Shenzhen mindray Z6 Vet Operator's Manual

Diagnostic ultrasound system

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Z6 Vet

Diagnostic Ultrasound System

Operator's Manual

[Basic Volume]

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Page 1 Z6 Vet Diagnostic Ultrasound System Operator’s Manual [Basic Volume]...
Page 3: Table Of Contents
Contents Intellectual Property Statement ...................... I Responsibility on the Manufacturer Party..................I Warranty ............................II Exemptions ..........................II Customer Service Department ....................III Important Information ........................III About This Manual ........................IV Notation Conventions ........................IV Operator’s Manuals ........................IV Manuals on Paper ........................
Page 4 3.4.1 Connecting a Probe ....................3-4 3.4.2 Disconnecting a Probe ..................... 3-4 Connecting the Footswitch....................3-5 Connecting/ Removing a USB Storage Device ..............3-5 Graph / Text Printer ......................3-5 Digital Video Printer ......................3-9 Analog Video Printer ......................3-9 3.10 External DVD ........................
Page 5 5.8.1 Enter Color M Mode ....................5-21 5.8.2 Exit Color M Mode ....................5-21 5.8.3 Color M Mode Image Parameters ................5-21 Anatomical M Mode (Free Xros M) ................5-22 5.9.1 Free Xros M Image Parameters ................5-22 5.9.2 Exit Free Xros M ....................5-22 5.10 3D/4D..........................
Page 6 7.2.3 Doppler General Measurements ................7-3 Application Measurement ....................7-3 Measurement Accuracy ....................7-4 Comments and Body Marks ..................8-1 Comments ........................8-1 8.1.1 Comment Basic Procedures ..................8-1 8.1.2 Comment Menu ....................... 8-1 8.1.3 Adding Comments....................8-2 8.1.4 Moving Comments ....................8-3 8.1.5 Editing Comments ....................
Page 7 10.3.1 Storage ........................ 10-10 10.3.2 Print ........................10-11 10.3.3 Worklist ........................ 10-12 10.3.4 MPPS ........................10-14 10.3.5 Storage Commitment ................... 10-14 10.3.6 Query/Retrieve ..................... 10-15 10.4 DICOM Media Storage ....................10-16 10.5 DICOM Task Manager ....................10-17 11 Setup........................11-1 11.1 System Preset ........................
Page 8 13.6 Checking Battery Performance ..................13-4 13.7 Battery Disposal ......................13-4 14 Acoustic Output ...................... 14-1 14.1 Concerns with Bioeffects ....................14-1 14.2 Prudent Use Statement....................14-1 14.3 ALARA Principle (As Low As Reasonably Achievable) ........... 14-1 14.4 MI/TI Explanation ......................14-2 14.4.1 Basic Knowledge of MI and TI ................
Page 9: Intellectual Property Statement
©2012-2018 Shenzhen Mindray Bio-Medical Electronics Co., Ltd. All rights Reserved. For this Operator’s Manual, the issue date is 2018-01. IMPORTANT! The system is for veterinary use only. The following label applies to U.S.A. only. Intellectual Property Statement SHENZHEN MINDRAY BIO-MEDICAL ELECTRONICS CO., LTD. (hereinafter called Mindray) owns the intellectual property rights to this Mindray product and this manual.
Page 10: Warranty
Mindray is responsible for the effects on safety, reliability and performance of this product, only if:  all installation operations, expansions, changes, modifications and repairs of this product are conducted by Mindray authorized personnel;  the electrical installation of the relevant room complies with the applicable national and local requirements;...
Page 11: Customer Service Department
Department Customer Service Manufacturer: Shenzhen Mindray Bio-Medical Electronics Co., Ltd. Address: Mindray Building,Keji 12th Road South,High-tech industrial park,Nanshan,Shenzhen 518057,P.R.China Website: www.mindray.com E-mail service@mindray.com Address: Tel: +86 755 81888998 Fax: +86 755 26582680 Shanghai International Holding Corp. GmbH(Europe) Representative: Eiffestraβe 80, Hamburg 20537, Germany...
Page 12: About This Manual
About This Manual This operator’s manual describes the operating procedures for this diagnostic ultrasound system Z6 Vet and the compatible probes. To ensure safe and correct operations, carefully read and understand the manual before operating the system. Notation Conventions In this operator’s manual, the following words are used besides the safety precautions (refer...
Page 13  Operation Note: Contains quick guide for basic operations of the system. NOTE: 1. The manuals in CD are the manuals translated into languages other than English according to English manuals. 2. When you find that the contents of the manuals in CD are NOT consistent with the system or English manuals, please ONLY refer to the corresponding English manuals.
Page 14: Software Interfaces In This Manual
Software Interfaces in this Manual Depending on the software version, preset settings and optional configuration, the actual interfaces may be different from those in this manual. Conventions In this manual, these conventions are used to describe the buttons on the control panel, the items in menu, buttons in dialog box and some basic operations: ...
Page 15: Safety Precautions
Safety Precautions Safety Classification  According to the type of protection against electric shock: CLASS I EQUIPMENT  According to the degree of protection against electric shock: Type-BF applied part  According to the degree of protection against harmful ingress of water: Main unit: IPX0 Probes: IPX7 Footswitch: 971-SWNOM (2-pedal or 3-pedal) belongs to IP68 and FS-81-SP-2 (1-pedal)
Page 16: Meaning Of Signal Words
Meaning of Signal Words DANGER WARNING ”, “ ”, “ ”, CAUTION In this manual, the signal words" “NOTE” and "Tips" are used regarding safety and other important instructions. The signal words and their meanings are defined as follows. Please understand their meanings clearly before reading this manual.
Page 17: Safety Precautions
Safety Precautions Please observe the following precautions to ensure animal and operator’s safety when using this system. DO NOT use flammable gasses, such as anesthetic gas or DANGER: hydrogen, or flammable liquids such as ethanol, near this system, because there is danger of explosion. Do connect the power plug of this system and power plugs WARNING: of the peripherals to wall receptacles that meet the ratings...
Page 18 DO NOT allow the animal to contact the live parts of the ultrasound system or other devices, e.g. signal I / O ports. Electric shock may occur. Do not use an aftermarket probe other than those specified by Mindray. The probes may damage the system causing a profound failure, e.g.
Page 19 Malfunctions due to radio wave:  If a radio wave emitting device is used in the proximity of this system, it may interfere with operations. Do not bring or use devices that generate radio waves, such as cellular telephones, transceivers, and radio controlled toys, in the room where the system is installed.
Page 20 The system and its accessories are not disinfected or sterilized prior to delivery. The operator is responsible for the cleaning and disinfection of transducers and sterilization of biopsy brackets according to the manuals, prior to the use. All items must be thoroughly processed to completely remove harmful residual chemicals, which will not only harmful to the human body, but also damage the accessory.
Page 21 To avoid damaging the system, DO NOT use it in following environment: (1) Locations exposed to direct sunlight; (2) Locations subject to sudden changes in environmental temperature; (3) Dusty locations; (4) Locations subject to vibration; (5) Locations near heat generators; (6) Locations with high humidity.
Page 22 The ultrasonic probe must be used only by qualified professionals. Confirm that the probe and cable are normal before and after each examination. Electrical shock may result from a defective probe. Do not subject the probe to shock. A defective probe may cause electric shock to the animal.
Page 23 The probe sheath contains natural rubber that can cause allergic reactions in some individuals. Do not use pre-lubricated condoms as a sheath. Lubricant may not be compatible with the transducer material and damage may result. Transducer damage may be caused by inappropriate gel, detergent or cleanser: Do not soak or saturate transducers with solutions containing...
Page 24: Latex Alert
Latex Alert When choosing a probe sheath, it is recommended that you directly contact CIVCO for obtaining probe sheath, pricing information, samples and local distribution information. For CIVCO information, please contact the following: CIVCO Medical Instruments Tel: 1-800-445-6741 WWW.civco.com Allergic reactions in latex (natural rubber) sensitive animals may WARNING: range from mild skin reactions (irritation) to fatal anaphylactic shock, and may include difficulty in breathing (wheezing),...
Page 25: Warning Labels
Warning Labels The warning labels are attached to this system in order to call your attention to potential hazards. The warning labels use the same signal words as those used in the operator’s manual. Read operator’s manual carefully before using the system. The name, pattern and meaning of each warning label are described as follows: No.
Page 27: System Overview
System Overview Intended Use The Diagnostic Ultrasound System is intended for use in abdomen, thoracic, cardiac, tendon, small parts, eyeball and reproductive system for animals such as dog, cat, equine, bovine and ovine. etc. Contraindication None. Product and Model Code Model code Product code The functions described in the operator’s manual may vary depending upon the...
Page 28: Power Supply
2.4.2 Power supply Voltage 100-240V～ Frequency 50/60Hz Input Power 1.5-0.8A Fuse 250V~ T3.15AH 2.4.3 Environmental Conditions Operational Conditions Storage and Transportation Conditions Ambient 0℃～40℃ -20℃～55℃ temperature Relative 30%～85% (no condensation) 30%～95% (no condensation) humidity Atmospheric 700hPa～1060hPa 700hPa～1060hPa pressure Do not use this system in the conditions other than those WARNING: specified.
Page 29 Region Probe model Category Intended Use Applied Reproduction 6CV1P Convex Transrectal Vascular, abdomen, small part, Linear 7L4P Body surface and MSK Small part, abdomen, vascular, Linear 7L5P Body surface and MSK Small part, abdomen, vascular, Linear L14-6P Body surface and MSK Reproduction CB10-4P Convex...
Page 30: Options
Needle-guided Biopsy Angle/ Probe Model Applicable Biopsy Needle Bracket Model Depth (± 1° ) NGB-010 7LT4P 30° , 40° , 50° 13G, 15G, 16G, 18G, 20G Metal/needle detachable NGB-011 11° , 23° 13G, 15G, 16G, 18G, 20G 2P2P Metal/needle un- detachable NGB-016 L14-6P...
Page 31: Peripherals Supported
Item Main ECG cable + 3 lead cable AHA clip + animal clip (American standard) 2.5.4 Peripherals Supported Item Model HP DESKJET INK ADVANTAGE 2020hc Graph / text printer HP OFFICEJET PRO 8100 Color Video Printer Digital: SONY UP-D25MD MITSUBISHI P93W-Z Analog Black and White Video SONY UP-X898MD...
Page 32: Introduction Of Each Unit
Introduction of Each Unit 2-6 System Overview...
Page 33: I/O Panel
Name Function Probe holder Used to place the probe Displays the image and parameters during scanning (tilt angle LCD Display adjustable) Control Panel Refer to the 2.6.3 Control Panel. Lock button (x2) Press to release the control panel while it’s folded Handle Used to carry the machine Interface panel used for inputting and outputting signals, refer...
Page 34: Power Supply Panel
Symbol Function Network port USB ports Separate video output, connecting video printer or LCD Remote control port VGA signal output ECG port Composite video output Power indicator 2.6.2 Power Supply Panel <1> <2> 100-240~ 50/60Hz 1.5-0.8A Name Function Power inlet AC power inlet Used for equipotential connection, that balances the Equipotential terminal...
Page 35: Control Panel
2.6.3 Control Panel Name Description Function Off: when system is turned off; Power button Green: when system is turned on by pressing this button. Exit Press to exit the current status to the previous status. Press to display or hide the help information on Help screen.
Page 36 Name Description Function Biopsy Press to show or hide the biopsy guide line. Setup Press to open/close the setup menu. Press to delete the comment, etc. Alphanumeric Same as on PC keys Press to enter Dual mode from non-Dual mode; Dual-split Dual screen...
Page 37 Name Description Function Rotate: to adjust the gain Gain/ iTouch Press: to enter/ exit iTouch Move to adjust time gain compensation. Focus Press: to switch between Focus and Freq./THI; Freq./THI Rotate: to adjust corresponding parameter Depth Press: to switch between Depth and Zoom; Zoom Rotate: to adjust corresponding parameter Save 1...
Page 38: Symbols
Symbols This system uses the symbols listed in the following table, and their meanings are explained as well. Symbol Description Type-BF applied part Caution Dangerous voltage Equipotentiality Power button Network port USB ports Video output Remote control port VGA signal output AC (Alternating current) Battery Status Indicator Standby indicator...
Page 39: System Preparation
System Preparation Move/Posit the System Please read and understand the safety precautions before placing the system to ensure safety for both operator and devices. 1. Switch off the power, and pull out the plug. 2. Disconnect the system from all peripherals. 3.
Page 40: Powering On/ Off
Powering ON/ OFF 3.3.1 Powering ON To ensure safe and effective system operation, you must CAUTION: perform daily maintenance and checks. If the system begins to function improperly – immediately stop scanning. If the system continues to function improperly – fully shut down the system and contact Mindray Customer Service Department or sales representative.
Page 41: Powering Off
Check Item There shall be no evident excessive noise, discontinuous, absent or black <3> artifacts in the B Mode image. Check if there is abnormal heat on the surface of the probe during an <4> ultrasound procedure. <5> The control panel keys and knobs are fully functional. The exam date and time are the same as the system date and time, and are <6>...
Page 42: Connecting / Disconnecting A Probe
After the software upgrade, please shut down the system in the normal way (using “Shut down” method) so as to guarantee a fully update. Connecting / Disconnecting a Probe When connecting or disconnecting a probe, place it in a CAUTION: proper position, to prevent the probe from falling off or becoming damaged.
Page 43: Connecting The Footswitch
Connecting the Footswitch Connect the footswitch to the main unit via a USB port. Set the functions of the footswitch in the [Key Config] page. Refer to "11.1.5 Key Config" for details. Connecting/ Removing a USB Storage Device DO NOT detach an USB storage device directly; otherwise, WARNING: the ultrasound system or the USB device and/ or data stored in the device may be damaged.
Page 44 2. Plug the other end power plug into an appropriate outlet. 3. Power on the system and the printer. 4. Check the printer status: Enter [Setup]-> [Print Preset]->“Printer Driver” page, printers that are installed  automatically will be displayed in the list with the “Status” of “Ready”. 5.
Page 45 6. Click [Save] to finish the installation. Tips: Click [Printer Driver]->[Printer Supported] to view the drivers of some popular printers that have already been integrated in the system.These drivers will be installed automatically. You need to check the following information to check if the auto-installation fails: ...
Page 46 4. Click [Verify Net Printer], the IP address, name and port information of the network printer will be displayed under the “Port” box. Change the port to match the verified printer information if necessary. 5. Click [OK] to enter the ppd installing screen: ...
Page 47: Digital Video Printer
Click [Print] in the report dialog box to print a report; or, use the user-defined key to print, see "11.1.5 Key Config" for details.Please refer to the accompanying manuals of the printers for more details. Digital Video Printer  Install a local printer 1.
Page 48: External Dvd
5. Add a print service. (1) Open [Setup]-> [Print Preset]->[Print Service]. (2) Click [Add Service] to enter the following page. (3) Select the service type as "Digital Image Print" and enter the service name manually. (4) Click OK to return to the Printer Service page. (5) Set the items in the Property box and click [Save] to save the settings.
Page 49: Basic Screen And Operation
3.11 Basic Screen and Operation 3.11.1 Basic Screen The following diagram maps out the different areas in the screen: Hospital name Accession# Animal Information Freeze Logo Operator Exam time icon Probe Acoustic power, MI/TI Product Mode Exam Mode Image Parameters Menu area Image area Thumbnail...
Page 50  Thumbnail preview & Zoom Window (image-in-image) In the zoom status, this area displays the thumbnail of a complete image, and a rectangular frame is used to highlight the currently magnified area. This feature is called image-in-image.  Help information area The help information area displays various help information or progress bar in the current status.
Page 51: Basic Operations Of Screens
3.11.2 Basic Operations of Screens Title Contents Control button Composition Description The title bar is used to give a description for the content and Title Bar function of the screen. Use the selection pointer and <Set> key to open / close the Page Tab available pages.
Page 53: Exam Preparation
Exam Preparation Before examining a new animal, press <End Exam> to end the CAUTION: exam of the previous animal, update the animal ID and information, to avoid mixing data of the next new animal. Start an Exam You can start an animal exam in the following situations: ...
Page 54 Place the cursor onto the targeted box. The field box is highlighted and a flashing cursor appears. Information can be entered or selected from the options. You can also change the cursor position by <Tab>, <Enter> or up/down controls Information includes: 1.
Page 55  Auto generated age: once the DOB is gotten, the system can display an auto- generated age in the field box, the unit can be “Years”, “Months” or “Days”. If the age is less than one year, the system will automatically calculate the age in months or days.
Page 56: Retrieve Animal Information
Exam Type Information Description RA Press Right Atrium Pressure BP(L) Input left blood pressure. VAS (Vascular) BP(R) Input right blood pressure. SMP (Small None Parts) 3. Operating Information  Ref. Physician: the people who requires the operator to do the ultrasound operation. “\”, “^”...
Page 57 2. Select the data source: Select the data source in the drop-down list of "Data Source". 3. Input the searching condition: Item: including Name, ID, DOB and Exam Date, the default one is name; then enter a keyword in accordance with the Item selected. Select “Find in results”, the system will search the keyword based on the existed ...
Page 58: Select Exam Mode And Probe
Button Function Description Delete Click to delete the selected record. Exam Backup Click to export the selected animal data to media supported. Exam Restore Click to import the animal data from an external media. Exam Send Click to send the selected animal data to external device, Exam DICOM storage server or DICOM printer.
Page 59: Selecting Imaging Mode
(2) Roll the trackball and press <Set> to select the exam mode, and use the direction keys to turn pages of the exam modes.  To save the image parameters for the current exam mode quickly: Click [QSave] to save the image parameters in the current image mode as presets. A dialogue box pops up to prompt you the operation will cover the current image preset data.
Page 60: Activate& Continue An Exam
Activate& Continue an Exam 4.5.1 Activate an Exam Select an exam finished within 24 hours, select the exam record, click from the menu popped up; or, click [Active Exam] in “iStation” or “Review” screen to activate the exam. Note:  The system can automatically load the animal information and exam data to continue the exam.
Page 61: Image Optimization
Image Optimization The images displayed in this system are only reference for WARNING: diagnosis. Mindray is not responsible for the correctness of diagnostic results. It is the responsibility of the clinician, who performs the exam, to capture the correct diagnostic results.
Page 62: Switching Between Image Modes
5.1.1 Switching Between Image Modes Switch the image modes referring “2.6.3 Control Panel”. Basic Operations Before optimizing the image by adjusting image parameters, adjust the brightness and contrast of the display to the best. Requirement Available Operations Adjust gain Adjust TGC To modify the brightness Adjust [A.
Page 63: B Mode Parameters
3. Adjust parameters to optimize the image. 4. Perform other operations (e.g. measurement and calculation) if necessary. In real-time scanning of all image modes, press <B> on the control panel to return to B mode. 5.3.2 B Mode Parameters In B mode scanning, the image parameter area in the upper left corner of the screen displays the real-time parameter values as follows: Display iClear iBeam iTouch...
Page 64 Frequency Description This function is used to select the operating frequency of the current probe, the real-time value of which is displayed in the image parameter area in the upper left corner of the screen, where “F” represents B mode frequency, and “FH”...
Page 65 Steer This function is to steer the beam transmitted by the probe. Adjust it by pressing <Steer> key on the control panel or click [Steer] on the image menu. The steering angles provided are: -6, 0, 6° . Steer is available only for linear probes. ExFov Click [ExFov] on the image menu to turn on/off the function.
Page 66 Effects Persistence can remove image noise to make details to be clearer. Impacts Persistence increase may lead to signal missing. Invert Description This function provides a better observation for image display. Invert To invert the image horizontally or vertically. Click [L/R Flip] or [U/D Flip] in the menu to invert the image. When you flip or rotate an image, the “M”...
Page 67: M Mode
Description The TSI function is used to optimize the image by selecting acoustic speed according to tissue characteristics. Operation Select among the TSI modes through the [TSI] item in the menu; The system provided 4 ways of optimization for specific tissues: general, muscle, fluid and fat.
Page 68: M Mode Parameters
5.4.2 M Mode Parameters  In M mode scanning, the image parameter area in the upper left corner of the screen displays the real-time parameter values as follows: Display Frequency Depth M Dynamic Range M Gain Parameter speed  During M mode imaging, you can switch between B and M menu from the menu title. ...
Page 69: Color Mode Image Optimization
Tint Map Description Colorize function provides an imaging process based on color difference rather than gray distinction. Operation Select the colorize map through the [Colorize Map] item in the menu; The system provides 16 different maps to be selected among. Impacts The function is available in real-time imaging, freeze or cine review status.
Page 70: Color Mode Exam Protocol
5.5.1 Color Mode Exam Protocol 1. Select a high-quality image during B mode scanning, and adjust to place the area of interest in the center of the image. 2. Press <Color> to enter B+Color mode. Use the trackball and <Set> to change position and size of the Region of Interest (ROI).
Page 71 Effects This function is used to adjust the scan angle of linear probes, so as to change the angle between the transmitting beam and flow direction. Impacts Steer is valid only for linear probes. Scale Description This function is used to adjust the speed range of color flow, which is adjusted through PRF in the system.
Page 72 Operations Click the [Packet Size] item on the image menu to adjust the value. There are 4 levels of packet size available, 0 represents no packet size control and the bigger the value the higher the sensitivity. Effects The higher the packet size, the more sensitive indication for low-velocity flow. Impacts Adjusting the packet size may lead to frame rate changing.
Page 73: Power Mode Image Optimization
Effects The higher the line density, the higher the resolution. Impacts The higher the line density, the lower the frame rate. ROI Adjustment Description This function is to adjust the width and position of ROI in Color mode. Operations When the ROI box is dotted line, roll the trackball to change the size. When the ROI box is solid line, roll the trackball to change the position.
Page 74: Power Mode Image Optimization
5.6.3 Power Mode Image Optimization Power Gain Description Refers to the overall sensitivity to flow signals, and this function is used to adjust the gain in Power mode. The real-time gain value is displayed in the image parameter area in the upper right corner of the screen.
Page 75: Pw/Cw Doppler Mode
PW/CW Doppler Mode PW (Pulsed Wave Doppler) mode or CW (Continuous Wave Doppler) mode is used to provide blood flow velocity and direction utilizing a real-time spectral display. The horizontal axis represents time, while the vertical axis represents Doppler frequency shift. PW mode provides a function to examine flow at one specific site for its velocity, direction and features;...
Page 76: Pw/Cw Mode Image Parameters
5.7.2 PW/CW Mode Image Parameters In PW/CW mode scanning, the image parameter area in the upper right corner of the screen displays the real-time parameter values as follows: Parameter Angle Meaning Frequenc Gain Wall Filter SV Position Angle Size  When you adjust the depth of the B mode image, related changes will occur in PW/CW mode image as well.
Page 77: Pw/Cw Mode Image Optimization
5.7.3 PW/CW Mode Image Optimization Gain Description This function is intended to adjust the gain of spectrum map. The real-time gain value is displayed in the image parameter area in the upper right corner of the screen. Operations Rotate the [Gain/iTouch] knob to adjust the gain. The adjusting range is 0-100.
Page 78 Scale Description This function is used to adjust the speed range of flow, which is adjusted through PRF in the system. The real-time PRF value is displayed in the image parameter area in the upper right corner of the screen. Operations Press the <Scale>...
Page 79 Operations Click the [Speed] item on the image menu. There are 6 levels of scan speed available, the smaller the value the faster the speed. Effects Changing the speed makes it easier to identify the cardiac cycles and to detect more details. Display Format Description To set the display format of PW mode image with B mode image.
Page 80 Operations In real-time scanning, the results displayed are derived from the calculation of latest cardiac cycle; In the freeze and cine status, the results displayed are calculated from the current selected area. Trace Trace Area To set the trace area of the Doppler wave in the spectrum map, applicable for auto calculation.
Page 81: Color M Mode
Color M Mode Color M mode provides information of color flow or tissue on the M mode images to indicate cardiac motion state. It is highly sensitive to the flow or tissue movement. The Color M mode includes Color Flow M mode and Color Tissue M mode. NOTE: The Color M mode is optional.
Page 82: Anatomical M Mode (Free Xros M)
Anatomical M Mode (Free Xros M) Anatomical M Mode and Color Anatomical M mode images are CAUTION: provided for reference only, not for confirming a diagnosis. Please compare the image with that of other machines, or make diagnosis using none-ultrasound methods. For an image in the traditional M mode, the M-mark line goes along the beams transmitted from the probe.
Page 83: Overview
5.10 3D/4D NOTE: 3D/4D imaging is largely environment-dependent, so the images obtained are provided for reference only, not for confirming diagnoses. 5.10.1 Overview Ultrasound data based on three-dimensional imaging methods can be used to image any structure where a view cannot be achieved with the standard 2D-mode and to improve the understanding of complex structures.
Page 84 image Cut plane  ROI size and position Roll the trackball to change the ROI size and position. Press the <Set> key to toggle between setting the size (dotted line) and position (solid line).  Curved VOI adjustment Roll the trackball to change the curved VOI position. Press the <Set> key to switch between the changing ROI and curved VOI states.
Page 85 B window A window 3D window (VR) C window  On the soft menu, select [Current Window: X] to activate the target window. A, B and C sectional images correspond to the following sections of the 3D image.  Section A: corresponds to the 2D image in B mode. Section A is the sagittal section . ...
Page 86: Note Before Use
plane shows the image acquisition where ended. A yellow plane in the wire cage shows the position of the MPR. See the image below: Wire Cage 5.10.2 Note Before Use 5.10.2.1 3D/4D Image Quality Conditions NOTE: In accordance with the ALARA (As Low As Reasonably Achievable) principle, try to shorten the sweeping time after a good 3D image is obtained.
Page 87 To adjust the ROI:  Under acquisition preparation status: roll the trackball to change the ROI size, ROI position and curved VOI, press the <Set> key to toggle between setting the ROI size, ROI position and curved VOI. NOTE: When defining an ROI, try to eliminate useless data so as to reduce the volume data and shorten the time for image storing, processing and rendering.
Page 88 5.10.3.2 Static 3D Acquisition Preparation Description of parameters: Type Parameter Description Function: to set the range for imaging. Angle Range: 10-80° . Parameter Function: to adjust the image quality by changing the line adjusting density. Image quality can affect the imaging speed: the Quality better the image quality, the longer the time.
Page 89  Window A is blue, and the lines (representing MPR A) displayed in the other two windows are also blue.  Window B is yellow, and the lines (representing MPR B) displayed in the other two windows are also yellow. ...
Page 90 View Direction a. U/D b. D/U c. L/R d. R/L e. F/B f. B/F U: Up D Down L: Left R: Right F: Front B: Back Select [Direction] to be [U/D], [L/R] or [F/B] on the menu to select the direction of the above Figure a, c and e.
Page 91 Select [VOI] to turn it to “Off.” The ROI image is displayed on the screen. Roll the trackball to observe the MPR.  Accept VOI 1. This function is usually used for MPR observation and to determine the relative position of the MPR to the VR.
Page 92 Parameter Description To quickly rotate the VR. Quick Rotation Selection: 0° , 90° , 180° , 270° . Tint Switch tint map on/off. Selection: Off, 1-25.  Reset Curve Parameter Description Reset Ori. To reset the volume rotation, shifting and zooming to its original status. Reset Curve To reset the curve to its original status.
Page 93  Auto rotation (1) In 3D viewing mode, tap [Auto Rot.] and the system enters the automatic rotation preparation state. (2) Select [Direction] to be [Left/Right] or [Up/Down] to set the auto rotation direction. (3) Set the Start position and End position: Start position: roll the trackball to view at a certain position.
Page 94 b) When the start point and end point coincide, the region is selected, or press <Set> twice to finish tracing. c) Move the cursor to the region you want to cut and press <Set> again to cut.  Contour a) Press <Set> to position the start point, and roll the trackball to trace the region. b) When the start point and end point coincide, the region is selected, or press <Set>...
Page 95 5.10.4 4D 4D provides continuous, high-volume acquisition of 3D images. During scanning, the probe performs the scanning automatically. 4D image acquisition operations are similar to those of Static 3D. The only difference is that in static 3D mode, only a single frame 3D image is captured, while in 4D mode, continuous, high-volume acquisition of 3D images is provided.
Page 96: Smart 3D
5.10.4.4 4D Image Saving  In 3D viewing mode, press the single image Save key (Save Image) to save the current image to the animal information management system in the set format and image size.  Save clip: in 3D viewing mode, press the user-defined Save key (Save Cine (Retrospective)) to save a CIN-format clip to the hard drive.
Page 97  Linear scanning Move the probe across the surface. See the following figure.  Rocked scanning Rotate the probe once from the left to the right side (or from the right to the left) to include the entire desired region. See the figure. ...
Page 98: Ipage (Multi-Slice Imaging)
5.10.5.3 Smart 3D Image Viewing In VR viewing, the system supports the following functions:  Render setting.  B-mode parameter adjustment.  Setting the display format.  Viewing MPR.  Image zooming.  Rotation.  Image editing.  VR parameter adjustment. ...
Page 99 5.10.6.1 Basic Procedures for iPage 1. Acquire 3D/4D data.  Single-frame VR: 4D mode: freeze the system, then roll the trackball to select the image. Static 3D: an image frame is acquired automatically after the acquisition is completed.  Multi-frame 3D images: acquire multiple 3D images in 4D imaging mode. 2.
Page 100 5.10.6.2 iPage Basic Functions and Operations <9> <10> <11> <7> <8> <12> <4> <1> <5> <6> <2> <3> <1> A plane (the current <2> B plane <3> C plane reference image) <4> Central slice line (current <5> Slice line <6> Space between two slice active slice) lines...
Page 101: Tdi
 Slice order number: indicates the order of the slices. The position of the central slice is “0”, the slices before the central slice are marked with negative integral numbers, and the slices after the central slice are marked with positive integral numbers. ...
Page 102: Basic Procedures For Tdi Imaging
There are 4 types of TDI mode available:  Tissue Velocity Imaging (TVI): This imaging mode is used to detect tissue movement with direction and speed information. Generally the warm color indicates the movement towards the probe, while the cool color indicates the movement away from the probe.
Page 103: Tdi Image Optimization
 TVI/TEI Parameter Meaning Frequency Gain Wall Filter  Parameter Angle Meaning Frequency Gain PRF Wall Filter SV Position SV Size Angle value  Image parameters combine the parameters of TVI mode and M mode. 5.11.3 TDI Image Optimization In each TDI mode, parameters that can be adjusted are similar to those in the color flow modes (Color, PW, and Power);...
Page 104: Image Acquisition
In the acquisition preparation status, click the menu title to enter the B mode image optimization. Do measurement or add comment/body mark to the image if necessary. 4. Image acquisition: Click [iScape] menu title enter the iScape acquisition preparation status. Click [Start Capture] or press <Update>...
Page 105: Iscape Viewing
The system accommodates a reasonable range of motion velocity. Don’t make abrupt  changes in speed of motion.  Deeper scans generally require reduced acquisition speed. 5.12.3 iScape Viewing After completing the image acquisition, the system performs image splicing and then enters the iScape viewing mode.
Page 106: Cine Review
5.12.3.5 Evaluate Image Quality Many variables may affect the overall image quality. It is important to evaluate the image content and quality before an image is used for diagnosis or measurements. NOTE: iScape panoramic imaging is intended for well-trained ultrasound operators or physicians.
Page 107: Elastography
5.13 Elastography Elastography images are provided for reference only, not for CAUTION: confirming diagnoses. Elastography imaging is an option. Linear probe 7L4P under small part and MSK exam modes support the Elastography function. 5.13.1 Basic Procedure for Elastography 1. Perform a B scan to locate the region. 2.
Page 108: Mass Measurement
Operation To adjust the image smoothness. Adjust using the [Smooth] on the soft menu. The system provides 5 levels of smooth function: the bigger the value the stronger the effect. Opacity Description To adjust the opacity feature of the Elasto image. Operation Use [Opacity] on the soft menu.
Page 109: Display & Cine Review
Display & Cine Review Image Display 6.1.1 Splitting Display The system supports dual-split (B/B) and quad-split (4B) display format. However, only one window is active.  Dual-split: press <Dual> key on the control panel to enter the dual-split mode, and using <Dual>...
Page 110: Freeze/ Unfreeze The Image
Freeze the image, press <Depth/Zoom> knob on the control panel to light the Zoom indicator. Image-in-image is displayed. 2. Rotate <Depth/Zoom> knob to change the magnification factor among 0.8-10. 3. Exit:  Press <Depth/Zoom>.  Unfreeze the image, the system exit pan zooming status automatically. 6.1.2.3 iZoom (Full-screen Zooming) Function: to magnify the image in full screen.
Page 111: Cine Review
6.1.3.2 Imaging Display Format Switching When Frozen Image display format switching in freezing mode follows the following principles:  Dual/quad splitting display mode (Press <Freeze> key in dual/quad splitting display mode)  When enters freeze mode, the default activated window is the real-time window before frozen.
Page 112  Manual Cine Review: After entering the cine review of 2D mode, roll the trackball to review the cine images on the screen one by one. If you roll the trackball to the left, the review sequence is reversed to the image-storing sequence, thus the images are displayed in descending order.
Page 113: Cine Review In M/ Pw/ Cw/ Tvd Mode
6.2.3 Cine Review in M/ PW/ CW/ TVD Mode Enter cine review in M/ PW/ CW/ TVD mode, and roll the trackball, the cine images are displayed on the screen one by one. Roll the trackball to the left, the review progress slider moves to the left, the images moves to the right, and the earlier stored images are invoked.
Page 114: Image Compare
Image Compare 6.3.1 Image Compare in Review Mode 1. Press <Review> to enter Review screen, press <Ctrl>+<Set> to select files to be compared. 2. Tip: for B/ B+Color/ B+TVI/ B+Power/ B+TEI mode image, you can select at most 4 images; for PW/M/CW/TVD mode image, you can select at most 2 images.
Page 115: Cine Memory Clear
“Split” indicates the system always splits the cine memory, even if in the single-B  window, the system splits the cine memory into two as well. You can press <B> key to switch and display the images in either memory, so you can compare images in Split mode.
Page 117: Measurement
Measurement There are general measurement and application measurement. You can perform measurements on a zoomed image, cine reviewing image, real-time image, or a frozen image. For measurements details, please refer to the [Advanced Volume]. Be sure to measure areas of interest from the most optimal WARNING: image plane to avoid misdiagnosis from inaccurate measurement values.
Page 118: M General Measurements
Measurement Tools Function Volume The volume of a target. The length of two line segments, which are perpendicular to each Cross Line other. Parallel Line The distance between each pair of parallel lines in a sequence. Trace Length (Trace) Measures the length of a curve on the image. Trace Len (Spline) Measures the length of a curve on the image.
Page 119: Doppler General Measurements
7.2.3 Doppler General Measurements Doppler general measurements refer to general measurements on PW/CW-mode images. The measurements listed below can be performed: Measurement Function Tools Time The time interval between any two points. N intervals (n≤8) are measured to calculate a PW mode derived HR value in Beats Per Minute (BPM).
Page 120: Measurement Accuracy
Measurement Accuracy Table 1 Error of 2D Images Parameter Value Range Error Within ± 3%; or when the measured value is less Distance Full screen than 40 mm, the error is less than1.5 mm. Within ± 7%; or when the measured value is less Area (Trace) Full screen than 16 cm...
Page 121: Comments And Body Marks
Comments and Body Marks Comments Comments can be added to an ultrasound image to bring attention, notate or communicate information observed during the examination. You can add comments to: zoomed image, cine review image, real-time image, frozen image. You can type the character as comments; insert the pre-defined comments from the comment library;...
Page 122: Adding Comments
libraries of all the exam modes assigned for the current probe. And if no text library for all the exam modes is customized, no comment text will be displayed.  ABC Display Click [ABC Display] to display or hide the added comments. Assign the user-defined key for the function in “[Setup]->...
Page 123: Moving Comments
 Click [Arrow Size] on the menu to change the arrow size: 3. Press <Set> or <Enter> to anchor the arrow position, and then the arrow turns yellow. 4. Repeat the above steps to add more arrows. 5. Press <Arrow> key, <ESC> or to exit the arrow comment status. 8.1.4 Moving Comments 1.
Page 124: Body Mark
After powering off, the system will clear all comments on the image. Body Mark The Body Mark (Pictogram) feature is used for indicating the exam position of the animal and transducer position and orientation. The system supports body marks for Dog, Cat, Equine, Bovine, Ovine or Other. In addition, the system supports user-defined body marks, and body marks can be imported.
Page 125: Moving Body Marks
8.2.4 Moving Body Marks You can move the body mark graphic to any desired position within the image area. 1. Roll the trackball to move the cursor onto the body mark. The cursor changes into indicating you can move the pictogram to a new position. 2.
Page 127: Data Management
Data Management An exam record consists of all information and data of one exam. An exam record consists of the following information:  Animal basic information and exam data  Image files  Report NOTE: DO NOT use the internal hard drive for long-term image storage. Daily backup is recommended.
Page 128: Image Storage Preset
System-defined multi-frame file format; you can perform manual or auto cine review, and perform measurements or add comments for the reviewed images. After you open a stored CIN file, the system automatically enters cine review status. The system can save FRM files as BMP, JPG, TIFF or DCM files, or save CIN files as AVI, DCM files.
Page 129: Quickly Saving Images To Usb Flash Drive
 To save cineloop image in the system: (1) Enter [Setup]-> [System Preset] -> [Key Config]-> [Output], set a user-defined key for function “Save cine”. (2) Freeze an image. Click the user-defined key to save the current image file in the default file directory in the dynamic image format .CIN.
Page 130: Image Review And Analysis
 When you move the cursor onto a thumbnail, its name and format will be displayed. 9.2.8 Image Review and Analysis You can review and analyze the stored images (only refer to the images stored in the system default path). 9.2.8.1 To review images You can review all images stored in an exam, and send, delete or analyze the stored images.
Page 131  Exam History: You can select one certain exam from the exam directory to review the images.  If entered from iStation, the screen displays the record(s) selected in the iStation. If no animal is selected when it was in iStation, then all the animals in the system database will be displayed, and the current animal exam is listed.
Page 132: Ivision
9.2.9 iVision iVision function is used for demonstration of the images stored. Image files are played according to file names one by one (including the image of system-relevant and PC- compatible format). To perform image demonstration: 1. Enter iVision screen: Press the user-defined key for iVision on the control panel (setting path: [Setup]→...
Page 133: Sending Image File
[<]: to delete the selected data. [<<]: to delete all data.  Customize Catalog: what saved here is the catalog of the displayed image. The system plays the images in the catalog when performs demonstration. Operate the catalog by the buttons on the right: [Add File]: to add files to the file list.
Page 134 In the iStation screen, click the Send To Arrow; or, in Review screen, click [Send To] to send animal data to an external memory device, you can choose if reports are exported with images. See the figure below. To export the report: (1) Check “Export Report”...
Page 135: Animal Data Management (Istation)
 Printing report Use a connected graph/text printer to print a report. Please refer to “11.4 Print Preset” for details about default report printer setting. For details on report relevant operations, please refer to [Advanced Volume]. Animal Data Management (iStation) The animal data include basic animal information, exam information, image files and reports.
Page 136: Searching An Animal
 Select All Exams/ Deselect All Exams Click [Select All Exams] to select all animal data listed. Then the button changes into [Deselect All Exams], you can cancel all the selections by clicking [Deselect All]. 9.4.1 Searching an Animal (1) Select the data source. (2) Set search conditions of Name, ID, DOB, Exam Date in the "Item"...
Page 137 : Backup. Click to export the selected animal data to the system-supported media. : Restore. Click to import the animal data from an external media. If no external data source is connected, then the button is unavailable.  Send To The system supports to send data to external memory devices or print.
Page 138: Backing Up And Erasing Files Through Dvd Drive
Click [Exit] to exit Recycle Bin screen and return to iStation. Backing Up and Erasing Files through DVD Drive The system supports DVD-RW to write data in CD/DVD and to read data from CD/DVD in PC. Support media: DVD± RW, CD-R/W. ...
Page 139 Including:  Storage Task: displays the DICOM storage task.  DICOM Print Task: displays the DICOM print task.  Media Storage Task:  DICOM media storage task(including disc and USB devices)  Backup task (system-relevant format): select the exam to be backed up in iStation and click ...
Page 140: Access Control
 Task Status Select the undergoing task, the system will display its detailed status information or error information. When there is/are task(s) undergoing, the task management icon displays as , you can click the icon to check the process. When there is/are task(s) failed, the task management icon displays as , you can click the icon to check the failure reason.
Page 141: Add/ Delete A User
As long as the system is in working status, you can enter the above screens without inputting user name and password repeatedly. You need to login again after system restart or dormancy.  Login the system: (1) If the system requires you to log on the system before you access the data, you can see the following dialogue box.
Page 142 2. Click [Add] to enter the following page. 3. Enter the user name(you are not allowed to enter the same name or modify the name already exist). 4. Enter user name and the password. 5. Set the user role in the drop-down list: administrator or operator. 6.
Page 143: Modify Password
9.7.5 Modify Password The system administrator can modify password of all users. The administrator password by factory is empty, you can set the password for it. The operator can only modify his/her own password. To modify the password, the user has to login the system first. There are two ways to modify password: modify it on “Admin”...
Page 145: Dicom
DICOM NOTE: Before using DICOM, please read the electronic file DICOM CONFORMANCE STATEMENT along with the device. This chapter is confined to the preset, connection verification and DICOM services of the DICOM-configured ultrasound machine, not including SCP configurations like PACS/ RIS/ HIS. This system supports the following DICOM functions: ...
Page 146: Dicom Preset
3. Local TCP/ IP preset items are described as follows: Name Description Current Net Adapter To select network connection mode. DHCP DHCP: IP address will be automatically obtained from DNS server; / Static Static: you need to enter the IP address. IP Address IP address of the system.
Page 147 3. Preset local DICOM properties and DICOM server.  Localhost DICOM Service Property Name Description Application entity title of the ultrasound system. AE Title The AE title here should be the same with the one of the acceptable SCU set in the server. DICOM communication port, which should be the same with the one Port in the server.
Page 148 Name Description You can ping other machines to verify connection after entering the Ping correct IP address. Also you can check the connection of the already added server in the list. [Add] Click to add servers to the device list. Click to enter DICOM service preset, see “10.1.3 DICOM Service”.
Page 149 DICOM storage setting items are described as follows: Name Description After you set the server (s) in DICOM Server Setting, the name Device (s) will appear in the drop-down list, select the name of the storage server. Service Name Default is xxx-Storage, and it can be modified. Application Entity title, Here, it should be consistent with that of AE Title the storage server.
Page 150 Name Description Select an item in the service list, change the parameters in the [Update] above area, and click [Update] to update the item in the service list. [Delete] Click to delete the selected service in the service list Select an item in the service list, click [Default] and you can see [Default] “Y”...
Page 151 DICOM print setting items are described as follows: Name Description After you set the server (s) in DICOM Server Setting, the Device name (s) will appear in the drop-down list, select the name of the print server. Service Name Default is xxx-Print, and it can be modified. Application Entity title.
Page 152 Name Description Specify quantity of printed files,e.g. STANDARD\2, 3 Display Format indicates 6 images are printed for each page. Medium Type Specify print medium: Paper, Clear Film, Blue Film. Specify whether you want a trim box to be printed around Trim each image on the film: Yes or No.
Page 153 DICOM Worklist service parameters are similar to those described in DICOM Storage Preset, please refer to “10.1.3.1 Storage” for details. 10.1.3.4 MPPS Preset 1. On DICOM Service screen, click [MPPS] page tab to enter the MPPS page: 2. Select device, enter the right AE Title, port, etc. 3.
Page 154: Dicom Service
 The server does not support the verification. If the connection is normal, it can be concluded that the server does not support the verification.  The server supports the verification, but this function is not activated. Please check if the verification function is activated.
Page 155: Dicom Service
(3) Select DICOM in the “Target” list, select a server in the “Storage Server” list. (4) Click [OK] to start the sending.  To send image for storage after an exam ends (1) Open “[Setup] → [System Preset] → [General]”, and then check (2) Set a default storage server.
Page 156: Worklist
(3) Click [OK] to send print task.  To print image for storage after an exam ends (1) Open “[Setup] → [System Preset] → [General]”, and then check (2) Set a default print server. a) Enter the DICOM Service Preset screen via “[Setup]→ [DICOM Preset] → [DICOM Service]”.
Page 157 (3) Retrieve Patient Information a) Set query criteria among Patient ID, Patient Name, Accession #, Search Key, Worklist Server or Exam Date. The default exam date is the current date. b) Click [Query]. c) The scheduled patients, which meet the criteria, are displayed in the lower part of the screen.
Page 158: Mpps
In the off-line status, you can:  Perform a second query; or,  Click [Show Detail] to view the patient information in details. 10.3.4 MPPS MPPS is used to send exam state information to the configured server. This will facilitate the other systems to obtain the exam progress in time.
Page 159: Query/Retrieve
Storage commitment is confined to the whole exam; not each image sending can be indicated. Multi-frame storage is not allowed if “Allow Multiframe” is not selected ([Setup]-> NOTE: [DICOM Preset] -> [Set DICOM Service] -> [Storage]). For example, if there is multi-frame file in the exam to be sent, then only single-frame image storage will be performed, and after the storage is completed, there is no “√”...
Page 160: Dicom Media Storage
Click [Deselect All] to deselect all the patient records in the list. 7. Click [Retrieve] to retrieve the patient records in the DICOM query/retrieve server into the local machine. 8. Click [Exit], you can see the retrieved patient records are listed in the iStation screen. 10.4 DICOM Media Storage The system supports to save animal data to the external media in DCM format.
Page 161: Dicom Task Manager
2. Review the data stored in the external media. 3. Select the data to be restored in iStation. 4. Click in the iStation screen. NOTE: Only the system accessible media can be selected. 10.5 DICOM Task Manager DICOM Task Management is used to view task progress or manage tasks after sending images for storage, print, or media storage.
Page 163: Setup
Setup The Setup function is designed to set the configuration parameters of operating the system and maintaining user workflow setup data. The setup data of the user and system are stored to the hard drive, and should be backed up to CD/DVD or USB memory devices. When the setup data is changed, be sure to save the preferences CAUTION: according to the methods described in this chapter.
Page 164: General
Item Description To set the date format among DD/MM/YYYY, MM/DD/YYYY and Date Format YYYY/MM/DD. Time Format To select the time format between 12Hour and 24 Hour. To set the system date. Posit the cursor into the corresponding field, and enter the data System Date through the keyboard;...
Page 165: Image Preset
Type Item Description To set the size for a stored image: Image Area Image Output Size Standard Area Other Full Screen Cine length(s) Set cine length Output Mode PAL/ NTSC Animal Sending/printing Select if to automatically archive the exam data to Management after End Exam DICOM server for storage/print.
Page 166: Application
Type Item Description Reset Config Probe To set the default probe model for the system. Freeze Status after Freeze To set the system status after image is frozen. Config To set the steer mode in B+ Color +PW imaging mode. C&PW: select to adjust the sample volume in color Steer mode and sample line in PW mode together.
Page 167: Key Config
11.1.5 Key Config Open the page via [Setup]-> [System Preset]-> [Key Config], as shown in the figure below.  Key function setting You can set the functions for <Print>, <Save>, F1 and footswitch. To assign a function to a key: (1) Click to select the desired key in the Key Function column at the left side of the page.
Page 168: Admin
Item Description To set the trackball speed when move the trackball: Slow, Trackball Speed Medium, Fast. Trackball Lightness To set the color for the trackball: A, B, C, D, E, F. 11.1.6 Admin Open the Admin page via [Setup]-> [System Preset]-> [Admin]. For details of access control, please refer to “9.7 Access Control”.
Page 169: Measure Preset
 [>>]: add all exam modes in the library to the [Exam Selected] list.  [<]: remove an exam mode selected from the [Exam Selected] list.  Click [Up] and [Down] to adjust the sequence of the items in Selected Items. ...
Page 170: Network Preset
For details about DICOM print, please refer to “10 DICOM”. 11.5 Network Preset  For local TCP/IP Setting and DICOM preset, please refer to “10.1 DICOM Preset”.  The iStorage screen is as follows: Name Description Service Name Name of the device, cannot be empty Port Port for transmitting.
Page 171: Maintenance
3. Select the added service in the service list, you can delete it.  Modify a network service: 1. Select the service to be updated in the service list. 2. You can see properties in the Configure Service area. 3. Modify the parameters and click [Update] to update setting. Tips: in order to make network storage function normally, setting of the sharing folder of the PC server in advance is a must, e.g.
Page 172  About Lists product name, hardware version and other information.  About Detail Lists version information of the software, hardware and other modules. 11-10 Setup...
Page 173: Probes And Biopsy
Probes and Biopsy 12.1 Probe The system supports the following probes: Probe model Illustration 3C5P 6C2P 6CV1P CB10-4P Probes and Biopsy 12-1...
Page 174 Probe model Illustration 7L4P 7L5P L14-6P 2P2P 7LT4P 12-2 Probes and Biopsy...
Page 175 Probe model Illustration V10-4BP 6LE7P 6LE5VP P7-3P D6-2P Probes and Biopsy 12-3...
Page 176: Name And Function Of Each Part Of The Transducer
Note: For details of storage time and condition for disinfected probes or sterilized probes and brackets, please refer to Technical standard for Disinfection of Medical and Health Structures 12.1.1 Name and Function of Each Part of the Transducer Basic structures and functions of all probes listed above are similar, and are described as follows.
Page 177: Orientation Of The Ultrasound Image And The Transducer Head
12.1.2 Orientation of the Ultrasound Image and the Transducer Head The orientation of the ultrasound image and the transducer are shown below. The “MARK” side of the ultrasound image on the monitor corresponds to the mark side of the transducer. Check the orientation before the examination (take linear probe as an example).
Page 178  Procedures for operating (with biopsy function) Inspection before examination Connection to the ultrasonic diagnostic system Examinations Biopsy procedure Disconnection to the ultrasonic diagnostic system Sterilization of the needle- guided bracket Wiping off the ultrasound gel Inspection after use Washing the transducer with water Storage Draining/drying Immersion into disinfectant...
Page 179  Procedures for operating (with no biopsy function) Inspection before examination Connection to the ultrasonic diagnostic system Examinations Disconnection to the ultrasonic diagnostic system Wiping off the ultrasound gel Washing the transducer with water Draining/drying Disinfection Immersion into disinfectant Removing the transducer from disinfectant Rinsing the transducer into sterile water Draining/drying...
Page 180: Wearing The Transducer Sheath
12.1.4 Wearing the Transducer Sheath A transducer sheath must be installed over the transducer before performing examination. Probe sheaths are available for use with all clinical situations where infection is a concern. A probe sheath must be installed over the probe before performing intra-cavity or biopsy examination.
Page 181: Probes Cleaning And Disinfection
12.1.5 Probes Cleaning and Disinfection After completing each examination, clean and disinfect (or sterilize) the probes as required. When biopsy procedures have been performed, be sure to sterilize the needle-guided bracket. Fail to do so may result in the probe and the needle-guided bracket to becoming sources of infection.
Page 182 Connector Strain relief NOTE: Observe the graph here carefully to perform disinfection. Do not spray the strain relief on the connector end or the connector. Disinfecting by Immersion 1. Wear sterile gloves to prevent infection. 2. Clean the transducer before disinfecting it.MINDRAY recommends the following solutions to disinfect the transducer.
Page 183 Strain relief Probe handle NOTE: Observe the graph here carefully to immerse the transducer. Only soak parts of the transducer below the strain relief. Repeated disinfection will eventually damage the probe, please check the probe performance periodically. Compatible Disinfectants Manufacturer Trade Name Procedures Type...
Page 184: Storage And Transportation
Manufacturer Trade Name Procedures Type Ecolab Inc. (not Please refer to the instructions Solution applicable for FDA Ster-Bac provided by the manufacturer region) of the solution for details. Antiseptica (not Please refer to the instructions Solution* applicable for FDA Triacid-N provided by the manufacturer region) of the solution for details.
Page 185 In situations listed below, the biopsy needle may fail to penetrate the target. The incorrect biopsy may cause various side effects in the animal.  Use a needle-guided bracket that doesn't match with the transducer.  Mounts the needle-guided bracket incorrectly. ...
Page 186: Basic Procedures For Biopsy Guiding
Image of the biopsy target and the actual position of the biopsy needle: Diagnostic ultrasound systems produce tomographic plane images with information of a certain thickness in the thickness direction of the transducer. (That is to say, the information shown in the images consist all the information scanned in the thickness direction of the transducer.) So, even though the biopsy needle appears to have penetrated the target object...
Page 187: Needle-Guided Brackets
2. Verify the biopsy guide line. For details, please refer to “12.2.4 Biopsy Menu”. 3. Press <Biopsy> on the control panel.  If the current probe has no matched bracket; or, the image is frozen and the guide line is hidden before image frozen, then you can’t enter Biopsy menu. Before entering Biopsy menu, the system will prompt you “Please verify guidelines ...
Page 188  NGB-004 Locking nut Needle guide Retaining clamp Locating bulge Transducer Locating groove  NGB-005 Clamping knob of the needle guide Needle guide rack Needle guide Clamp Locating pit Needle guide hole Grip knob Locating groove Needle-guided bracket Transducer  NGB-006 ...
Page 189 Name Description Support of needle- Used for installing the needle-guided bracket on the <1> guided bracket transducer. Groove and tab of Respectively matched with the tab and groove of the <2> the needle-guided transducer. bracket <3> Angle adjusting base There are 3 types of angles available to be adjusted. Angle shift sign <4>...
Page 190 Name Description Support of needle- Used for installing the needle-guided bracket on the <1> guided bracket transducer Used for determining the angle of the biopsy; there are <2> Angle block three specifications of blocks of angle Used for installing biopsy needle; there are five <3>...
Page 191 <3> <4> <1> <5> <2> Name Description Support of needle-guided Used for installing the needle-guided bracket on <1> bracket the transducer Groove and tab of the Respectively matched with the tab and groove of <2> needle-guided bracket the transducer There are 3 types of angles available to be <3>...
Page 192 Name Description Support of needle- Used for installing the needle-guided bracket on the <1> guided bracket transducer Used for determining the angle of the biopsy; there are <2> Angle block three specifications of blocks of angle Used for installing biopsy needle; there are five <3>...
Page 193 Used for installing biopsy needle; there are five <6> Guiding block specifications of guiding blocks for different needles. <7> Knob of fixing the needle Used for fixing the needle. <8> Guiding hole of the needle Used for installing the biopsy needle. Specification of guiding <9>...
Page 194  NGB-011 Clamping knob of the needle guide Locating pit Clamp Needle guide hole Locating Needle guide rack Grip knob groove Needle-guided bracket Transducer  NGB-016 Name Description Clamp of needle-guided Used for installing the needle-guided bracket on the <1> bracket transducer.
Page 195: Needle-Guided Bracket Inspection And Installation
Name Description Determines the angle of the biopsy; different <6> Angle block specifications of blocks can be used. Used for installing the needles of different specifications, <7> Guiding block 5 types of needles are available. Specification of guiding <8> Matched with the corresponding biopsy needle (14G). block (14G) Guiding hole of biopsy <9>...
Page 196  NBG-005 1. Put on the sterile transducer sheath. 2. Inosculate the locating groove on the clamp with the two raised edges on the transducer head and aligning the locating pit of the clamp to the convex point on the transducer head. 3.
Page 197 (3) Check manually to confirm that the needle-guided bracket is securely installed on the transducer. (4) Select a proper guiding block and push it into the groove above the angle block, and clamp it tightly. (5) Insert a biopsy needle with the same specification as that of the guiding block into the hole of the guiding block.
Page 198 5) Screw the nut of the block to secure the block. 6) Insert a biopsy needle with the same specification as that of the guiding block into the hole of the guiding block.  Plastic 1) Put on the sterile transducer sheath. 2) Hold the transducer by one hand, select proper needle-guided bracket, and hold it with the other hand.
Page 199  NGB-009 metal/needle detachable needle-guided bracket (1) Put on the transducer cover. (2) Cover the support of needle-guided bracket on the transducer, making the groove of the needle-guided bracket to match with the tab of the transducer. Set the needle- guided bracket at the desired position, turn tightly the knob of fixing needle-guided bracket to fix the needle-guided bracket.
Page 200 (2) Hold the probe by one hand, select proper needle-guided bracket, and hold it with the other hand, and align the grooves of the needle-guided bracket with the tabs of the probe, then push the needle-guided bracket forward, making the grooves of the needle-guided bracket to match with the tabs of the probe.
Page 201: Biopsy Menu
3. Screw the pinch nut of the needle-guided bracket to confirm that the needle-guided bracket is properly installed on the transducer. 4. Select a proper guiding block and push it into the groove above the angle block, and clamp it tightly. 5.
Page 202 Tips:  The guide line is a dot line which consists of two kinds of dots, the distance between two dots is depth dependent. Move the cursor onto the big dot, a numeral, which represents the biopsy depth, is displayed. ...
Page 203: Ineedle (Needle Visualization Enhancement)
12.2.5 iNeedle (Needle Visualization Enhancement) During a biopsy, the metal needle attached to the probe pierces the tissue at a certain angle. Due to the needle's acoustic impedance, the ultrasonic beam cannot penetrate the metal needle and a reflecting boundary is formed. As in Figure 1, if the deflection angle is very large, the needle display is not clear.
Page 204: Verify Biopsy Guide Line
 Best angle indication In iNeedle mode, recommended needle angle is given on the top of the screen. As shown in the above figure, the current recommended angle is 46° to the horizontal plane. Needle Steer Description This function adjusts the biopsy needle angle by changing the steer angle of the scan line.
Page 205: Removing The Needle-Guided Bracket
1. Confirm that the needle-guided bracket has been installed securely in the correct position. 2. Prepare a container filled with sterile water. 3. Place the head of the transducer in the sterile water, and get a biopsy needle into the needle guide.
Page 206 2. Take the guiding block away in the direction of the needle tail, and then separate the needle from the transducer and the residual parts of the needle-guided bracket. 3. Screw out the locking nut on the needle-guided bracket to loose the bracket with the transducer.
Page 207 2) Separate the residual part of the needle-guide bracket and the transducer from the needle. 3) Screw the pinch nut of the bracket, and remove the needle-guided bracket from the transducer.  Plastic 1) Remove the guiding block slightly along the direction of the needle’s tail. 2) Separate the residual part of the needle-guide bracket and the transducer from the needle.
Page 208: Clean And Sterilize The Needle-Guided Bracket
2. Separate the residual part of the needle-guide bracket and the transducer from the needle. 3. Screw the pinch nut of the bracket, and remove the needle-guided bracket from the transducer. 4. Separate the transducer and the needle-guided bracket. 12.2.8 Clean and Sterilize the Needle-guided Bracket Cleaning 1.
Page 209: Storage And Transportation
 Hydrogen Peroxide and Peroxyacetic Acid -based sterilant: Trade Name Chemical Name Procedures ® Minncare Cold 22% Hydrogen Dilute the sterilant with sterilized purified Sterilant Peroxide water (1:20). 4.5% Peroxyacetic Acid Immersed time: 11 hours. Temperature: 20° C-25° C. Please refer to the instructions provided by the manufacturer of the solution for details.
Page 210: Disposal
 Ambient temperature: -20° C ~ 55° C  Relative humidity: 30% to 95% (no condensation) 12.2.10 Disposal Be sure to dispose the needle-guided bracket only after sterilizing it. Contact your MINDRAY representative when disposing of this device. 12.3 Lithotrity “Lithotrity”...
Page 211: Battery
Battery DO NOT install or detach the battery ad arbitrium WARNING: The batteries have protective mechanism and circuit. DO NOT disassemble or alter the battery. DO NOT short-circuit the batteries by directly connecting the negative terminals with metal objects. DO NOT heat the battery or discard it in a fire. Keep the batteries away from fire and other heat sources.
Page 212: Precautions
13.2 Precautions 1. Before using the battery, carefully read the description in the label on the surface of the battery. 2. When you use the battery at the first time and find that it is dirty or emit an odor, do not use it.
Page 213: Battery Status Indicator
Battery cover To remove the battery: 1. Turn off the unit and detach the power cord from the main unit. 2. Open the battery cover. 3. Push the battery to left until it’s released. 4. Take out the battery from the bay. 13.4 Battery Status Indicator The battery status indicator is located in the lower right corner of the screen, indicating the battery capacity.
Page 214: Checking Battery Performance
13.6 Checking Battery Performance The battery performance may be degraded over time, so you need to check the battery performance periodically. The checking procedures are shown as follows: 1. Stop the ultrasound exam. 2. Connect the system to the AC power supply to charge the batteries until current capacity is full.
Page 215: Acoustic Output
Acoustic Output This section of the operator’s manual applies to the overall system including the main unit, probes, accessories and peripherals. This section contains important safety information for operators of the device, pertaining to acoustic output and how to control animal exposure through use of the ALARA (as low as reasonably achievable) principle.
Page 216: Mi/Ti Explanation
14.4 MI/TI Explanation 14.4.1 Basic Knowledge of MI and TI The relationship of various ultrasound output parameters (frequency, acoustic pressure and intensity, etc) to bioeffects is not fully understood presently. It is recognized that two fundamental mechanisms may induce bioeffects. One is a thermal bioeffect with tissue absorption of ultrasound, and another one is a mechanical bioeffect based on cavitations.
Page 217: Acoustic Power Setting
NOTE: If there is a value of MI or TI exceeds 1.0, you must be careful to practice the ALARA principle. The display precision is 0.1. Display accuracy of MI is ± 28.5%, TI is± 38.7% 14.5 Acoustic Power Setting ...
Page 218: Acoustic Output
 Indirect Controls The controls that indirectly affect output are many imaging parameters. These are operating modes, frequency, focal point positions, image depth and pulse repetition frequency (PRF). The operating mode determines whether the ultrasound beam is scanning or non-scanning. Thermal bioeffect is closely connected to M mode.
Page 219: Differences Between Actual And Displayed Mi And Ti
14.7.3 Differences between Actual and Displayed MI and In operation, the system will display to the operator the Acoustic Output Parameters Thermal Index, TI, or Mechanical Index, MI (or sometimes both parameters simultaneously). These parameters were developed as general indicators of risk from either thermal or mechanical action of the ultrasound wave.
Page 220: Measurement Uncertainty
14.8 Measurement Uncertainty I spta 28.5% I sppa 28.5% Center frequency (f c ) Total power (W) 28.5% (5.1% for Scan-mode and Combined-mode) Peak-rarefactional pressure 14.7% 14.9 References for Acoustic Power and Safety “Bioeffects and Safety of Diagnostic Ultrasound” issued by AIUM in 1993 “Medical Ultrasound Safety”...
Page 221: Guidance And Manufacturer's Declaration
Guidance and Manufacturer’s Declaration The system complies with the EMC standard IEC60601-1-2: 2007. The use of unapproved accessories may diminish system WARNING: performance. NOTE: 1 Use of accessories, probes, and cables other than those specified may result in increased emission or decreased immunity of system. 2 The system or its components should not be used adjacent to or stacked with other equipment.
Page 222 TABLE 1 GUIDANCE AND MINDRAY DECLARATION—ELECTROMAGNETIC EMISSIONS The system is intended for use in the electromagnetic environment specified below. The customer or the user of system should assure that it is used in such an environment. ELECTROMAGNETIC ENVIROMENT－ EMISSIONS TEST COMPLIANCE GUIDANCE The system uses RF energy only for its...
Page 223 TABLE 2 GUIDANCE AND MINDRAY DECLARATION—ELECTROMAGNETIC IMMUNITY The system is intended for use in the electromagnetic environment specified below. The customer or the user of system should assure that it is used in such an environment. IEC 60601 COMPLIANCE ELECTROMAGNETIC IMMUNITY TEST LEVEL ENVIRONMENT-GUIDANCE...
Page 224 TABLE 3 GUIDANCE AND MINDRAY DECLARATION—ELECTROMAGNETIC IMMUNITY The system is intended for use in the electromagnetic environment specified below. The customer or the user of system should assure that it is used in such an environment. IMMUNITY IEC 60601 COMPLIANCE ELECTROMAGNETIC TEST TEST LEVEL...
Page 225 TABLE 4 RECOMMENDED SEPARATION DISTANCES BETWEEN PORTABLE AND MOBILE RF COMMUNICATION DEVICE AND SYSTEM The system is intended for use in an electromagnetic environment in which radiated RF disturbance are controlled. The customer or the user of system can help prevent electromagnetic interference by maintaining a minimum distance between portable and mobile RF communication equipment (transmitters) and system as recommended below, according to the maximum output power of the communication equipment.
Page 227: System Maintenance
System Maintenance Routine system maintenance shall be carried out by the user. Service maintenance will be provided by Mindray service engineers while the system is under warranty. System maintenance after the warranty has expired is the full responsibility of the owner / operator. Only an authorized Mindray service engineer can perform WARNING: maintenance not specified in this operator’s manual.
Page 228 The trackball on the control panel is used to move the cursor and plays an importance part in man-machine communication. As one of the most frequently used parts on the control panel, it may become ineffective due to dirt that enters into the trackball module. Disassembling the trackball: Rotate the trackball clamp ring 35 degrees anticlockwise.
Page 229: Checking Transducer
16.1.2 Checking Transducer Check the transducer connector for crack every time before use. DO NOT use the transducer if a crack is inspected. A thoroughly inspection to the transducer including cable and connector is required every time when you clean the transducer. 16.1.3 Backup of the System Hard Drive To prevent deterioration or loss of data stored in the system hard drive, create a backup copy of the hard drive at regular intervals.
Page 230 Do not spill water or other liquid into the system while you CAUTION: perform the cleaning. Otherwise it may result in malfunction or electric shock. When you want to clean probe connectors and TGC sliders, contact Mindray Customer Service Department or sales representative.
Page 231: Appendix A Barcode Reader
Appendix A Barcode Reader The product supports readers for logging data as animal ID: 1-D barcode reader (SYMBOL LS2208) . The laser transmitted by the reader is Class 2 laser. Class 2 laser adopts low power, visible LED. DO NOT WARNING: stare into beam because of unknown hazards of transient radiation provided by class 2 laser.
Page 232 1. Cable interface port 2. Interface cable modular connector A.1.3 Setting The reader has factory settings; please refer to A.4 for details. The reader supports some user-defined functions as introduced below. For more details, please contact the SYMBOL reader agents or Mindray Customer Service Department. ...
Page 233  code 39 full ASCII scanning: Code 39 Full ASCII is a variant of Code 39 which pairs characters to encode the full ASCII character set. To enable or disable Code 39 Full ASCII, scan the appropriate barcode below.  I 2 of 5 symbols setting: Select this option to decode only I 2 of 5 symbols containing a selected length.
Page 234 A-4 Barcode Reader...
Page 235 A.1.4 Scanning in Hand-Held Mode 1. Ensure all connections are secure. 2. Aim the reader at the barcode. Press the trigger. Note: Ensure the scan line crosses every bar and space of the symbol, see the figure below. 3. Upon successful decode, the reader beeps and the LED turns green. Tips: Do not hold the reader directly over the barcode.
Page 236 A.1.5 Scanning in Hands-Free Mode A.1.5.1 Assembling the Intellistand NOTE Before tightening the wingnut under the base, ensure that the flat areas on the flexible neck fit securely in the grooves in the base. A.1.5.2 Mounting the Stand (optional) You can attach the base of the reader’s stand to a flat surface using two screws or double-sided tape (not provided).
Page 237 2. Peel the paper liner off the exposed sides of each piece of tape and press the stand on a flat surface until it is secure. A.1.5.3 Scanning in Hands-Free Mode When the reader is seated in the stand’s “cup”, the reader’s built-in sensor places the reader in hands- free mode.
Page 238 Parameter Defaults Set Length(s) for Code 39 2 to 55 Code 39 Check Digit Verification Disable Transmit Code 39 Check Digit Disable Code 39 Full ASCII Conversion Disable Buffer Code 39 Disable Code 93 Code 93 Enable Set Length(s) for Code 93 4 to 55 Interleaved 2 of 5 (ITF) Interleaved 2 of 5 (ITF) Enable...
Page 239: Appendix B Transducer Maximum Surface Temperature
Appendix B Transducer Maximum Surface Temperature According to the requirements of the section 42.3 in the standard IEC 60601-2-37: 2007, the transducer surface temperature has been tested in two kinds of conditions: the transducer suspended in still air or transducer contacting human-tissue mimicking material. The calculation of the expanded uncertainty is based on the ISO Guide to the Expression of uncertainty in measurement.
Page 241 Appendix C Acoustic Output Reporting Table (60601-2- 2P2P Transducer Model: 2P2P Imaging Mode: M-mode Non-scan Index Label Non- Scan ≤1c > scan aprt aprt Maximum Index Value 6.77E-01 1.51E-01 5.19E-01 3.22E-01 9.85E-01 1.53E+01 1.53E+01 α 1.31E+01 ta,α 2.62E+00 2.36E+00 Associate Acoustic 3.19E+00 Parameter...
Page 242 Transducer Model: 2P2P Imaging Mode: B-mode iScape Free Xros M Non-scan Index Label Non- Scan ≤ > aprt aprt scan 1 cm 1 cm Maximum Index Value 8.71E-01 1.92E-01 3.48E-01 1.27E+00 1.69E+01 1.69E+01 Min of [P ), I α ta,α Associate Acoustic Parameter...
Page 243: Appendix C Acoustic Output Reporting Table (60601-2-37
Transducer Model: 2P2P Imaging Mode: B+M-mode Non-scan Index Label Non- Scan ≤ > 1 aprt aprt scan 1 cm Maximum Index Value 8.83E-01 1.57E-01 4.09E-01 6.03E-01 1.28E+00 1.56E+01 1.56E+01 Min of [P ), I 1.33E+01 α ta,α 2.62E+00 2.36E+00 Associate Acoustic 3.19E+00 Parameter...
Page 244 Transducer Model: 2P2P Imaging Mode: PW-mode/TVD-mode Non-scan Index Label Non- Scan ≤ >1 aprt aprt scan 1 cm Maximum Index Value 5.28E-01 1.70E+00 3.14E+00 2.80E+00 8.07E-01 9.78E+01 9.78E+01 9.78E+01 Min of [P ), I α ta,α Associate Acoustic 3.98E+00 Parameter z at max.I 3.21E+00 pi,α...
Page 245 Transducer Model: 2P2P Imaging Mode: B+PW-mode/B+TVD-mode Non-scan Index Label ≤ Scan Non-scan > aprt aprt 1 cm 1 cm Maximum Index Value 7.77E-01 8.99E-01 1.58E+00 1.43E+00 1.28E+00 4.86E+01 4.86E+01 4.86E+01 Min of [P ), I α ta,α Associate Acoustic 3.37E+00 Parameter z at max.I 3.84E+00...
Page 246 Transducer Model: 2P2P Imaging Mode: Color+B-Mode / Power+B-Mode/TVI+B/TEI+B Non-scan Index Label Non- Scan ≤1 >1 aprt aprt scan Maximum Index Value 8.25E-01 5.69E-01 8.87E-01 1.36E+00 4.31E+01 4.31E+01 Min of [P ), I α ta,α Associate Acoustic Parameter z at max.I 3.80E+00 pi,α...
Page 247 Transducer Model: 2P2P Imaging Mode: Color+B+PW-Mode/Power+B+PW-Mode/TVI+B+TVD/ TEI+B+TVD Non-scan Index Label Scan Non-scan >1 ≤1 cm aprt aprt Maximum Index Value 8.39E-01 3.37E-01 1.63E+00 5.09E-01 1.38E+00 5.01E+01 5.01E+01 1.98E+01 Min of [P ), I α ta,α Associate 3.29E+00 Acoustic Parameter z at max.I pi,α...
Page 248 Transducer Model: 2P2P Imaging Mode: CM/ TVM / B+CM/B+TVM Non-scan Index Label Non- Scan > ≤1c aprt aprt scan 8.34E-01 1.13E-01 6.25E-01 4.00E-01 Maximum Index Value 1.37E+00 1.61E+01 1.61E+01 Min of [P ), I 8.70E+00 α ta,α 1.00E+00 2.36E+00 Associate Acoustic 2.97E+00 Parameter...
Page 249 Transducer Model: 2P2P Imaging Mode: CW-mode Non-scan Index Label Non- Scan ≤ > aprt aprt scan Maximum Index Value 3.52E-02 6.26E-01 9.76E-01 8.33E-01 7.53E-02 3.97E+01 3.97E+01 Min of [P ), I 2.90E+01 α ta,α 1.00E+00 1.78E+00 Associate Acoustic 1.10E+00 Parameter z at max.I 1.10E+00 pi,α...
Page 250 3C5P Transducer Model: 3C5P Imaging Mode: M-mode Non-scan Index Label Non- Scan > ≤1 aprt aprt scan Maximum Index Value 1.27E+00 7.53E-01 2.50E+00 1.37E+00 2.21E+00 8.51E+01 8.51E+01 Min of [P ), I α ta,α 5.67E+01 3.22E+00 2.92E+00 Associate Acoustic 4.60E+00 Parameter z at max.I 4.60E+00...
Page 251 Transducer Model: 3C5P Imaging Mode: B-mode iScape Free Xros M Non-scan Index Label Non- Scan ≤ > 1 aprt aprt scan 1 cm 1.30E+00 3.09E-01 3.47E-01 Maximum Index Value 2.06E+00 1.75E+01 1.75E+01 Min of [P ), I α ta,α Associate Acoustic Parameter 4.58E+00...
Page 252 Transducer Model: 3C5P Imaging Mode: B+M-mode Non-scan Index Label Non- Scan ≤ > 1 aprt aprt scan 1 cm 1.19E+00 3.31E-01 1.07E+00 6.00E-01 Maximum Index Value 1.99E+00 2.76E+01 2.76E+01 1.89E+01 Min of [P ), I α ta,α 1.50E+00 2.92E+00 Associate 3.59E+00 Acoustic Parameter...
Page 253 Transducer Model: 3C5P Imaging Mode: PW-mode Non-scan Index Label Non- Scan ≤ aprt scan >1 cm aprt 1 cm Maximum Index Value 1.04E+00 3.72E+00 2.39E+00 4.81E+00 1.95E+00 4.15E+01 4.15E+01 Min of [P ), I 2.80E+02 α ta,α 2.37E+00 2.67E+00 Associate Acoustic 5.18E+00 Parameter...
Page 254 Transducer Model: 3C5P Imaging Mode: B+PW-mode/ Non-scan Index Label ≤ Scan Non-scan > 1 aprt aprt 1 cm Maximum Index Value 1.03E+00 3.95E-01 1.41E+00 2.30E+00 1.92E+00 8.54E+01 8.54E+01 8.54E+01 Min of [P ), I α ta,α Associate Acoustic 3.67E+00 Parameter z at max.I 1.47E+00 pi,α...
Page 255 Transducer Model: 3C5P Imaging Mode: Color+B-Mode / Power+B-Mode Non-scan Index Label Non- Scan ≤1 >1 aprt aprt scan 1.05E+00 7.12E-01 1.02E+00 Maximum Index Value 2.04E+00 5.17E+01 5.17E+01 Min of [P ), I α ta,α Associate Acoustic Parameter 2.83E+00 z at max.I pi,α...
Page 256 Transducer Model: 3C5P Imaging Mode: Color+B+PW-Mode/Power+B+PW-Mode Non-scan Index Label Non- Scan >1 aprt ≤1 cm scan aprt Maximum Index Value 1.56E+00 8.62E-01 1.31E+00 9.86E-01 2.57E+00 4.15E+01 4.15E+01 4.17E+01 Min of [P ), I α ta,α Associate Acoustic 1.00E+00 Parameter z at max.I 7.48E+00 pi,α...
Page 257 Transducer Model: 3C5P Imaging Mode: CM/ B+CM-Mode Non-scan Index Label Non- Scan > ≤1c aprt aprt scan Maximum Index Value 1.05E+00 8.52E-01 1.62E+00 1.69E+00 1.83E+00 7.73E+01 7.73E+01 Min of [P ), I 5.61E+01 α ta,α 2.36E+00 2.67E+00 Associate Acoustic 6.23E+00 Parameter z at max.I 3.30E+00...
Page 258 6C2P Transducer Model: 6C2P Imaging Mode: M-mode Non-scan Index Label Non- Scan > aprt ≤1cm scan aprt Maximum Index Value 1.07E+00 1.11E-01 7.53E-02 1.08E-01 2.53E+00 4.30E+00 4.30E+00 4.30E+00 Min of [P ), I α ta,α Associate Acoustic 1.00E+00 Parameter z at max.I 7.00E-01 pi,α...
Page 259 Transducer Model: 6C2P Imaging Mode: B-mode iScape Free Xros M Non-scan Index Label Non- Scan ≤ > 1 aprt aprt scan 1 cm Maximum Index Value 5.62E-01 1.48E-01 1.29E-01 1.40E+00 4.53E+00 4.53E+00 Min of [P ), I α ta,α Associate Acoustic Parameter z at max.I...
Page 260 Transducer Model: 6C2P Imaging Mode: B+M-mode Non-scan Index Label Non- Scan ≤ > 1 aprt aprt scan 1 cm Maximum Index Value 4.51E-01 2.85E-01 1.73E-01 2.56E-01 1.18E+00 4.18E+00 4.18E+00 4.18E+00 Min of [P ), I α ta,α Associate Acoustic 1.00E+00 Parameter z at max.I 1.00E+00...
Page 261 Transducer Model: 6C2P Imaging Mode: PW-mode Non-scan Index Label Non- Scan ≤ >1 aprt aprt scan 1 cm Maximum Index Value 7.63E-01 5.15E-01 1.54E+00 1.15E+00 1.82E+00 1.96E+01 1.96E+01 1.96E+01 Min of [P ), I α ta,α Associate Acoustic 1.00E+00 Parameter z at max.I 1.00E+00 pi,α...
Page 262 Transducer Model: 6C2P Imaging Mode: B+PW-mode Non-scan Index Label ≤ Scan Non-scan > aprt aprt 1 cm 1 cm Maximum Index Value 1.33E+00 4.25E-01 1.47E+00 8.53E-01 3.19E+00 1.49E+01 1.49E+01 1.49E+01 Min of [P ), I α ta,α Associate Acoustic 1.63E+00 Parameter z at max.I 1.43E+00...
Page 263 Transducer Model: 6C2P Imaging Mode: Color+B-Mode / Power+B-Mode Non-scan Index Label Non- Scan ≤1 >1 aprt aprt scan 1.34E+00 3.91E-01 4.60E-01 Maximum Index Value 3.45E+00 1.61E+01 1.61E+01 Min of [P ), I α ta,α Associate Acoustic Parameter 2.10E+00 z at max.I pi,α...
Page 264 Transducer Model: 6C2P Imaging Mode: Color+B+PW-Mode/Power+B+PW-Mode Index Label Non-scan Non- Scan ≤1 cm scan >1 cm aprt aprt Maximum Index Value 5.99E-01 2.88E-01 8.81E-01 8.81E-01 1.37E+00 1.25E+01 1.25E+01 9.10E+00 Min of [P ), I α ta,α Associate Acoustic 1.00E+00 Parameter z at max.I 1.07E+00 pi,α...
Page 265 Transducer Model: 6C2P Imaging Mode: CM/ B+CM Non-scan Index Label Non- Scan > aprt scan ≤1cm aprt Maximum Index Value 1.14E+00 5.24E-01 4.19E-01 5.32E-01 2.72E+00 1.35E+01 1.35E+01 1.35E+01 Min of [P ), I α ta,α Associate Acoustic 1.85E+00 Parameter z at max.I 1.05E+00 pi,α...
Page 266 6CV1P Transducer Model: 6CV1P Imaging Mode: M-mode Non-scan Index Label Non- Scan > aprt ≤1cm scan aprt Maximum Index Value 1.38E+00 1.53E-01 3.01E-01 1.23E-01 3.72E+00 2.67E+00 2.67E+00 2.67E+00 Min of [P ), I α ta,α Associate Acoustic 1.06E+00 Parameter z at max.I 1.17E+00 pi,α...
Page 267 Transducer Model: 6CV1P Imaging Mode: B-mode iScape Free Xros M Non-scan Index Label Non- Scan ≤ > 1 aprt aprt scan 1 cm Maximum Index Value 1.02E+00 1.52E-01 1.47E-01 2.21E+00 4.68E+00 4.68E+00 Min of [P ), I α ta,α Associate Acoustic Parameter z at max.I...
Page 268 Transducer Model: 6CV1P Imaging Mode: B+M-mode Non-scan Index Label Non- Scan ≤ > 1 aprt aprt scan 1 cm Maximum Index Value 9.31E-01 3.55E-01 3.13E-01 3.30E-01 2.01E+00 2.61E+00 2.61E+00 2.61E+00 Min of [P ), I α ta,α Associate Acoustic 1.14E+00 Parameter z at max.I 1.07E+00...
Page 269 Transducer Model: 6CV1P Imaging Mode: PW-mode Non-scan Index Label Non- ≤ >1 aprt aprt scan 1 cm Maximum Index Value 1.21E+00 1.47E+00 4.22E+00 2.96E+00 2.89E+00 4.31E+01 4.31E+01 4.31E+01 Min of [P ), I α ta,α Associate Acoustic 1.00E+00 Parameter z at max.I 1.21E+00 pi,α...
Page 270 Transducer Model: 6CV1P Imaging Mode: B+PW-mode Non-scan Index Label ≤ Scan Non-scan > 1 aprt aprt 1 cm Maximum Index Value 1.11E+00 1.66E+00 3.31E+00 2.16E+00 2.67E+00 3.00E+01 3.00E+01 3.00E+01 Min of [P ), I α ta,α Associate Acoustic 1.07E+00 Parameter z at max.I 1.14E+00 pi,α...
Page 271 Transducer Model: 6CV1P Imaging Mode: Color+B-Mode / Power+B-Mode Non-scan Index Label Non- Scan ≤1 >1 aprt aprt scan Maximum Index Value 9.84E-01 3.55E-01 3.90E-01 2.14E+00 1.25E+01 1.25E+01 Min of [P ), I α ta,α Associate Acoustic Parameter z at max.I 1.07E+00 pi,α...
Page 272 Transducer Model: 6CV1P Imaging Mode: Color+B+PW-Mode/Power+B+PW-Mode Non-scan Index Label Non- Scan ≤1 >1 aprt aprt scan Maximum Index Value 1.08E+00 1.08E+00 4.47E+00 3.50E+00 2.34E+00 5.44E+01 5.44E+01 1.11E+01 Min of [P ), I α ta,α Associate Acoustic 1.27E+00 Parameter z at max.I 1.44E+00 pi,α...
Page 273 Transducer Model: 6CV1P Imaging Mode: CM/ B+CM Non-scan Index Label Non- Scan > aprt scan ≤1cm aprt Maximum Index Value 5.41E-01 2.24E-01 8.79E-01 2.92E-01 1.18E+00 7.66E+00 7.66E+00 7.66E+00 Min of [P ), I α ta,α Associate Acoustic 1.07E+00 Parameter z at max.I 1.00E+00 pi,α...
Page 274 6LE7P Transducer Model: 6LE7P Imaging Mode: M-mode Non-scan Index Label Non- Scan > aprt scan ≤1cm aprt Maximum Index Value 1.06E+00 4.16E-01 5.83E-01 4.52E-01 2.32E+00 8.68E+00 8.68E+00 8.68E+00 Min of [P ), I α ta,α Associate Acoustic 1.81E+00 Parameter z at max.I 1.43E+00 pi,α...
Page 275 Transducer Model: 6LE7P Imaging Mode: B-mode iScape Free Xros M Non-scan Index Label Non- Scan ≤ > 1 aprt aprt scan 1 cm Maximum Index Value 1.03E+00 9.66E-02 1.26E-01 2.25E+00 4.03E+00 4.03E+00 Min of [P ), I α ta,α Associate Acoustic Parameter z at max.I...
Page 276 Transducer Model: 6LE7P Imaging Mode: B+M-mode Non-scan Index Label Non- Scan ≤ > aprt aprt scan 1 cm 1 cm Maximum Index Value 9.15E-01 4.65E-01 6.08E-01 5.09E-01 2.00E+00 8.35E+00 8.35E+00 8.35E+00 Min of [P ), I α ta,α Associate Acoustic 2.12E+00 Parameter z at max.I...
Page 277 Transducer Model: 6LE7P Imaging Mode: PW-mode Non-scan Index Label Non- Scan ≤ >1 aprt aprt scan 1 cm Maximum Index Value 1.58E+00 6.35E-01 2.03E+00 7.83E-01 3.90E+00 2.30E+01 2.30E+01 2.30E+01 Min of [P ), I α ta,α Associate Acoustic 1.99E+00 Parameter z at max.I 1.57E+00 pi,α...
Page 278 Transducer Model: 6LE7P Imaging Mode: B+PW-mode Non-scan Index Label ≤ Scan Non-scan > 1 aprt aprt 1 cm Maximum Index Value 1.22E+00 8.67E-01 2.05E+00 8.58E-01 3.01E+00 2.41E+01 2.41E+01 2.41E+01 Min of [P ), I α ta,α Associate Acoustic 2.21E+00 Parameter z at max.I 1.59E+00 pi,α...
Page 279 Transducer Model: 6LE7P Imaging Mode: Color+B-Mode / Power+B-Mode Non-scan Index Label Non- Scan ≤1 >1 aprt aprt scan Maximum Index Value 1.31E+00 4.96E-01 6.28E-01 3.00E+00 2.00E+01 2.00E+01 Min of [P ), I α ta,α Associate Acoustic Parameter z at max.I 1.57E+00 pi,α...
Page 280 Transducer Model: 6LE7P Imaging Mode: Color+B+PW-Mode/Power+B+PW-Mode Non-scan Index Label Non- Scan >1 scan ≤1 cm aprt aprt Maximum Index Value 1.01E+00 7.43E-01 1.55E+00 1.04E+00 2.49E+00 1.49E+01 1.49E+01 1.51E+01 α ta,α Associate Acoustic 1.04E+00 Parameter z at max.I pi,α 1.21E+00 1.49E-01 6.12E+00 5.25E+00 5.28E+00...
Page 281 Transducer Model: 6LE7P Imaging Mode: CM/ B+CM Non-scan Index Label Non- Scan > ≤1cm aprt aprt scan Maximum Index Value 7.34E-01 6.56E-01 1.93E+00 5.25E-01 1.68E+00 1.51E+01 1.51E+01 1.51E+01 Min of [P ), I α ta,α Associate Acoustic 1.42E+00 Parameter z at max.I 1.42E+00 pi,α...
Page 282 7L4P Transducer Model: 7L4P Imaging Mode: M-mode Non-scan Index Label Non- Scan > aprt ≤1cm scan aprt Maximum Index Value 1.47E+00 8.69E-02 4.68E-01 7.23E-02 4.07E+00 4.04E+00 4.04E+00 4.04E+00 α ta,α Associate Acoustic 1.16E+00 Parameter z at max.I 1.07E+00 pi,α 1.17E-01 7.72E+00 6.24E+00 6.42E+00...
Page 283 Transducer Model: 7L4P Imaging Mode: B-mode iScape Free Xros M Non-scan Index Label Non- Scan ≤ > 1 aprt aprt scan 1 cm Maximum Index Value 1.38E+00 2.51E-01 2.67E-01 3.81E+00 8.53E+00 8.53E+00 Min of [P ), I α ta,α Associate Acoustic Parameter z at max.I...
Page 284 Transducer Model: 7L4P Imaging Mode: B+M-mode Non-scan Index Label Non- Scan ≤ aprt aprt scan > 1 1 cm Maximum Index Value 1.49E+00 2.46E-01 1.61E-01 2.40E-01 4.11E+00 2.90E+00 2.90E+00 2.90E+00 α ta,α Associate Acoustic 3.18E+00 Parameter z at max.I 1.07E+00 pi,α...
Page 285 Transducer Model: 7L4P Imaging Mode: PW-mode Non-scan Index Label Non- Scan ≤ >1 aprt aprt scan 1 cm Maximum Index Value 1.36E+00 3.94E+00 5.71E+00 4.61E+00 3.47E+00 7.13E+01 7.13E+01 7.13E+01 Min of [P ), I α ta,α Associate Acoustic 1.71E+00 Parameter z at max.I 8.03E-01 pi,α...
Page 286 Transducer Model: 7L4P Imaging Mode: B+PW-mode Non-scan Index Label ≤ Scan Non-scan > aprt aprt 1 cm 1 cm Maximum Index Value 1.44E+00 5.71E-01 2.03E+00 1.72E+00 3.66E+00 2.59E+01 2.59E+01 2.59E+01 Min of [P ), I α ta,α Associate Acoustic 1.71E+00 Parameter z at max.I 8.03E-01...
Page 287 Transducer Model: 7L4P Imaging Mode: Color+B-Mode / Power+B-Mode Non-scan Index Label Non- Scan ≤1 >1 aprt aprt scan Maximum Index Value 1.32E+00 6.00E-01 6.01E-01 3.36E+00 1.92E+01 1.92E+01 Min of [P ), I α ta,α Associate Acoustic Parameter z at max.I 8.03E-01 pi,α...
Page 288 Transducer Model: 7L4P Imaging Mode: Color+B+PW-Mode/Power+B+PW-Mode Non-scan Index Label Non- Scan >1 aprt ≤1 cm scan aprt Maximum Index Value 1.63E+00 8.70E-01 1.85E+00 9.86E-01 3.94E+00 1.80E+01 1.80E+01 1.16E+01 Min of [P ), I α ta,α Associate Acoustic 1.49E+00 Parameter z at max.I 7.27E-01 pi,α...
Page 289 Transducer Model: 7L4P Imaging Mode: CM/ B+CM-Mode Non-scan Index Label Non- Scan > ≤1cm aprt aprt scan Maximum Index Value 1.36E+00 1.05E+00 1.36E+00 1.09E+00 3.46E+00 1.68E+01 1.68E+01 1.68E+01 α ta,α Associate Acoustic 1.03E+00 Parameter z at max.I 8.03E-01 pi,α 1.89E-01 6.53E+00 6.48E+00 5.81E+00...
Page 290 7L5P Transducer Model: 7L5P Imaging Mode: M-mode Non-scan Index Label Non- Scan > aprt ≤1cm scan aprt Maximum Index Value 1.05E+00 1.30E-01 4.07E-01 1.38E-01 2.93E+00 3.45E+00 3.45E+00 3.45E+00 Min of [P ), I α ta,α Associate Acoustic 1.14E+00 Parameter z at max.I 1.03E+00 pi,α...
Page 291 Transducer Model: 7L5P Imaging Mode: B-mode iScape Free Xros M Non-scan Index Label Non- Scan ≤ > 1 aprt aprt scan 1 cm Maximum Index Value 1.11E+00 1.29E-01 1.14E-01 3.08E+00 3.63E+00 3.63E+00 Min of [P ), I α ta,α Associate Acoustic Parameter z at max.I...
Page 292 Transducer Model: 7L5P Imaging Mode: B+M-mode Non-scan Index Label Non- Scan ≤ > 1 aprt aprt scan 1 cm Maximum Index Value 1.13E+00 2.71E-01 3.12E-01 3.25E-01 3.13E+00 2.97E+00 2.97E+00 2.97E+00 Min of [P ), I α ta,α Associate Acoustic 1.21E+00 Parameter z at max.I 9.55E-01...
Page 293 Transducer Model: 7L5P Imaging Mode: PW-mode Non-scan Index Label Non- Scan ≤ >1 aprt aprt scan 1 cm Maximum Index Value 1.10E+00 4.56E+00 4.01E+00 4.33E+00 2.61E+00 3.08E+01 3.08E+01 3.08E+01 Min of [P ), I α ta,α Associate Acoustic 7.27E-01 Parameter z at max.I 2.20E+00 pi,α...
Page 294 Transducer Model: 7L5P Imaging Mode: B+PW-mode Non-scan Index Label ≤ Scan Non-scan > aprt aprt 1 cm 1 cm Maximum Index Value 1.14E+00 3.49E+00 1.01E+00 6.50E-01 2.73E+00 9.87E+00 9.87E+00 9.87E+00 Min of [P ), I α ta,α Associate Acoustic 7.27E-01 Parameter z at max.I 2.13E+00...
Page 295 Transducer Model: 7L5P Imaging Mode: Color+B-Mode / Power+B-Mode Non-scan Index Label Non- Scan ≤1 >1 aprt aprt scan Maximum Index Value 1.15E+00 5.84E-01 6.75E-01 2.73E+00 2.16E+01 2.16E+01 Min of [P ), I α ta,α Associate Acoustic Parameter z at max.I 2.13E+00 pi,α...
Page 296 Transducer Model: 7L5P Imaging Mode: Color+B+PW-Mode/Power+B+PW-Mode Non-scan Index Label Non- Scan aprt scan ≤1 cm >1 aprt Maximum Index Value 1.24E+00 8.51E-01 7.51E-01 9.54E-01 2.95E+00 3.64E+00 3.64E+00 2.50E+01 Min of [P ), I α ta,α Associate Acoustic 8.41E-01 Parameter z at max.I 8.79E-01 pi,α...
Page 297 Transducer Model: 7L5P Imaging Mode: CM/ B+CM Non-scan Index Label Non- Scan ≤1cm > aprt aprt scan Maximum Index Value 1.32E+00 7.41E-01 1.41E+00 9.71E-01 3.15E+00 1.09E+01 1.09E+01 1.09E+01 α ta,α Associate Acoustic 7.13E-01 Parameter z at max.I 8.03E-01 pi,α 1.31E-01 5.73E+00 6.46E+00 6.47E+00...
Page 298 7LT4P Transducer Model: 7LT4P Imaging Mode: M-mode Non-scan Index Label Non- Scan > aprt ≤1cm scan aprt Maximum Index Value 1.06E+00 3.58E-01 3.87E-01 3.63E-01 2.95E+00 1.17E+01 1.17E+01 1.17E+01 Min of [P ), I α ta,α Associate Acoustic 1.51E+00 Parameter z at max.I 1.10E+00 pi,α...
Page 299 Transducer Model: 7LT4P Imaging Mode: B-mode iScape Free Xros M Non-scan Index Label Non- Scan ≤ > aprt aprt scan 1 cm 1 cm Maximum Index Value 1.07E+00 9.02E-02 1.13E-01 2.95E+00 3.23E+00 3.23E+00 Min of [P ), I α ta,α Associate Acoustic Parameter...
Page 300 Transducer Model: 7LT4P Imaging Mode: B+M-mode Non-scan Index Label Non- Scan ≤ > aprt aprt scan 1 cm 1 cm Maximum Index Value 1.10E+00 2.98E-01 1.48E-01 3.32E-01 2.69E+00 2.30E+00 2.30E+00 2.30E+00 Min of [P ), I α ta,α Associate Acoustic 1.03E+00 Parameter z at max.I...
Page 301 Transducer Model: 7LT4P Imaging Mode: PW-mode Non-scan Index Label Non- Scan ≤ >1 aprt aprt scan 1 cm Maximum Index Value 5.10E-01 4.51E-01 1.96E-01 4.80E-01 1.22E+00 7.31E+00 7.31E+00 7.31E+00 Min of [P ), I α ta,α Associate Acoustic 2.26E+00 Parameter z at max.I 1.66E+00 pi,α...
Page 302 Transducer Model: 7LT4P Imaging Mode: B+PW-mode Non-scan Index Label ≤ Scan Non-scan > 1 aprt aprt 1 cm Maximum Index Value 4.91E-01 2.76E-01 1.32E-01 2.03E-01 1.38E+00 3.21E+00 3.21E+00 3.21E+00 Min of [P ), I α ta,α Associate Acoustic 1.70E+00 Parameter z at max.I 1.12E+00 pi,α...
Page 303 Transducer Model: 7LT4P Imaging Mode: Color+B-Mode / Power+B-Mode Non-scan Index Label Non- Scan ≤1 >1 aprt aprt scan Maximum Index Value 1.18E+00 3.76E-01 4.11E-01 2.82E+00 1.17E+0 1.17E+01 Min of [P ), I α ta,α Associate Acoustic Parameter z at max.I 1.02E+00 pi,α...
Page 304 Transducer Model: 7LT4P Imaging Mode: Color+B+PW-Mode/Power+B+PW-Mode Non-scan Index Label Non- Scan >1 ≤1 cm aprt scan aprt Maximum Index Value 4.98E-01 3.08E-01 4.17E-01 3.27E-01 1.41E+00 4.32E+00 4.32E+00 7.88E+00 Min of [P ), I α ta,α Associate Acoustic 1.12E+00 Parameter z at max.I 1.15E+00 pi,α...
Page 305 Transducer Model: 7LT4P Imaging Mode: CM/ B+CM Non-scan Index Label Non- Scan > ≤1cm aprt aprt scan Maximum Index Value 1.10E+00 5.79E-01 5.94E-01 5.72E-01 2.64E+00 9.07E+00 9.07E+00 9.07E+00 Min of [P ), I α ta,α Associate Acoustic 1.07E+00 Parameter z at max.I 1.35E+00 pi,α...
Page 306 CB10-4P Transducer Model: CB10-4P Imaging Mode: M-mode Non-scan Index Label Non- Scan > aprt ≤1cm scan aprt Maximum Index Value 1.21E+00 1.30E-01 2.77E-01 1.19E-01 3.28E+00 2.40E+00 2.40E+00 2.40E+00 α ta,α Associate Acoustic 1.22E+00 Parameter z at max.I 1.27E+00 pi,α 1.27E-01 7.40E+00 7.57E+00 5.23E+00...
Page 307 Transducer Model: CB10-4P Imaging Mode: B-mode iScape Free Xros M Non-scan Index Label Non- Scan ≤ > 1 aprt aprt scan 1 cm Maximum Index Value 9.24E-01 2.07E-01 2.30E-01 2.11E+00 7.34E+00 7.34E+00 Min of [P ), I α ta,α Associate Acoustic Parameter z at max.I...
Page 308 Transducer Model: CB10-4P Imaging Mode: B+M-mode Non-scan Index Label Non- Scan ≤ > aprt aprt scan 1 cm 1 cm Maximum Index Value 9.56E-01 3.48E-01 2.63E-01 2.65E-01 2.17E+00 2.45E+00 2.45E+00 2.45E+00 Min of [P ), I α ta,α Associate Acoustic 1.33E+00 Parameter z at max.I...
Page 309 Transducer Model: CB10-4P Imaging Mode: PW-mode Non-scan Index Label Non- Scan ≤ >1 aprt aprt scan 1 cm Maximum Index Value 1.94E-01 2.84E-02 2.48E-01 4.87E-01 4.66E-01 7.57E+00 7.57E+00 7.57E+00 Min of [P ), I α ta,α Associate Acoustic 1.09E+00 Parameter z at max.I 1.11E+00 pi,α...
Page 310 Transducer Model: CB10-4P Imaging Mode: B+PW-mode Non-scan Index Label ≤ Scan Non-scan > 1 aprt aprt 1 cm Maximum Index Value 8.49E-01 2.17E-01 2.41E-01 4.16E-01 2.11E+00 5.09E+00 5.09E+00 5.09E+00 Min of [P ), I α ta,α Associate Acoustic 7.55E-01 Parameter z at max.I 1.27E+00 pi,α...
Page 311 Transducer Model: CB10-4P Imaging Mode: Color+B-Mode / Power+B-Mode Non-scan Index Label Non- Scan ≤1 >1 aprt aprt scan Maximum Index Value 8.51E-01 5.22E-01 6.28E-01 2.10E+00 2.01E+01 2.01E+01 Min of [P ), I α ta,α Associate Acoustic Parameter z at max.I 1.39E+00 pi,α...
Page 312 Transducer Model: CB10-4P Imaging Mode: Color+B+PW-Mode/Power+B+PW-Mode Non-scan Index Label Non- Scan >1 ≤1 cm aprt scan aprt Maximum Index Value 1.31E+00 6.52E-01 4.11E-01 9.88E-01 3.49E+00 7.34E+00 7.34E+00 1.62E+01 Min of [P ), I α ta,α Associate Acoustic 5.00E-01 Parameter z at max.I 7.51E-01 pi,α...
Page 313 Transducer Model: CB10-4P Imaging Mode: CM/ B+CM-Mode Non-scan Index Label Non- Scan > aprt scan ≤1cm aprt Maximum Index Value 8.57E-01 1.76E-01 8.22E-01 4.24E-01 2.13E+00 8.68E+00 8.68E+00 8.68E+00 Min of [P ), I α ta,α Associate Acoustic 1.41E+00 Parameter z at max.I 1.22E+00 pi,α...
Page 314 C.10 L14-6P Transducer Model: L14-6P Imaging Mode: M-mode Non-scan Index Label Non- Scan > ≤1cm aprt aprt scan Maximum Index Value 1.13E+00 2.03E-01 2.85E-01 1.23E-01 3.02E+00 2.41E+00 2.41E+00 2.41E+00 Min of [P ), I α ta,α Associate Acoustic 1.13E+00 Parameter z at max.I 9.55E-01 pi,α...
Page 315 Transducer Model: L14-6P Imaging Mode: B-mode iScape Free Xros M Non-scan Index Label Non- Scan ≤ > 1 aprt aprt scan 1 cm Maximum Index Value 1.18E+00 1.93E-01 2.31E-01 3.15E+00 5.71E+00 5.71E+00 α ta,α Associate Acoustic Parameter z at max.I 8.79E-01 pi,α...
Page 316 Transducer Model: L14-6P Imaging Mode: B+M-mode Non-scan Index Label Non- Scan ≤ > 1 aprt aprt scan 1 cm Maximum Index Value 1.11E+00 4.09E-01 2.81E-01 4.76E-01 2.96E+00 2.24E+00 2.24E+00 2.24E+00 Min of [P ), I α ta,α Associate Acoustic 1.18E+00 Parameter z at max.I 9.78E-01...
Page 317 Transducer Model: L14-6P Imaging Mode: PW-mode Non-scan Index Label Non- Scan ≤ >1 aprt aprt scan 1 cm Maximum Index Value 8.23E-01 6.31E-01 1.45E+00 9.25E-01 2.26E+00 1.15E+01 1.15E+01 1.15E+01 Min of [P ), I α ta,α Associate Acoustic 9.47E-01 Parameter z at max.I 9.55E-01 pi,α...
Page 318 Transducer Model: L14-6P Imaging Mode: B+PW-mode Non-scan Index Label ≤ Scan Non-scan > 1 aprt aprt 1 cm Maximum Index Value 1.18E+00 3.44E-01 1.48E+00 4.10E-01 3.02E+00 1.07E+01 1.07E+01 1.07E+01 Min of [P ), I α ta,α Associate Acoustic 8.91E-01 Parameter z at max.I 7.40E-01 pi,α...
Page 319 Transducer Model: L14-6P Imaging Mode: Color+B-Mode / Power+B-Mode Non-scan Index Label Non- Scan ≤1 >1 aprt aprt scan Maximum Index Value 1.17E+00 6.06E-01 7.17E-01 3.00E+00 1.77E+01 1.77E+01 Min of [P ), I α ta,α Associate Acoustic Parameter z at max.I 7.77E-01 pi,α...
Page 320 Transducer Model: L14-6P Imaging Mode: Color+B+PW-Mode/Power+B+PW-Mode Non-scan Index Label Non- Scan >1 ≤1 cm aprt scan aprt Maximum Index Value 1.00E+00 4.26E-01 1.27E+00 5.61E-01 2.57E+00 8.40E+00 8.40E+00 1.09E+01 Min of [P ), I α ta,α Associate Acoustic 6.92E-01 Parameter z at max.I 8.14E-01 pi,α...
Page 321 Transducer Model: L14-6P Imaging Mode: CM/ B+CM Non-scan Index Label Non- Scan > aprt scan ≤1cm aprt Maximum Index Value 1.13E+00 5.76E-01 9.02E-01 8.00E-01 2.91E+00 6.88E+00 6.88E+00 6.88E+00 α ta,α Associate Acoustic 8.84E-01 Parameter z at max.I 8.29E-01 pi,α 1.11E-01 6.65E+00 7.60E+00 7.60E+00...
Page 322 C.11 V10-4BP Transducer Model: V10-4BP Imaging Mode: M-mode Non-scan Index Label Non- Scan > aprt ≤1cm scan aprt Maximum Index Value 1.32E+00 2.29E-01 8.70E-01 3.66E-01 3.24E+00 8.93E+00 8.93E+00 8.93E+00 Min of [P ), I α ta,α Associate Acoustic 1.35E+00 Parameter z at max.I 5.00E-01 pi,α...
Page 323 Transducer Model: V10-4BP Imaging Mode: B-mode iScape Free Xros M Non-scan Index Label Non- Scan ≤ > 1 aprt aprt scan 1 cm Maximum Index Value 1.31E+00 1.39E-01 1.42E-01 3.14E+00 4.53E+00 4.53E+00 Min of [P ), I α ta,α Associate Acoustic Parameter z at max.I...
Page 324 Transducer Model: V10-4BP Imaging Mode: B+M-mode Non-scan Index Label Non- Scan ≤ > aprt aprt scan 1 cm 1 cm Maximum Index Value 1.26E+00 3.39E-01 5.77E-01 4.11E-01 3.00E+00 6.16E+00 6.16E+00 6.16E+00 Min of [P ), I α ta,α Associate Acoustic 8.26E-01 Parameter z at max.I...
Page 325 Transducer Model: V10-4BP Imaging Mode: PW-mode Non-scan Index Label Non- Scan ≤ >1 aprt aprt scan 1 cm Maximum Index Value 1.16E+00 5.46E-01 2.88E+00 7.64E-01 2.64E+00 1.85E+01 1.85E+01 1.85E+01 α ta,α Associate Acoustic 1.33E+00 Parameter z at max.I 1.35E+00 pi,α 5.61E-02 5.19E+00 6.26E+00...
Page 326 Transducer Model: V10-4BP Imaging Mode: B+PW-mode Non-scan Index Label ≤ Scan Non-scan > aprt aprt 1 cm 1 cm Maximum Index Value 1.42E+00 4.14E-01 4.05E+00 6.98E-01 3.56E+00 4.39E+01 4.39E+01 4.39E+01 Min of [P ), I α ta,α Associate Acoustic 1.21E+00 Parameter z at max.I 1.21E+00...
Page 327 Transducer Model: V10-4BP Imaging Mode: Color+B-Mode / Power+B-Mode Non-scan Index Label Non- Scan ≤1 >1 aprt aprt scan Maximum Index Value 1.11E+00 4.38E-01 4.68E-01 2.70E+00 1.49E+01 1.49E+01 Min of [P ), I α ta,α Associate Acoustic Parameter z at max.I 1.64E+00 pi,α...
Page 328 Transducer Model: V10-4BP Imaging Mode: Color+B+PW-Mode/Power+B+PW-Mode Non-scan Index Label Non- Scan >1 ≤1 cm aprt scan aprt Maximum Index Value 9.40E-01 3.70E-01 7.02E-01 1.28E+00 2.28E+00 1.19E+01 1.19E+01 1.16E+01 Min of [P ), I α ta,α Associate Acoustic 8.00E-01 Parameter z at max.I 8.03E-01 pi,α...
Page 329 Transducer Model: V10-4BP Imaging Mode: CM/ B+CM Non-scan Index Label Non- Scan > ≤1cm aprt aprt scan Maximum Index Value 1.46E+00 3.06E-01 7.19E-01 4.17E-01 3.57E+00 7.21E+00 7.21E+00 7.21E+00 Min of [P ), I α ta,α Associate Acoustic 1.35E+00 Parameter z at max.I 5.00E-01 pi,α...
Page 330 C.12 P7-3P Transducer Model: P7-3P Imaging Mode: M-mode Non-scan Index Label Non- Scan > aprt scan ≤1cm aprt 1.21E+00 1.20E+00 2.43E+00 1.81E+00 Maximum Index Value 2.52E+00 6.84E+01 6.84E+01 6.84E+01 Min of [P ), I α α Associate Acoustic 2.89E+00 Parameter 6.95E-01 z at max.I pi,α...
Page 331 Transducer Model: P7-3P Imaging Mode: B-mode iScape Free Xros M Non-scan Index Label Non- Scan ≤ > 1 aprt aprt scan 1 cm 1.27E+00 7.10E-01 9.94E-01 Maximum Index Value 2.64E+00 3.65E+01 3.65E+01 Min of [P ), I α α Associate Acoustic Parameter 6.95E-01...
Page 332 Transducer Model: P7-3P Imaging Mode: B+M-mode Non-scan Index Label Non- Scan ≤ > aprt aprt scan 1 cm 1 cm 1.32E+00 1.40E+00 1.45E+00 1.70E+00 Maximum Index Value 2.75E+00 2.49E+01 2.49E+01 2.49E+01 Min of [P ), I α α Associate 9.11E-01 Acoustic Parameter 6.95E-01...
Page 333 Transducer Model: P7-3P Imaging Mode: PW-mode Non-scan Index Label Non- > ≤ Scan aprt aprt scan 1 cm 1.37E+00 2.25E+00 3.28E+00 3.03E+00 Maximum Index Value 2.73E+00 7.04E+01 7.04E+01 7.04E+01 Min of [P ), I α α Associate 9.80E-01 Acoustic Parameter 2.21E+00 z at max.I pi,α...
Page 334 Transducer Model: P7-3P Imaging Mode: B+PW-mode Non-scan Index Label ≤ Scan Non-scan > aprt aprt 1 cm 1 cm 1.35E+00 1.15E+00 2.25E+00 1.47E+00 Maximum Index Value 2.81E+00 5.82E+01 5.82E+01 5.82E+01 Min of [P ), I α α Associate 4.76E+00 Acoustic Parameter 7.90E-01 z at max.I...
Page 335 Transducer Model: P7-3P Imaging Mode: Color+B-Mode / Power+B-Mode Non-scan Index Label Non- Scan ≤ >1 aprt aprt scan 1.48E+00 1.81E+00 2.26E+00 Maximum Index Value 3.20E+00 9.27E+01 9.27E+01 Min of [P ), I α α Associate Acoustic Parameter 7.90E-01 z at max.I pi,α...
Page 336 Transducer Model: P7-3P Imaging Mode: Color+B+PW-Mode/Power+B+PW-Mode Non-scan Index Label Non- Scan ≤1 > aprt aprt scan 1 cm 9.99E-01 2.57E+00 3.87E+00 4.05E+00 Maximum Index Value 2.10E+00 6.38E+01 6.38E+01 7.08E+01 Min of [P ), I α α Associate 7.90E-01 Acoustic Parameter 7.90E-01 z at max.I pi,α...
Page 337 Transducer Model: P7-3P Imaging Mode: CM/ B+CM Non-scan Index Label Non- Scan > ≤ aprt aprt scan 1.31E+ Maximum Index Value 1.45E+00 3.23E+00 2.47E+00 3.15E+00 5.80E+ 5.80E+01 5.80E+01 Min of [P ), I α α Associate 1.07E+00 Acoustic 7.90E-01 z at max.I pi,α...
Page 338 Transducer Model: P7-3P Imaging Mode: CW-mode Non-scan Index Label Non- Scan ≤ > aprt aprt scan 6.52E-02 1.16E+00 2.45E+00 2.07E+00 Maximum Index Value 1.34E-01 5.98E+01 5.98E+01 5.98E+01 Min of [P ), I α α Associate Acoustic 1.82E+00 Parameter 2.38E+00 z at max.I pi,α...
Page 339 C.13 6LE5VP Transducer Model: 6LE5VP Imaging Mode: M-mode Non-scan Index Label Non- Scan > ≤1cm aprt aprt scan Maximum Index Value 1.37E+00 1.11E-01 4.76E-01 1.05E-01 3.74E+00 4.50E+00 4.50E+00 4.50E+00 Min of [P ), I α ta,α Associate Acoustic 1.35E+00 Parameter z at max.I 1.07E+00 pi,α...
Page 340 Transducer Model: 6LE5VP Imaging Mode: B-mode iScape Free Xros M Non-scan Index Label Non- ≤ Scan > 1 aprt aprt scan 1 cm Maximum Index Value 1.23E+00 1.24E-01 1.42E-01 2.71E+00 4.53E+00 4.53E+00 Min of [P ), I α ta,α Associate Acoustic Parameter z at max.I...
Page 341 Transducer Model: 6LE5VP Imaging Mode: B+M-mode Non-scan Index Label Non- ≤ Scan > 1 aprt aprt scan 1 cm Maximum Index Value 1.25E+00 2.18E-01 3.61E-01 3.49E-01 2.75E+00 4.12E+00 4.12E+00 4.12E+00 Min of [P α ta,α Associate Acoustic 1.28E+00 Parameter z at max.I 1.22E+00 pi,α...
Page 342 Transducer Model: 6LE5VP Imaging Mode: PW-mode Non-scan Index Label Non- ≤ Scan >1 aprt aprt scan 1 cm Maximum Index Value 1.09E+00 3.12E-01 9.70E-01 5.02E-01 2.48E+00 9.42E+00 9.42E+00 9.42E+00 Min of [P α ta,α Associate Acoustic 1.57E+00 Parameter z at max.I 1.57E+00 pi,α...
Page 343 Transducer Model: 6LE5VP Imaging Mode: B+PW-mode Non-scan Index Label ≤ Scan Non-scan > 1 aprt aprt 1 cm Maximum Index Value 1.15E+00 6.12E-01 6.86E-01 6.14E-01 2.61E+00 1.06E+01 1.06E+01 1.06E+01 Min of [P ), I α ta,α Associate Acoustic 1.28E+00 Parameter z at max.I 1.49E+00 pi,α...
Page 344 Transducer Model: 6LE5VP Imaging Mode: Color+B-Mode / Power+B-Mode Non-scan Index Label Non- Scan ≤1 >1 aprt aprt scan Maximum Index Value 1.14E+00 3.72E-01 4.69E-01 2.59E+00 1.50E+01 1.50E+01 Min of [P ), I α ta,α Associate Acoustic Parameter z at max.I 1.57E+00 pi,α...
Page 345 Transducer Model: 6LE5VP Imaging Mode: Color+B+PW-Mode/Power+B+PW-Mode Non-scan Index Label Non- Scan >1 aprt ≤1 cm scan aprt Maximum Index Value 9.60E-01 5.60E-01 1.18E+00 6.74E-01 2.37E+00 8.70E+00 8.70E+00 1.16E+01 Min of [P ), I α ta,α Associate Acoustic 7.27E-01 Parameter z at max.I 5.00E-01 pi,α...
Page 346 Transducer Model: 6LE5VP Imaging Mode: CM/ B+CM Non-scan Index Label Non- Scan > aprt ≤1cm scan aprt Maximum Index Value 9.45E-01 4.10E-01 1.16E+00 4.02E-01 2.15E+00 9.22E+00 9.22E+00 9.22E+00 Min of [P α ta,α Associate Acoustic 1.57E+00 Parameter z at max.I 1.71E+00 pi,α...
Page 347 C.14 D6-2P Transducer Model: D6-2P Imaging Mode: M-mode Non-scan Index Label Non- Scan > ≤ aprt aprt scan 1.10E+00 4.76E-01 1.88E+00 9.76E-01 Maximum Index Value 1.90E+00 5.11E+01 5.11E+01 Min of [P ), I 3.38E+01 α α 2.03E+00 1.96E+00 Associate Acoustic 2.88E+00 Parameter 2.36E+00...
Page 348 Transducer Model: D6-2P Imaging Mode: B-mode Smart3D Tissue Harmonic Imaging 4D(Real-time 3D) Non-scan Index Label Non- Scan ≤ > 1 aprt aprt scan 1 cm 1.22E+00 1.35E+00 1.86E+00 Maximum Index Value 2.18E+00 8.79E+01 8.79E+01 Min of [P ), I α α...
Page 349 Transducer Model: D6-2P Imaging Mode: B+M-mode Non-scan Index Label Non- Scan ≤ > 1 aprt aprt scan 1 cm 1.19E+00 1.20E+00 1.09E+00 1.71E+00 Maximum Index Value 2.13E+00 7.01E+ 7.01E+00 7.01E+00 Min of [P ), I α α Associate 4.58E+00 Acoustic 1.55E+00 z at max.I α...
Page 350 Transducer Model: D6-2P Imaging Mode: PW-mode Non-scan Index Label Non- Scan ≤ >1 aprt aprt scan 1 cm 2.69E- Maximum Index Value 1.00E+00 3.54E-01 5.66E-01 1.71E+00 1.28E+ 1.28E+01 1.28E+01 Min of [P ), I α α Associate 3.18E+00 Acoustic 3.00E+00 z at max.I α...
Page 351 Transducer Model: D6-2P Imaging Mode: B+PW-mode Non-scan Index Label ≤ Scan Non-scan aprt > 1 aprt 1 cm Maximum Index Value 1.45E+00 1.23E+00 1.05E+00 1.74E+00 2.62E+00 8.80E+00 8.80E+00 8.80E+00 Min of [P ), I α α Associate Acoustic 1.28E+00 Parameter z at max.I 2.91E+00 α...
Page 352 Transducer Model: D6-2P Imaging Mode: Color+B-Mode / Power+B-Mode Non-scan Index Label Non- Scan ≤ >1 aprt aprt scan 1.10E+00 4.05E+00 5.25E+00 Maximum Index Value 1.90E+00 2.49E+02 2.49E+02 Min of [P ), I α α Associate Acoustic Parameter 2.36E+00 z at max.I α...
Page 353 Transducer Model: D6-2P Imaging Mode: Color+B+PW-Mode/Power+B+PW-Mode Non-scan Index Label Non- Scan ≤1 >1 aprt aprt scan Maximum Index Value 1.08E+00 1.61E+00 1.31E+00 2.36E+00 1.86E+00 1.42E+01 1.42E+01 8.35E+01 Min of [P ), I α α Associate Acoustic 4.26E+00 Parameter z at max.I 2.36E+00 α...
Page 354 Transducer Model: D6-2P Imaging Mode: CM/B+CM Non-scan Index Label Non- Scan > aprt ≤1cm scan aprt 1.10E+00 4.95E-01 1.93E+00 1.00E+00 Maximum Index Value 1.90E+00 4.19E+01 4.19E+01 Min of [P ), I 2.76E+01 α α 1.82E+00 1.77E+00 Associate Acoustic 3.00E+00 Parameter 2.36E+00 z at max.I α...
Page 355 Appendix D Electrical Safety Inspection The following electrical safety tests are recommended as part of a comprehensive preventive maintenance program. They are a proven means of detecting abnormalities that, if undetected, could prove dangerous to either the animal or the operator. Additional tests may be required according to local regulations.
Page 356 Device Enclosure and Accessories D.2.1 Visual Inspection Test Item Acceptance Criteria No physical damage to the enclosure and accessories. No physical damage to meters, switches, connectors, etc. The enclosure and accessories No residue of fluid spillage (e.g., water, coffee, chemicals, etc.). No loose or missing parts (e.g., knobs, dials, terminals, etc.).
Page 357 Earth Leakage Test Run an Earth Leakage test on the device being tested before performing any other leakage tests. The following outlet conditions apply when performing the Earth Leakage test.  normal polarity( Normal Condition);  reverse polarity( Normal Condition); ...
Page 358  LIMITS For BF applied parts, 100μA in Normal Condition.  500μA in Single Fault Condition.  Mains on Applied Part Leakage The Mains on Applied Part test applies a test voltage, which is 110% of the mains voltage, through a limiting resistance, to selected applied part terminals. Current measurements are then taken between the selected applied part and earth.
Page 359 P/N: 046-002187-00 (V10.0)

Shenzhen mindray Z6 Vet Operator's Manual

1 Safety Precautions

2 System Overview

3 System Preparation

4 Exam Preparation

5 Image Optimization

6 Display & Cine Review

7 Measurement

8 Comments and Body Marks

9 Data Management

10 Dicom

11 Setup

12 Probes and Biopsy

13 Battery

14 Acoustic Output

15 Guidance and Manufacturer's Declaration

16 System Maintenance

Appendix A Barcode Reader

Appendix B Transducer Maximum Surface Temperature

Appendix C Acoustic Output Reporting Table (60601-2-37

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