DE2550912C3 - Circuit arrangement for generating voice-controlled pulse trains - Google Patents

Description

The invention relates to a circuit arrangement for generating voice-controlled pulse trains which can be selected Phase position for laryngostroboscopy, in which a pulse sequence obtained from the microphone voltage is in a triggered sawtooth generator is converted into an amplitude-constant sawtooth voltage, which arrives at the input of a comparator, the output pulses of which control a flash lamp undertakes.

The task of laryngostroboscopy is to detect voice disorders during early diagnosis of malignant, tumorous vocal fold processes and in the assessment of operative and therapeutic Measures. At the same time, it is possible to use stroboscopy to investigate voice physiological problems to use. The oscillation sequence made visible by the stroboscopy represents to a certain extent represents an optical mean value from many vocal fold vibrations. From each individual vibration only a certain part is briefly illuminated and due to the inertia of the human eye with each other linked to a picture. It is important for the stroboscopic doctor to show the entire oscillation sequence. For this it is necessary that the each illuminated point for the oscillation that corresponds to the phase can be changed. However, at the same time it must be ensured that the phase position of the light flash remains constant over several oscillations Im In contrast to generator control, in which the flash frequency is controlled by the stroboscopic doctor can be changed, with the microphone control the flash sequence is determined by the tone of the examined person This determines the relationship between the frequency of vocal fold movement and the rate of lightning As a rule it is so that the

ίο flash frequency equal to the vocal cord frequency or a Whenever this method is used, there is always an apparent standstill of the stroboscopic image observed The respectively set movement phase is purely random and can be do not determine beforehand. Should a slowly moving image be obtained when controlling the microphone, like this in the case of generator steepness with a small frequency difference arises, it is necessary that the phase of the light pulse sequence compared to the vocal folds oscillation continually ·. is pushed.

From DD-PS 1 07 855 it is known to have a corresponding to the fundamental oscillation of the vocal sound To apply AC voltage to a broadband phase rotating element, which several mutually phase-shifted Alternating voltages generated. These alternating voltages become an electromechanical converter led to a rotary field phase control whose rotation corresponds to the frequency of the fundamental wave. A voltage is induced in the rotor of the resolver, the phase position of which is relative to the input voltage the phasing element can be changed arbitrarily by changing the position of the rotor with the help of a electric motor drive is changed. With the help of this arrangement, an unlimited, continuous phase shift can be established. The possibility of fixed setting of phase positions is given by the fact that a certain slip is adjustable. It is evident that such a Arrangement due to the use of electromechanical transducers relatively difficult to operate and is prone to failure. Furthermore, mechanical inertia is a disadvantage of this arrangement. Another is the determination of the phase position of the two alternating voltages to each other, which can only be done with the help of oscillographic Methods is possible.

From the special edition of the medical technology, 12th year, 1972, booklet A 3, p. 87 f., Circuits are described at which the maximum phase shift is so influenced by the frequency of the microphone voltage, that a complete sequence of movements is always swept over. In a circuit arrangement z. B. the impulses obtained from the microphone voltage are fed to two delay stages. One stage delayed at a constant time, the second stage is controlled by a sawtooth generator. It will always then emitted a pulse from a coincidence stage if after a certain number of output pulses the delay difference of both stages is the same. So this becomes the frequency of the apparent Vibrations depend on the sawtooth-controlled delay stage. When controlling the delay stage However, due to the sawtooth voltage, it should be noted that the steepness of the sawtooth voltage inversely proportional to the frequency must be changed to the regardless of the pitch To keep the speed of the stroboscopic image constant. There is also a slope control stage necessary.

Another circuit works according to the principle of the pulse delay from the Mäkrofon voltage The pulse sequence obtained is converted directly into a sawtooth voltage in a sawtooth step, a slope control stage ensures that the amplitude is independent of frequency. With help of a Sawtooth generator generates a slowly rising voltage, the period of which is the desired The apparent period of oscillation of the stroboscopic image corresponds to both voltage curves are fed to a comparator, which is also again emits an output pulse when the voltages are equal. To the phase jump as possible To keep it small, it is necessary that a large amplitude constancy of both voltages and a There is also a sensitive comparator. A circuit arrangement is also known in which the Phase jump is completely avoided. However, this requires a sinusoidal input voltage, which a carrier frequency is modulated. The lower sideband becomes the resulting frequency mix sieved out with the help of a band filter and fed to a further modulator, which has a further Mixing further filter arrangements are necessary so that an output frequency is created is 4 / higher or lower than the input frequency It is relatively difficult to set a specific movement phase with this method. Based on the With a large outlay on filters and modulators, it can be seen that this method is also relatively complicated is.

It is the object of the invention to provide a circuit arrangement for a laryngostroboscope in which it it is possible to ensure the representation of all phases of the vocal fold oscillation process equally well. The flash frequency should be with the help of a phase shifter device over a frequency range of 60 Hz to 180 Hz adjustable and phase shiftable. Simultaneously should be a setting option for the slow motion frequency, d. H. Change in apparent vibrations the duration of the period can be given by approaching a certain vocal fold phase Let vocal cord phenomena be observed well and the phase angle dec vocal cord closure or the Vocal fold opening or other vocal fold oscillation sub-processes with the help of a simple option be measurable and / or displayable.

The invention is based on a circuit arrangement for generating pulses for a stroboscopic lamp off, in which the output pulses of a comparator are used to control the pulse lamp, the comparator being a triggered amplitude constant obtained from the microphone voltage as control voltages Sawtooth voltage and a reference voltage received.

The object is achieved in that the reference voltage for the comparator is a Triangle voltage is. It is a condition that the period of this triangular voltage is a multiple compared to the maximum possible period of the sawtooth voltage. In addition, the The amplitudes of the triangular voltage and the sawtooth voltage are equal and symmetrical to one Be the reference signal. The generator for generating the triangle voltage has a controllable one Component to its oscillation interruption, · whereby the charge or the charge reversal of a capacitor can be interrupted, because with it it is possible to have a certain level of tension and thus to maintain a certain phase position.

The voltage on the capacitor of the triangular voltage generator can be the instantaneous Form the value of the reference voltage for the comparator.

Since the charging time or the increase in voltage across the capacitor is proportional to the change in The phase position of the flashes of light within the vocal fold process and the flashes of light as a function of If the patient's intonated tone is formed, it is advantageous to change the frequency of the triangle generator to be provided by switchable capacities.

The representation of the phase angle is particularly favorable in that the output signal of the comparator is applied to an integration member, which is followed by a display device.

The invention is to be described in more detail below with the aid of an exemplary embodiment and a drawing explained. In the drawing shows

Fig. 1 is a block diagram for generating voice-controlled Pulse trains,

F i g. 2 pulse diagrams according to FIG. 1.

In the block diagram of FIG. 1 shows a multivibrator 1 in which a voltage according to FIG. 2a, the the rhythm of the fundamental vocal frequency corresponds to a preamplifier, filter, not shown in the figure and Nuli comparator is performed. The monostable multivibrator 1 generates in the rhythm of the basic voice frequency Pulses of the same length. With the help of an integration and amplifier element 2 takes place Integration of the output pulses of the multivibrator I into a frequency-dependent voltage that is linear to the Basic voice frequency changes Via the amplifier element 2, this voltage arrives in accordance with the curve according to FIG. 2c to a sawtooth stage 3, which is triggered by positive sawtooth pulses of the basic voice frequency will. The course of the output pulses of the sawtooth stage 3 is shown in Fig.2d. The steepness of the The sawtooth is controlled by the voltage at the output of the amplifier element 2. Since the startup time of the Sawtooth generator depends linearly on the basic voice frequency, but also the supply voltage of the Sawtooth stage 3, the result is a sawtooth of constant amplitude over the entire frequency range from 60-180 Hz. This sawtooth pulse is amplified in a subsequent isolating amplifier 4 and can be taken from the output of this isolation amplifier symmetrically to the zero line. The tension curve is shown in Fig.2e. The isolating amplifier 4 is followed by a comparator 5 The output signal of the isolating amplifier 4 arrives at the inverting input of this comparator Non-inverting input receives a triangular voltage generated by a free-running triangular voltage generator 6 is generated. If the voltage does not jump back to the initial value, avoided that a phase jump occurs at the end of the run-up.

The triangular voltage generator 6 consists of an operational amplifier 61, which is known per se is connected by unspecified resistors. A special feature of this generator is that that the time-determining element, which is through a capacitor 62, a potentiometer 63 and a Resistor 64 is formed, not directly to the inverting input of operational amplifier 61 is switched, but to the gate of a field effect

sistor 65. This works as a source follower with a high input resistance. From this comes the triangular voltage to both the inverting and non-inverting input of the comparator 5 connected Operational amplifier 51. Since the doctor does not have a free hand 5, it is necessary to switch a foot switch 66 into the Turn on the charging circuit to the capacitor 62, thereby controlling the approach to certain vocal folds phases can be executed. If the foot switch 66 is closed, the triangular voltage generator operates 6 free running, d. H. its tension rises and falls as in FIG. 2f is shown. Will the foot switch open, the capacitor 62 retains the charge it had at the time. Since this tension of the Capacitor 62 determines the comparator threshold, it is possible to tap one of the footswitches to approach certain phase positions.

At the output of the comparator 5, a square-wave voltage corresponding to FIG. 2g. It can be seen that the pulse duration is modulated according to the phase position. The positive edge of this square wave voltage controls the ignition stage, not shown in the figure, for the stroboscopic lamp. From this The pulse-width-modulated voltage is also information about the phase position of the light flash removable. For this purpose, the output voltage of the comparator 5 is an integration element and measuring amplifier 7 supplied. The measuring amplifier has a display instrument with a linear scale the corresponding phase angle, which is proportional to that shown in FIG. The voltage shown in 2h is read can be. It is thus possible for the doctor to look at the beginning of the glottic closure, for example to feel closer, to read off the phase angle, to continue tapping with the foot switch until the end of the Glottis closure and, in turn, read the phase angle. The difference between the two values gives the absolute phase angle of the duration of the glottic closure.

For this purpose 2 sheets of drawings

Claims (4)

Patent claims: 1. Circuit arrangement for generating voice-controlled pulse trains selectable phase position for the Laryngostroboscopy, in which a pulse sequence obtained from the microphone voltage is rolled into one triggered sawtooth generator converted into an amplitude constant sawtooth voltage and is fed to the input of a! Comparator, whose output pulse sequence controls the Flashlight, characterized that the reference voltage for the comparator is a triangular voltage whose period is a multiple of that maximum possible period of the sawtooth voltage and the amplitudes of the triangular voltage and the sawtooth voltage are the same size and symmetrical to a reference potential and the generator for generating the triangular voltage has a controllable component for its oscillation interruption, with which the charge or the Reloading of a capacitor, the voltage of which corresponds to the output voltage of the triangle generator, is interruptible. 2. Circuit arrangement according to claim 1, characterized in that the time-determining capacitor of the triangular voltage generator at the same time the storage capacitor of the instantaneous value of the Reference voltage is. 3. Circuit arrangement according to claim 1, characterized in that the frequency change of the Triangle generator is made possible by switchable capacities. 4. Circuit arrangement according to claim 1, characterized in that the output signal of the comparator is applied to an integration element to which a display device for evaluating the phase angle is downstream.