison stage output pulses are to be used to control the pulse lamp and wherein the comparison stage as control voltages receives a constant amplitude reference voltage triggered voltage reference signal produced from the microphone voltage and .

This problem is solved according to the invention in that the reference voltage for the comparison stage is a triangular voltage whose period duration represents an entire multiple of the maximum possible period duration of the sawtooth voltage, that the amplitude of the triangle voltage and the sawtooth voltage are equal and symmetrical with respect to a reference potential and the triangular voltage has a controllable structural element for its oscillation interruption, whereby the charge or discharge of a capacitor whose voltage corresponds to the output voltage of the triangular generator can be interrupted. This makes it possible to maintain a certain voltage level and thereby a certain phase position.

The voltage of the capacitor of the triangular voltage generator can simultaneously generate the instantaneous value of the reference voltage for the comparison step.

Since the charge time or voltage rise of the capacitor is proprotional with the phase change of the flash of light within the voice lip process, and the flash of light is formed depending on the patient's toned tone, it is advantageous to provide a frequency change of the triangular generator by switchable capacitors.

Particularly advantageously designed is the indication of the phase angle, the output of the comparison stage being applied to an integral link, after which an indicating device is coupled.

An embodiment of the invention will now be described in more detail with reference to the accompanying drawings, in which: FIG. 1 is a block diagram for generating voice controlled pulse sequences; and FIG. 2 shows pulse diagrams according to FIG. First

On the block diagram shown in FIG. 1, a multivibrator 1 is indicated in which a voltage shown in FIG. 2a which corresponds to the rhythm of the fundamental frequency is supplied with a preamplifier, filter and zero comparison step not shown in the figure. The monostable multivibrator 1 produces rhythmic pulses of equal length in rhythm with the tuning frequency. By means of an Integration and Amplifier 2, integration of the output pulses of the multivibrator 1 takes place to a frequency-dependent voltage which changes linearly with the tuning frequency. Via the amplifier link 2, this voltage corresponds to the circuit shown in FIG. 2c to a sawing step 3 triggered by positive sawing pulses with the tuning frequency. The progress of the output pulses of the sawing step 3 is shown in FIG. 2d. The steepness of the sawmill is controlled by the voltage at the output of the amplifier link 2. Since the rise time of the sawtooth generator is linearly dependent on the voice ground frequency, but also on the supply voltage of the sawdust stage 3, a result is a constant-amplitude sawdust over the total frequency range from 60 to 180 Hz. This sawtooth pulse is amplified in a subsequent separator amplifier k and can be taken out symmetrically with respect to the zero line from the output of this separator amplifier. The voltage sequence is shown in FIG. 2e. After the separator amplifier h, a comparison step 3 is followed. The output signal of the amplifier 4 is fed to the inverting input of this comparison step. At the non-inverting input of the comparison stage, a triangular voltage is obtained, which is produced by a free-running triangular voltage generator 6. The non-return of the output voltage to the output value prevents a phase jump from occurring at the end of the rise time.

The triangular voltage generator 6 consists of an operational amplifier 6l which is connected in a manner known per se by means of unidentified resistors. This generator is particular in that its timing element formed by a capacitor 62, a potentiometer 63 and a resistor 64 is not directly connected to the inverting input of the operational amplifier 6l but is connected to the gate of a field power transistor 65 · This works as a high input resistor source follower · From this, the triangular voltage is applied to the operational amplifier 51's inverting and non-inverting input by comparison.

Since an operating physician has no hands free, it is necessary to connect a footswitch 66 to the charging circuit of capacitor 62, whereby the control of the input of a particular voice lip phase can be performed.

If the footswitch 66 is closed, the triangular voltage generator 6 operates freely, i.e. its voltage increases and decreases as shown in Fig. 2f. If the footswitch is opened, the capacitor 62 retains its charge at this time. Since the voltage of capacitor 62 determines the threshold of the comparator stage, it is possible to enter a specific phase position at the small pressure of the foot switch.

At the output of the comparison stage 5, a square voltage corresponding to FIG. 2g. It appears that the pulse duration is modulated corresponding to the phase position. The positive edge of this square voltage controls an ignition step not shown in the figure for a strobe lamp. From this pulse width modulated voltage can simultaneously be taken information on the phase position of the light flash · Add to this the output voltage of the comparison stage 5 to an integration stage and measuring amplifier 7. The measuring amplifier has an indication instrument, whereby with linear scale division the corresponding phase angle is proportional to the figure . 2h, can be read.

Thus, for a physician, it is possible thus to enter at the beginning of the glottis end, to read the phase angle, to press further with the foot switch until the end of the glottis and to read the phase angle again · The difference between the two values indicates the absolute phase angle for the duration of the glottis -slutningen.