DE2914099A1 - ULTRASONIC PROBE - Google Patents

Description

Patenicmwäli

fir. In ?, WilhßlD Baiohel ig. Wel ^ mg BcicM

6 tronkiu, * a. M. 1
Pcakfiiraite 13

_ ₂ _ '29H099

OKI ELECTRIC INDUSTRY CO., UD., Tokyo, Japan

Ultrasound probe

The invention relates to an ultrasound probe which is used to obtain three-dimensional information about in real time to preserve the internal structure of an object to be tested.

A known embodiment of a probe that does this is used to obtain information about the internal structure of an object in real time, is shown in FIG. 1. The probe contains a number of oscillating elements 1, the ir * dor direction of the Y axis of a right-angled coordinate system are arranged and by parallel grooves 3 in a piezoelectric transducer are formed. This transducer element 1 consists of an elongated component which extends in the direction of X-axis extends and is mounted on a bracket 4. The electrodes on the top of the transducer element 1 are connected to an external processor 7 via connecting wires 6, a connecting strip 5 and connecting lines 8. The connecting wires 6 are at their two ends to the electrodes on the one hand and the connecting strip 5 on the other hand soldered on.

In such a probe, the transducer elements 1 are excited by pulse-shaped signals that are generated by the processor 7 to generate ultrasonic pulses in the direction Z> 0. By the individual transducer elements 1 supplied pulses are delayed in sequence, the direction of the ultrasonic pulse j

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which is emitted in the Y-Z plane from the front of the probe, i.e. in a direction Z> O, X = O and Y β 0, by an angle θ corresponding to the time lag be swiveled. It is therefore possible to use the ultrasonic wave to create a sector-shaped area in the Y-Z plane by changing the delay time in sequence. The emitted ultrasonic wave becomes reflected by a surface that is in a under test Body lies and bounded layers with different acoustic resistances. The reflected echo is caused by the vibrating Element 1 added, which also emits the ultrasonic wave. The amplitude and location of the reflected Echoes are made visible on a cathode ray tube, so that information about the internal structure can be obtained of the item. The scanning method just described is an electronic sector scanning method because the delay time which leads to a sector scan by ultrasound is changed by the processor 7. Because the scanning with the help of ultrasonic vibrations done at high speed by electronic means, the ultrasonic probe delivers in real or real time Information about the dynamic state, e.g. during a heart examination or an embryo examination, which are important for diagnosis.

However, since the transducer elements in the ultrasonic probe described are arranged one-dimensionally, a tomogram can be obtained in the Y-Z plane, but it is not possible in real or real time three-dimensional information, namely a tomogram in the X-X plane and get an image in the X-Y plane.

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29U099

Although three-dimensional information through two-dimensional Arrangement of the transducer elements in a megahertz band for diagnostic purposes, it is theoretical necessary to limit the dimensions of the arrangement of the transducer elements to less than 0.5 mm, so that the electrode surface of this transducer element

ρ
would be less than 0.25mm. As a result, it is difficult to solder lead wires such as an insulated wire with a diameter of 0.7 mm as used in the elongated transducer elements which run in the direction of the X-axis and form a one-dimensional arrangement. In addition, these connecting wires interfere with the emission of the ultrasonic vibrations from the vibrating elements, so that difficulties arise during operation.

The invention is therefore based on the object of a Specify ultrasonic probe with two-dimensionally arranged transducer elements, which is capable of three-dimensional Information, especially for diagnostic purposes, to obtain. The arrangement should be made in such a way that the wiring enables the emission of the ultrasonic vibrations not bother.

According to the invention, this object is achieved in that the specified in the characterizing part of the claim Measures are taken.

The advantages as well as further features and details of the invention are described below with reference to an exemplary embodiment explained in more detail, which is shown in the drawings.

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. . . - ⁵ - 2914Ö99

Fig. 1 shows a perspective view of a probe of known design;

Fig. 2 is a plan view of an embodiment of the ultrasonic probe according to the invention and

FIG. 3 is a front view of the ultrasonic probe of FIG. 2.

The preferred embodiment of the subject invention of Figures 2 and 3 includes a number of transducer elements 11, which are formed in that. in the case of a plate-shaped piezoelectric transducer 12, they are perpendicular to each other intersecting grooves 13 are formed and a two-dimensionala-Ie Form an arrangement with the spacing of the elements smaller than 0.5 mm and the number of columns and rows in the transducer surface are equal to each other. The Schwingellfemente 11 are attached to the bracket 15 and with connectors 14 firmly connected on three sides, with the connections 14 with the electrodes of the transducer elements concerned 11 are connected by connecting wires 16. The electrodes are connected to one another by wires. These wires consist of thin connecting wires with a diameter of 25 / U and are e.g. Used for wiring integrated circuit chips in semiconductor technology. Gold wires or aluminum wires are preferred as connecting wires 16. A processor 17 is connected to the ports 14 via Lead wires 18 connected. An embodiment of the processor 17 is shown in Fig. 4 on page 274 of the publication "Ultrasonic Symposium Proceedings", 1977 described. The processor is intended to be used for ocean measurements. For diagnosis, however, the underwater cables and Wires of the known arrangement are not required.

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₆ _ 29U099

In the ultrasonic probe described above, the transducer elements 11 are excited by pulse-shaped signals transmitted from the processor 17 to emit the ultrasonic pulses. By controlling the pulses supplied to the transducer elements, it is possible, with the aid of ultrasound, to scan a sector area in the YZ and XZ planes of the right-angled coordinates according to FIGS. 2 and 3. By utilizing this ^one two scanning beams, it is possible to scan the object in two dimensions with ultrasound. The emitted ultrasonic vibrations are reflected on a separation surface of substances within the body to be tested, which have different acoustic properties, and the ultrasonic echo is picked up by the transducer elements. The information about the amplitude and the position of the ultrasonic echo results in three-dimensional information regarding the structure of the examined body.

In the illustrated embodiment of the ultrasonic probe, slots or grooves are in a plate-shaped manner piezoelectric transducer 12 provided so that a plurality of transducer elements 11 is formed, the two-dimensional are arranged. It is therefore possible to deflect the ultrasonic beam two-dimensionally control to obtain three-dimensional information. If the pitch of the arrangement is less than 0.5 mm, two-dimensional scanning can be carried out using an ultrasonic beam in the megahertz range, so that you get three-dimensional information. It is for this reason that the ultrasonic probe is according to the invention particularly well suited for diagnostic purposes. There is also the two-dimensional scanning with the aid of the ultrasonic beam is carried out by electronic means, scanning at high speed is possible to a three-dimensional one Evaluation of the information received. The diagnosis during a cardiac examination or the under-

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Searching for an embryo in the uterus provides more accurate results than with the two-dimensional information, which can be achieved with the known one-dimensional probe arrangement.

In the ultrasonic probe according to the invention, the wirings are between the electrodes of the transducer elements and the wiring with the connecting lines to the processor is carried out with the aid of "wire-bonding" technology. In this way it is possible, even with a two-dimensional arrangement, to change the distances from less than 0.5mm and therefore has a high density to perform reliable wiring. Since the Lead wires 16 are extremely thin (e.g. have a diameter of 25 / u) interfere with the lead wires not the emission of the ultrasonic vibrations of the transducer elements 11, so that the merits of the high density of the two-dimensional arrangement are utilized can.

Although in the illustrated embodiment - the number of columns and rows of the transducer elements 11 in the two-dimensional arrangement are equal to each other, it is not necessary to equal the number of rows Number of columns to choose. It is also not necessary to cover the entire area of the transducer elements The probe should only be arranged tightly, but the arrangement can suit the intended use and the required operation be adjusted accordingly. It is also possible to have a large number of transducer elements arranged two-dimensionally are to be arranged on several separate piezoelectric transducers.

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29H099

The grooves or slots 13 »which the two-dimensional The arrangement of the transducer elements can be defined or limited not only by the piezoelectric transducer 12, but also through the carrier 15.

The processor 17 for operating the ultrasonic transducer can be built into an ultrasonic diagnostic device and with the Probe can be connected directly.

As mentioned above, according to the invention, one or more piezoelectric transducers are attached to a holder and grooves are cut into the transducer or transducers and optionally also into the holder by a number of transducer elements in a two-dimensional arrangement to generate, and the wirings between the electrodes of the transducer elements and the wirings with the connections, that lead to a processor are made using the "wire-bonding" technique. One can access this Way not only get three-dimensional information, but also wiring for the two-dimensional Transducer arrangement that does not interfere with the ultrasonic impulses when it is small.

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Claims (1)

Patent attorney _{Λ Ä} „ , _nnn Dr. * Wilhelm BöiGhsl 29U099 pw ^ aig fell 6 Frankfurt a. M.]
Pcaksfaaßo 13 in the OKI ELECTRIC INDUSTRY CO., LTD., Tokyo, Japan Ultrasound probe with a carrier and a number of. transducer elements attached thereto, characterized in that that the transducer elements (11) by several in one Transducer (12) mutually perpendicular grooves (13) are designed as a two-dimensional arrangement, that the electrodes of the transducer elements concerned (11) are connected to one another by wires (16) that the electrodes are connected to terminals (14) which lead to a processor (17) lead, and that the wirings are carried out by "wire-bonding" technology. 909843/0740