HI VISION Avius Specifications (Rev5.5) [PDF]

Zitiervorschau

Ultrasound Diagnostic Scanner

Specifications

Step5.5 (Jun, 2017 Revised) Rev5.5

Hitachi, Ltd. CONFIDENTIALITY: This material contains proprietary information of Hitachi and it shall not be disclosed to the third party or reproduced without the prior written permission of Hitachi. Copyright ©Hitachi, Ltd. 2017. All rights reserved.

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Trademarks or the registered trademarks The following is the trademarks or the registered trademarks in this manual or in this equipment. 

HI VISION Avius, Avius, Real-time Tissue Elastography, HdTHI, HI REZ, Ultra BE/Ultrasound Broadband Engine, HINT-NAVI, Tool Bar, Fine Flow are registered trademarks of Hitachi in Japan.



HI VISION is registered trademarks of Hitachi in the U.S.A. and Europe.



Windows, Windows XP, Windows Embedded Standard 2009, Windows Vista, Windows 7, Windows 8, Windows 8.1, Windows NT, Windows 2000, Windows 98, Microsoft Excel, Office, PowerPoint, Windows Media, DirectX are trademarks or the registered trademarks of Microsoft Corporation in the U.S.A. and other countries.



Linux® is a trademark registered to Linus Torvalds.



CinePlayer Decoder Pack is used in Digital Video Archiving Software (Option). CinePlayer Decoder Pack is trademark of Sonic Solutions.



In this manual or in this equipment, other brand names and product names are trademarks or registered trademarks of their respective companies.

Abbreviations 

In this document, Microsoft Windows Operating System is called Windows.



In this document, the Windows® XP operating system is called Windows XP.



In this document, Microsoft® Windows® Vista Operating System is called Windows Vista.



In this document, Microsoft® Windows® 7 Operating System is called Windows 7.



In this document, Microsoft® Windows® 8 Operating System is called Windows 8.



In this document, Microsoft® Windows® 8.1 Operating System is called Windows 8.1.



In this document, the Microsoft(R) Windows(R) NT Workstation Operating System or Microsoft(R) Windows(R) NT Sever Network is called Windows NT.



In this document, Microsoft(R) Windows(R)2000 Professional Operating System or Microsoft(R) Windows(R)2000 Server Operating System or Microsoft(R)

Windows(R)2000 Advanced Server

Operating is called Windows NT.



In this document, Microsoft® Windows® 98 Operating System is called Windows 98.

 No part of this publication may be transmitted into without the prior written permission of HITACHI.

 This publication is subject to change without notice.  Although HITACHI has attempted to ensure accuracy throughout this publication, HITACHI welcomes customer input on corrections and suggestions for improvements to this publication.

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Contents 1. General Description ...................................................................................................... 1 1.1.

General ........................................................................................................................................ 1

1.2.

Features ...................................................................................................................................... 1

2. System Composition ..................................................................................................... 6 2.1.

Main System Composition ........................................................................................................ 6

2.1.1.

Ultrasound Scanner Main Unit .......................................................................................... 6

2.1.2.

Accessories ........................................................................................................................... 6

2.2.

Probes ......................................................................................................................................... 6

2.2.1.

Convex array probes ............................................................................................................ 6

2.2.2.

Linear array probes ............................................................................................................. 7

2.2.3.

Phased array probes ............................................................................................................ 7

2.2.4.

Other probes ........................................................................................................................ 8

2.3.

Options ....................................................................................................................................... 8

2.4.

Peripheral Devices ................................................................................................................... 10

3. Specifications .............................................................................................................. 11 3.1.

General ...................................................................................................................................... 11

3.1.1.

System ................................................................................................................................ 11

3.1.2.

Basic Function ................................................................................................................... 11

3.2.

Options ..................................................................................................................................... 22

3.2.1.

17-inch Digital LCD Monitor (EZU-MT29-S1) ................................................................. 22

3.2.2.

17-inch Digital LCD Monitor (Flexible arm) (EZU-MT30-S1) ........................................ 22

3.2.3.

Biomedical Waveform Display Unit (EZU-EK28) ............................................................ 22

3.2.4.

CW Doppler Unit (EZU-ST8) ............................................................................................ 22

3.2.5.

Real-time Tissue Elastography Unit (EZU-TE6) ............................................................. 23

3.2.6.

Real-time Tissue Elastography software (Strain Histogram) (EZU-TESH1) ................. 24

3.2.7.

Digital Video Archiving Software (EZU-DV4) .................................................................. 25

3.2.8.

Logon Management Software (EZU-LG2) ........................................................................ 26

3.2.9.

DICOM Software(Transfer and Media Storage) (EZU-FC11) ......................................... 27

3.2.10. DICOM Software (WorkList) (EZU-FC11W) / DICOM Software (Printer) (EZU-FC11P)31 3.2.11.

DICOM Software (Query / Retrieve) (EZU-FC11Q) ......................................................... 31

3.2.12. Omni-directional M mode display function (EZU-OD3) .................................................. 32 3.2.13. Advanced Measurement Software (EZU-AM7) ................................................................ 32 3.2.14. IMT Measurement Software (EZU-IM2) .......................................................................... 33 3.2.15. Software Specified for Contrast Agents (EZU-CH8) ........................................................ 33 3.2.16. WideView Software (EZU-WS8) ........................................................................................ 35 3.2.17. Stress Echo Software (EZU-SE6)...................................................................................... 36 3.2.18. Three-dimensional display unit (Real-Time) (EZU-4D7)................................................. 36 3.2.19. Three-dimensional Display Software (STIC) (EZU-4DST2) ............................................ 39

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3.2.20. Three-dimensional Display Software (Freehand) (EZU-3D8) ......................................... 40 3.2.21. Remote Control Unit (EZU-RH4) ..................................................................................... 42 3.2.22. Remote Control Interface Unit (EZU-RiF5) ..................................................................... 42 3.2.23. Picture in Picture Software (EZU-PP5) ............................................................................ 42 3.2.24. Network Interface Unit (EZU-NW1) ................................................................................ 43 3.2.25. Analog Capture Card Unit (EZU-ACP2) .......................................................................... 43 3.2.26. Digital Capture Card Unit (EZU-DCP3) .......................................................................... 43 3.2.27. Video Interface Unit (EZU-ViF2) ...................................................................................... 43 3.2.28. Expanded USB Unit (EZU-UP2) ...................................................................................... 43 3.2.29. External LCD Monitor Unit (EZU-EL2)........................................................................... 44 3.2.30. Jelly Warmer Unit (EZU-JW1) ......................................................................................... 44 3.2.31. Alpha numeric keyboard Unit (EZU-AK1E) .................................................................... 44 3.2.32. High Neck Unit (EZU-HN1) ............................................................................................. 44 3.2.33. Probe Hanger (EZU-TH7) ................................................................................................. 44 3.2.34. Processor Tray (EZU-TY3) ................................................................................................ 44 3.2.35. Junction Box (PUN-JBP1) ................................................................................................ 44 3.3.

Power requirements ................................................................................................................. 44

3.4.

Environment conditions .......................................................................................................... 45

3.5.

Exterior view ............................................................................................................................. 45

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1. General Description 1.1. General Model HI VISION Avius is a multi-functional ultrasound diagnostic scanner in which Doppler, ColorFlow Mapping, etc. are provided and all circuits related to image quality are fully digitalized. As not only linear and convex scan type probes, but also phased array scan type probe can be operated with HI VISION Avius, it is possible to use it for any field of application. Furthermore, High-definition dTHI (HdTHI) mode (Hitachi unique technology) are provided in standard function. This mode provide “Clear image” to reduce artifact such as vibration echo, and to improve spatial resolution and contrast resolution. HI Com function, HI REZ+ function, Trapezoidal display function, Oblique B-mode image function, real-time Doppler trace, cine memory, patient data management function, and Real-time Archiving function can be used on the standard model. Wide view software, Stress echo software, Software specified Contrast Agents, cardiac measurement software, Real-time Tissue Elastography, omni-directional M (ODM) mode, Remote control unit, Picture in Picture software can be used optional function. It is convenience for user to adopt Ergonomic design and 17-inch digital LCD Monitor and more improved High-definition screen-displayed format.

1.2. Features  True digital architecture Due to beamformer which is decisively concerned to the image quality and all image processing are digitalized, high spatial resolution, wide dynamic range and high contrast resolution are realized. Ultrasound transmit circuit is improved by high performance transmit amplifier, and ultrasound receiving circuit is improved by high performance pre-amplifier. Frame rate is improved much more faster comparing with conventional system. High quality image is digital image processing application. This architecture that is achieved high quality image is good for new generation.  Quick response Mode changing, image condition settings, probe changing and application selection can be performed quickly so that operator can pay attention to the patients.  Usable for wide field of application Linear, convex and phased array scan type probe are usable. It is possible to cover from abdominal and obstetric to cardiovascular fields.

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 17-inch digital LCD Monitor It is adopted 17-inch digital LCD Monitor. LCD Monitor provides high quality image. The LCD simple arm that optimizes the position of the LCD monitor and the operational panel provides ease of use. The LCD flexible arm that can adjust height and four-way position provides freely position of monitor.  High-definition screen-displayed format The resolution of the monitor is increased and the layout of the screen is displayed to the high-definition. The inspection efficiency is improved by additional information and the operation assistance on the screen. - Design The screen design which looks big ultrasound image. - Tab menus It is easy to use the tab menus to switch applications, perform measurements, and activate annotations. Because it is positioned out of diagnosis area. - Brightness Setting It is adjustable character and background brightness level on the screen depends on setting condition. - Image size change function The image size can be changed under certain conditions.  Ergonomic design - Design Design is adopted to focus on user’s “easiness to use”, like front layout of probe connector, based on ergonomics. - Easily operable keyboard As key arrangement is taken in consideration of frequency of use and operational has improved. An optional alphanumeric keyboard that is adopted backlight keyboard improves key response and visibility. - Excellent mobility with four swivel casters As all the four casters are of swivel type, it is easy to move in narrow space. Due to reduced friction force to floor it is easy to move from ward to ward. - Probe rest It connects 3 probes simultaneously and has 1 dummy connector.  Use interface Workflow is improved because of new GUI. It is a few procedures for many functions to use screen buttons.  Online Manual It is applicable to browse instruction manual on your HI VISION Avius.

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 Various B-mode scan - HI Com function Compound function provides high spatial resolution, wide dynamic range and high contrast resolution. - Trapezoidal display function Trapezoidal display is applicable for linear probe. It is improved diagnosis area for linear probe. - Oblique B-mode image function This function enables you to use oblique function not only CFI/CFA mode but B mode.  High quality image technique. - High-definition dynamic tissue harmonic imaging (HdTHI) Mode High-definition dynamic tissue harmonic imaging (Hitachi unique technology) provide “Clear image” to reduce artifact such as vibration echo, and to improve spatial resolution and contrast resolution. - Adaptive Imaging (HI REZ+) Adaptive imaging is the technique to generate optimum image with changing filter characteristic depending on input signal. This technique which installed this ultrasound diagnostic scanner reduces speckle noise on B-mode images and provides uniformly and high contrast images. - Fine Flow function It is the function to display high frame rate and fine high-definition color Doppler image. It is possible to display small vessel less blooming than original system. - Automatic image optimization (HI Support) It is the function to adjusts B mode parameters (Gain, TGC and Depth-specific PDC) and PW mode parameters (Gain, PRF and Baseline) so that it may become the optimal image automatically, and leads to shortening of inspection time.  Real time Doppler measurement function Automatic tracing function and measuring function in Doppler-mode have been allowed to apply only to frozen images, but with this function it is possible to perform it to real time images which contributes to shorten the time for examination. It is displayed position of Doppler waveform and Vp, Vd values of Doppler waveform in real time. After Freeze, you can select the trace and measuring results of any past waveform by playing cine memory images frame-by-frame and turning the PW Gain encoder.

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 Filing function. - Examination data management Examination data (images measurement results and other data) can manage and operate together, so it is easy to refer data before an examination and after an examination. - Multiple functions to save data No image degradation because of digital image recording. This filing function can record still images and multi images not only HDD include system) but also DVD-RAM, DVD-R, USB memory and USB HDD. - Easy-to-use filing function In the Filing window, you can view examination data. It is consideration for easy-to-use in the routine examination by filtering Patient ID or Patient name or keyword search. Thumbnail view provides easy access to destination image. Review images can display 1/4/9/16 screen depend on choosing images. - Patient data management You can select the patient in the list view who had examination once.  Omni-Directional M mode (ODM) function Usually the normal M-mode image is controlled by the beam direction. With this function, it is possible to display the M-mode image on an optional line on the B-mode image, so it enables to perform more accurate left ventricle volume measurement.  Real time Tissue Elastography Real time Tissue Elastography imaging is a qualitative imaging technique that displays the relative tissue stiffness by detecting strain.  Digital video archiving function It is the function to record a B-mode and a color mode image as a digital movie file on real time. The operational of the monitoring of contrast agents and recording of digital motion picture is improved by this function. It is possible to use Clip capture mode that is suitable for clip analyses and Long time recording mode.  Contrast harmonic imaging function With this function enabling to produce images further effectively from signal coming out of the contrast agent it is possible to improve to diagnose the existence of tumor with ease. Two or more ROIs can be set up to the video recorded by contrast echo inspection, the Time-Average (Time-Intensity) value in ROI can be indicated by graph, and quantitative analysis is possible.

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 DICOM function This software can transfer ultrasound images and measurement reports to a storage server. It has a Storage Commitment function for ultrasound images. This software can output and read ultrasound images in DICOM file format. This software has a function to obtain WorkLists from the MWM server. It has a function to send examination start and completion notifications for ultrasound images to the MPPS server. And it can be sent Ultrasound images to grayscale or color DICOM printers.  4D function 3D ultrasound images can be viewed in almost real-time. As the scanning part of the probe swings automatically in a fan-like fashion, it sends signals to the three-dimensional display unit, which rapidly builds a 3D image based on the probe’s signal.  STIC function Multiple 3D images representing a single heartbeat can be displayed by automatically swinging the scanning part of the probe in a fan-like fashion and estimating the cardiac cycle from the obtained images.  3D function The software is able to collect sequential 2D image data by using a probe to scan at a steady rate and then display the collected data as 3D images.  Advanced Measurement function - %WT measurement Measurement useful to heartbeat diagnosis of thickness change of heart muscle etc. is enabled by tracing automatically the movement toward a heart tissue in arbitrary positions. - Color tissue tracking measurement The changes of myocardium thickness are automatically tracked and their strain amount is displayed as colored movies on the screen. The graph of the changes of myocardium, caliper on the graphs, movie outputs, tracking data outputs can be possible. Bull’s eye can be created by loading the tracking data which three cross-sectional surface of APICAL, MID and BASAL. - LA tracking measurement The motion of left atrium wall is automatically tracked so that the volume of left atrium and other parameters against time are measured. - IMT measurement IMT (Intima-Media Thickness) measurement is enabled by detecting the position of intima and adventitia of carotid artery.  Remote control function Freeze, REF, mode and etc. keys of the operation panel can be switched by remote control. -5-

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2. System Composition 2.1. Main System Composition 2.1.1. Ultrasound Scanner Main Unit  Ultrasound transmitting / receiving unit  Digital scan converter unit  Pulsed Doppler unit  Color flow mapping unit  HI Com function  Adaptive Imaging function (HI REZ+)  TDI (Tissue Doppler imaging) function  Filing/Patient data management function  Tissue harmonic imaging function  Cine-memory unit  Automatic image optimization (HI Support)  High density zoom function (HI Zoom)  Power supply unit  DVD (DVD-RAM, DVD-R) drive

2.1.2. Accessories  System CD

2

 Hexagonal wrench bar

1 set

 Spare fuses

1 set

 Cords

1 set

 Instruction manual (Include CD)

1 set

 DVD-RAM (4.7GB)

1

2.2. Probes 2.2.1. Convex array probes  4-2MHz

10R

EUP-C511

 5-2 MHz

40R

EUP-C514

 5-1 MHz

50R

EUP-C715

 5-2 MHz

60R

EUP-C516

 6-3 MHz

40R

EUP-C524

 5-2 MHz

40R (Real-time 3D)

EUP-CV714

 7-2MHz

40R (Real-time 3D)

EUP-CV724

 6-3 MHz

40R (Real-time 3D)

EUP-CV524

 8-4 MHz

20R

EUP-C532 -6-

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 5-2 MHz

20R (Biopsy)

EUP-B512

 6-1 MHz

20R (Biopsy)

EUP-B712

 5-2 MHz

40R (Biopsy)

EUP-B514

 5-1MHz

50R(Biopsy)

EUP-B715

 8-4 MHz

10R (Transvaginal wide view)

EUP-V53W

 10-2 MHz

10R (Transvaginal wide view)

EUP-V73W

 8-4MHz

10R (Transvaginal, Real-time 3D)

EUP-VV531

 8-4 MHz

10R (Transvaginal, Real-time 3D)

EUP-VV731

 8-4 MHz 10R Convex / 8-4 MHz 10R Convex (Intracavital)

EUP-CC531

 8-4 MHz 10R Convex / 8-4 MHz 10R Convex (Intracavital)

EUP-CC531S

 8-4 MHz 10R Convex / 10-5 MHz Linear (Intracavital)

EUP-U533

 8-4 MHz

10R (Transrectal)

EUP-U531

 8-4 MHz

10R (Finger top)

EUP-F531

 7.5 MHz

40R (Finger top)

EUP-F334

 10-5 MHz

10R (Laparoscopic)

EUP-OL531

 7.5 MHz

40R (Laparoscopic)

EUP-OL334

 10-4MHz

20R (Intraoperative)

EUP-O732T

 10-5 MHz

6R (Transrectal, 19cm, 360°)

EUP-R54AW-19

 10-5 MHz

6R (Transrectal, 33cm, 360°)

EUP-R54AW-33

2.2.2. Linear array probes  7-3 MHz

EUP-L52

 9-4 MHz

EUP-L73S

 10-5 MHz

EUP-L53

 10-5 MHz

(Wide view)

EUP-L53L

 13-6 MHz

EUP-L54MA

 13-5MHz

EUP-L74M

 18-5MHz

EUP-L75

 14-6 MHz

EUP-L65

 13-5MHz

(Real-time 3D)

EUP-LV74

 10-5 MHz

(Intraoperative)

EUP-O53T

 13-7MHz

(Intraoperative)

EUP-O54J

2.2.3. Phased array probes  4-2 MHz

(Steerable CW)

EUP-S50A

 5-1 MHz

(Steerable CW)

EUP-S70

 7-3 MHz

(Steerable CW)

EUP-S52

 9-2MHz

(Steerable CW)

EUP-S72

 8-3 MHz

(Steerable CW, Electric multiplane transesophageal)

EUP-ES52E

 6-3.5 MHz

(Steerable CW, Multiplane transesophageal)

EUP-ES52M

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2.2.4. Other probes  7.5 MHz

10R (Upper G.I. Fiberscope, made by HOYA)

FG-34UX

 7.5 MHz

10R (Upper G.I. Fiberscope, made by HOYA)

FG-36UX

 7.5 MHz

10R (Upper G.I. Fiberscope, made by HOYA)

FG-38UX

 7.5 MHz

10R (Upper G.I. Videoscope, made by HOYA)

EG-3630U

 10-5MHz

6R (Upper G.I. Videoscope, made by HOYA)

EG-3270UK

 10-5 MHz

6R (Upper G.I. Videoscope，made by HOYA)

EG-3630UR

 10-5 MHz

10R (Upper G.I. Videoscope, made by HOYA)

EG-3830UT

 10-5 MHz

6R (Upper G.I. Videoscope, made by HOYA)

EG-3670URK

 10-5 MHz

10R (Upper G.I. Videoscope, made by HOYA)

EG-3870UTK

 10-5 MHz

6R (Videobronchoscope, made by HOYA)

EB-1970UK

 10-5 MHz

6R (Videobronchoscope, made by HOYA)

EB19-J10U

2.3. Options  17-inch Digital LCD Monitor Unit

EZU-MT29-S1

 17-inch Digital LCD Monitor Unit (Flexible arm)

EZU-MT30-S1

 Biomedical Waveform Display Unit

EZU-EK28

 CW Doppler Unit

EZU-ST8

 Software Specified for Contrast Agents

EZU-CH8

 DICOM Software (Transfer and Media Storage)

EZU-FC11

 DICOM Software (Printer)

EZU-FC11P

 DICOM Software (Worklist)

EZU-FC11W

 DICOM Query/Retrieve Software

EZU-FC11Q

 Three-dimensional display unit (Real-Time)

EZU-4D7

 Three-dimensional Display Software (STIC)

EZU-4DST2

 Three-dimensional Display Software (Freehand)

EZU-3D8

 Real-time Tissue Elastography Software

EZU-TE6

 Real Time Tissue Elastography Software (Strain Histogram)

EZU-TESH1

 ODM Software

EZU-OD3

 Advanced Measurement Software

EZU-AM7

 IMT Measurement Software

EZU-IM2

 WideView Software

EZU-WS8

 Stress Echo Software

EZU-SE6

 Digital Video Archiving Software

EZU-DV4

 Remote Control Unit

EZU-RH4

 Remote Control I/F Unit

EZU-RiF5

 Picture in Picture Software

EZU-PP5 -8-

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 Logon Management Software

EZU-LG2

 Alpha numeric keyboard Unit

EZU-AK1E/F

 Network Interface Unit

EZU-NW1

 Digital Capture Card Unit

EZU-DCP3

 Analog Capture Card Unit

EZU-ACP2

 Video Interface Unit

EZU-ViF2

 Foot Switch (for Freeze)

EZU-FS1

 Foot Switch (for Freeze / User Define)

EZU-FS2

 Expanded USB Unit

EZU-UP2

 External LCD Monitor Unit

EZU-EL2

 Jelly Warmer Unit

EZU-JW1

 High Neck Unit

EZU-HN1

 Probe Hanger

EZU-TH7

 Processor Tray

EZU-TY3

 5MHz Pencil CW Probe Adapter

EZU-AC1

- 5MHz Pencil CW Probe Sonde Crayon 5MHz P050CN20W00+AD (with BNC cabling) (by AXON’CABLE S.A.Ｓ）  10MHz Pencil CW Probe Adapter

EZU-AC2

- 10MHz Pencil CW Probe Sonde Crayon 10MHz 10D4 (with BNC cabling) (by AXON’CABLE S.A.S)  5MHz/10MHz pencil CW probe Interface

EZU-AC3

 Junction Box

PUN-JBP1

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2.4. Peripheral Devices Peripheral device Black & white printer

Manufacturer SONY

Manufacturer’s model, type UP-D897 UP-897MD

(Notice II)

UP-X898MD MITSUBISHI

P93DW P93E/W

(Notice II)

P95DE/DW Color printer

SONY

UP-D23MD UP-D25MD

MITSUBISHI

CP30DW

DVD Video Recorder

SONY

DVO-1000MD

PC printer

HP

HP Photosmart D5460 *

(Notice I)

HP OFFICEJET 6000 * Wireless LAN adapter

CISCO

Aironet 1130AG *

* These devices meet IEC60950 compliance. (Notice I): EZU-ViF2 is required to record. EZU-ViF2 and EZU-ACP2 is required to playback. (Notice II): EZU-ViF2 is required to print. (NoticeⅢ): It is necessary to detach a rear handle to carry out simultaneous loading of a color printer and a DVD video recorder.

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3. Specifications 3.1. General 3.1.1. System  OS

Windows Embedded Standard 2009

 DVD

DVD-RAM DVD-R

 USB memory USB HDD

Connectable

 Network

10/100 BaseT (EZU-NW1 is required to network connection)

 Starting time

About 100 seconds (About 70 seconds in Hibernation mode)

3.1.2. Basic Function 3.1.2.1

Type of probes

 Convex array probes

1.0~10 [MHz]

 Linear array probes

3.0~18 [MHz]

 Phased array probes

1.0~9.0 [MHz]

3.1.2.2

Image examination modes

 B, M mode

B, B/B, B/M, M

 Doppler mode

B/D,D

 CFM mode

CFM-B, CFM-B/CFM-B, CFM-B/CFM-M, CFM-M, CFM-B/D

 Tissue Doppler mode

TDI-B, TDI-M, TDI-PW

 Biplane mode

B/B (Real-time biplane display)

 Harmonic

dTHI-R,G,P

: Filter method

dTHI-W-R,P : WPI (Wideband Pulse Inversion) method HdTHI-R,P  Compound

: HdTHI (High-definition dynamic tissue harmonic imaging)

HI Com Applicable in Doppler and CFM mode

 Trapezoid

Max display angle ±25°（Depend on probes）

 Oblique B-mode image

Right and lest each 3 steps (Depend on probes)

3.1.2.3

Gain adjustment

 Depth Gain Control (DGC)

8 steps, 30dB variable, selectable Fixed depth/Variable

 B mode gain

60dB (adjustable in real-time and frozen)

 M mode gain

60dB (adjustable in real-time and frozen)

 Doppler mode gain

60dB (adjustable in real-time and frozen)

 CFM mode gain

60dB

3.1.2.4

Focus

 Transmission

Max 10 steps (applicable to the setting of Focus width at multiple focus) - 11 -

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 Reception

Continuous dynamic focusing with variable aperture

 Other

2-dimentional apodization

3.1.2.5

Frequency selection

 Fundamental

Max. 5 steps

 Harmonic

Max 6 steps (Depend on probes)

 HI Com: fundamental

Max. 5 steps (Depend on probes)

 HI Com: harmonic

Max. 6 steps (Depend on probes)

3.1.2.6

Acoustic power control

 Switching steps

5 ~ 100% (5% steps)

3 steps (CW mode)  Applicable independent setup

3.1.2.7

B mode image display

 Single image  Dual image

Different probe and different depth can be displayed. Up-and-down can be selected for linear probe.

3.1.2.8

Depth range

 20mm~360 mm, (5mm steps) (Depend on probes)

3.1.2.9

Display format change in frozen

Pan zoom, HI zoom, orientation (flip horizontal, flip vertical), 90 deg rotation, Image size change

3.1.2.10

Zoom function

 Pan zoom

Adjustable position and size, display magnification: max. 8 times

 HI zoom

Adjustable position and size depend on the probe shape

3.1.2.11

Image Size 80～100% (1% steps)

3.1.2.12

Display angle (width) 6 steps

3.1.2.13

Scan line density 4 steps

3.1.2.14

Biopsy guideline 6 selections (color: 2 types, size: 3 types) - 12 -

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(Notice) Biopsy guideline can not be displayed, when an application that image split setting of B-mode is up-and-down is selected.

3.1.2.15

Marking assist display function

 Applicable Probe

EUP-L75

 Condition of use

A B-mode image or a CFM-mode image appears in single display

 Display method

The Screen button pushing

 Displayed line

A solid line and a dash line

3.1.2.16

Orientation

 Flip vertical and horizontal

B mode, Doppler mode

 Flip vertical

B mode: 90 deg steps rotation

3.1.2.17

Image processing (B mode and M mode)

 Dynamic range

Max. 90dB 45~ 90 dB, 5 dB steps (can be changed in real-time and frozen)

 Enhancement

- Enhance

4 steps (can be changed in real-time and frozen without M mode)

- Weak-signal enhance

Echo enhancement function, 8 steps

 Texture

2 steps (without M mode)

 Persistence

8 steps, including OFF

 AGC (auto gain control)

4 steps

 Gray map

8 steps (can be changed in real-time and frozen)

 Adaptive imaging

HI REZ+ function, ON (8 steps)/OFF (can be changed in real-time and frozen)

 B(M)color

29 maps (include B/W)

 PDC

29 steps

 Receiving Filter

3 steps

 Post processing

γ-correction, rejection and saturation (can be changed in real-time and frozen)

3.1.2.18

M mode image display

 Display method

- Real-time

Moving bar

- Cine playback

Scroll

 Sweep speed

1,1.5,2,3,4,6,8,10 s/screen (can be changed in real-time and frozen)

 Vertical shift

Applicable

 Display area

Side-by-side or up-and-down (can be changed in real-time and frozen), split ratio: 1:1 (side-by-side), 1:1, 1:2, 2:1 (up-and-down)

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3.1.2.19

Doppler function

 Display mode

B/D (B-Freeze, B/D real), D

 Display area

Side-by-side or up-and-down (can be changed in real-time and frozen), split ratio: 1:1 (side-by-side), 1:1, 1:2, 2:1 (up-and-down)

 Analysis

FFT method, 3 steps, max. 128 points

 Pulse repetition frequency (PRF)

1, 1.3, 1.5, 1.8, 2, 2.2, 2.5, 3, 3.5, 4, 4.5, 5, 5.5, 6, 6.5, 7, 7.5, 8, 9, 10, 11, 12, 14, 16, 18, 20 [kHz], total 26 steps  Reference frequency (REF)

3 frequencies: (Depend on probes)

 Wall filter

12 steps (maximum value : 1/16 of PRF)

 Baseline shift

Applicable (in real-time and frozen)

 Detectable depth

0mm ~360 mm

 Sample length

0.5 mm ~ 5.0 mm: 0.5 mm step, 5.0 mm ~ 15.0 mm: 1.0 mm step

 Measurement

- Real-time

Velocity

- Frozen

Velocity, Acceleration, Index for stenosis, Pressure gradient, Flow volume, Time average velocity, Ratio-time, Ratio-velocity, Average velocity, PHT (Pressure Half Time), HR (Heart Rate), TVI (Time Velocity Integral), Auto trace is available

- Limitations  Audio input / output

HR: 25 ~ 300, measurement is not applicable in cine playback. 2ch speaker mounted (for forward / reverse flow), VCR audio input / output (for forward / reverse flow)

 Maximum detectable velocity

±3.65m/s (2.0 [MHz], 20 [kHz])  B/D simultaneous

Up to 20 [kHz]

 Display method

- Real-time

Moving bar

- Cine playback

Scroll

 Sweep speed

1, 1.5, 2, 3, 4, 6, 8, 10 s /screen (can be changed in real-time and frozen)

 Angle correction

Applicable (in real-time and frozen)

 FFT-γ

8 steps (can be changed in real-time and frozen)

 Oblique function

Linear probe 0°,±10°,±15°,±20° (Depend on probes)

 D-Color

29maps (can be changed in real-time and frozen)

 Post-processing

γ-correction, rejection and saturation (can be changed in real-time and frozen)

 Unit

3types (cm/s, m/s, kHz)

 Smoothing

PW simultaneous mode only

 Doppler real-time measurement

- Upper trace

Trace upper the baseline - 14 -

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- Down trace

Trace bottom the baseline

- Both trace

comparing for peak of both upper and bottom baseline, and trace either one higher

3.1.2.20

Color flow mapping function

 Display mode

CFM-B, CFM-M, CFM-B/D (B-freeze, ALT), CFM-B/CFM-M Applicable dual simultaneous display of CFM and B/W

 CFM-B

- Color box angle

Continuously selectable in B-mode image display

- Color box depth

Continuously selectable in B-mode image display

- Color ROI

Color ROI guideline display on off selectable

- Oblique scan

Linear probes: 0, ±10, ±15, ±20 deg (Depend on prbes) Operations that are linked with or independent of Doppler cursor angles can be performed.

 CFM-M

- Display method 

Real-time

Moving bar



Cine playback

Scroll

- Sweep speed

1, 1.5, 2, 3, 4, 6, 8, 10 s /screen (can be changed in real-time and frozen)

 Color display

- Velocity - Velocity variance The direction of blood and velocity is displayed in brightness of red and blue, and add in brightness of green in the place of velocity variance. - Velocity

The direction and velocity is displayed in contrast of red and blue variation.

- CFA

Angle dependence is small and color is displayed uniformly in blood vessels.

- Directional CFA

The direction is displayed red and blue and angle dependence is small and color is displayed uniformly in blood vessels.

- Fine Flow

It displays blood flow power with higher definition than CFA mode. It is possible to display microscopic vessels. (Include directional mode)

- Velocity variance

The velocity variance is displayed in brightness of yellow.

- Color map

CFI

: 22maps

CFA

: 13maps

Fin Flow : 9maps - Color invert

Applicable (can be changed in real-time and frozen)

 Pulse repetition frequency (PRF)

120, 250, 350, 400, 500, 650, 800, 1k, 1.3k, 1.5k, 2k, 2.5k, 3k, 3.5k, 4k, 4.5k, 5k, 6k, 8k, 10k, 12k, 16k, 20k [Hz], total 23 steps  Persistence

8 steps

 Motion artifact suppression

OFF + 3 steps

 Scan line density

8 steps - 15 -

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 Color preference

Selectable 2 modes

- Auto

Brighter signal is displayed between B and color

- Manual (16 steps)

B image is displayed where B image intensity is bigger than preference bar level on the gray scale.

 Peak hold

[Not ECG display] Overlay color data in real-time, Refresh time: 1s, 2s, 4s, 8s, ∞ [ECG display] Overlay color data in real-time, Refresh time: 1beat, 2beat, 4beat, 8beat, ∞

 Velocity tagging

Applicable

 Color filter

3 steps

 Interleave

Max.32 lines (depending on PRF)

 Packet size

3 steps

 CFA dynamic range

8 steps (available to Fine flow)

 Reference frequency (REF)

Max.3 frequencies (Depend on probes)

3.1.2.21

Compound function (HI Com function)

 Applicable probes

Refer to Appendix

 Display mode

B, dTHI, B/M, CFM-B, CFM-B/M, CFM-B/D, B/D, Elasto, Fine Flow

 Number of compound

2 steps (Max. 5 images)

 Oblique angle

Max. 5 directions (include 0 deg)

 Scan line density

4 steps (Applicable independent setup)

 Steering HI Com

Right and left (each 3steps) (can be changed to 3 step on linear array probes only.)

3.1.2.22

Trapezoid display function

 Applicable probes

Refer to Appendix

 Display mode

B, CFM,PW ,Fine Flow

 Display angle

Max. ±25°(Depend on probes)

 HI Zoom

Applicable

 Prohibit mode

HI Com, B oblique, PW/CFM oblique

3.1.2.23

Oblique B mode image function

 Applicable probes

Refer to Appendix

 Display mode

B, dTHI, B/M, CFM-B, CFM-B/M, CFM-B/D, B/D mode

 Oblique angle

Right and left (each 3 steps) Angle is depend on probes

 HI Zoom

NA

3.1.2.24

Automatic Image Optimization (HI Support)

 Applicable probes

All probes(*1)

 Display mode

All mode (Except as M, CFI/CFA/Fine Flow, TDI-B and TDI-M mode) - 16 -

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 Automatic optimization parameter

- B mode

Gain, TGC, Depth-specific PDC

- PW mode

Gain, PRF, Baseline

 Display

- B mode(Gain,TGC)

ON : Reverse display of BG

- B mode(Depth-specific PDC)

ON : Display “#” on PDC Screen button

- PW mode

ON : Reverse display of DG and PRF

 Reset

Available B mode only

 Brightness offset

21 steps (available B mode only)

*1) HI Support for PDC is available at linear probes only.

3.1.2.25

TDI (Tissue Doppler Imaging) function

 Applicable probes

Refer to Appendix

 Display mode

TDI-B, TDI-M, TDI-PW

 TDI-B, TDI-M mode

- Color map

8 maps (for TDI)

- Pulse repetition frequency (PRF) 120, 250, 350, 400, 500, 650, 800, 1k, 1.3k, 1.5k, 2k, 2.5k, 3k, 3.5k, 4k, 4.5k, 5k, 6k, 8k, 10k, 12k, 16k, 20k [Hz], total 23 steps - Persistence

8 steps

- Smoothing

3 steps

- Blending

8 steps

- Velocity Tagging

Applicable

 TDI-PW mode

- Analysis

FFT method, 3 steps, Max. 128 points

- Pulse repetition frequency (PRF) 400, 500, 650, 800, 1k, 1.3k, 1.5k, 1.8k, 2k, 2.2k, 2.5k, 3k, 3.5k, 4k, 4.5k, 5k, 5.5k, 6k, 6.5k, 7k, 7.5k, 8k, 9k, 10k, 11k, 12k, 14k, 16k, 18k, 20k [Hz], total 30 steps - Baseline shift

Applicable (in real-time and frozen)

- Detectable depth

0mm ~360 mm

- Sample length

0.5 mm ~ 5.0 mm

: 0.5 mm step,

5.0 mm ~ 15.0 mm : 1.0 mm step - FFT-γ

3.1.2.26

Real-time Biplane mode

 Applicable probe

3.1.2.27

8 steps (can be changed in real-time and frozen)

Convex type probe EUP-CC531S only

Cine memory function

 Recording mode

B, M/D (include CFM) - 17 -

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 B-image Frame storage capacity

Max. 19,000 frames  M/D recording time

Max. 300s

 ODM recording time

Max. 150s

 Cine memory split

B/B split, B/MD split

 Playing images

Continuous playback (B) Rewinding frame by frame (B, M/D) Automatically detected heartbeats (B) (Mounted a Biomedical Waveform Display Unit)

 Play-back speed

B

: ±1/1, ±1/2, ±1/4, ±1/8, 0

M/D : Continuous playback is not applicable  Phase bars

Applicable (B)

 Changing the time axis (Freeze on)

Applicable (M/D)

3.1.2.28

Preset

 Application

Max 22 sets of operating parameters can be registered for each probes Max 10 set of user registered

 PSS function

Registered for each application Max 8 set of preset

 Region Data Setting

Max 37 set of region data Max 30 set of user registered

3.1.2.29

Character display

 Comments

102 characters×30 lines maximum.4 kinds of character size, 4 character style (Normal / Bold / Italic / Bold italic) , 3 entry mode (Insert / Letter Overwrite / Single Word Overwrite), Auto Complete Entry, 2 initial cursor position ( Home Position / Previous Position)

 ID name

Regular 15 characters

 Patient name

Regular 26 characters

 Hospital name

Regular 29 characters

 Automatically displayed items

Data and time (year, month, day, hour, minute, and second), Physician, age, sex, Probe name, frequency of the probes, gain settings, acoustic power level, post-processing parameters, dynamic range (DYN), delay times from R-wave, heart rate, measurement values, Doppler function display, focus point, view of depths display.  Annotation

Preregistered 402 annotations (abbreviated medical terms)

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3.1.2.30

Body marks

 Display position

Adjustable

 Display size

Large or Middle

 Types

- Abdomen

8 types

- Breast

10 types

- Head/Neck

15 types

- Urology

10 types

- Cardiovascular

14 types

- Organ

11 types

- Upper limb

18 types

- Lower limb

10 types

- Obstetrics

21 types

- Gynecology

4 types

3.1.2.31

Measurement function

 General measurements

Distance, area, circumference, volume, velocity, time,Doppler trace, Accel., Decel., velocity, average velocity, histogram, RI, PI, FlowVolume, Doppler profile, velocity ratio, time ratio, distance ratio, area ratio, heart rate, and CFM velocity,Angle

 Abdomen, urology,

Hip joint angle, urology, SVolume, and Vascularity

and others  Cardiovascular

measurements

Left ventricle measurements, LV, MV, Ao, TV, CO, EF, regurgitant

volume,

dP/dt, Qp/Qs, blood flow measurements, MVG, and ventricular mass

 Vascular measurements

Carotid artery, upper extremities, lower extremities, and %Steno

 Obstetrics and gynecology

Fetal measurements, blood flow measurements, fetal weight estimates,

measurements

gestational age estimates, fetal growth evaluations, ovarian follicle measurements, and gynecology measurements

 Real-time Doppler

measurements

Blood flow waveforms are traced in real time and the measurement results are displayed. The average heart rate can be calculated based on several measurements.

 Measurements of retrieved

images  Obstetric tables

Measurements can be performed only for images recorded using the image filing function. (Video playback measurements are not supported.) Data specific to the United States, Europe, and Japan are incorporated. You can create a new table or edit an existing table. Tables can be loaded to or from external media.

 Report function

You can display a list of measurement results, edit results, enter comments, print reports, or display obstetrics graphs. You can record the measurement results to a hard disk or other supported media.

 User-defined functions

You can register unique measurement packages by combining measurement - 19 -

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items, measurement orders, and formulas.

3.1.2.32

Media Management

 Folder or file list display

Applicable

 Free space display

Applicable

 Delete and copy of deleted image data

Applicable ⁃ Copy destination

3.1.2.33

USB memory, USB HDD, DVD-RAM, Network folder

Storage to hard disk

 Capacity

Maximum 60GB

 Number of images

B/W

: approx. maximum 72,000

Color

: approx. maximum 24,000

3.1.2.34

Filing Function / Patient information window

 Image transfer

Digital

 Transferring image

Motion image / Still image

 Motion image transfer method

- Frame to Frame (F-F)

All image or 10, 20, 30, 40, 50, 60, 70, 80, 90, 100 images from last image

- R-Wave to R-Wave (R-R) All image or 1, 2, 3, 4, 5, 6, 7, 8, 9, 10 beats from last image (Mounted a Biomedical Waveform Display Unit) - All (Notice) : When the number of images in cine memory exceeds the record upper limit, all image transfer is not available.  Image format

BMP (Bitmap), TIFF, AVI, AVI (Compression), JPEG, DICOM, DICOM JPEG

 TIFF compression format

None, Pack Bits

 AVI compress

Microsoft Video 1

 Number of retrieve images

1, 4, 9, 16

 Retrieve mode

Frame by frame review Continuous review, Changing the time axis

 Retrieve speed

-1/1, -1/2, -1/4, -1/8, 0, 1/8, 1/4, 1/2, 1/1

 Divided frame display

Available with motion image review

 Review range specification

Applicable

 Playback measurement

Applicable excluding D-Profile, CFM-Velo, histogram, auto trace and PISA, MVG-M, vascularity in MV Regurg and TV Regurg

 Filing with

Each image, Each patient

 Masking of ID and patient name

Applicable (in transferring to external media) - 20 -

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 Patient information window

- Patient data list display Applicable - Patient ID assigned automatically (Emergency situation) Applicable - Pre-input patient information Applicable - Single Image recording Applicable - Auto complete setting

Applicable

- The number of the patients who can register 10,000 (It is assumed that for 1 year and half.)  Filing window

- Keyword search

Today's Study, Search All, Patient ID, Patient name, Study Date, Study Term, Body Part Exam., Examined by, Ref. Physician, Additional Patient History, Application, Comment, Transfer Status

- Thumbnail images sorting Applicable - Image Data

copy, delete applicable

- Correction of the patient information for the saved examination data like an image. Not applicable (Notice) : Other patients’ examination data cannot be referred to during examination. (Notice) : To record data onto media that was created by using equipment that uses different software version, select the target location list in the Filing window, and then update the database before recording the data.  OS of the network computer which can perform file sharing.

Windows XP Professional, Windows Vista Ultimate/Home Premium Windows 7 Ultimate/Professional/Home Premium Windows 8/Windows 8 Pro Windows 8.1/Windows 8.1 Pro (Notice) : The simultaneous reference of network folder cannot be performed from two or more system. (Notice) : File sharing is available when using a password-protected account.

3.1.2.35

Others

 Brightness Setting

Character 6 level Background 6 level

 Screensaver

Applicable

 Online Manual

Applicable

 Screen Keyboard

Enter alphanumeric characters and symbols （If the optional alphanumeric keyboard is not mounted）

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3.2. Options 3.2.1. 17-inch Digital LCD Monitor (EZU-MT29-S1)  Standard component

LCD monitor, LCD simple arm, cables

 Screen

17 inch, Non-interlace

 Input voltage

DC12V

 Power consumption

Max.34VA

 Video signal

DVI-D

3.2.2. 17-inch Digital LCD Monitor (Flexible arm) (EZU-MT30-S1)  Standard component

LCD monitor, LCD flexible arm, cables

 Screen

17 inch, Non-interlace

 Input voltage

DC12V

 Power consumption

Max.34VA

 Video signal

DVI-D

3.2.3. Biomedical Waveform Display Unit (EZU-EK28)  Components

BIO PCB, ECG panel

 Display signal

ECG, Ext-ECG

 Display method

- Real-time

Moving bar

- Cine playback

Scroll

 Display control

Vertical movement, gain control, auto gain: 3 steps

 Sweep speed

1, 1.5, 2, 3, 4, 6, 8, 10 s/screen (can be changed in real-time and frozen)

 R-R Detection

RRp/RRpp≒1 interval is detected automatically in freeze mode. (RRp: preceding R-R interval, RRpp: prepreceding R-R interval)

(Notice) Biomedical waveform cannot be displayed, when an application that image split setting of B-mode is up-and-down is selected.

3.2.4. CW Doppler Unit (EZU-ST8)  Components

CW PCB, total 1pcbs

 Applicable probes

EUP-S50A, S70, S52, S72, ES52E, ES52M, Single Element CW Doppler probe

 Display mode

CW, B/CW (B, B-freeze), CFM-B/CW (CFM-B, B-freeze)

 Reference frequency (REF)

- EUP-S50A

2.0 [MHz]

- EUP-S70

2.0 [MHz]

- EUP-S52

3.5 [MHz]

- EUP-S72

3.0 [MHz]

- EUP-ES52E

3.5 [MHz] - 22 -

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- EUP-ES52M

3.5 [MHz]

 FFT pulse repetition frequency (PRF)

4, 4.5, 5, 6, 8, 10, 12, 16, 20, 25, 35, 50 [kHz], total 12 steps  Analysis

FFT method, 3Steps, Max. 256point

 Maximum detectable velocity

8.91m/s (2.0 [MHz], 50 [kHz])  Sweep speed

1, 1.5, 2, 3, 4, 6, 8, 10 s/screen (can be changed in real-time and frozen)

 Wall filter

12 steps (maximum value : 1/8 of PRF)

 Transmission-reception focus

8 steps (automatic follow-up the sampling gate)  Baseline shift

Applicable (in real-time and frozen)

 Angle correction

Applicable (in real-time and frozen)

 Post-processing

γ-correction, rejection and saturation (can be changed in real-time and frozen)

 D-Color

29maps (can be changed in real-time and frozen)

 Echo Enhancement

4 steps, including OFF

3.2.5. Real-time Tissue Elastography Unit (EZU-TE6)  Components

Stabilizers for compression assistance

 Applicable probes

Refer to Appendix

 Display mode

- Elasto mode

Overlapping display of Elastography on B-mode image

- Dual Elasto mode

Dual image display of Elasto mode, possible to select different color map on each side, also possible to display B-mode image on the right and Elasto image on the left side

- Real-time biplane Elasto mode

Overlapping display of Elastography on B-mode image of either cross-section, in the function to display B-mode image with the one of different cross-section simultaneously

Specifications  Reference frequency (REF)

2 frequencies (L65, L54MA, L75 and O54J: 1 frequency)

 Persistence

8 steps

 Smoothing

4 steps

 Dynamic range

8 steps

 Frame rejection

8 steps

 Noise rejection

8 steps

 Scan line density

4 steps

 Brightness Control

11steps

 Color map

8 maps(red color and blue color can be inverted)

 Tagging

Max. 65 steps in both upper and lower limit values - 23 -

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 Rejection

65 steps

 Blending

0% ~ 100%, 2% steps

 Blend Type

2 types

 Frame rate

5steps

 Dual mode

Applicable

 Biplane mode

Applicable (EUP-CC531S)

 Biopsy guide line

Applicable

 Press Guide function

- Strain Graph

Displays the variation over time of tissue strain caused by compression. Available graph to exclude low strain area.

- Press Indicator

Display the compression status

 Frame select function

Possible to select images under stable compression automatically

 Strain ratio measurement

- Number of ROI

Max. 10, possible to position the ROIs on B mode image

- ROI shape

Circle, oval, rectangle and closed spline curve

- Averaging function

Max. 5 frames

- Auto ROI Setting function Clicking center of the tumor automatically sets the measurement ROI to the tumor and the fatty layer (the mammary gland region and lesion are targeted). - Measurements of retrieved images

3.2.6. Real-time Tissue (EZU-TESH1)

Applicable

Elastography

software

 Components

Software

 Applicable Probes

Same probe as Real-time Tissue Elastography

(Strain

Histogram)

Specifications 

Strain Histogram Measurement - Strain Graph

1 point

- ROI Shape

rectangle

- Measurements of retrieved images 

Data export

Applicable

Applicable (CSV format)

(Notice) : EZU-TESH1 is required for EZU-TE6. (Notice) : If B-mode images are displayed at the top and bottom part of the screen in dual display, Real Time Tissue Elastography software (Strain Histogram) cannot be used.

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3.2.7. Digital Video Archiving Software (EZU-DV4)  Components

3.2.7.1 

Software

Clip capture mode

Common specification - Preset

8 steps

- Compression level

2 steps (Standard/HI Compression)

- Image format

AVI (uncompressed, Motion JPEG Compression), DICOM, DICOM JPEG

- Playback speed ･ Play

1x

･ Rewind

-1x

･ Slow-forward

1/8x, 1/4x, 1/2x

･ Slow-rewind

-1/8x, -1/4x, -1/2x

 Specifications – in real-time

- Transfer mode

Free capture, Beat Duration

- Capture rate

Free capture

: 6, 8, 10, 15, 20, 30 fps 6steps

Beat Duration : 30 fps - Capture time

Free capture

: 10 sec (30 fps), 90 sec (20 fps), 120 sec (15 fps), 180 sec (10 fps), 225 sec (8 fps), 300 sec (6 fps)

Beat Duration : 1, 2, 3, 4, 5, 6, 7, 8, 9 and 10 heartbeat - Measurements on clip capture Applicable However, there are following limitations for a trimmed clip. ・ Necessary to set all image parameter before measurement ・ Impossible to perform the following functions %WT measurement, Color Tissue Tracking measurement, LA Tracking measurement, Time Intensity Curve function  Specifications – in frozen

- Transfer mode

Frame to Frame (F-F) / R-Wave to R-Wave (R-R) / All

- Capture time

Free capture

:

AVI(Motion JPEG Compressiona) or DICOM JPEG format 10 sec (30 fps), 90 sec (20 fps), 120 sec (15 fps),180 sec (10 fps), 225 sec (8 fps), 300 sec (6 fps) AVI(uncompressed) or DICOM format 10 sec (30 fps), 18 sec (20 fps), 24 sec (15 fps), 36 sec (10 fps), 45 sec (8 fps), 60 sec (6 fps) R-Wave to R-Wave : ALL, 1, 2, 3, 4, 5, 6, 7, 8, 9 and 10 heartbeat/manual (Notice) : EZU-DCP3 is required for EZU-DV4. (Notice) : EZU-EK28 is required for R-wave to R-wave mode (Notice) : EZU-FC11 is required for selecting DICOM JPEG as the image format. - 25 -

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(Notice) : When the number of images in cine memory exceeds the record upper limit, all image transfer is not available. (Notice) : Quality of AVI(uncompressed) or DICOM format and AVI(Motion JPEG Compression) or DICOM JPEG format are same in real-time.

3.2.7.2

Long time recording mode

 Recording format

MPEG2 (can be played on image filing function)

 Destination

DVD-RAM / Hard Disk / USB HDD

 Continuous recordable time

Maximum 1 examination

 Recordable time to DVD

- High-quality

Approx. 1 hour (8Mbps)

- Standard

Approx 2 hours (4Mbps)

- High-compression

Approx 4 hours (2Mbps)

 Recording area

Fundamental area

 Record and play of Doppler sound

Applicable  Playback speed

- Play

1×

- Fast-forward

2×, 8×, 32×

- Fast-rewind

-1×, -2×, -8×, -32×

- Slow-forward

1/8×, 1/4×, 1/2×

- Slow-rewind

-1/8×, -1/4×, -1/2×

 Playback to the start by chapter

Applicable  Playback function

Only MPEG2 clip file that is captured this software

(Notice) : EZU-DCP3 is required for EZU-DV4.

3.2.8. Logon Management Software (EZU-LG2)  Components

software

 Registerable account number

- Service

1 (undeletable)

- Administrator

max. 30

- General user

max. 30

 User licensing function

- User ID

Alphanumeric half size of character, symbols (except space), 1~16 characters

- Password

Alphanumeric half size of character, 8~16 characters, (Not applicable to input fewer than 8 characters and same letter string of user ID)

- Password changing

Applicable

 Account management (permitted to administrator only) - 26 -

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- Display of information

Displaying a list of account

- Registration function

New registration of account

- Delete function

Deregistration of account

 Logoff function

- Authentication release

Applicable

- Auto logoff

Applicable

3.2.9. DICOM Software(Transfer and Media Storage) (EZU-FC11)  Components

Software

 Functions

- Transfer

Transfer to DICOM server

- Media transfer

Save to the DVD-RAM, DVD-R, USB memory or USB HDD as DICOM format

- Connection check

C-ECHO function (carries out a connection check with server)

- Storage commitment function The function to query whether to be preserved normally after transferring for ultrasound images - DICOM SR

The function to transfer the measurement results to report server as DICOM SR (Structured report) A measurement item name is modifiable. It is possible to copy a measurement which does not support DICOM SR for the measurement using DICOM SR. It is possible to add a measurement which does not support DICOM SR for the measurement region using DICOM SR.

 Transfer image

Single images, motion images (It is applicable the collectively transferring by patient)

 Brightness adjustment

The brightness of images can be adjusted when transferring them to the storage server. The way of setting the corrected information to a DICOM attribute, and the way of changing the brightness of the image pixel value to selection is possible.

 Anonymize patient info.

The patient information printed in image can be masked when transferring them to the storage server.

 Motion images transfer

Frame to frame transfer, R-R transfer [ECG is used], all images transfer in cine memory

 Retrieve

DICOM format images saved in the folder on network, DVD-RAM, DVD-R,USB memory and USB HDD It is applicable to play after DICOM server transfer by EZU-FC11Q.

 Image conversion

BMP to DICOM, DICOM JPEG AVI to DICOM, DICOM JPEG

 LAN

10/100BaseT - 27 -

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 DICOM log acquisition

Applicable (DICOM log in communication)

 SR transfer operation

DICOM SR is transferred by pushing "SR Transfer" button in the Filing Window, "Save" button in the Report Winodw, Patient Key or End Exam key.

 Output measurement item to DICOM SR

- OB-GYN measurement (OB_SR) - OB measurement GS, CRL, BPD, OFD, HC, LVW, HW, TCD, IOD, OD, APTD, TTD, AC, FTA, HL, ULNA, RAD, FL, TIB, FIB, EFBW, CI, HC/AC, FL/AC, FL/BPD, APTD*TAD AFI measurement: Q1, Q2, Q3, Q4, AFI - Gynecology measurement Uterus measurement: Uterus L, Uterus H, Uterus W, Endomet. T., Cervix L L-Ovary measurement: L, AP, W, V R-Ovary measurement: L,AP,W,V - Follicular measurement L-Ovary measurement: L, AP, W, V R-Ovary measurement: L, AP, W, V L-Follicular measurement: L, AP, W, V R-Follicular measurement: L, AP, W, V Uterus measurement: Uterus L, Uterus AP, Uterus W, V, Endomet. T.,Cervix L - OB-GYN measurement (OB_SR_II) - Vascular measurment Fetal_Vasc measurment: Umbil.A. measurment, MCA measurment, OB-DV measurment, OB-IVC measurment, OB-Daorta measurment, OB-Aorta measurment, OB-PA measurment, CIA measurment, L-RA measurment, R-RA measurment, Umbil.V. measurment Pelvic_Vasc measurment: L-Ovary.A. measurment, R-Ovary.A. measurment, L-Uterine A. measurment, R-Uterine A. measurment - OB measurement GS, CRL, BPD, OFD, HC, LVW, HW, TCD, IOD, OD, APTD, TTD, AC, FTA, HL, ULNA, RAD, FL, TIB, FIB, EFBW, CI, HC/AC, FL/AC, FL/BPD, APTD*TAD, Foot, NB, NT AFI measurement: Q1, Q2, Q3, Q4, AFI - Gynecology measurement Uterus measurement: Uterus L, Uterus H, Uterus W, Endomet. T., Cervix L - 28 -

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L-Ovary measurement: L, AP, W, V R-Ovary measurement: L,AP,W,V - Follicular measurement L-Ovary measurement: L, AP, W, V R-Ovary measurement: L, AP, W, V L-Follicular measurement :L,AP,W,V R-Follicular measurement :L,AP,W,V Uterus measurement: Uterus L, Uterus AP, Uterus W, V, Endomet. T., Cervix L - Vascular measurement

Extracranial Arteries measurement: Bulb, CCA, ECA, ICA, PROX, ICA MID, ICA DIST, ICA(RATIO), Subclav.A, Vertebral A Lower Extremity Arteries measurement: CIA, ATA, CFA, DPA, EIA, IIA, Pero.A, Pop.A, PTA, PFA, SFA Lower Extremity Veins measurement: ATV, CFV, CIV, EIV, GV, GSV, LSV, Pero.V, Pop.V, PTV, PFV, SFJ, SV, SFV, SPJ, Hunter, Cocket, Boyd

- Cardiac measurement (Cardiac_SR) Left Ventricle measurement: HR, LVEdD, LVEsD, FS, LVEdV, LVEsV, EF, Regurg Vol., Flow Rate, PISA, PISA-R, Vp, TVI, IVRT, e', E/e', A, S, SV, CO, CI, IVSd, LVPWs, LVPWd, LVMass-d, IVSd/LVPWd Right Ventricle measurement: HR, Regurg Vol., Flow Rate, PISA, PISA-R, Vp, TVI, SV, CO, CI Aortic Valve measurement: Avcusp Open, ET, Ao/ET, Regurg Vol., Flow Rate, PISA, PISA-R, Vp, TVI Mitral Valve measurement: A, E, E/A, EFslope, EPSS, Adur, Regurg Vol., Flow Rate, PISA, PISA-R, Vp, TVI, SV, CO, CI, dp/dt Pulmonic Valve measurement: Regurg Vol., Flow Rate, PISA, PISA-R, Vp, TVI Tricuspid Valve measurement: Regurg Vol., Flow Rate, PISA, PISA-R, Vp, TVI Pulmonary Veins measurement: S, D, A, Adur, HR Congenital measurement: HR, Regurg Vol., Flow Rate, PISA, PISA-R, Vp, TVI, Qp/Os - Cardiac measurement (Cardiac_SR_II) Echo LV measurement : B-LV, M-LV, M.Simpson, Dia.Func, Dop Index, CO, BI-Plane, Area Length, LVMass-AL, LVMass-TE, HR Echo LA measurement : B-LA, M-LA, TEE-LA Echo RV measurement : CO, B-RV, M-RV, HR Echo RA measurement : B-RA Echo AV measurement : AV Regurg, Velocity, PHT, D-Trace, - 29 -

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B-Area, Area-Vp, Area-Vm, Area-VTI, HR Echo MV measurement : Dia.Func, dP/dt, MV Regurg, Velocity, PHT, D-Trace, B-Area, Area-Vp, Area-Vm, Area-VTI, MV-RegVol, HR Echo PV measurement : PV Regurg, Velocity, PHT, D-Trace, HR Echo TV measurement : TV Regurg, Velocity, PHT, D-Trace, HR Echo Ao measurement : B Ao, Ao, HR Echo PArtery measurement : B-PArtery, D-PArtery, HR Echo IVC measurement : B-IVC, HR Echo PVein measurement : D-PVein, HR Echo CS measurement : Qp/Qs, HR Echo Cong measurement : Cong Regurg, HR (Notice) : EZU-NW1 is required for EZU-FC11.

- 30 -

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3.2.10. DICOM Software (WorkList) (EZU-FC11W) / DICOM Software (Printer) (EZU-FC11P)  Components

Software

 Functions

- Printer function

Printout to a DICOM printer on network

- WorkList

Send/receive a patient data to/from a DICOM WorkList server

 Specifications for printer

- Print format

B/W: MONOCHROME2, color: RGB

- Images in a film

Max. 16 images

- Start of printing

Each image : Press REC key Each patient : Press End Exam key or click Patient key, Click Image Print button on the Filing Dialog

- Film format setup

Film size, image display format, film orientation, film destination

- Other setup

Number of copies, magnification type, print priority

- Simultaneous transfer

Simultaneous transfer to DICOM server and printer

 Specifications for WorkList

Acquisition of patient data Retrieval of patient data Display of detailed patient data The patient information which is indicating by the list using the mobile function can be held, and use is possible at off-line Setup is freely possible in the tag which quer(ies) to a work list server It is possible automatic calculation of the age based on the birth date obtained from Worklist Possible to query automatically when the Patient Information window is displayed.

(Notice) : EZU-NW1 and EZU-FC11 are required for EZU-FC11P and EZU-FC11W.

3.2.11. DICOM Software (Query / Retrieve) (EZU-FC11Q)  Components

Software

 Specifications

- Retrieve modality

US, CT, MR, MG, EC

- Query key

ID, Name, Date, Accession #, Modality

- Multi-display

1, 2, 4, 6 display

- Save format

BMP, JPEG

- Display format

Original size, window size

- Image size

Zoom in, zoom out, panning

- Window level

Window level, ROI window level, B/W inversion

- Rotation, inversion

90 deg rotation to right and left, 180 deg rotation, flip horizontal, flip vertical

- Review

By frame, loop, synchronization - 31 -

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- Measurement

Caliper, distance ratio, angle, area, average velocity, acceleration, heart rate (Notice: If there is no tag for calibrations, average velocity, acceleration and heart rate cannot be measured.)

- Distance calibration

Applicable in caliper and area

- Annotation

Applicable (text and rectangle on display)

- Hard disk storage

Images acquired from DICOM server can be preserved up to 3GB.

(Notice) : EZU-NW1 and EZU-FC11 are required for EZU-FC11Q.

3.2.12. Omni-directional M mode display function (EZU-OD3)  Applicable probes

Refer to Appendix

 Display mode

- Real-time ODM mode

B (Real) / ODM, B (Real) / ODM / ODM, ODM,ODM / ODM

- Cine ODM mode

B (Cine) / ODM, B (Cine) / ODM / ODM

 Settings

- Number of ODM beam line 1 direction / 2 directions - ODM beam line center control Common center mode / Independent center mode - Angle rotation

0 ~ 359 deg, 1 deg steps

- Center position movement 1 pixel steps - Sweep speed

1, 1.5, 2, 3, 4, 6, 8, 10 s/screen (can be changed in real-time and frozen)

- ODM dynamic range

45~ 90 dB, 5 dB steps (can be changed in real-time and frozen)

- ODM enhancement

4 steps

- Gray map

8 steps (can be changed in real-time and frozen)

- B image scan density

Fixes

- B image display angle

Selectable (available for Real-time ODM mode)

 Display method

- Real-time

Moving bar

- Cine

Moving bar

 Measurement

M mode measurement

 Others

Not applicable with Doppler and CFM mode

3.2.13. Advanced Measurement Software (EZU-AM7)  Components

Software

 Specifications － %WT (wall thickness) measurement

- Image format

AVI, Motion JPEG (B/W B mode image)

- Analysis point

Max. 20 points

- WT graph display

Applicable - 32 -

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- Data export

Applicable (CSV format)

 Specifications － IMT (Intima-Media Thickness) measurement

- Image format

Still image (Frozen, playback image)

- Measurement results 

Trace method

Max, mean, value of 3 points, average value of 3 points



Simple 3 points method Value of 3 points, average value of 3 points

- Manual correction of trace line Applicable (in trace method) - Detection position correction Applicable (in simple points method)  Specifications － Color tissue tracking measurement

- Image format

AVI, Motion JPEG (B/W B mode image)

- Specified measurement segments APICAL, MID, BASAL - Graphs for transition

Applicable

- Data export

Applicable (CSV format)

- Creating Bull’s eye

Applicable

 Specifications － LA tracking measurement

- Image format

AVI, Motion JPEG (B/W B mode image)

- Measurement results

Volume, dV/dt, area, circulation, long axis

- Volume measurement

Modified Simpson method

- Biplane measurement

Applicable

- Graphs for transition

Applicable

- Data export

Applicable (CSV format)

3.2.14. IMT Measurement Software (EZU-IM2) This is the same function as IMT measurement in EZU-AM7. Please refer to EZU-AM7 for details.

3.2.15. Software Specified for Contrast Agents (EZU-CH8)  Components

Software

 Applicable probes

Refer to Appendix

 Display mode

WPI (Wideband pulse inversion) mode CWPI (Color wideband pulse inversion) mode

 Intermittent mode

Monitor mode (possible to shot manually) Multi-shot mode (2~16 shot, total 15 steps)

 Trigger timing

- System clock trigger timing (ECG display off) 

Abdominal

32 steps 0.1s ~ 1.0s: 0.1s step - 33 -

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1.5s ~ 10.0s: 0.5s step 11.0s ~ 14.0s: 1s step 

Cardiac

31 steps 0.2s ~ 1.0s: 0.1s step 1.5s ~ 10.0s: 0.5s step 11.0s ~ 14.0s: 1s step

- ECG trigger timing (ECG display on) 32 steps 1 ~ 32 beats, 1 beat step  Acoustic pressure

%Control and MI Control are selectable MI Control : 0～0.5 0.5～

0.01 step 0.05 step

（Max MI value: Depend on probes and focus setting and so on） %Control : 0～100% 34 steps Automatic acoustic pressure control on fundamental image in monitor mode and alternate mode is possible.  Reference frequency (REF)

2 frequencies

 Stopwatch function

-30s ~ 59m59s, for monitoring the time after injection of contrast agent For monitoring the time of image recorded in cine memory.

 Application function

Possible to independently set up each application parameter for contrast imaging

 Multi-step trigger (MST) mode

Possible to make a desirable protocol for contrast imaging by combining freely an intermittent transmission interval and execute it. - Number of registrable protocol Max. 8 protocols - Number of Steps for each protocol Max. 8 steps - Items for registration

Start time, Interval time, Image numbers

- Data Reading, Saving

Applicable

 Flash function

Breaking contrast agent for observing replenishment, Number of flash: 1, 2, 4, 8, 16, 32 frames, total 6 steps

 Intermittent flash mode

- System clock trigger timing (ECG display off) 5, 10, 15, 20, 25, 30, 35, 40s, total 8 steps - ECG trigger timing (ECG display on) 32 steps 1 ~ 32 beats, 1 beat step, total 32 steps  UCI (uniform contrast imaging) function

This function uses the technology of a different aspheric focusing from the conventional focal technique, it can generate uniform acoustic field in the body - 34 -

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 Alternate mode

In dual screen displays in alternate mode, contrast image (left screen) and fundamental image (right screen) are transmitted and displayed alternately, ultrasound contrast agents and anatomy can be observed on real time (applicable in middle and low acoustic pressure transmission mode)

 MTI (microbubble trace imaging) mode

To improve the visibility of running of the contrast agents, the maximum intensity of each frame of the contrast image is overlaid (applicable in middle and low acoustic pressure transmission mode)  Color wideband pulse inversion mode

- Selectable Color overlay mode / Color stand-alone mode - Color map

8 maps

- Smoothing

3 steps

- Dynamic range

45~80 dB, 5 dB steps (can be changed in real-time and frozen)

- Gain

60dB (adjustable in real-time and frozen)

- Scan line density

4 steps

- Receiving filter

3 steps

- Frame rate

3 steps

- Display mode

Selectable triplet ON/OFF (in high acoustic pressure transmission mode)

 Time intensity curve function

- Motion image format

AVI, Motion JPEG

- Applicable mode

B, B/B

- Number of ROIs

Max. 12

- Shapes of ROI

Circle, ellipse, square, rectangle, banana, freehand

- Operation of ROI

Copy, rotate, delete, interpolation

- Display magnification

×1, ×2, ×4

- Review of motion image Review (forward), frame review (forward / backward), review speed (5 steps for each direction), move frame (start frame / end frame) - Analysis result

Display of ROI, graphs and data

- Graph display

Averaged intensity, fitting curve (2 types)

- Data export

Applicable (CSV format)

(Notice) :Up and Down display of B mode can not be selected, when an applicable application of EZU-CH8 is selected.

3.2.16. WideView Software (EZU-WS8)  Components

Software

 Applicable probes

Refer to Appendix

 Operating condition

B / CFM-B single display

 Display mode

WideView display, cine playback display

 Display functions

Zoom, Panning, Rotation - 35 -

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 Measurement function

B mode measurement (except for histogram and CFM VELO)

(Notice) : EZU-DCP3 is required for EZU-WS8. (Notice) : Capture operation by foot switch can be done by connecting EZU-FS2.

3.2.17. Stress Echo Software (EZU-SE6)  Components

Software

 Specifications

- Applicable mode

B mode (single image display)

- Database

Patient Information, Stress examination information (Images, WMS report)

- Protocol

Conformity with ASE (American Society of Echocardiography), user programmable

- Capture functions

Max. 12 stages, Max. 10 loop/time, selectable capture area, R-R capture

- Playback functions

Multiple-display simultaneous playback (automatic synchronizer), standard playback, frame by frame playback, reverse display, display of selected images

- Full disclosure mode

User can continuously acquire loops for a certain time (mostly 2 minutes) Later, in select mode, the user can select the appropriate views

- Gain and ROI save function Gain setting and the ROI position of the previous stage are saved and applied for the next stage - Image input signal

Digital YUV

- Measurement function

LV volume measurement

- Report function

WMS report, LV volume measurement report, user comment

- Print

B/W, color

- Protocol setting

By protocol editor

- Image data export

Applicable (BMP, AVI)

- Setting for destination of the image to save By archive tool (Notice) : EZU-DCP3 and EZU-EK28 are required for EZU-SE6. (Notice):

Not available to EZU-SE6 when selecting U/D the Image Split.

(Notice) : Capture operation by foot switch can be done by connecting EZU-FS2.

3.2.18. Three-dimensional display unit (Real-Time) (EZU-4D7)  Components

Software (Real time 3D software), MTDRV PCB, MTBP PCB

 Applicable probe

Refer to Appendix

 Display mode

- ROI setting mode

Displays the ROI that specifies the 3D image creation area on the 2D image

- 3D mode

Real-time 3D image is displayed on 1 screen. - 36 -

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- 2D-3D mode

Screen is vertically divided into two sides. The ROI setting mode is displayed on the left side and the 3D mode on the right side

- MPR 4 screen mode

Screen is vertically and horizontally divided into four. 3D image is displayed on the lower right, while the random orthogonal 3 cross-section surface images are displayed on the other sections

- MPR 1 screen mode

One of the orthogonal 3 cross-section surface image in MPR 4 screen mode is displayed on 1 screen

- Multi Slice multi screen mode Screen is divides into multi (2, 4, 9, 16) sections. A reference image is

displayed on the upper left section, and the slice images are displayed on the other sections. - Multi Slice 1 screen mode

The selected slice image from Multi Slice multi screen mode is displayed on 1 screen.  HI Definition 3D

By one swing scanning at a speed that is slower than real time 3D, and high-definition 3D image or MPR image is displayed.

Applicable to CFM mode (CFI, CFA and Fine Flow except for color maps for displays of velocity variance)  Rendering mode

B/W - Opacity - MIP (Maximum Intensity Projection) - mIP (minimum Intensity Projection) - Transparency - Inversion - Orthogonal - Opac. Advanced - 4Dshading Color - Opacity - MIP (Maximum Intensity Projection) - Transparency - Orthogonal  Quality settings

- Image quality

Real-time 3D

6 steps

HI Definition 3D 3 steps B/W - Brightness 

3D image

17 steps (-8 ~ 8, except rendering mode: Orthogonal)



MPR image

17 steps (-8 ~ 8) - 37 -

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- Color 

3D color

37 types (except rendering mode: Orthogonal, Opac.Advanced, and 4Dshading)



MPR color

37 types



Depth color

14 types (rendering mode: Opac.Advanced)

- Shading

6 steps (rendering mode: opacity, Opac.Invert, or Opac.Advanced)

- Filter

20 steps (rendering mode: opacity, Opac.Invert, Opac.Advanced,, or 4Dshading)

- Threshold

256 steps (rendering mode: opacity, Opac.Invert, Opac.Advanced, or 4Dshading)

- Smoothing

8 steps (rendering mode: opacity, Opac.Invert, or Opac.Advanced)

- P-Filter

8 steps (rendering mode: MIP or mIP)

- BW 3D Smooth.

3 types (rendering mode: 4Dshading)

- 3D Smooth Coef

11 types (rendering mode: Opac.Advanced, or

- Depth Contrast

40 types (rendering mode: Opac.Advanced)

- Depth Color Shift

127 types (rendering mode: Opac.Advanced)

- Region Map

9 types (rendering mode: 4Dshading)

- Absorption

10 types (rendering mode: 4Dshading)

- Hue

4 types (rendering mode: 4Dshading)

- Shadow Smooth

10 types (rendering mode: 4Dshading)

- Light Intensity

5 types (rendering mode: 4Dshading)

- Lighting Reso.

4 types (rendering mode: 4Dshading)

- Transp. Level

8 types (rendering mode: 4Dshading)

4Dshading)

Color - Combination

B/W and CFM image combination / only B/W image / only CFM image (only CFM image is impossible when rendering mode is Orthogonal)

- Blend

100 steps (except rendering mode: Orthogonal)

- Brightness 

3D image

17 steps (-8 ~ 8, except rendering mode: Orthogonal)



MPR image

17 steps (-8 ~ 8) (except CFI mode)

- Shading

6 steps (rendering mode: opacity except CFI mode)

- Filter

5 steps (rendering mode: only opacity)

- Threshold

256 steps (rendering mode: only opacity )

- Smoothing

8 steps (rendering mode: only opacity)

- P-Filter

8 steps (rendering mode: only MIP)

 Operations

- Rotation

By trackball and encoder

- View Line

The cut-line of arbitrary curvature can be specified on 2D image

- Sliding, Plane cut

Max. 14 planes by trackball (only in frozen, except rendering mode: Orthogonal) - 38 -

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Image operations: both B/W and CFM images / only B/W image - Cut function

The arbitrarily specified part of 3D image can be dug (only in frozen, except rendering mode: Orthogonal) Image operations: both B/W and CFM images / only B/W image

- Zoom

1.0~4.0 (0.25 steps)

- Z Adjust

10 steps

- Image filing

3D volume data, Real-time 3D mode single images (such as BMP) and multi images (such as AVI) can be saved Saved images can be played back from the image filing screen, as with regular 2D images Image pre-cutted by ViewLine and full image can be switched

- Cine memory

3D images can be saved in the cine memory and played back

- PSS function

Using the 3D PSS (3D Preset Scanning Selector) function

- Intelligent Surface Tracking Set ViewLine automatically - Volume Slice Imaging

Display a thick cross-sectional image From 0mm (OFF) to 20mm. 24 steps.

 Measurement

Distance, area, circumference, volume etc. can be measured on 2D image, MPR image or Multi Slice image.

 User-defined screen button

The items of 3D screen button menu and image adjustment screen button menu are registerable

3.2.19. Three-dimensional Display Software (STIC) (EZU-4DST2)  Components

Software (STIC software)

 Applicable probe

Refer to Appendix

 Display mode

Same as EZU-4D7 (except 2D-3D mode)

 Rendering mode

Same as EZU-4D7

 Quality settings

- Scan time

4 steps (7.5, 10, 12.5, 15s)

- Color MAP

Variance maps are available.

Same as EZU-4D7 excluding the above-mentioned  Operations

- Display 3D

Selectable display or hide 3D images

Same as EZU-4D7 excluding the above-mentioned  Measurement

Same as EZU-4D7

 User-defined screen button

The items of image adjustment screen button menu and mode-specific screen button menu are registerable

(Notice) : EZU-4D7 is required for EZU-4DST2.

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3.2.20. Three-dimensional Display Software (Freehand) (EZU-3D8)  Components

Software (Freehand 3D software)

 Applicable probe

Refer to Appendix

 Display mode

- ROI setting mode

Displays the ROI that specifies the 3D image creation area on the 2D image

- 3D mode

3D image is displayed on 1 screen.

- 2D-3D mode

Screen is vertically divided into two sides. The ROI setting mode is displayed on the left side and the 3D mode on the right side

- MPR 4 screen mode

Screen is vertically and horizontally divided into four. 3D image is displayed on the lower right, while the random orthogonal 3 cross-section surface images are displayed on the other sections

- MPR 1 screen mode

One of the orthogonal 3 cross-section surface image in MPR 4 screen mode is displayed on 1 screen

 Rendering mode

B/W - Opacity - MIP (Maximum Intensity Projection) - mIP (minimum Intensity Projection) - Transparency - Inversion - Orthogonal - Cube - Opac. Advanced - 4Dshading Color - Opacity - MIP (Maximum Intensity Projection) - Transparency - Orthogonal - Cube  Quality settings

B/W - Brightness 

3D image

17 steps (-8 ~ 8, except rendering mode: Orthogonal and Cube)



MPR image

17 steps (-8 ~ 8)

- Color 

3D color

37 types (except rendering mode: Orthogonal, Cube and, Opac.Advanced, 4Dshading) - 40 -

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

MPR color

37 types

- Shading

6 steps (rendering mode: opacity, Opac.Invert, or Opac.Advanced)

- Filter

20 steps (rendering mode: opacity, Opac.Invert, Opac.Advanced,, or 4Dshading)

- Threshold

256 steps (rendering mode: opacity, Opac.Invert, Opac.Advanced, or 4Dshading)

- Smoothing

8 steps (rendering mode: opacity, Opac.Invert, or Opac.Advanced)

- P-Filter

8 steps (rendering mode: MIP or mIP)

- BW 3D Smooth.

3 types (rendering mode: 4Dshading)

- 3D Smooth Coef

11 types (rendering mode: Opac.Advanced, or

- Depth Contrast

40 types (rendering mode: Opac.Advanced)

- Depth Color Shift

127 types (rendering mode: Opac.Advanced)

- Region Map

9 types (rendering mode: 4Dshading)

- Absorption

10 types (rendering mode: 4Dshading)

- Hue

4 types (rendering mode: 4Dshading)

- Shadow Smooth

10 types (rendering mode: 4Dshading)

- Light Intensity

5 types (rendering mode: 4Dshading)

- Lighting Reso.

4 types (rendering mode: 4Dshading)

- Transp. Level

8 types (rendering mode: 4Dshading)

4Dshading)

Color - Combination

B/W and CFM image combination / only B/W image / only CFM image (only CFM image is impossible when rendering mode is

Orthogonal or

Cube) - Blend

100 steps (except rendering mode: Orthogonal and Cube)

- Brightness 

3D image

17 steps (-8 ~ 8, except rendering mode: Orthogonal and Cube)



MPR image

17 steps (-8 ~ 8) (except CFI mode)

- Shading

6 steps (rendering mode: opacity except CFI mode)

- Filter

5 steps (rendering mode: only opacity)

- Threshold

256 steps (rendering mode: only opacity )

- Smoothing

8 steps (rendering mode: only opacity)

- P-Filter

8 steps (rendering mode: only MIP)

 Operations

- Rotation

By trackball and encoder

- View Line

The cut-line of arbitrary curvature can be specified on 2D image

- Sliding, Plane cut

Max. 14 planes by trackball (only in frozen, except rendering mode: Orthogonal) Image operations: both B/W and CFM images / only B/W image (both B/W and CFM image is only possible when rendering mode is Cube)

- Cut function

The arbitrarily specified part of 3D image can be dug (only in frozen, except - 41 -

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rendering mode: Orthogonal and Cube) Image operations: both B/W and CFM images / only B/W image - Zoom

1.0~4.0 (0.25 steps)

- Image filing

3D volume data, Real-time 3D mode single images (such as BMP) and multi images (such as AVI) can be saved Saved images can be played back from the image filing screen, as with regular 2D images Image pre-cutted by ViewLine and full image can be switched

- PSS function

Using the 3D PSS (3D Preset Scanning Selector) function

 Measurement

Not applicable

 User-defined screen button

The items of 3D screen button menu and image adjustment screen button menu are registerable

3.2.21. Remote Control Unit (EZU-RH4)  Components

Remote control, battery charger

 Size

185 (H) × 76 (W) × 22.5 (T) mm

 Weight

220 g

 Continuous use time

Approx.5 hours (on a full charge)

 Charging time

Approx. 3 hours

 Battery

Lithium-ion battery

 Transmission method

Infrared communication

 Coverage range

Within 3 m

 Waterproofing

Applicable

 Plasma sterilization

Applicable

 Remote control function

B/CFM/PW mode changes, B/CFM/PW gain adjustment, REF changes, focus position changes, PRF changes, depth changes, freeze ON/OFF, caliper, Single Image recording, movie recording, print out, orientation, trackball priority, display changes,Picture in Picture settings, Remote user key1, Remote user key2 (User defined)

(Notice) : EZU-RiF5 is required for EZU-RH4. (Notice) : EZU-PP5 is required for “Picture in Picture display change.”

3.2.22. Remote Control Interface Unit (EZU-RiF5) This is the optical receiver installed in the ultrasound diagnostic scanner (main unit) for making to work remote control unit EZU-RH4.  Components

KBIF PCB

3.2.23. Picture in Picture Software (EZU-PP5)  Components

Software - 42 -

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 Input signal

Y/C

 Applicable probes

All probes

 Display mode

- Full screen display - Dual screen display

Probe : FG series, EG series, EB series, EUP-OL531 Mode : B, CFM, Elasto

- Small screen display  Display position

- Dual screen display

L/R preset can be possible

- Small screen display

Four corners preset can be possible, display position can be changed in real-time

 Display ON/OFF

Applicable

 Cine playback

Applicable only US images

 Movie recording

Applicable

(Notice) : EZU-ACP2 and EZU-ViF2 are required for EZU-PP5.

3.2.24. Network Interface Unit (EZU-NW1)  Components

LAN cable

 Specifications

Ethernet 10/100 Base-T (IEEE802.3)

3.2.25. Analog Capture Card Unit (EZU-ACP2)  Components

Analog capture card, cables, Driver software

3.2.26. Digital Capture Card Unit (EZU-DCP3)  Components

Digital capture card, cables, Driver software

3.2.27. Video Interface Unit (EZU-ViF2)  Components

TVIF unit, cables

 Specifications

RGC output Y/C input and output (Only connector for input) Brightness signal Remote control output for BE printer Audio input and output

3.2.28. Expanded USB Unit (EZU-UP2)  Components

Expanded USB Unit

 Specifications

- Number of USB ports

2 ports

- 43 -

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3.2.29. External LCD Monitor Unit (EZU-EL2)  Components

DVI Connector Unit

 Specifications

- Video signal

DVI-D

- Resolution

SXGA(1280x1024)

3.2.30. Jelly Warmer Unit (EZU-JW1)  Components

Jelly Warmer, Power cable

3.2.31. Alpha numeric keyboard Unit (EZU-AK1E)  Components

Alphanumeric keyboard unit, Lock screw, Hexagon socket head bolt M6X30

3.2.32. High Neck Unit (EZU-HN1)  Components

High Neck Unit

3.2.33. Probe Hanger (EZU-TH7)  Components

Probe Hanger

3.2.34. Processor Tray (EZU-TY3)  Components

Processor tray

(Notice):

EZU-HN1 is required for EZU-TY3.

(Notice):

When you install EZU-TY3 (processor tray) onto the equipment, peripherals other than the video processor made by HOYA cannot be installed.

3.2.35. Junction Box (PUN-JBP1)  Components

Junction box

 Outside dimension

150 (W) × 118.5 (D) × 110.5 (H) mm

 Weight

Approx. 900 g

3.3. Power requirements  Input voltage

100/110 120, 220～240VAC ± 10%

 Frequency

50 / 60 Hz

 Auxiliary AC outlet

350VA (peripheral devices)

 Consumption

Max. 1.5kVA (include 350VA for AC outlet)

 Outlet

The 3-wire power outlet which has a protective earth terminal (with less than 10Ω grounding resistance) of the grounding facility.

- 44 -

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3.4. Environment conditions  Temperature

10 ~ 35°C

 Relative humidity

30 ~ 85% RH (No dew condensation)

 Atmospheric pressure

700 ~ 1060hP

3.5. Exterior view  Outside dimension - 450 (W) x 700 (D)

(with EZU-MT29-S1)

x 1350 (H) mm - 450 (W) x 700 (D)

(with EZU-MT29-S1 and EZU-HN1)

x 1430 (H) mm - 450 (W) x 700 (D)

(with EZU-MT30-S1)

x 1400 (H) mm - 450 (W) x 700 (D)

(with EZU-MT30-S1 and EZU-HN1)

x 1480 (H) mm  Weight - Approx. 125kg

(standard configuration with EZU-MT29-S1)

- Approx. 127kg

(standard configuration with EZU-MT29-S1 and EZU-HN1)

- Approx. 130kg

(standard configuration with EZU-MT30-S1)

- Approx. 132kg

(standard configuration with EZU-MT30-S1 and EZU-HN1)

 Monitor

17 inch digital LCD monitor 1280 x 1024 Non interlace

 LCD Monitor Arm - simple arm

Angle:

- flexible arm

Height: adjustable approx. 18cm Angle:

adjustable 2 directionｓ adjustable 4 directionｓ

 Caster

Swivel・lock /brake

 Probe connector

4 probes (3 probes available, 1 probe rest)

 Jelly wormer

Applicable (Option)

 Handle for movement

Rear side .

- 45 -

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1350 820 450

700

900

1430

Body dimension (with EZU-MT29-S1)

450

700 Unit: mm Body dimension (with EZU-MT29-S1 and EZU-HN1)

- 46 -

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1400 820 450

700

900

1480

Body dimension (with EZU-MT30-S1)

450

700

Unit: mm

Body dimension (with EZU-MT30-S1 and EZU-HN1) E - 47 -

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