JPS60242842A - Ultrasonic imager - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

Detailed Description of the Invention (Technical Field) The present invention relates to a medical ultrasound imager, and in particular, a probe is connected to the main body via a cable, and an operator directly manually operates the probe. The present invention relates to noise countermeasures for a medical ultrasound imager configured as described above.

(Prior Art) Cat-type medical ultrasound imagers have been widely used, but the analog common echo sounder
The line has a common potential with other circuits, the housing, etc., and therefore the probe cable acts as an antenna or an electric field probe, causing common mode noise.

(Purpose of the Invention) The present invention was made in view of the above problem, and its purpose is to prevent noise from being transmitted to the main body side as common mode noise even if the probe cable acts as an antenna or an electric field probe and picks up noise. The object of the present invention is to provide an ultrasonic imager that is equipped with noise countermeasures to prevent interference.

(Structure of the Invention) The present invention achieves the above-mentioned object, and the transducer group of the transducer in the probe has a single wire grounding structure, and the pulsers corresponding to them are also connected to the first stage of the receiver. In an ultrasonic pulse eco one-type imager configured so that the amplifier also shares the ground, another configuration of the device H is a floating common that commonly connects at least the transducer group, the pulser, and the first stage amplifier of the receiver. It is characterized by being electrically insulated from other parts.

(Example) Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

In the figure, 10 is a probe, 20 is a multi-core double-shielded cable, 100 is a transmitting/receiving circuit section, 200 is a transmission beamformer, 1300 is a delivery beamformer, 1400 is a data processing circuit, 500 is a display device, and 600 is a data processing circuit. It is a controller.

The probe 10 has a transducer array 12 attached to the end face of a support 11 for transmitting and receiving ultrasonic waves.
Each vibrator is connected to each core wire of the cable 20, respectively. A conductive surface 13 for shielding is provided inside the support 11.
is provided, and is formed so as to surround each shield wire of the cable 20 connected to each vibrator.

This conductor surface 13 is mutually connected to the common electrode (common ground) side of the vibrator array 12 and the outer shield line of the cable 20.

The transmitter/receiver circuit section 100 is composed of a pulser 110 and a receiver first stage amplifier 120. Although the figure shows a pulser and a receiver first-stage amplifier for one channel, units of the same configuration can be prepared for a plurality of channels (as many as the appropriate number of channels or as many as the number of transducers).

In the pulser 110, the transformer T3 isolates and takes in the RF pulse supplied from the controller 600, and inputs it to the booster circuit 111. Promotion circuit 11
The output of 1 is applied to resistor R1 via transistor Ql. One end of the resistor Rs is connected to the common line, and the other end is connected to the signal line of the shielded wire of the cable 20.

Note that the shield side of the shield wire is connected to the common line.

The drive signal for the transistor Q1 is 0N10FF controlled by a signal from the transmission beamformer 200 applied via the transformer T2. When this transistor Ql is turned on with the R and F pulses being supplied, the high voltage RF pulse applied to the resistor R1 is supplied to the vibrator via the cable 20.

In the receiver first stage amplifier 120, the capacitor C1 and the resistor R? The echo signal from the vibrator is input to the base of transistor Q2 and amplified. Inductance L1 connected to the base of transistor Q2
is a diode D1. for low frequency cut. D2 is for base protection. The amplified signal is output via a transfer signal isolation transformer Tl. Power supplies +5V and -5V for the transistor and transistor Q2 are supplied from a power supply (not shown) (which is shared with the common line of the transmitter/receiver circuit section). However, this power source is insulated from the power sources of the delivery beamformer 300 and the like in the subsequent stage.

The entire transmission/reception circuit section 100 is housed in a conductor box 130,
The conductor box is the outer shield of the cable 20 and the probe 10.
Conductor surface 13. It is connected to the common line together with the common electrode of the vibrator array 12.

Transmission beamformer 200, delivery beamformer 3
00, processing circuit 400. The display device 1500° controller 600 has the same configuration and operation as in a known ultrasonic diagnostic apparatus, and is not particularly new. Briefly, the transmitting beamformer 200 generates a drive signal for driving the transducer by applying a delay of a predetermined delay time distribution, and the receiving beamformer generates a drive signal for driving the transducer.
At 300, the signal is received with a delay using the same delay time distribution as when transmitting the wave, and simultaneously synthesized into one sound ray, which is processed appropriately in the processing circuit 400 and temporarily stored. For example, the water device 11500 reads data from the processing circuit and displays it every time one scan (ultrasonic scan) is completed. The controller 10-600 provides necessary control signals and the like to each section.

In such a configuration, the probe, balsa, receiver first-stage amplifier, and the space surrounding them share a common line, and that common line is electrically isolated from the electronic circuits and housing of other parts of the device. has been done. In other words, it is a floating common.

Therefore, even if the cable acts as an antenna or an electric field probe and picks up noise, other electronic circuit parts will not be mixed in and the displayed image will not be affected.

Incidentally, a CR parallel circuit, a spark gap, or the like is connected between the floating common, for example, the conductor box 130 and the ground, as a discharger to prevent abnormal charging.

Furthermore, the isolated portion is not limited to the embodiment, and may include further stages such as a beam former, a logarithmic amplifier for echo signal processing in a processing circuit, or an echo video output stage. good.

(Effect of the invention) As described above, the present invention is based on a probe case.

Even if the pull part acts as an antenna or an electric field probe and picks up noise, it is isolated from the main body and no noise components will be mixed in, making it possible to prevent noise from being mixed into the image.

Furthermore, the probe part is floating and the electrical charge is constantly discharged, so electrical safety is high, and there is no risk of electric shock if the probe is brought into the body, for example. It is extremely effective.

[Brief explanation of the drawing]

The figure is a configuration diagram showing an embodiment of an ultrasonic imager according to the present invention. 10... Probe 20... Cable 110... Balzer 120... Receiver first stage amplifier 200... Transmitting beam former 300... Receiving beam former 400... Processing circuit 500 ...Display device 600.
··controller

Claims (2)

[Claims] (1) The transducer group of the transducer in the probe each has a one-wire grounding structure, and the pulser and first stage amplifier of the receiver are both configured to share that ground. In the imager, a 70-ring common that commonly connects at least the transducer group, the pulser, and the first stage amplifier of the receiver is electrically insulated from other components of the device. Imager 6 (2) The probe, the pulser, and the first stage amplifier of the receiver are surrounded by an electrically closed space, and the inner surface of the space is used as a conductor, and this conductor is connected to the floating common. Ultrasonic imager 0 according to claim 1