JPH031847A - Instrument for ultrasonic diagnosis - Google Patents

Abstract

PURPOSE:To easily deal with miscellaneous ultrasonic probes by installing memories, wherein control conditions of respective probes are recorded, in corresponding probes preferably. CONSTITUTION:A memory 10 (ROM 10), wherein control conditions (control data) 20 are recorded, is installed in a probe main body 6 or a connector 2 constituting an ultrasonic probe 1, and connected with a main control part 7 through a common bus 100. The main control part 7 addresses X1, X2, X3..., finds out a1, b1, c1..., respective addresses of data A1, B1, C1..., and set them up in every part. Further, the main control part 7 reads out probe assorted data periodically, and, for example, if the ultrasonic probe 1 is exchanged for ultrasonic probe II use, it identifies that the ultrasonic probe 1 has been exchanged owing to variations of probe assorted data, addresses X1, X2, X3... once again, reads out data A2, B2, C2... based on the obtained addresses a2, b2, c2..., and set them up in every part once again.

Description

[Detailed Description of the Invention] [Required] The present invention relates to an ultrasonic diagnostic device, and an object of the present invention is to easily cope with the replacement of various types of newly developed ultrasonic probes, and to provide an ultrasonic diagnostic device equipped with multiple types of ultrasonic probes. , an ultrasonic diagnostic apparatus that performs processing corresponding to the connected ultrasonic probe by referring to a memory that records control conditions, wherein the memory that records the control conditions of each ultrasonic probe is It is configured to be mounted on each probe so that they can be referenced.

[Industrial application field]

The present invention relates to improvements in ultrasonic diagnostic equipment.

In recent years, the types of ultrasound probes have diversified, and in addition to standard abdominal linear, sector, convex, cardiac sector, etc., there are transvaginal, transesophageal, intraoperative, etc., and existing ultrasound diagnostic equipment There is also a desire to connect newly developed ultrasonic probes.

In order to connect these ultrasound probes, transmit and receive 2 image processing according to the ultrasound probe.

Although it is necessary to set control conditions such as display processing on the device,
For newly developed ultrasonic probes, conventionally, RO was used to record each control condition (hereinafter referred to as control data).
This was inconvenient for the user because the M (read-only memory) had to be replaced within the device.

Therefore, there is a need for an ultrasonic diagnostic apparatus that can easily accommodate the connection of a wide variety of newly developed ultrasonic probes.

[Conventional technology]

Figure 5: Block diagram of conventional ultrasonic diagnostic equipment, Figure 6: ROM
A conventional example (for example, Japanese Patent Laid-Open No. 63-1
56353) will be explained.

As shown in FIG. 5, the ultrasonic diagnostic apparatus includes a main control section 7 that controls the entire apparatus, an ultrasonic probe 1 that sends and receives ultrasonic waves, and a main control section 7 that controls the ultrasonic probe l under the control of the main control section 7. A transmitting/receiving section 3 that transmits and receives waves, and a DSC (digital scan converter) section that A/D converts the ultrasonic echo signal sent out from the transmitting/receiving section 3 under the control of the main control section 7 and processes the converted digital signal. 4. Display unit 5 that displays ultrasound images, memory ROM that stores control data 20
11. Equipped with ROM 10, etc.

The ultrasonic probe 1 is available in a plurality of types depending on the diagnosis site, such as linear probes and sector probes, and is connected to the main body of the device through a connector 2 and is exchangeable.

The control data 20 is composed of, for example, data A such as the scanning method and irradiation angle, data B such as the transmission voltage and filter coefficient, data C1 related to the display of accompanying information, etc., and has already been developed. Control data 20 for the plurality of ultrasound probes 1 is stored at a predetermined address in the ROM 11, respectively.

A probe type is set in the connector 2 of one example of an ultrasonic probe, and when the ultrasonic probe 1 is connected, the main control unit 7 reads this probe type, converts it to a predetermined address, and writes the corresponding address from the ROM 11. control data 20
is read and set in the transmitting/receiving section 3, DSC section 4, etc., and the transmitting/receiving section 3, DSC section 4 reads the set data A, B+,
Predetermined control and processing is performed with reference to the number C+....

ROM 10 is an individual ROM that supports removable probes.
The newly developed ultrasonic probe I.

■...It is provided for °.

That is, as shown in FIG. 6 (1), in the ROM 10 for the ultrasonic probe (2), data A, B, C, .
, C+ ”・Storage destination address data a I + b
I + C1...and the data length (or last address) is address X,,X! , X3..., respectively.

When the main control unit 7 recognizes that it is a newly developed ultrasound probe based on the probe type set in the connector 2, it refers to the addresses χI+XZ+X3... and recognizes the addresses al+l)l+cl... Data AI, B1. Read CI...

In addition, in the separate ROM 10 prepared for the ultrasonic probe ①, as shown in FIG. 6 (2), data Az, th, Cg.' .
``, the storage addresses a, b2, c2... and data lengths of data Ax, Bz, Cz'' are recorded in address islands, Xa, x3..., respectively.
Similarly to the above, addresses X+, Xz, Xs . . . are referred to and data AZ+B2+C2 . . . are read.

In this way, even if the ROM 10 is replaced, the main control The unit 7 can set control conditions for the connected ultrasound probe 1 without being aware of the probe type.

As mentioned above, we decided to replace the corresponding ROM 10 for the newly developed ultrasonic probe 1, and prepared the ROM 11 in the device for the already developed ultrasonic probe 1, so that a wide variety of The ultrasonic probe 1 is dealt with.

[Problem to be solved by the invention] In the conventional method described above, when using the newly developed ultrasonic probe, the ROM that records the control conditions is
10 must be installed in the device or replaced, which is not an easy method for the user.

SUMMARY OF THE INVENTION In view of the above-mentioned problems, an object of the present invention is to provide a simple ultrasonic diagnostic apparatus that can easily handle a wide variety of ultrasonic probes.

[Means to solve the problem]

In order to achieve the above object, the ultrasonic diagnostic apparatus of the present invention includes:
As shown in FIG. 1, a diagram of the principle of the present invention, a memory (20) that records the control conditions (20) of each ultrasonic probe (1)
10) are mounted on the corresponding ultrasonic probe (1) so that they can be referenced.

(Operation) A memory 10 (hereinafter referred to as ROM 10) in which control conditions (hereinafter referred to as control data) 20 are recorded is mounted on the probe body or connector constituting the ultrasound probe 1.

Therefore, by connecting the ultrasonic probe 1 to the main body of the apparatus, the ROM 10 is automatically replaced, and control data 20 corresponding to the ultrasonic probe 1 is set in each part.

〔Example] Embodiments of the present invention will be described in detail with reference to the drawings.

In this embodiment, the ROM 10 records the control data 20.
For all ultrasound probes, both existing and newly developed
An example is shown in which the ultrasonic probe 1 is mounted on a connector 2 constituting an ultrasonic probe 1.

FIG. 2 is a block diagram of an ultrasonic diagnostic apparatus according to an embodiment, and FIG. 3 is an external view of an ultrasonic probe according to an embodiment, and the same reference numerals represent the same objects throughout the figures.

The contents of RO1'l 10 in this embodiment are the same as those shown in FIG. 6, and the difference from the conventional example is that the ROM
11 is integrated into the ROM 10, and the ROM 10 is mounted on the connector 2 rather than inside the device main body.

That is, in the ROM 10, data At, BzC+, .
+ ” ' recorded addresses a, b++c+・
...and the data length (or the last address) are recorded in addresses L, XzX, ..., and the ROM
10, probe type data is recorded at a predetermined address.

As shown in FIG. 3, this ROM 10 is mounted on the connector 2 on the side of the ultrasound probe 1 that connects the probe body 6 to the apparatus body, and is connected to the main control section 7 via a common bus 100.

When the ultrasonic probe 1 with such a configuration is connected, the main control unit 7 will control Xl+XZ+×3 when the power is turned on.
. address al+l)I+CI... of the data A+, B+, C+, etc., and read the data At, B+, C+, etc., respectively, and set them in each part.

The main control unit 7 periodically reads the probe type data, and when the ultrasonic probe 1 is replaced with, for example, an ultrasonic probe ■, it identifies that the ultrasonic probe 1 has been replaced based on a change in the probe type data. Then again XI, XZ,
Address X3... and the obtained address aZ+1l
Based on lZ+ct..., data AZ+Bt, Cz・
Read the ... and reset it to each part.

(Other Embodiments) As shown in Figure 4, which shows the contents of the ROM in another embodiment, data of the same items are stored at the same addresses a, b, c, etc.
・If the main control unit 7° is recorded in
, b, c..., the desired data At, B+, C+... or Az, Bz,
Cz... is obtained.

As described above, by installing the ROM 10 compatible with the ultrasonic probe and recording the control data 20 in each ultrasonic probe, predetermined ultrasonic processing can be performed simply by replacing the ultrasonic probe 1.

In the embodiment, the ROM 10 is mounted inside the connector 2, but it goes without saying that it may be mounted on the probe body 6.

〔Effect of the invention〕

As explained above, the present invention provides an ultrasonic diagnostic apparatus in which each ultrasonic probe is equipped with a memory in which control data for setting control conditions is recorded. This has the effect of making it easier to deal with connections.

[Brief explanation of the drawing]

Fig. 1 is a diagram showing the principle of the present invention, Fig. 2 is a block diagram of an ultrasonic diagnostic apparatus according to an embodiment, Fig. 3 is an external view of an ultrasonic probe according to an embodiment, and Fig. 4 is a diagram showing the contents of a ROM in another embodiment. FIG. 5 is a block diagram of a conventional ultrasonic diagnostic apparatus, and FIG. 6 is a diagram showing the contents of the ROM 10. In the figure, 1 is an ultrasound probe, 2 is a connector, 3 is a transmitting/receiving section, 4 is a DSC section, 5 is a display section, 6 is a probe body, 1
0 is a memory, ROM, 11 is a ROM, and 20 is a control condition and control data. Fig. 3 (1) For ultrasonic probe I (II) For ultrasonic probe ■ A diagram showing the contents of the ROM of other embodiments Fig. 4 1+l Ultrasonic probe - Ichisakaki heating device body -'1 Fig. 1 Figure 2: Block diagram of a conventional ultrasonic diagnostic apparatus; Figure 5: (1) Ultrasonic probe I (n) Ultrasonic probe ■ Diagram showing the contents of the ROM 10. Figure 6

Claims (1)

[Scope of Claims] An ultrasonic diagnostic apparatus that includes multiple types of ultrasonic probes and performs processing corresponding to the connected ultrasonic probes by referring to a memory that records control conditions, the ultrasonic diagnostic apparatus comprising: The control conditions (20
1.) An ultrasonic diagnostic apparatus characterized in that a memory (10) storing information (10) is mounted on a corresponding ultrasonic probe (1) so that each memory (10) can be referenced.