SU1166790A1 - Doppler ultrasound locator - Google Patents

Abstract

1. DOPLEROVSKY ULTRASONIC LOCATOR, containing a high-frequency generator, a resonant oscillatory circuit connected to its output and a series connected ballast resistor, a first detector, a first amplifier, a series-connected high-frequency phase shifter, a second detector, a second amplifier, as well as an electromechanical converter connected on the first detector and the common bus and the phase inverting element, inductively coupled to the resonant circuit and connected to the first and second to the moves of the high-frequency phase shifter, so that, in order to increase the sensitivity of the locator while simultaneously registering the speed and direction of motion, a compensating winding, connected between the input of the first detector and the third input of the high-frequency phase shifter, is inserted in it, consistently with the release of the first amplifier, the first Schmitt trigger, the first waiting multivibrator, the first element AND, the pS trigger, the second element AND, the first key, the total load, the integrator, are connected in series with the output of the second amplifier is the second Schmitt trigger, the third element I, the code of which is connected to the second input of the RS trigger, serially connected to the second waiting multivibrator, the fourth element I, the second key, the signal of which is connected to the second input of the common load, and the dial indicator, power source, calibrator , an audible indicator and an inverter, the input of the latter connected to the output of the second trigger Shidatta, and th. output - with the second input of the first ele (Element And, the second input of the second element And connected to the output of the second standby multivibrator, the input of which is connected to the first input of the first and second input of the third element And, the second output of the RS-trigger And , the first and second outputs of the power source are connected to the second 9) inputs of the first and second keys, the dial indicator is connected to the output of the common load, the sound indicator to the output of the first amplifier, and the first and second outputs of the calibrator to the inputs first and second amplifiers. 2. The locator according to claim 1, which is also distinguished by the fact that, in order to speed up the search for blood vessels and provide auditory control during measurements, the sound speaker contains a series-connected power amplifier and loudspeaker, with the amplifier input

Description

power is connected to the output of the first amplifier.

3. The locator according to claim 1, wherein the calibrator comprises a series connected low frequency generator, a low frequency phase shifter, a dual switch, the second input of which is connected to the second output of the low frequency phase shifter, and the first and second outputs are the first and second outputs of the calibrator.

one

The invention relates to medical technology, in particular, to a speed meter with an indication of the direction of movement.

A device for researching the cardiovascular system is known, comprising a high-frequency generator connected to its output resonant oscillatory circuit and through a ballast resistor an electromechanical transducer, as well as a compensating winding connected inductively to the resonant circuit connected between an electromechanical transducer and connected in series with a detector and amplifier lj .

However, this device with one electromechanical transducer operating simultaneously in the mode of radiation and reception of continuous ultrasonic vibrations, registers only the speed and does not allow the direction of movement to be chosen.

The closest in technical essence to this is the Doppler ultrasonic locator, which contains a high-frequency generator, a resonant oscillating circuit connected to its output and a series-connected ballast resistor, a first detector, a first amplifier, a series-connected high-frequency phase shifter, a second detector, a second amplifier, and an electromechanical transducer connected between the input of the first detector and the common bus and a phase inverting element inductively coupled to the cut onance circuit and connected to the first and second inputs of the high-frequency phase shifter C2J.

This device allows simultaneous recording of speed and

the direction of motion, but has a low sensitivity along the control channel, and, consequently, of the locator as a whole, since there is no disconnection of heterodyne voltages of the first and second detector.

The purpose of the invention is to increase the sensitivity of the locator while simultaneously registering the speed and direction of movement, speeding up the search for blood vessels, and providing auditory control during measurements.

The goal is achieved by the fact that a Doppler ultrasound locator containing a high-frequency generator, a resonant oscillatory circuit connected to its output, and a series-connected ballast resistor, a first detector, a first amplifier, a series-connected high-frequency phase shifter, a second detector, a second amplifier, and an electromechanical converter connected between the input of the first detector and the common bus, and the phase inverting element inductively coupled to the resonant circuit and Connected to the first and second inputs of the high-frequency phase shifter, a compensating winding is introduced, inductively connected to the resonant oscillating circuit, and connected between the input of the first detector and the third input of the high-frequency phase shifter, connected in series with the output of the first amplifier, the first Schmitt trigger, the first panel, and a set. , RS-trigger, second element And, nepBLoi key, total load, integrator, serially connected to the output of the second amplifier second trigger lIlMiTTa, third lement and whose output is connected to vtbrym

PS trigger, serially connected second standby multivibrator, fourth AND element, second key, the output of which is connected to the second input of the common load, as well as the 5th dial indicator, power source, calibrator, sound indicator and inverter with the output of the second Schmitt trigger, and the output with the second input of the first element I, the second input of the second element I connected to the output of the second waiting multivibrator, whose input is connected to the first input of the first and second input 5 of the third element I, t The RS output of the trigger is connected to the second input of the fourth element I, the first and second outputs of the power supply are connected to the second inputs of the first and second keys, the dial indicator is connected to the output of the total load, the sound indicator to the output of the first amplifier, and the first and the second outputs of the calibrator - with 25 inputs of the first and second amplifiers. The audible indicator contains a series-connected power amplifier and loudspeaker, with the input of the power amplifier connected to the output of the first amplifier.

The calibrator contains a series-connected low-frequency generator, a low-frequency phase shifter, a dual switch, and a second one. its input is connected to the second output of the low-frequency phase shifter, and the first and second outputs are the first and second outputs of the calibrator.

The drawing shows the function 40 Nalnaya locator diagram.

Doppler ultrasonic locator contains a high-frequency generator 1, connected to its output a resonant oscillating circuit 2 4S and a series-connected ballast resistor 3, the first detector. 4, the first amplifier 5, serially connected high frequency. a phase shifter 6, a second detector 7, 50, a second amplifier 8, an electromechanical converter 9 connected between the input of the first detector 4 and a common bus, and a phase inverting element 10, inductively coupled to 55 resonant circuit 2 and connected to the first and second inputs of the high frequency phase shifter 6, compensating winding 11, inductively connected to the resonant oscillatory circuit 2 and connected between the input of the first detector 4 and the second output of the high-frequency phase shifter 6. In series with the output of the first y Or the 5 Schmitt trigger 1 trigger, the first standby multivibrator 13, the first element 14 And, the RS-trigger 15, the second element 16 And, the first key 17, the total load 18, the integrator 19. Consistently connected to the output of the second amplifier 8 the second Schmitt trigger 20, the third element 21 And, the output of which is connected to the second input of the RS-flip-flop 15. Consistently connected second WAIT multivibrator 22, the fourth element 23 And, the second key 24, the output of which is connected to the second input of the common load, as well as a dial indicator 25, power source 26 , calibrator 27, sound indicator 28 and inverter 29, the input of the latter connected to the output of the second Schmitt trigger 20, and the output to the second input of the first element 14 I. The second input of the second element 16 And connected to the output of the second vibrating multivibrator 22, the input of which is connected to the first input of the first and the second input of the third element 21 I. The second output of the RS flip-flop 15 is connected to the second input of the fourth element 23 N. The first and second outputs of the power source 26 are connected to the second inputs of the first key 17 and the second key 24, respectively. sound indicator 28 with the output of the first amplifier 5, the first and second outputs of the calibrator 27 are connected respectively to the inputs of the first amplifier 5 and the second amplifier B. The sound indicator 28 v contains serially connected power amplifier 30 and loudspeaker 31 The input of the power amplifier is connected to the output of the first amplifier. Calibrator 27 comprises a series-connected low-frequency generator 32, a low-frequency phase shifter 33, a dual switch 34, the second input of which is connected to the second output of the low-frequency phase shifter 33, and the first and second outputs are the first and second outputs of the calibrator 27.

Doppler ultrasonic locator works as follows.

From the output resonant circuit 2 of the generator 1 through the ballast resistor 3, the high-frequency voltage is fed to the input of the first detector 4 and the electromechanical converter 9. This voltage is heterodyne for the first detector 4 and exciting for the electromechanical converter 9. The emitted wave is directed to the object (flow liquids, blood) is reflected from it and perceived by an electromechanical converter 9, the output of the first detector 4 is a signal with a Doppler frequency equal to the frequency difference r heterodyne and reflected signals. This signal is a reference. From the output resonant circuit 2, through phase inverting element 10, the voltage is applied to a high frequency phase shifter 6 with a low output impedance. The output voltage of the phase shifter 6 is heterodyne of the second. detector 7 is shifted in phase by 90 compared with the heterodyne voltage of the first detector 4. To the input of the second detector 7, signals from the electromechanical transducer 9 are supplied through the compensating winding 11. The heterodyne voltage of the first detector 4 is compensated at the expense of hands of winding 11, and the reflected signal passes without attenuation, since it has a phase different from the heterodyne phase of the first detector 4. At the output of the second detector 7 there is a Doppler signal - control phase-shifted compared to the reference signal and equal in amplitude ..

From the output of amplifier 5, the Doppler signal is fed to the input of the first Schmitt trigger 12, which converts the Doppler signal into square-shaped pulses. Similarly, the second trigger works Schmitt 20. The pulses of the reference signal are ahead of the pulses of the location object to the electromechanical transducer 9. With the leading edge, pulses from the first Schmitt trigger 12 trigger the first waiting multivibrator 13, the pulse duration of which is chosen to be minimal enough to control the operation of the RS trigger 15 and trigger the second waiting multivibrator 22. At the output of the first element 14 And pulses of negative polarity appear, which set the RS flip-flop 15 to the position when at its first output It is of potential, and the second O. RS-trigger 15 controls the operation of the second and fourth members 16, 23 I.

The pulse frequency of the second standby multivibrator 22 is equal to the Doppler frequency, and the pulse duration determines the magnitude of the output voltage of the locator. These pulses pass through the second element 16 I and arrive at the input of the first key 17, which is powered from the first (positive) output of the power source 26. At the output of the common load 18, positive polarity pulses appear at a frequency equal to the Doppler frequency and a duration equal to the duration of the pulses of the second waiting multivibrator 22. These them; The pulses are fed to the dial gauge, 25 with a zero in the middle and deflecting its arrow in the positive direction. The pulses from the common load 18 are also fed to the integrator 19, from whose output a positive voltage is removed, which is proportional to the frequency of the Doppler signal and, consequently, to the speed of the object being located. The analogue is functional in locator operation when the object moves from the electromechanical transducer 9. In this case, the pulses from the second expecting multivibrator 22 pass through the fourth element 23 And to the input of the key 24, which is powered from the second (negative) power supply output 26. At the output of the common loads 18 appear negative pulses and negative voltage at the output of integrator 19. The short pulse duration of the first standby multivibrator 13 reduces the requirements for the cascades allocating the Doppler signal and the operation of the triggers 12, 20. Schmitt, since it ensures that the direction of motion is exceeded when the phase of the first standby multivibrator 13 is shifted between the reference and control Doppler signals. The use of the first standby multivibrator 13 makes it possible to have a pulse duration of the second standby multivibrator 22 longer than the half-period of the Doppler signal. This makes it possible to increase the output voltage of the locator at a given voltage of the power source. The use of one second standby multivibrator 22, the pulse duration of which determines the output voltage, makes it possible to increase the accuracy of measuring the velocity of one direction of fluid flow relative to another for various destabilizing factors. The duration of its pulses is chosen less than the duration of the period of the maximum Doppler frequency minus the duration of the pulses of the first waiting multivibrator 13, i.e. determined by the maximum Doppler frequency and maximum blood flow velocity.

The calibration of the recording of the blood flow velocity on the recording device is carried out as follows.

Low-frequency generator 32 generates a signal with a frequency equal to the frequency of the Doppler signal, proportional to the velocity of blood flow. This signal is applied to a low-frequency phase shifter 33, from the outputs of which signals are removed that are out of phase with each other by 90. These signals are fed through the dual switch 30 to the codes of the amplifiers 5 and 8. At the output of the integrator 19, depending on the position of the dual switch 34, a constant voltage of positive or negative polarity appears, the amplitude of which corresponds to a certain blood flow velocity.

This device will allow more than an order to increase the sensitivity of the Doppler ultrasound locator compared to the prototype, which makes it possible to simultaneously use the same electromechanical transducer to register the speed and direction of not only the located organ in the biological object (heart muscle), but also of the blood flow as directly from the surface blood vessels and transdermally

nineteen

IS

Claims (3)

1. Doppler ultrasonic locator containing a high-frequency generator, a resonant oscillatory circuit connected to its output and a series-connected ballast resistor, a first detector, a first amplifier, a high-frequency phase shifter connected in series, a second detector, a second amplifier, and an electromechanical converter connected between the input of the first the detector and a common bus, and a phase inverting element inductively coupled to the resonant circuit and connected to the first and second inputs you co-frequency phase shifter, this is due to the fact that, in order to increase the sensitivity of the locator while recording speed and direction of movement, a compensating winding is inserted into it, connected between the input of the first detector and the third input of the high-frequency phase shifter, in series connected to the output of the first amplifier, the first Schmitt trigger, the first waiting multivibrator, the first element And, RS-flip-flop, second element And, first key, total load, integrator, connected in series with the output of the second amplifier; second Schmitt trigger, third element And, the output of which is connected to the second input of the RS trigger, connected in series with the second standby multivibrator, fourth element And, the second key the output of which is connected to the second input of the total load, as well as a dial indicator, a power source, a calibrator, a sound indicator and an inverter, the input of the latter being connected to the output of the second Shstt trigger, and the output to the second the first element And, the second input of the second element And is connected to the output of the second standby multivibrator, the input of which is connected to the first input of the first and second input of the third element And, the second output of the RS-trigger is connected to the second input of the fourth element And, the first and second outputs of the power source connected to the second inputs of the first and second keys, the dial indicator is connected to the output of the total load, the sound indicator is connected to the output of the first amplifier, and the first and second outputs of the calibrator are connected to the inputs of the first and second amplifier d. 2. Locator pop. 1, characterized in that, in order to accelerate the search for blood vessels and provide auditory control during the measurement process, the sound indicator contains sequentially connected power amplifier and loudspeaker, and the input of the power amplifier is connected to the output of the first amplifier. 3. Locator pop. 1, characterized in that the calibrator comprises a series-connected low-frequency oscillator, a low-frequency phase shifter, a dual switch, the second input of which is connected to the second output of the low-frequency phase shifter, and the first and second outputs are the first and second outputs of the calibrator.