KR20060110465A - Appratus and method for generating a transmit pulse signal in an ultrasound diagnostic device - Google Patents

Abstract

An apparatus and a method for generating a transmission pulse signal in an ultrasound diagnostic device are provided to generate the transmission pulse signal adapted for resolution required for an object by selecting an arbitrary desired waveform according to a type of the object. A method for generating a transmission pulse signal in an ultrasound diagnostic device includes the steps of: generating a plurality of pulse signals having an arbitrary waveform; storing the waveform data of the pulse signal on a memory(320); forming a transmit beam pattern after the arbitrary waveform data stored at the memory is read according to the object(330); generating an analog transmission pulse signal by converting the waveform data into a digital-analog signal; and amplifying the transmission pulse signal.

Description

Method and apparatus for generating a transmit pulse signal in an ultrasonic diagnostic apparatus {APPRATUS AND METHOD FOR GENERATING A TRANSMIT PULSE SIGNAL IN AN ULTRASOUND DIAGNOSTIC DEVICE}

1 is a block diagram showing a process of transmitting and receiving a pulse signal in a general ultrasonic diagnostic apparatus.

2 is a block diagram showing a process of generating an arbitrary transmit pulse signal according to an embodiment of the present invention.

3 is a block diagram showing a generation process of a transmission pulse signal according to another embodiment of the present invention.

4 is a block diagram showing a sigma-delta modulation process for an analog pulse signal.

5 shows a process of generating an analog pulse signal through filtering a sigma-delta modulated data stream.

<Explanation of symbols for main parts of the drawings>

100 control unit 110 transmission beam forming unit

120 switch and 130 probe

140 Reception beam forming unit 200, 300 pulse signal generator

210 Waveform data storage unit 220, 330 Transmission beam forming unit

230 Digital-to-Analog Converter 240, 350 Amplifier

310 Sigma-Delta Modulator 340 Filtering Unit

The present invention relates to a generator of a transmission pulse signal in an ultrasound diagnostic, and more particularly, to a method of generating a transmission pulse signal of an ultrasound diagnostic apparatus capable of generating a transmission pulse signal suitable for a characteristic of an object by storing pulse signals having an arbitrary waveform in advance. It relates to a device for him.

The ultrasound diagnostic machine transmits the transmit pulse signal to the transducer, and the transducer converts the transmit pulse signal into an ultrasound signal. The ultrasound signal of the object is obtained by transmitting an ultrasound signal to the object and receiving an echo signal thereof. After the ultrasound data is subjected to proper data processing such as scan conversion and rendering, the ultrasound image is displayed through a display device such as a monitor or a screen.

1 is a block diagram illustrating an operation for obtaining an ultrasound image in a general ultrasound diagnostic apparatus.

Referring to FIG. 1, under the control of the controller 100, a transmission pulse signal formed in the transmission beam forming unit 110 is transmitted to the probe 130 through the switch 120. The probe 130 receives the transmission pulse signal, generates an ultrasound signal, transmits the ultrasound signal to the object, and receives the echo signal reflected from the object. In this case, the echo signal is converted into an electrical signal by the probe 130 and transmitted to the reception beam forming unit 140 through the switch 120. The signals received by the reception beam forming unit 140 are properly combined and then displayed on the display device of the ultrasound diagnostic apparatus as ultrasound images through image processing.

In general, the ultrasound image of the ultrasound diagnostic apparatus has a higher resolution as the frequency of the ultrasound signal increases. However, the attenuation of the ultrasonic signal generated when the ultrasonic wave is transmitted through the object limits the depth at which the high frequency ultrasonic signal can penetrate into the object. That is, the frequency of the ultrasound signal is determined by the transmission speed of the ultrasound signal in the object and the resolution of the ultrasound image required for the space to be diagnosed.

For example, the propagation rate and attenuation of ultrasonic signals to organs, blood flow, bones, etc. of the human body are different. Therefore, in order to obtain a desired ultrasound image for the part to be diagnosed, it is necessary to adjust the appropriate frequency. At this time, the frequency of the ultrasonic signal is determined by the transmission pulse signal transmitted to the probe. The transmit pulse signal is generated by a transmit pulse generator provided for each channel.

In order to adjust the frequency of the ultrasonic signal, it is necessary to adjust the frequency of the transmission pulse signal generated from the transmission pulse generator. However, there is a problem in that it is not easy to change the structure of the transmission pulse generator and the like in order to generate a transmission pulse signal having a different waveform, that is, a different frequency every time according to the material of the object.

The present invention is to solve the above-mentioned problems of the prior art, by storing arbitrary waveforms in the memory and generating a transmission pulse signal using the waveform stored in the memory according to the type of the object, an ultrasonic signal having a desired frequency A method and apparatus are provided for generating a transmit pulse signal having an arbitrary waveform in an ultrasound diagnostic apparatus capable of transmitting a to a subject.

According to a feature of the present invention for achieving the above object, a method of generating a transmit pulse signal of the ultrasonic diagnostic apparatus, generating a plurality of pulse signals having an arbitrary waveform; Storing waveform data of the pulse signal in a memory; Reading arbitrary waveform data stored in the memory according to an object and then delaying to form a transmission beam pattern; Digital-analog converting the waveform data to generate an analog transmit pulse signal; And amplifying the transmission pulse signal.

According to a feature of the present invention, a method for generating a transmit pulse signal of an ultrasound diagnostic apparatus includes: forming a plurality of pulse signals having an arbitrary waveform; Sigma-delta modulating the pulse signal and storing modulated data; Reading out the stored arbitrary modulation data according to an object and then delaying to form a transmission beam pattern; And generating the transmission pulse signal by filtering the stored modulated data.

According to a feature of the present invention, an apparatus for generating a transmission pulse signal of an ultrasonic diagnostic apparatus includes: a pulse signal generator for forming a plurality of pulse signals having an arbitrary waveform; A sigma-delta modulator for sigma-delta modulating the pulse signal; A modulated data storage unit for storing the modulated data; A transmission beam forming unit for reading out modulation data corresponding to a desired waveform from among modulation data stored in the modulation data storage unit, and then delaying to form a transmission beam pattern; And a filtering unit for filtering the modulated data to generate a transmission pulse signal. And an amplifier for amplifying the transmission pulse signal to have a predetermined amplitude.

Hereinafter, a method and apparatus for generating a transmission pulse signal of the ultrasonic diagnostic apparatus according to the present invention will be described in detail with reference to FIGS. 2 to 5.

2 is a block diagram showing a generation process of a transmission pulse signal according to an embodiment of the present invention.

Referring to FIG. 2, the apparatus for generating a transmission pulse signal according to the present invention includes a pulse signal generator 200, a waveform data storage unit 210, a transmission beam forming unit 220, a digital-to-analog converter 230, and amplification. The unit 240 is included. The pulse signal generator 200 generates a pulse signal having an arbitrary waveform. In this case, the pulse signal is generated as a plurality of pulse signals to have a suitable frequency according to the type of the object to be diagnosed. The waveform data storage 210 stores waveform data of a pulse signal. The transmission beam forming unit 220 reads out arbitrary waveform data stored in the waveform data storage unit 210 according to the type of object, and then delays it appropriately to form a transmission beam pattern. Thereafter, the digital-analog converter 230 converts the read waveform data into an analog signal. The analog signal is amplified by the amplifier 230 including the pulser to be a transmission pulse signal having a desired amplitude, and then transmitted to the plurality of transducer elements in the probe 130.

Since the waveform data storage unit 210 stores a plurality of arbitrary waveform data, the waveform data storage unit 210 may read out the waveform data desired by the user and obtain a transmission pulse signal suitable for the object to be diagnosed through digital-analog conversion. Accordingly, since the transmission pulse signal can be generated and transmitted to the probe appropriately according to the type of object and the required resolution, an ultrasonic signal of a desired frequency can be obtained.

3 is a block diagram showing generation of a transmission pulse signal according to another embodiment of the present invention.

Referring to FIG. 3, the apparatus for generating a transmit pulse signal according to another exemplary embodiment of the present invention may include a pulse signal generator 300, a sigma-delta (Σ-?) Modulator 310, a modulated data storage 320, It includes a transmission beam forming unit 330, a filtering unit 340 and an amplifier. The pulse signal generator 300 generates a pulse signal having an arbitrary waveform. In this case, the pulse signal is generated as a plurality of pulse signals to have a suitable frequency according to the type of the object to be diagnosed. The sigma-delta modulator 310 generates sigma-delta modulation on a plurality of pulse signals to generate modulated data. Sigma-delta modulated data is stored in the modulated data storage 320. Since the modulation data storage 320 stores sigma-delta modulation data corresponding to a plurality of arbitrary waveforms set by a user, appropriate modulation data is read out according to the type of the object to be diagnosed and the required resolution. .

The transmission beam forming unit 330 reads data corresponding to a required waveform from the modulation data stored in the modulation data storage unit 320 and delays the transmission beam forming pattern. The read modulation data is smoothed through the filtering unit 340 into a serial data stream and converted into an analog signal. The analog signal is amplified to have a desired amplitude through the amplifier 350 and transferred to the probe. Therefore, a transmission pulse signal for transmitting an ultrasound signal suitable for the object may be generated.

4 is a block diagram illustrating a sigma-delta modulation process.

4, an analog signal having a predetermined waveform and a signal fed back along a loop of a sigma-delta modulator are summed in an adder and then integrated through an integrator. The integrated signal is then delta modulated through the quantum to produce a modulated data stream. In this case, the quantum unit usually uses a 1-bit quantizer. The modulated data stream is stored in the modulated data storage 310. As described above, the amount of storage memory can be reduced by sigma-delta modulating the analog signal.

5 is a diagram illustrating a process of generating an analog pulse signal through filtering a sigma-delta modulated data stream.

Referring to FIG. 5, the sigma-delta modulated data is read from the modulated data storage unit and then converted into a serial data stream, and the serial data stream passes through a low pass filter to provide a stepped signal. Smooth to generate the transmit pulse signal in the form of the desired analog signal. As mentioned above, an analog signal can be obtained by filtering sigma-delta modulated data, so that the analog-to-digital conversion can be performed with less area than using a digital-to-analog converter. Although a low pass filter is used as an example for obtaining an analog signal from the sigma-delta modulated data, a load capacitor of a pulser provided in the amplifier 350 may be used instead of the low pass filter.

It is to be understood that the above described embodiments are merely illustrative of some of the various embodiments employing the principles of the present invention. It will be apparent to those skilled in the art that various modifications may be made without departing from the spirit of the invention.

By transmitting the waveform data corresponding to a plurality of pulse signals having arbitrary waveforms in the memory in the transmitting pulse generator of the ultrasound diagnosis apparatus, the user selects a desired waveform according to the type of the object to be diagnosed and the resolution required for the object. Proper transmit pulse signal can be generated.

In addition, it is possible to reduce the memory required to store the waveform data by sigma-delta modulating and storing the pulse signal having an arbitrary waveform and generating an analog pulse signal using a filter, and filtering the modulated data to filter the analog pulse signal. By generating, the transmission pulse generator can be implemented in a small area.

Claims (7)

In the method of generating a transmission pulse signal of the ultrasonic diagnostic apparatus, Generating a plurality of pulse signals having an arbitrary waveform; Storing waveform data of the pulse signal in a memory; Reading arbitrary waveform data stored in the memory according to an object, and then forming a transmission beam pattern; Digital-analog converting the waveform data to generate an analog transmit pulse signal; And Amplifying the transmit pulse signal Transmitting pulse signal generation method of the ultrasonic diagnostic apparatus comprising a. In the method for generating a transmission pulse signal of the ultrasonic diagnostic device, Forming a plurality of pulse signals having an arbitrary waveform; Sigma-delta modulating the pulse signal and storing modulated data; Reading out the stored arbitrary modulation data according to an object and then delaying to form a transmission beam pattern; Filtering the stored modulated data to generate a transmit pulse signal; And Amplifying the transmit pulse signal Transmitting pulse signal generation method of the ultrasonic diagnostic apparatus comprising a. The method of claim 2, The filtering of the modulated data uses a load capacitor in a pulser. In the transmission pulse signal generating device of the ultrasonic diagnostic apparatus, A pulse signal generator for forming a plurality of pulse signals having an arbitrary waveform; A sigma-delta modulator for sigma-delta modulating the pulse signal; A modulated data storage unit for storing the modulated data; A transmission beam forming unit for reading a modulation data corresponding to a desired waveform from among modulation data stored in the modulation data storage unit and forming a transmission beam pattern; And A filtering unit for filtering the modulated data to generate a transmission pulse signal; And An amplifier comprising a pulser for amplifying the transmission pulse signal to have a predetermined amplitude Transmitting pulse signal generating device of the ultrasonic diagnostic apparatus comprising a. The method of claim 4, wherein The filtering unit is a pulse generator for transmitting pulse signals, characterized in that the load capacitor of the pulser. The method of claim 4, wherein And the filtering unit is a low pass filter. The method of claim 4, wherein And the transmission pattern is formed by delaying the read modulation data.

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