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Copyright2018 Seongsan Lab, Seoul, South Korea This manual is protected under international copyright laws. No part of this manual may be reproduced, distributed, translated, or transmitted in any form or by any means, electronic, magnetic, optical, chemical, manual or otherwise, without the prior written permission of Seongsan Lab. DEEPSOUND P1 www.seongsanlab.com ® Complete User Manual Portable Phased Array UT System

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Copyrightⓒ 2018 Seongsan Lab, Seoul, South Korea

This manual is protected under international copyright laws.

No part of this manual may be reproduced, distributed, translated, or transmitted in any form or by any means, electronic, magnetic, optical, chemical, manual or otherwise, without the prior written permission of Seongsan Lab.

DEEPSOUND P1

www.seongsanlab.com

Sdf sdf sdf sdf sdf

®

Complete User Manual

Portable Phased Array

UT System

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DEEPSOUND P1: Complete Guide Release 1.1, 2018

Copyright⒞ Seongsan Lab. All rights Reserved 1

Getting Started Guide

Manual release 1.1

This instruction manual supports the usage and methodology of the DEEPSOUND P1 device, its software and functions.

Audience

This document and the information contained in its strictly reserved for current Seongsan Lab personnel, Seongsan Lab licensed representatives and Seongsan Lab customers who have purchased a valid service agreement for use by the customer’s designated in-house service employee on equipment located at the customer’s designated site.

General Precautions

Before using and turning on the device, please carefully read the instructions in this user manual. Keep this manual as the priority for future reference. Please follow the installation and operation procedures carefully.

User manual format

This manual is in Portable Document Format (PDF), for viewing on a laptop computer or any other electronic device compatible with Acrobat Reader® . A list of bookmarks functions as an additional table of contents.

Conventions of the user manual

This user manual is designed to be easy to understand and user-friendly, but to take full benefit of the information provided, conventions are useful to know easily.

Various typographical conventions explained below were defined to standardize and simplify the look and feel of this documentation:

Hypertext links are bold.

All procedures are numbered, and sub-procedures are lettered.

Control names and menu items or titles are spelled as they are in the device, and they appear in bold text.

Symbols, menu bars, and images appear as they appear in the software part

An italic typeface is used to indicate on a specific word or phrase (for example: should always).

Small capitals are generally used when reference is made to inscriptions found on the device (indicator lights, buttons, etc.)

Safety and Other Indications

The purpose of the various safety indications is to ensure operator safety and device integrity. In order to maintain this condition and to ensure a safe operation, it is absolutely necessary that you read the following safety information before putting the instrument into operation.

This sign indicates a hazardous action. It denotes that if not correctly performed or adhered to, could result in material damage or loss of data.

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Important: The Important sign denotes to a note that provides important information, or information necessary to the completion of a task with the device.

Note: The Note sign indicates an operating procedure, a practice that requires special attention. It also denotes related information, but not imperative ones.

Questions or comments about this manual

If you have questions about this manual, please contact Seongsan Lab,

[email protected]

Research and Development team, at the address below.

ATTENTION

Seongsan Lab, 2018. Rev 1.0. All rights reserved. All the information herein is subject to change without prior notification.

Contact us:

Seongsan Lab

Seung-il venture tower 802,

Gasan Digital Road 2-gil 136

(Gasan-dong 371-42)

Geumcheon-gu, Seoul, Korea

Seoul, South Korea

P: 02-2039-5725

F: 02-2039-5726

www.seongsanlab.com

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List of Abbreviations

DAC- Distance amplitude curve

CLB – Calibration Method

GD - global delay

GN – echo gain

PA - Phased array

PRF - pulse repetition frequency

Rx – receiver

RNG – range

Ref – reference

PD – probe delay

PW-pulse width

ID – inside diameter

IDX – index

Neg - negative

Pos - positive

SNR - signal-to-noise ratio

SCN – scan

TOFD - time-of-flight diffraction

TCG - time corrected gain

Tx – transmitter

UT – ultrasound testing

US – ultrasound

USB – Universal serial bus

VLC – material velocity

WD - wedge delay

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Icons & button function explanations

Icons in the status field

Icon Meaning

Pitch-and-Catch/TOFD probe

Single/Conventional probe

Battery charging status

Using an adapter status

Freeze: All Pulse & Receive operations are disabled

Locks a functions, except the

main menu

Device input options

Input methods Action

Touch screen Touch to select, zoom, drag gestures

Control buttons Scroll without menu list, select particular action

Rotary knob switch Scroll through menu list

Key functions

Button Main Function

Turn On/Off the device

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Table of Contents

PART I: P1 Device Guide .................................................................................................................................... 9

1. Device Overview ......................................................................................................................................... 9

1.2 SPECIAL FEATURES ................................................................................................................................ 9

2. Accessories and packages ............................................................................................................................. 11

3. DEEPSOUND P1 Device specifications ...................................................................................................... 12

3.1 General specifications: ............................................................................................................................ 12

4. Control buttons and parts of the device ..................................................................................................... 14

5. Setting and connector references ................................................................................................................. 16

5.1 Turning ON/OFF the device: ................................................................................................................ 16

5.2 Setting up the P1 device: ........................................................................................................................ 17

5.3 Probe connections .................................................................................................................................... 18

5.3.1 Installing a probes ............................................................................................................................ 18

5.3.2 Removing a probes .......................................................................................................................... 18

5.4 Batteries and function ................................................................................................................................. 18

5.4.1 Installing a Lithium-Ion battery ......................................................................................................... 19

5.4.2 Charging the battery ............................................................................................................................ 20

5.4.3 Battery Status Indicators ...................................................................................................................... 20

6. Encoder connector (receptacle) .................................................................................................................... 21

6.1 Installing the encoder connector ................................................................................................................ 22

6.2 Removing the connector ............................................................................................................................. 22

7. LED indicator status ...................................................................................................................................... 23

8. Other connector references ........................................................................................................................... 23

9. Safety information ......................................................................................................................................... 24

9.1 Maintenance of the P1 device ................................................................................................................ 24

10. Troubleshooting and error handling ......................................................................................................... 25

1. P1 Device Software Functions ................................................................................................................. 27

1.0 User Interface and functions .................................................................................................................. 27

1.2 Input methods .......................................................................................................................................... 29

2. Menu explanations.................................................................................................................................... 31

2.1 Main Window .......................................................................................................................................... 31

2.2 Toolbar explanations: .............................................................................................................................. 32

2.3 Scan View Screen ......................................................................................................................................... 34

2.5 Submenu: Toolbars and Wizard ................................................................................................................ 38

2.5.1 Mini Toolbar- PULSER ........................................................................................................................ 39

2.5.2 Mini Toolbar- GATE ............................................................................................................................ 40

2.5.3 Mini Toolbar- Calibration.................................................................................................................... 41

2.5.4 Mini Toolbar- DAC/TCG .................................................................................................................... 44

2.5.5 Mini Toolbar- ENCODER Scan .......................................................................................................... 46

2.5.6 Mini Toolbar- BEAM ............................................................................................................................ 47

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2.5.7 Mini Toolbar- Data ............................................................................................................................... 48

2.5.8 Mini Toolbar- Channel Group ............................................................................................................ 48

2.5.9 Mini Toolbar– WIZARD ...................................................................................................................... 49

2.5.9-1: Configuring the Specimen & Weld ................................................................................................ 50

2.5.9-2: Configuring the Channel Group .................................................................................................... 53

2.5.9-3: Configuring a Focal Law ................................................................................................................. 64

2.5.9-4: Calibration ......................................................................................................................................... 67

2.5.9-4.1: Velocity Calibration .................................................................................................................. 71

2.5.9-4.2: Wedge Delay Calibration ......................................................................................................... 68

2.5.9-4.3: Sensitivity Calibration .............................................................................................................. 71

2.5.9-4.4: Encoder Calibration .................................................................................................................. 77

2.6 Submenu: Settings ....................................................................................................................................... 81

2.6.1 Submenu SUB TOOLBARS: CHANNEL SETTING ........................................................................ 81

2.6.2 Submenu SUB TOOLBARS: PULSER ................................................................................................ 83

2.6.2-1 Sub Menu: PULSE ......................................................................................................................... 83

2.6.2-2 Sub menu: RECEIVE .................................................................................................................... 87

2.6.3 Submenu SUB TOOLBARS: BEAM ................................................................................................... 90

2.6.3-1 Sub-Menu: BEAM ......................................................................................................................... 90

2.6.3-2 Sub-Menu: FOCUS ....................................................................................................................... 91

2.6.4 Submenu SUB TOOLBARS: PROBE .................................................................................................. 93

2.6.4-1 Sub Menu: PROBE ........................................................................................................................ 93

2.6.4-2 Sub Menu: ELEMENT .................................................................................................................. 94

2.6.3-4 Sub Menu: OFFSET....................................................................................................................... 95

2.6.5 Submenu SUB TOOLBARS: WEDGE ................................................................................................ 97

2.6.6 Submenu SUB TOOLBARS: TRANSMITTER/RECEIVER ............................................................ 97

2.6.6-1 Sub Menu: Tx DELAY .................................................................................................................. 97

2.6.6-2 Sub-Menu: Rx DELAY ................................................................................................................. 98

2.6.7 Submenu SUB TOOLBARS: MECHANICAL SETTING ............................................................... 100

2.6.7-1 SCAN: ........................................................................................................................................... 100

2.6.7-2 INDEX: ......................................................................................................................................... 101

2.6.8-3 ENCODER ................................................................................................................................... 103

2.6.8 Submenu SUB TOOLBARS: SPECIMEN/WELD SETTING ........................................................ 104

2.6.8-1 Sub-Menu: SPECIMEN .............................................................................................................. 104

2.6.8-2 Weld .............................................................................................................................................. 105

2.6.9 Submenu SUB TOOLBARS: SETTING LOAD / SAVE ................................................................ 106

2.6.9-1: Setup (file format: SET) ............................................................................................................. 106

2.6.9-2: Image (file format: PNG) .......................................................................................................... 107

2.6.9-3: Data (file format: IQV) .............................................................................................................. 107

2.6.9-4: Layout.......................................................................................................................................... 108

2.6.10 Submenu SUB TOOLBARS: DEVICE SETTING .......................................................................... 109

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2.6.10-1: Display ...................................................................................................................................... 110

2.6.10-2: Gate Line ................................................................................................................................... 113

2.6.10-3: Device ........................................................................................................................................ 114

2.6.10-4: Preference ................................................................................................................................. 115

2.7 Submenu: Gate option toolbar ................................................................................................................. 116

2.8 Submenu: Scan view toolbar .................................................................................................................... 118

2.9 Submenu: Shortcut toolbar (horizontal) ................................................................................................. 119

APPENDIX B .................................................................................................................................................... 123

APPENDIX C ................................................................................................................................................... 130

Important NOTICE .......................................................................................................................................... 133

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DEEPSOUND P1 DEVICE GUIDE

Revision 1.1

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PART I: P1 Device Guide

1. Device Overview

The DEEPSOUND P1

Seongsan Lab’s DEEPSOUND P1 device is targeted for providing a high quality – low

cost, portable and highly efficient, user-friendly, ultrasound inspection using PAUT

technology with various functions.

The P1 is a mobile Phased-Array device that well suited for:

Ultrasound Testing (UT) is used for a flaw detection, size measure, and

imaging. PAUT technology has the ability to modify electronically the acoustic

probe characteristics.

The encoder saves collected data and improves the difficulty of data storage

when the UT is used. The device also enables data collection in the form of 2D-

images along availability of A-Scan, B- Scan and C-Scan.

1.2 SPECIAL FEATURES

Special features of the DEEPSOUND P1:

Phased Array UT technology with simple UT

Time of Flight Diffraction Technique (TOFD) included

7.0 inch Touch screen with high-resolution LCD

Bipolar Pulse Wave + Burst Wave

Easy scan setup through various Wizard functions (Channel Group, calibration etc)

2-D image analysis through B-Scan and C-Scan

Storage of control and acquired data sets enabling quick calibration and reproducibility of the test

Various filter type availability (Band pass, High pass, Low pass)

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Acquisition of data by encoder and Sectorial scan view, B scan and C scan view – In UT technique, it is quite difficult to save test data and illustrate B and C scan view using an encoder. The advantage of DEEPSOUND P1 device improved this point, thus the user may save acquired data collected by an encoder in computer file format, copy the saved data through USB and read the test result from PC.

Due to disadvantages of PAUT, ultrasound signals are provided to examine in a one-dimensional form. Therefore in order to improve the need for much time, knowledge, and hands-on experience in determination of defects, the encoder is input and one Scan and C-Scan data in real-time. These features are very helpful in determining defects and helping to make defective analysis over cracks easier for even inexperienced users.

Note: In this document, hardware controls that you press to activate are referred to as keys, the word button is reserved for software control.

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2. Accessories and packages

This chapter guides you about the accessories and packages available for the P1 device.

2.1 Accessories

Product Description

Device case Carrying case for P1 device only

Strap for wrist Can use for mobile activity

Strap for shoulder Can use for traveling, mobile activity

2.2 Available packages

Part Description

Rechargeable battery x 1 ea Removable battery with 6400 mAh/7.5 V

AC/DC adapter 12V / 8.3A adapter

User Manual Korean/English version available

Device calibration certificate Calibration document available in Korean

Quality assurance documents Quality assurance proof document available in Korean

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3. DEEPSOUND P1 Device specifications

This chapter will provide more information about specifications of the P1 device.

Main body description of P1 device

Size (H x W x D): 23 x 16 x 6 cm

Net weight: 1.6 kg (without battery)

2.0 kg (with battery)

Battery life

Up to 6 hours (battery replacement, adapter use without battery supported)

3.1 General specifications:

Display: 7.0 inch LCD with Touch Interface (diagonal)

Display resolution: 1024 pixels x 600 pixels

PAUT channel: 16 : 64 PR

Probe connector: IPEX 80 x1 ea (PAUT)

Pulse wave type: Bipolar

Max burst count: 5

Dynamic sample focusing: Yes

Digitizing frequency: up to 50 MHZ

Amplitude Resolution Signal: 16 bit

Maximum PRF: 20 KHz

Maximum pulse voltage: 160V

Bandwidth: 0.25 ~ 20 MHz

Real-time data compression: Yes

Rectification: Full wave, Positive unipolar, Negative unipolar, RF wave

Scan view: A Scan view, Sectorial scan view, C scan view, B scan view

Filtering: Analog/Digital

Encoder Interface: 2 Axes /D-Sub pin 3 row

Max gate: 3 gate (A,B,I) (supports beep sound)

Interface:

Ethernet connector interface: 1 GBps/s

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USB: High speed 3.0

Adapter and Battery:

Input: 12.0 V / 8.3A

Battery: 2S2P (6400 mAH) x 1 ea

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4. Control buttons and parts of the device

Front panel – Display, knob switch and power button

Top panel – probe connector (locker and socket), encoder and USB connector

Right side panel – Ethernet (RJ-45) and DC adapter connector

Left side panel – handler

Rear side panel – Cooling fan, standing, battery cover lid

Detailed descriptions:

1. Display- 7.0 inch touch screen LCD display

2. Power button/ LED indicators – On/Off the device

3. Rotary (dial + push) knob switch – adjust the parameter value

4. PAUT probe connector – used to connect phased array probe (Mini DLP)

5. Encoder connector – used to connect encoders

6. USB connector – used to connect external USB storage device

7. Ethernet connector- used to connect with LAN cable

8. DC adapter connector – connect device with power source/charge batteries

9. Battery lid with screw: contains battery (1 ea) and lid with screw (2x)

10. Stand: used to switch position to tilt

11. Hanger strap: used to carry the device with hand

12. Rear cooling fan : Part of the cooling system

13. Heat sink

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Figure: P1 device front and left side panel

Figure: P1 device rear and left side panel

1

7

8

2

3 4

5 6

11

10 9

12

13

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5. Setting and connector references

This section explains the device general settings and its various connector references in detail. Furthermore, appendix section will provide more information about probes, which will lead you to obtain even better acquisition scanning result.

We strongly recommend user to read all this manual thoroughly before real-time application or unintended hazardous action, since this document

provides all information you may need.

5.1 Turning ON/OFF the device:

To turn on the P1, press the power button, and the display will be on. The settings of all function values and basic settings are the same as they were before the software was turned off.

We strongly recommend users to do not turn on the P1 device until it has reach room temperature, if P1 has carried under extremely low temperature

for a long-time, immediate turning on may lead P1 to the damage.

Turning ON

To turn on the P1, press the power button for 1 second, then red LED will lit on.

You will first see the start display of the P1 showing the current the device name and logo, software version (figure a) and the main screen (figure b)

a) start screen b) the main screen

After a few seconds of a period, the normal screen display appears, and the device will be ready for operation (figure b).

The settings of all function values and the basic settings (units/time/date) are the

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same as they were before the device was turned on/off

Turning OFF

To turn off the P1, press the power button and “Shut Down” notification will appear. Then red LED will lit which indicates a shutting down procedure.

But shutting down process is bit different, you have to still check the red LED is turning down.

NOTE*: Make sure check the red LED is turned off, which indicates the complete shutdown of the P1

Figure : Window when power button is pressed

5.2 Setting up the P1 device:

The P1 device is lighter than other similar products, therefore the device can be used on the desk, floor or other flat spaces or you can carry the device with proper carrying strap in any direction or condition.

Since P1 meets the safe and light performance in hardware matter, but safety is still essential. Therefore we recommend users to use P1 device always makes sure positioned away from heat sources, and if the device has been carried during cold or harsh weather for a long-time, wait until has been adapted to the proper temperature before its get used.

Important: It is recommended to that device should positioned close to a power outlet that could avoid disconnect unexpectedly in some manner.

Also, we encourage you to not block cooling fan for while intentionally or not.

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5.3 Probe connections

In order to prepare P1 for UT inspection, you can create an Ultrasonic (UT) Channel Group for UT inspection using the UT Connector or PA Connector by selecting the Probe Type in the settings.

Example of probe connections:

Important: Switched or incorrectly installed probe causes a mismatch which can lead to distorted echoes or power losses.

5.3.1 Installing a probes

To install a probe:

Remove the adapter from the storage.

Align the adapter on Pulser/Receiver, and gently push it in. The adapter should slide easily.

Secure the probe with turning tightening screws in direction of closing. Device is now ready to work with probes.

5.3.2 Removing a probes

To remove connector:

Turn tightening screws in opening direction to remove a probes.

Gently pull out to remove connector from the socket.

We recommend users to pull out the adapter in a straight direction. Otherwise, connector pin could bend and render the adapter unusable.

5.4 Batteries and function

The P1 device uses single powerful, long-lasting Lithium-Ion storage, that has a high capacity, and supports battery replacement.

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Recommendation:

In case of store batteries, store at below 20 C, low humidity, no dust and no corrosive gas atmosphere. Store the battery with a state charge between 50-70%.

5.4.1 Installing a Lithium-Ion battery

The Lithium On storage battery can be temporary installed in a device battery tray.

Before installing batteries:

To insert a new battery, the lid located rear side of the device must be removed using two screws and remove the battery compartment lid and insert batteries one by one.

Figure: Battery compartment lid (2 ea screws) Battery position inside of the body

Loose the two screws of the battery lid

Insert the battery into battery holder and connect the wire to connector

Close the battery lid and tighten up screws

Note: P1 equipment has a caution between battery replacement and combination.

[1] You need to check the direction of the connector between replacing and engaging the battery

[2] Make sure you do not have any water on your hands (it may affect the PCB).

You can charge the Lithium-Ion battery during operation directly on the P1 using the external power supply/charger unit of P1. As soon as you connect the power supply unit (plug-in power supply unit) to the P1, the battery usage is stopped immediately.

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5.4.2 Charging the battery

To charge the Lithium-Ion storage batteries, the P1 AC/DC power supply/charger unit must connect, it will automatically recharge any battery requiring charging, starting with the weakest battery. Since the P1 is running, less power is available from the DC source to recharge the battery.

The P1 DC power adaptor is designed to charge P1 batteries only. Do not attempt to charge any other type of battery, or use any other chargers/adaptors. Doing so could cause an explosion or serious injury to both user and the device. Do not attempt to power or charge other electronic equipment with the P1 DC power adaptor, as doing so could cause an explosion resulting in serious personal damage. We strongly recommend user to read all this manual thoroughly before real-time application or unintended hazardous action, since this document provides all information you may need.

Note: [1] The batteries can be charged during normal operation. You do not have to remove the battery lid for this purpose.

[2] You can charge a separate Lithium-IoN storage battery by connecting to the charger unit.

5.4.3 Battery Status Indicators

There is a single charge indicator for the P1 device. The indicator show the amount of power remaining in the battery or batteries (see the figure below).

Figure: P1 device adapter using /battery charging status

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6. Encoder connector (receptacle)

The encoder connector is fully compatible with the scanning mechanism. Following image shows that encoder connection port of the P1, which compatible with manual and automatic driven scanning mechanisms. P1 encoder interface has 4 quadrature type and 2 differential type.

Description: D-SUB DS1033-15F connector

Figure: Encoder connection on side panel /connector socket

Pin Signal

3 Output 5V

9 ENC_Q0

10 ENC_I0

12 ENC_I1

11 ENC_Q1

15 GND

Table: Pinout for encoder scanner connector

The important thing that working with a probe is make sure that the connector pins are properly aligned and that the adapter is not positioned in the wrong side. Also when manipulating the adapter, never use

excessive force, that may bend the pins and render the adapter unusable.

Encoder connector port

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6.1 Installing the encoder connector

To install the encoder connector:

Open the rubber cover

Align the encoder on port and gently push it in. Please keep in your mind that do not use excessive force to push the encoder to a port, it may cause the bend of pins or malfunction.

6.2 Removing the connector

To remove connector:

Turn tightening screws counter clockwise until they are completely out of the sockets.

Gently pull out to remove it from the connector.

Close back the rubber cover

We strongly recommend users to pull out the adapter in a straight direction. Otherwise, connector pins could bend and render the adapter unusable.

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7. LED indicator status

The light indicator let you know an alarms or activity on the current status of the P1 device.

Gate -> Echo [ Gate A(Red), B(Orange), I(Green) ]

System booting

System shutdown

Charge indication

Figure: Alarm LEDs indicator

8. Other connector references

Gigabit Ethernet Connector

P1 uses auto-configurable Gigabit Ethernet port, a user may use any type of ethernet cable to connect the P1 device to the internet.

Description: RJ-45

Figure: Ethernet connector reference

Parameters Specifications

Description RJ-45 , four pair

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9. Safety information

The P1 is designed and tested according to safety standards and was technically in perfectly safe and faultless condition when leaving the manufacturing works.

The P1 is a device for materials testing. Any use for other applications such as medical or other purposes is not allowed.

9.1 Maintenance of the P1 device

There is no maintenance required, a few recommendations are listed below:

Cleaning the device surface

The P1’s external cases (front and side panel) can be cleaned under some circumstances:

To clean the device:

Always make sure the device power cord is disconnected and turned off completely.

Keep in mind that device body surface is better to clean with a soft clothing material.

We strongly recommend users to not clean the device with liquid, especially when the device is turned on. The liquid could make the device partially or wholly inoperable, or when connectors stay wet without immediate drying process, it may produce a short circuit when

plugging cables.

Wait until the device dries completely before plugging into the power cord or any other cables.

We recommend you to always use carrying case when the device is not used.

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10. Troubleshooting and error handling

This section will provide basic troubleshooting if device malfunctioned or problem arises. In case of problem detected, please refer the following table.

Problem Cause Recommended solution

P1 does not turn ON Power cord disconnection Check the power cord and replace it with the

proper size.

P1 does not turn ON Battery on empty state Make sure the adapter

has connected with power supply.

The P1 shuts down unexpectedly

The device has been used for extreme temperatures

for an extended time

Wait few minutes before turning on the device.

Change the working location or reduce the ambient temperature.

Encoder signal are not detected

The wrong setup configured in the settings

page.

Verify pin-out and refer to this software manual.

Table: Basic troubleshooting

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DEEPSOUND P1 Device Software Manual

Revision 1.1

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PART II: P1 Device Software

According to the current state of the art, software is never completely free from errors. Before using any software-controlled test equipment, please make sure that the required functions operate perfectly in the intended combination of usage.

If you have any questions about the use of our device and software, please contact our software department using the address provided in Page 2.

Important notes on software

Please read the following notes before using DEEPSOUND P1 device. It is important that you understand and observe this information to avoid any operator errors that might lead to false test results. This could result in damages to property.

Operator pre-knowledge

The operation of an ultrasound test device requires a proper knowledge of ultrasound test methods,

• Non-destructive inspection method

• How to operate NDT

Lack of such knowledge could lead to false test results with unwanted consequences.

1. P1 Device Software Functions

This chapter presents the general features of the P1 system software user interface. The shortcut menus that are available in full-screen modes are explained in detail with “Shortcut menus”.

1.0 User Interface and functions

In the following hierarchy, if a button has a pale background, it is selected, and the focus is on that particular menu. The main list temporarily appears vertically over the data screen area while the focus is on the menu level. The submenu buttons appear vertically on the left side of the screen, below the menu button. The parameter buttons appear at the top of the screen.

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Menu > Submenu > Parameter = Value

Figure: The menu hierarchy and identification syntax

The following procedure provides a detailed description on how to select menu, submenu, and parameter buttons in the user interface of the P1 software.

To navigate in the P1 software:

Choose the desired Menu button

Proceed as follows to choose the desired item from the menu list:

Tap the selected item on the touch screen

Dial or push the Rotary Knob to adjust

The software immediately reassigns the functions of the submenu buttons to those corresponding to the chosen menu item.

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1.2 Input methods

The display touch screen acts as pointing device by tapping and other gesture.

To select an interface element, touch the screen surface gently with your single finger. To drag an interface element, just slide your fingertip across the screen surface.

Figure: Touch gesture example

Display functions also work with dragging and shifting gestures. In a scan view window, gesture works as the following chart:

Action Description Usage

Single tap

Select the button or highlight the action

Double tap

Entering the selected function or button

Drag

Drag the gate lines in scan view window

Pin-to zoom

Pin to zoom-in/zoom-out the scan view window or enlarge/shrink the

wave and gates

Long press

Activate other auxiliary functions.

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Note: The icon in this document indicates the touch feature is available.

Rotary knob (dial and push)

The P1 is equipped with the rotary knob switch. The rotary serves for setting the currently selected function, and enables you to directly set the gain. Also, knob switch enables to select function as pushing on it. This enables users to select functions as not just tapping on the screen, also by pushing on the knob switch.

NOTE: Rotary knob: Since the device has intended for a touch interface, icon bars can be user accessible with a double tap.

*These icons will guide through rest of function reference.

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2. Menu explanations

2.1 Main Window

This part will guide you through toolbars with functions of the software. The main window contains the following elements.

Figure: Toolbar components of the main window

Shortcut toolbar Sdf sdf sdf sdf sdf

Mini toolbar Sdf sdf sdf sdf sdf

Data Screen Sdf sdf sdf sdf sdf

Acquisition toolbar Sdf sdf sdf sdf sdf

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2.2 Toolbar explanations:

The user can choose a variety of toolbars in the main setting file. In the top toolbar, there is six submenus are available to choose.

NOTE: Every tap on top-right corner button (with touch icon in the figure) will change options. See next pages.

Every submenu is accessible by first selecting by touch the screen, then use rotary knob switch to change values.

2.3 Data screen:

Displays scan view, the graphical lines of gates, its position and displacements.

2.4 Top menu: acquisition toolbar

Displays the measurement values, the function identification, as well as control buttons on the mini-toolbar.

2.6 Submenu: WIZARD toolbar

Displays various options of the wizard, as well as sub-options in mini-toolbar.

2.7 Submenu: Settings toolbar

Displays various settings and explanations of settings.

2.8 Submenu: Gate option toolbar

Displays various options of gate toolbar-options in mini-toolbar. Displays the

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2.9 Submenu: Scan view toolbar

Right

Shortcut toolbar

Displays the measurement values, the function identification, as well as control buttons on the mini toolbar.

Mini toolbar

Displays the names of the various menu.

Submenu: Optional setting

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2.3 Scan View Screen

The Scan view screen area displays the various ultrasound data views and layouts.

A scan is a 2-D graphical representation of ultrasound data with a ruler or scale corresponding to the horizontal and vertical axis. For example, an A-scan and a C-scan are two different types of scans.

A view is a volumetric representation of a part, which includes signal overlays. Like a scan, a view has two axes. However, instead of being related to a specific group, a view is linked to the part. A signal that originates from a single group or from multiple groups can be displayed without affecting the view dimensions.

A layout is an organization of one or more scans and views. For example, the A-B-C layout is a graphical arrangement of an A-scan, a B-scan, and a C-scan.

View Point of view Axis content

A Scan Looking down on the

material Amplitude versus US axis

B Scan Side Scan axis versus US axis

C Scan Top Index axis versus Scan axis

D Scan End Index axis versus US axis

S Scan Side Index axis versus US axis

Table: Scan view screen explanation

A-scan View

This is the view window that underlies all other view windows. Generates an ultrasonic beam to indicate the received ultrasonic amplitude or waveform. In the signal, the peak corresponds to a reflector within the specimen or a discontinuous reflected signal. Generally, the peaks at the beginning and end of an ultrasonic axis generally correspond to the reflected signals on the surface and bottom of the specimen.

B-scan

2-D side representation of the part showing US data with the scan length on one axis, and the US path on the other axis.

C-scan

2-D side representation of the part showing US data with the scan length on one axis, and index length on the other axis. One of the available parameters (for example,

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amplitude) is projected on the index-scan plan for each point (pixel).

D-scan

2-D side representation of the part showing index and US data the scan length on one axis, and the US path on the other axis.

S-scan (Phased Array only)

2-D representation of US data presetting all the A-scans generated by the focal laws in an angular sector or sectorial range in order to create a cross section of the part. The A-scans are represented by lines on which the amplitude is color-coded, and they are corrected for delay and true depth so that their positions are accurate relative to the US axis.

Rulers

Each ruler/scale in filled with a dedicated color to help you identify the axis on the various views. Following table provides a list of the available rulers/scales, and their associated colors and functions.

The basic color is attributed to each axis. The axis appears in various tints of the basic color. The lightest tint corresponds to the raw data representation. Progressively darker tints correspond to increasing data correction complexity relative to the axis. A darker tint is also used for an axis that appears as a reference, in which case the zoom bar is not available.

Axis Color Appearance Note

Amplitude Light green Uncorrected

MetalPath Pink No zoom

Ultrasound Purple True depth units

Scan Blue Volumetric correction

Index Green N/A

Ultrasound Pale pink Sound path units

Degree Pale blue Degree

measurement

NOTE: The colors in this document differ slightly from those on the P1 device screen.

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2.4 Top menu: Acquisition toolbar

Tap on top-right corner icon with down arrow button, the following sub-option will appear.

SubMENUs (button options):

Button Unit Description

Gain dB gain value ranges between 0 to 90 dB

Gate n/a Gate A, Gate B and Gate I are available

A%, B%, I% % Amplitude in A,B,I gate

in (%) screen height

SA, SB, SI mm Sound path of echo in A,

B,I gates

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DA, DB, DI mm Reflector depth in A, B, I

gates

RA, RB, RI mm Reduced projection

distance in the A, B,I gates

PA, PB, PC mm Projection distance of

the echo in A, B,C gates

AdBA,BdBB dB Amplitude (dB) of the signal detected in Gate

A, B

AdBr, BdBr dB

Difference between the current signal amplitude and the reference signal amplitude detected in

Gate A, B

%(r), %(m), %(m-r)

% Amplitude value at the

Reference/Measurement bar and their difference

U(r), U(m),U(m-r)

mm

Defines the position value of

Reference/Measurement bar and their difference

S(r), S(m), S(m-r)

mm

Defines position value of Reference/Measurement bar and their difference

on Scan axis

I(r), I(m) I(m-r)

mm

Defines position value of Reference/Measurement bar and their difference

on Index axis

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2.5 Submenu: Toolbars and Wizard

Figure: Mini toolbar-Wizard

Top-menu left corner with button option allows you to change the Submenu Wizard toolbar. Submenu Wizard toolbar are main in menu change with the user. Tap on top-left corner icon with down arrow button, and following menu will appear:

Figure: wizard-mini toolbar

Submenu buttons, rotating the Rotary knob push, clockwise or counter clockwise allow you to a desired software button, or change a parameter value.

Long-press to main instant menu change with the position you can drag.

Figure: Virtual keyboard with numeric keypad (right) or system built-in virtual keyboard (left)

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2.5.1 Mini Toolbar- PULSER ( )

Tap on ( ) button to open UT Group menu bar. Tap on buttons, then change the value or options with rotary knob switch.

Wave Type: Used to select the wave type (LW or SW)

WD (us): Set Wedge Delay in units of usecs. Wedge Delay is the delay time of the ultrasonic waves between the wedge and the probe. Before adjusting the Wedge Delay, set the sound velocity and calibration range according to the dimensions of the test specimen.

RNG (mm): In AScan, maximum sample count can be adjusted up to 16K (16384), you can read and adjust max range in mm.

VLC (m/s): Select the function US delay velocity and adjust the value by using the rotary knob switch.

VLT (V): Pulser voltage can be set through this function by using the rotary knob to select the required output voltage between 25 V ~ 200 V.

PRF-Recurrence (Hz): Recurrence value indicates the number of times an initial pulse is triggered, which 1000 Hz is generated and collected a pulse once every 0.001 (1/1000) seconds. By using this function, you can determine the value of the pulse repetition frequency.

Pulse Width (mm): Width value settings of Bipolar pulse wave. Pulse width can be defined as 1/Pulse frequency (Hz)

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2.5.2 Mini Toolbar- GATE ( )

Tap on ( ) button to open Gate menu bar. Tap on buttons, then change the value or options with rotary knob switch.

GATE: Select the gate type (A, B, I)

Gate Start (mm): Used to set the starting position of the selected gate. This position is related to the gate synchronization. The real position of the gate is the synchronization position plus the gate start position.

Figure: Gate start example (1mm (left) and 5mm (right))

Gate Range (mm): Set the range of gates. Adjust the value by using the rotary knob switch. Refer the following image.

Figure: Gate range example (1mm (left) and 5mm (right))

GH (%): Gate height, indicates the height position in percent. Adjust the value by using the rotary knob switch.

Figure: Gate Height (GH) example (50mm (left) and 80mm (right))

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2.5.3 Mini Toolbar- Calibration ( )

Tap on ( ) button to open Calibration menu bar. Tap on buttons, then change the value or options with rotary knob switch.

Type: Select the calibration type: Metal Path, Depth, Velocity, and adjust the value by using the rotary knob switch. Settings become different according to calibration type selection. See more from Appendix B: Calibration section.

Settings of Metal Path

WD (us): Measures and displays the Wedge Delay in usecs. Used to add ultrasound speed delay cause by the wedge. This delay line in the wedge can be adjusted with wedge delay function.

Ref A (mm): Displays a horizontal line on the A-scan at the height of the reference-amplitude value. (Available when Metal path, Velocity method selected)

Auto FSH (%): Automatically adjust a gain value to the registered setting value (80%) of FSH (Full Screen Height). See the following figure.

Figure: example of performing auto FSH

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Envelope:

Displays a curve with the maximum and minimum amplitudes on the A-scan view.

Clear Envelope:

To clear the envelope, tap and hold the A-scan view, then tap Clear envelope on the shortcut menu of Calibration.

Calibrate: After configuring the parameters, tap on Calibrate button to finalizes the calibration.

Settings of Depth mode

The selection of this method is similar to “settings of Metal Path” except:

WD (us): Measures and displays the Wedge Delay in usecs. Used to add ultrasound speed delay caused by the wedge. This delay line in the wedge can be adjusted with wedge delay function.

Ref Depth A: Measures the depth of amplitude at which the curve is located if the actual gain is same as the reference gain (available when Depth mode selected).

Auto FSH (%): Automatically adjust a gain value to the registered setting value (80%) of FSH (Full Screen Height). See the following figure.

Clear Envelope:

To clear the envelope, tap and hold the A-scan view, then tap Clear Envelope on the shortcut menu of Calibration.

Calibrate:

After configuring the parameters, tap on Calibrate button to finalize the calibration.

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Settings of Velocity mode

The selection of this method is identical to “settings of Metal Path”, except:

VLC (m/s): Used to calibrate the velocity of the sound propagation in the material of the inspected part. Select the function and adjust the value by using the rotary knob switch.

Ref A (mm): Measures the amplitude at which the curve is located if the actual gain is same as the reference gain (available when Metal path, Velocity method selected).

Ref B (mm): Measures the amplitude at which the curve is located if the actual gain is same as the reference gain (available when Velocity method selected)

Auto FSH (%): Automatically adjust Gain to the registered setting value (80%) of FSH (Full-Screen Height).

Clear Envelope: To clear the envelope, tap and hold the A-scan view, then tap Clear envelope on the shortcut menu of Calibration.

Calibrate: Tap on Calibrate (Wizard < Calibration < Calibrate) button to finish the procedure.

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2.5.4 Mini Toolbar- DAC/TCG ( )

Tap on ( ) button to open DAC/TCG menu bar. Tap on buttons to change the setting.

DAC mode

The echo height of reflectors of size depends on which probe using, mainly cause of the sound attenuation in the material.

DAC – Distance-Amplitude Curve record using defined references, represents these effects graphically.

The DAC function enables:

Visualize the DAC of the reference echoes.

Peak the echo of a probable flaw. If necessary, increase the gain until the echo exceeds the gate threshold.

Activate the TCG as described above, however, with a simultaneous display of the TCG/DAC function.

For about DAC/TCG methods, please see the Appendix C.

Activate the TCG (Time-Corrected Gain) to increase the gain in distance-dependent mode so that all reference echoes reach the same screen height.

Index menu appears as the following figure. Tap on DAC button to open further tool options. Peak the echo of a probable flaw, and move the gate so that the echo data are evaluated.

Determine the sound path in the display boxes for readings and, in addition, the reduced projection distance as well as the flaw depth if you are using angle beam probes. Whether or not the echo is recordable, can be immediately seen from the A-scan.

Determining can be done through dB amount by which the response threshold is exceeded: Adjust the gate threshold exactly to the intersection point of the curve with the probable flow indication.

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TCG mode

An echo amplitude evaluation as the measurement of the difference relative to the reference echo is only possible if the reference height stored during the recording reference echo still applies. If another echo is stored as reference echo with dB Ref after recording the curve, the original reference echo is lost.

After switching on the TCG mode from DAC mode, all echoes of the reference reflectors reach the height of the first reference echo.

Figure: DAC /TCG menu buttons (see the Table below)

Button Description Appearance

DAC (Add Point & Remove Point)

Add or remove DAC curve line in scan view (purple)

TCG (Add Point & Remove Point)

Add or remove TCG curve line in scan view (green)

Table: DAC/TCG menu-function button explanations

This button function is ideal to previous Settings 1 function group.

NOTE: Rest of selection toolbar is identical to Setting 1 menu (above figure) See the previous page.

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2.5.5 Mini Toolbar- ENCODER Scan ( )

Tap on ( ) button to open Encoder Scan menu bar. Tap on buttons, then change the value or options with rotary knob switch.

Scanner Type:

Defines scanner types including: Encoder 1, Encoder 2 and Time. h the curve is located if the actual gain is same as the reference gain (available when Velocity method selected)

SCN (mm): Indicates the measurement of scan direction. The unit is in mm.

IDX (mm): Indicates the measurement of index direction. The unit is in mm.

( ): Scan resume: Resumes the scanning mode.

( ): Scan start: Note that when the scan is started, Display lock function will start, due to no interruption except resume/stop action

Figure: Scan and Index measurement indicator

(start/stop/step) in mm respectively

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2.5.6 Mini Toolbar- BEAM ( )

Tap on ( ) button to open Beam menu bar. Tap on buttons, then change the value or options with rotary knob switch.

Scan Type: Tap on this button to select scan type: Sectorial and Linear (see the figure below)

Figure: Scan type

Angle Start (deg): Indicates the minimum angle value for the ultrasound beams (see the figure below)

Angle Stop (deg): Indicates the maximum angle value for the ultrasound beams (see the figure below)

Resolution: Indicates the number of degrees between each ultrasound beams (see the figure below)

Aperture Size: Indicates a size of the group of active elements (Available when Linear scan type is selected) (see the figure below)

Figure: Settings in beam menu illustration

Focus Position: Defines the position where beam is focused. Unit: mm

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2.5.7 Mini Toolbar- Data ( )

Tap on ( ) button to open Data menu bar. This menu intends only to demonstrate the IQV file that loaded. This option only available in Analysis Mode.

Soft Gain: You can set the Echo height arbitrarily on the screen of the IQV file.

Figure: Before setting up Soft Gain Figure: After setting up Soft Gain

Close Data: Tap on this button to close the data view.

2.5.8 Mini Toolbar- Channel Group ( )

Tap on ( ) button to open Channel Group menu bar. Tap on buttons, then change the value or options with rotary knob switch.

Channel Group: Select available Channel Group here. You find the Channel Group settings from here.

View Type: Select Scan view type -> AScan, BScan, B Scan Unc, C Scan Unc, DScan, SScan and FFT Scan

Add to: Select the position of Scan view windows.

Add: Add the selected Channel Groups to the Scan view.

Remove: Remove the selected Channel Groups from Scan view.

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2.5.9 Mini Toolbar– WIZARD ( )

The wizard menu offers step-by-step assistance to quickly and easily create a complete setup for your application (see the following figure). The step-by-step approach ensures that you do not miss a parameter change during the setup. The help context of each wizard step provides specific information regarding the parameter to be set.

To perform a complete application setup, use the different wizards available from the submenu buttons, in the following order:

Specimen & Weld (2.5.9-1)

Channel Group (2.5.9-2)

Focal Law (2.5.9-3)

Calibration (2.5.9-4)

Help context

BeamTracing

illustration

Parameters of

the step

Step-by-step navigator

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BeamTracing

The BeamTracing view is a dynamic cross-section illustration of the part, the propagation of the US beam in the part, the limits of gate A, the location of the indications in the part, and the weld drawing.

Figure: The Beam Tracing example

2.5.9-1: Configuring the Specimen & Weld

To configure the specimen and weld

Select Wizard > Specimen & Weld > Next to start the Specimen & Weld

Follow the on-screen help context to complete the remaining steps of the wizard.

Tap on Finish to finalize the Specimen & Weld wizard

Note: You can exit the wizard at any time by pressing the other key.

Specimen & Weld > Specimen

Tap or using rotating knob switch, select the specimen material, shape and its thickness.

Thickness:

Specify the thickness of specimen. Change the value to thickness of the specimen.

Measurement unit: mm

Figure: Specimen thickness

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Material:

Used to select the specimen material. This will set the velocities for both L-Wave/S-Wave velocities for the selected material.

Figure: Specimen material list example

Shape:

Plate: A flat surface (while tube is type of curved surface, including OD and ID).

OD: The inspection is performed on the Outer Diameter of a tube. When this mode selected, the unit of axis can be set to a degree.

ID: The inspection is performed on the Inner Diameter of a tube. When this mode selected, the unit of axis can be set to a degree.

Note: In the program user interface, the visualization of the Beam Tracing only supports flat geometries.

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Specimen & Weld > Specimen>Weld > Size

Used to define the weld orientation on the pipe. Define the weld type from 6 different types, including V, Reverse V, Bevel, Reverse Bevel, Double V, Double V offset

Figure: Weld types

Each weld shape can be changed or adjusted by following parameters:

Select Weld – V: Cap-Height, Cap-Width, Neck-Width

Select Weld – Reverse V: Cap-Height, Cap-Width, Neck-Width

Select Weld – Double V: Cap-Height, Cap-Width

Select Weld – Double V offset: Left Cap-Width, Left Root-Width, Left Cap-Width, Left Root-Height

Select Weld – Bevel: Cap-Width, Root-Width, Cap-Height, Root-Height

Specimen & Weld > Specimen>Weld > Size > Finish

After configuring the setting, select Finish to complete Specimen & Weld wizard.

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2.5.9-2: Configuring the Channel Group

Selecting the Probe and the Wedge

The P1 device needs to obtain the necessary information about the probe and wedge models to be used for your inspection. When you use a P1 connector and a different brand of a probe, you need to manually select the probe and wedge.

To manually select a probe:

Select Wizard > Channel Group > Probe Mode > Next > Probe

Select Manufacturer category > Frequency parameter list > PartNo parameter list

Figure: Select Probe Manufacturer (category) > Frequency (parameter list) > PartNo (parameter list)

Note:

In Phased Array mode, only the wedges that are dedicated to the probe are available by default. The list of dedicated wedges speeds up the wedge selection process.

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Defining a Probe (SETTINGS MENU)

This section describes how to define a probe in the P1 device.

To define a probe, go to the Probe Submenu

Navigate to Probe button ( ) and Go to > Probe>Element>Offset

Select Probe Name > Tap the button ( ) to open the list

Figure: Select Probe Manufacturer (category) > Frequency (parameter list) > PartNo (parameter list)

Note: Probe Name> Tap the button ( ) to open the list.

( ) Button to save the set list automatically. ( )

Probe Recent:

When you set up the probe, it brings up a list of frequently used ones.

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Skew angle:

Used to define the difference on the index axis between the 0, 0 position of the inspection and the front face of the probe. Negative for skew 90, and positive for skew 270.

Figure: skew angle: 0, 90, 180, 270 degree

Frequency:

Insert the value for Frequency of probe (MHz).

Pulse width:

Used to select the bipolar pulse width value.

Element pitch:

Enter the value for probe-element pitch, which indicates the center to center distance between two adjacent elements.

Figure: Probe-element pitch

Probe separation:

In a case of Pitch & Catch probe, the distance between the element for Tx and the center of the element for Rx.

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Figure: Pitch and Catch probe, distance between pitch (left) and catch (right)

A number of element:

Used to define a total number of probe elements. For example: 32, 64 etc. See the following figure.

Figure: N number of probe element number

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Type:

Select the probe type. See the following table as a reference.

Probe type Figure

Single (PAUT)

Conventional

1

Pitch and Catch

TOFD

Transmitter Start/Stop:

Set the transmitter value for Start/Stop according to probe selection. See the following figure, which indicates example of N number of elements.

Figure: Transmitter Start (red), Stop (red)

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Receiver Start/Stop:

Set the receiver value for Start/Stop according to probe selection. See the following figure, which indicates the example of N number of elements.

Figure: Receiver Start (red), Stop (red)

Offset:

Scan offset:

Set the probe reference position setting from origin point coordinate in mm unit. See the following figure for reference.

Figure: Scan offset

Index offset:

Set the probe reference position setting from origin point coordinate in mm unit. See the following figure for reference.

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Figure: Index offset

DB

b

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Defining a Wedge (SETTINGS Menu)

This section describes how to define a wedge in the P1 device.

To define a probe, go to the Wedge Submenu in Settings.

To manually select a wedge

1. Select Wizard > Channel Group > Probe Mode > Next > Probe

2. Select Manufacturer category > Frequency parameter list > PartNo parameter list

Enable:

Used to allow a user to a setting of the wedge. Tab to check/uncheck ( ) the bar to activate the wedge settings.

Wedge name:

Navigate to Probe button ( ) and Go to > Wedge>Wedge Name

Select Wedge Name > Tap the button ( ) to open the list

Figure: The list of predefined wedges

Select in following order: Manufacturer > Group> Part

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Wedge angle:

Used to specify the angle of the wedge. Select the Wedge Angle and then enter the angle of the wedge. See the following figure for reference.

Figure: Wedge angle

Roof angle:

An angle between probe and wedge in Pitch and Catch probe type only. Enter the value manually.

Figure: Roof angle

L-Wave velocity:

Used to set the longitudinal wave velocity according to the material selected. Value can be automatically changed according to the selected wedge. For example: Olympus –ABW1105 5L128-I3 wedge model: L-wave velocity: 2330 m/s

S-Wave velocity:

Used to set the shear wave velocity according to the material selected. Value can be automatically changed according to the selected wedge. For example: Olympus –ABW1105 5L128-I3 wedge model: S-wave velocity: 1157 m/s

Shape

Height of the first element:

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Select height of the first element, and enter the value (See the figure). This parameter is usually provided by the wedge manufacturer.

Figure: Height indicator (red arrow)

Primary axis position:

Select primary axis position, which indicates distance from front-end of the wedge to the first element of the probe in direction of primary axis, and enters the value (See the figure below).

Figure: Primary axis position (red arrow)

Secondary axis position:

Select secondary axis position, which indicates the distance from front-end of the wedge to the first element of the probe in direction of secondary axis, and enters the value (See the figure below).

Figure: Secondary axis position (red arrow)

Wedge length

Used to specify the length of the wedge to generate accurate focal laws according to

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this specific geometry (See the figure). This value will be automatically filled for generic wedges, but must be manually entered for custom wedges.

Figure: Wedge length

Wedge width

Used to specify the width of the wedge to generate accurate focal laws according to this specific geometry (See the figure). This value will be automatically filled for generic wedges, but must be manually entered for custom wedges.

Figure: Wedge width

Wedge Height

Used to specify the height of the wedge to generate accurate focal laws according to this specific geometry (See the figure). This value will be automatically filled for generic wedges, but must be manually entered for custom wedges.

Figure: Wedge height

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2.5.9-3: Configuring a Focal Law

Selecting the Beam Type

The P1 device needs to obtain the necessary information about the probe and wedge models to be used for your inspection. When you use a P1 connector and a different brand of probe manually select the probe and wedge.

To manually select a beam type and law legs:

Select Wizard > Focal Law > Beam Type > Next

Select Wizard > Law legs > Next

Beam Type:

Sectorial: Provides a multiple-angle scan (see the figure below)

Linear: Provides a linear scan at a configurable angle (see the figure below)

Figure: Beam type – Sectorial / Linear

Law legs:

Set the Legs value according to the number of beam legs in the part.

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Figure: Law leg example with Beam Tracing

Note: The Law Legs parameter is only available when the Beam Tracing option is activated.

Material:

See the Material for reference.

Wave:

To select appropriate wave type for your application, select Wave-Longitudinal or Shear.

Note: Since the Material was previously defined (in the Channel Group wizard or by selecting Group/Probe & Specimen), it only appears as a reference in the Focal Law wizard.

Select Wizard > Focal law > …> Beam Angle > Next Beam

Select Angle Start and then enter the minimum angle value for the US beams.

For sectorial scans:

Select Angle Start and then enter the maximum angle value for the US beams

Select Resolution, and then enter the number of degrees between each US beam

Select Focus Position, and them enter the distance at which the US beams focus in the inspected material

Select Aperture Size, and enter the size of the group of active elements.

Figure: Beam angle/resolution/focus position illustration

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Select Wizard > Focal law > ... > Gate A > Next

Select Start position for gate A (according to depth)

The range of gate A appears as line segments over the US beam limit lines.

Set the Range of gate A (according to depth)

Figure: Gate range illustration

Select Wizard > Focal law > ... > Complete > Next/Continue

Select Finish to complete the Focal Law wizard or Select Continue to quit the Focal Law wizard and proceed to the next wizard (Calibration)

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2.5.9-4: Calibration

Calibration methods:

Calibration must be performed using a calibration block made of the same material as the probe and the inspected object before performing the test.

Metal path, Depth, Velocity method (see the Appendix B)

The device offers following calibration methods, path, depth and velocity. Select the function calibration method and choose the method by using the rotary knob switch.

Before starting an inspection, you must perform several calibration procedures using a probe, wedge, and calibration block composed of the same material as the part to be inspected.

Following figure shows which calibration mode is currently enabled

Figure: Calibration state indicator of Wizard > Calibration

Icon Description

W Wizard > Calibration > Wedge Delay

V Wizard > Calibration > Velocity

S Wizard > Calibration > Sensitivity

T DAC/TCG > TCG (Encoder)

Go to side menu -> Wizard -> Calibration -> Velocity

Figure: Calibration main menu

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2.5.9-4.1: Wedge Delay Calibration

A wedge delay calibration is a process that enables you to identify the face of the wedge contacting the part, and that establishes a zero position for the entry surface of the part. The calibration procedure requires a calibration block with a reflector.

Step 1: Place the probe on calibration block

Perform the following steps to starts the Wedge Delay calibration wizard

The procedures apply to the following groups, reflectors, and scans.

Step 2: Adjust the parameters of each pages, then click Next to move next page.

Select Wizard > Calibration > Wedge Delay > Gain (dB) > Next

Adjust the Gain (dB) value using the rotary knob or tap hold to change the value.

Select Wizard > Calibration > Wedge Delay > Ref A (mm) > Next

Select (Ref.A, Ref.B) and change the value using rotary knob switch or tap- hold to insert the value manually.

Select Wizard > Calibration > Wedge Delay > Tolerance (mm) > Next

Select Tolerance to specify the tolerance for the measurement of the reference reflector.

Figure: Tolerance line in wedge-delay (green line)

Example: Tolerance line in wedge-delay (green line)

6mm and 14 mm respectively

Tolerance

lines

Envelope

lines

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Select Wizard > Calibration > Wedge Delay > RNG (mm) > Next

Select Range, and then enter the length of the time-base range according to the weld thickness. Reduce or increase the range using the rotary knob switch.

Select Wizard > Calibration > Wedge Delay > Gate Start (mm) > Next

Used to set the starting position of the selected gate. This position is related to the gate synchronization. The real position of the gate is the synchronization position plus the gate start position (see the example below).

Select Wizard > Calibration > Wedge Delay > Gate Range (mm) > Next

Select Gate Range, and then enter the length of the time-base range according to the weld thickness. Reduce or increase the range using the rotary knob switch.

Select Wizard > Calibration > Wedge Delay > GH (%) > Next

Select Gate Height, and then enter the height of the time-base range according to the weld thickness. Reduce or increase the range using the rotary knob switch. Tap the NEXT button move on next calibration page.

Select Wizard > Calibration > Wedge Delay > Clear Envelope > Next

Displays a curve with the maximum and minimum amplitudes on the A-scan view. To clear the envelope, tap and hold the A-scan view, then tap Clear envelope on the shortcut menu of Calibration.

Select Wizard > Calibration > Wedge Delay > Reset Wedge Delay > Next

Select Reset Wedge Delay to clear the calibration (wedge delay). This parameter is only available with wedge delay calibration.

Select Wizard > Calibration > Wedge Delay > Apply Wedge Delay > Next

Used to specify the scope for the Wedge Delay and Sensitivity calibration wizard. Reset Wedge Delay has no effect after the Apply button has been tapped.

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Step 3: After each parameters are adjusted, move the probe over calibration block to adjust. Check the SA bar is set to 100.0 mm according to 100R method (refer the image below). Once a calibration done, click Finish to finalize the calibration.

Figure: Successful Wedge Delay calibration example

Note: If the calibration is correct, the envelope is between the two red dotted lines.

If the calibration is incorrect, select Clear Envelope to clear the envelope, and select Reset Wedge Delay to start over.

Step 4: Click Next to move to the next calibration section.

Select Wizard > Calibration > Wedge Delay > FINISH > Next

Finish: After configuring the parameters, tap on Finish button to finalize the calibration and move to the next wizard: Velocity.

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2.5.9-4.2: Velocity Calibration

The purpose of the ultrasound velocity calibration is to measure the real velocity of ultrasound waves in the material to be inspected. The calibration block must have two known reflectors and be made of the same material as the part to be inspected.

Step 1: Place the probe on calibration block

Perform the following steps to start the velocity calibration wizard

The procedures apply to the following groups, reflectors and scans.

Step 2: Adjust the parameters of each pages, then click Next to move next page.

Select Wizard -> Calibration -> Velocity -> Gain (dB) > Next

Adjust the Gain (dB) value using the rotary knob or tap hold to change the value.

Select Wizard -> Calibration -> Velocity -> Ref A (mm) -> Next

Select Wizard -> Calibration -> Velocity -> Ref B (mm) -> Next

Select (Ref.A, Ref.B) and change the value using rotary knob switch or tap hold to insert the value manually.

Select Wizard -> Calibration -> Velocity -> Angle Start -> Next

Defines angle start value and display at S-Scan view with a position move.

Select Wizard -> Calibration -> Velocity -> Angle Stop -> Next

Defines the Wedge delay with Range, and then enter range with position move Range, and then enter the range of velocity.

Select Wizard -> Calibration -> Velocity -> RNG -> Next

Select Range, and then enter the length of the time-base range according to the weld thickness. Reduce or increase the range using the rotary knob switch.

Tap on NEXT to move on to next menu bar.

Select Gate selection at first stage in order to set the Gate Start, Gate Range, GH parameters.

Select Wizard > Calibration > Velocity > GATE A (B, I) > Next

Select Range, and then enter the length of the time-base range according to the weld thickness. Reduce or increase the range using the rotary knob switch.

Select Wizard > Calibration > Velocity > Gate Start > Next

Used to set the starting position of the selected gate. This position is related to the gate synchronization. The real position of the gate is the synchronization position plus the gate start position (see the example below).

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Select Wizard > Calibration > Velocity > Gate Range (mm) > Next

Select Gate Range, and then enter the length of the time-base range according to the weld thickness. Reduce or increase the range using the rotary knob switch.

Figure: example) Gate Range: 10.0 mm and 50.0 mm

Select Wizard > Calibration > Velocity > GH (%) > Next

Select Gate Height, and then enter the height of the time-base range according to the weld thickness. Reduce or increase the range using the rotary knob switch.

Figure: example): GH (%): 20% and 40%

Select Wizard > Calibration > Velocity > Clear Envelope > Next

Displays a curve with the maximum and minimum amplitudes on the A-scan view. To clear the envelope, tap and hold the A-scan view, then tap Clear envelope on the shortcut menu of Calibration.

Select Wizard > Calibration > Velocity > VLC (m/s) > Next

Select VLC (m/s) to select modify the velocity parameter value using the rotary knob or tap hold and insert the value (see the example below).

Step 3: After each parameters are adjusted, move the probe over calibration block to adjust. Observe the Measurement bar to make sure SA and SB are correctly set (refer

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the image below). Once a calibration done, click Finish to finalize the calibration.

Select Wizard > Calibration > Velocity > CALIBRATE > Next

Calibrate: After configuring the parameters, tap on Calibrate button to finalize the automatic calibration.

Figure: Correct Velocity calibration example

Note: If the calibration is correct, SA is set to 50.0 mm, SB is set to 100.0 mm.

If the calibration is incorrect, select Clear Envelope to clear the envelope, and start over.

Step 4: Click Next to move to the next calibration section.

Select Wizard > Calibration > Velocity > FINISH > Next

Finish: After configuring the parameters, tap on Finish button to finalize the calibration and move to next Calibration type (Sensitivity Calibration).

Figure: example): perform Finish and move to next Calibration -> Sensitivity

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2.5.9-4.3: Sensitivity Calibration

The sensitivity calibration normalizes the gain for all focal laws to ensure that all focal laws produce a similar amplitude signal for the reference reflector. The calibration procedure requires a calibration block with the reflector.

Step 1: Place the probe on calibration block

Perform the following steps to start the Sensitivity calibration wizard

The procedures applies to the following groups, reflectors and scans.

Step 2: Adjust the parameters of each pages, then click Next to move next page.

Select Wizard > Calibration > Sensitivity > Gain (dB) > Next

Adjust the Gain (dB) value using the rotary knob or tap hold to change the value.

Select Wizard > Calibration > Sensitivity > Ref Amp (%) >Next

Select Ref.Amplitude to specify the level at which the peak amplitude of the signal crossing gate A is plotted when you select the Set the xx.x% parameter.

Select Wizard > Calibration > Sensitivity > Amp Tolerance (%) >Next

Select Amp.Tolerance to specify the position at which the amplitude of the signal gate A is plotted when you select the Set the xx.x% parameter.

Select Wizard > Calibration > Sensitivity > RNG (mm) >Next

Select Range, and then enter the length of the time-base range according to the weld thickness. Reduce or increase the range using the rotary knob switch.

Select Wizard > Calibration > Sensitivity > Gate Start (mm) >Next

Used to set the starting position of the selected gate. This position is related to the gate synchronization. The real position of the gate is the synchronization position plus the gate start position.

Select Wizard > Calibration > Sensitivity > Gate Range (mm) >Next

Select Gate Range, and then enter the length of the time-base range according to the weld thickness. Reduce or increase the range using the rotary knob switch.

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Select Wizard > Calibration > Sensitivity > GH (%) >Next

Select Gate Height, and then enter the height of the time-base range according to the weld thickness. Reduce or increase the range using the rotary knob switch.

Select Wizard > Calibration > Sensitivity > Clear Envelope >Next

Displays a curve with the maximum and minimum amplitudes on the A-scan view. To clear the envelope, tap and hold the A-scan view, then tap Clear envelope on the shortcut menu of Calibration.

Select Wizard > Calibration > Sensitivity > Reset Sensitivity >Next

Select Reset Sensitivity to clear the calibration (sensitivity delay). This parameter is only available with sensitivity calibration.

Step 3: After each parameters are adjusted, move the probe over calibration block to adjust. Observe the Auto Sensitive Calibration window (refer the image below). Once a calibration done, click Finish to finalize the calibration.

Figure: Building the envelope for the Sensitivity calibration

Note: If the calibration is correct, the envelope is between the two green dotted lines.

If the calibration is incorrect, select Clear Envelope to clear the envelope, and select Reset Sensitivity to start over.

Select Wizard > Calibration > Sensitivity > Apply Sensitivity >Finish

Used to specify the scope for the Wedge Delay and Sensitivity calibration wizard. Reset Sensitivity has no effect after the Apply button has been tapped.

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Correct calibration should look like the following example. SA is now set to 100.0 mm.

Figure: Successful Sensitivity calibration example

Step 4: Click Next to move to the next calibration section.

Select Wizard > Calibration > Sensitivity > FINISH >Next

Finish: After configuring the parameters, tap on Finish button to finalize the sensitivity and move to the next wizard: TCG calibration.

Figure: perform Finish and move to next wizard ->TCG

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2.5.9-4.4: TCG Calibration:

This section describes how to calibrate the TCG (Time-Corrected Gain) sizing function. To perform this procedure, a calibration block with a number of identical holes at known depths or thicknesses.

Step 1: Place the probe on calibration block. The procedures applies to the following groups, reflectors and scans.

Step 2: Adjust the parameters of each pages, then click Next to move next page.

Selec Wizrard > Calibration > TCG > Gain(DB) > Next

Use the knob switch or tap hold to adjust the Gain (dB) value to change the value.

Select Wizard > Calibration > TCG > Echo Type >Next

Select Echo Type to determine the echo type either Metal Path/Depth.

Select Wizard > Calibration > TCG > Ref Amp >Next

Select Ref.Amplitude to specify the level at which the peak amplitude of the signal crossing gate A is plotted when you select the Set the xx.x% parameter.

Select Wizard > Calibration > TCG > Amp Tolerance > Next

Select Amp.Tolerance to specify the position at which the amplitude of the signal gate A is plotted when you select the Set the xx.x% parameter.

Select Wizard > Calibration > TCG > Reset TCG > Next

Select Reset TCG to restart the TCG calibration procedure in case of incorrect calibration or settings.

Select Wizard > Calibration > TCG > Gate Start (mm) >Next

Used to set the starting position of the selected gate. This position is related to the gate synchronization.

Select Wizard > Calibration > TCG > Gate Range (mm) >Next

Select Gate Range, and then enter the length of the time-base range according to the weld thickness. Reduce or increase the range using the rotary knob switch.

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Select Wizard > Calibration > TCG > GH (%) >Next

Select Gate Height (%), and then enter the height of the time-base range according to the weld thickness. Reduce or increase the range using the rotary knob switch.

Select Wizard > Calibration > TCG > Interval >Next

Select Interval (mm) which defines a distance between the selected Ref.A and next Ref.A. Adjust an value using the rotary knob or insert an value manually.

Select Wizard > Calibration > TCG > Follow Peak >Next

Select Follow Peak to change an angle of maximum peak of signal in AScan. Select On/Off to enable or disable the function.

Select Wizard > Calibration > TCG > Prev / Next

Gate displays the maximum peak signal. Apply TCG # 1 and move to # 2. If you need to modify # 1, you can # 1 Prev to fix it.

Select Wizard > Calibration > TCG > #1, #2, #3...

It shows the part where TCG shows current position.

Select Wizard > Calibration > TCG > Apply

Set the red line to match the green point in the green range.

Select Wizard > Calibration > TCG > Reset >Next

Select Reset to start a calibration process from beginning. This function is also available in Wedge Delay/Sensitivity/TCG calibration.

Select Wizard > Calibration > TCG > Clear Envolope

Displays the maximum and minimum amplitude curves in the Scan View. Select Clear Envelope when the amplitude curve is created incorrectly while calibrating.

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Step 3: After each parameters are adjusted, move the probe over calibration block to adjust. Observe the Auto Sensitive Calibration window (refer the image below). Once a calibration done, click Finish to finalize the calibration.

Figure: Building the envelope for the TCG calibration

Note: If the calibration is correct, the envelope is between the two green dotted lines.

If the calibration is incorrect, select Clear Envelope to clear the envelope, and select Reset TCG to start over the process.

Select Wizard > Calibration > TCG > Apply Reflector >Next

Correct calibration should look like the following example.

Figure: Successful TCG calibration example

Step 4: Click Next to move to the next calibration section.

Select Wizard > Calibration > TCG > FINISH >Next

Finish: After configuring the parameters, tap on Finish button to finalize the sensitivity and move to the next wizard: Encoder.

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2.5.9-4.5: Encoder Calibration

The following section describes how to perform calibration when encoder is used.

Note: Before starting this wizard, an encoder must be properly connected to the device properly.

Step 1: Perform the following steps:

Select Wizard > Encoder Type

Used to select the desired type of inspection. The available choices are:

Scan: Used to specify the source of the data positioning for the scan axis.

Index: Used to specify the source of the data positioning for the index axis.

Select Wizard > Calibration > Encoder > Step Start

Adjust the Step Start (physically move the encoder to a marked point) value using the rotary knob.

Select Wizard > Calibration > Encoder > Step End

Adjust the Step End (current encoder position) value using the rotary knob.

Select Wizard > Calibration > Encoder > Distance

Distance (mm): physically move the encoder to a second marked point, and note the distance traveled. Adjust the Distance value using the rotary knob or tap hold to change the value.

Step 2: Select Wizard > Calibration > Encoder > CALIBRATE

The encoder calibration is performed.

Select Wizard > Calibration > Encoder > Scan Resolution

Scan resolution (steps/mm): Number of steps per unit distance of scan axis encoder. Adjust the Scan Resolution value using the rotary knob or tap hold to change the value.

Select Wizard > Calibration > Encoder > Finish

If the resolution is correct, tap on FINISH.

Select Wizard > Calibration > Encoder > Reset

If resolution is not correct, tap on RESET to recalibrate.

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2.6 Submenu: Settings

Figure: Submenu SUB TOOLBARS Menu

The right menu MAIN TOOLBARS appears as following figure. Tap on button to open Submenu SUB TOOLBARS. By tapping each button will display different page opens respectively.

2.6.1 Submenu SUB TOOLBARS: CHANNEL SETTING ( )

Tap on ( ) button to open channel settings page. Tap on buttons, then change the value or options with rotary knob switch with open channel settings

Channel setting contains following functions:

Channel: Reset

Channel: Add

Channel: Modify

Channel: Delete

Channel: Modify

Channel: Upload

Channel: Sequence Up

Channel: Sequence Down

Reset: Tap on Add ( ) button to reset the channel settings. When you tap on the button, following message box will appear. Tap ok to reset x to cancel.

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Figure: Example of resetting the channel group

Add: Tap on Add ( ) button to add a new channel. When you tap on the button, following message box will appear. Tap ok to add x to cancel.

Figure: add channel group

Channel delete: Tap on Delete ( ) icon delete your selection. When you tap on the icon, following info box will appear. Tap ok to delete, x to cancel.

Figure: channel delete confirmation

Channel modify: Tap on Modify ( ) icon to current settings on external storage. When you tap on the icon, same set file save box will appear. Tap ok to save a change.

Figure: Channel modify

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2.6.2 Submenu SUB TOOLBARS: PULSER ( )

Tap on ( ) button to open Pulser various settings, including General, Pulse,

Receive and Digitizing. Then change the value or options with a rotary knob switch.

2.6.2-1 Sub Menu: General

Gain: Used to modify the gain value to optimize the echo amplitude.

ReF.Gain: Used to activate and modify Ref.Gain

Figure: General Setting List

Ref.Gain If you want activity, click on to activate.

Figure: Not Applied state Figure: Applied state

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Start range: Start position (mm) and the end position of data to collect.

Figure: Illustration of start range

Range: Last position (mm) and the end position of data to collect.

Figure: Illustration of range

Wedge Delay: Delay time of the ultrasound waves between the wedge and probe. Unit : nsec

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2.6.2-2 Sub Menu: PULSE

Pulse Width: Width can be set from 50 nsec to 2000 nsec value. Width can be s

Select the pulse width function and set the value using knob rotary switch.

Figure: Example of pulse width

Voltage: Pulser voltage can be set through this function by using the rotary knob to select the required output voltage between 25 V ~ 200 V.

Figure: Example of voltage

Burst count: The burst count selects the number of cycles in each burst. Select the value by using rotary knob range between 1 to 5.

Figure: Example of burst count

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PRF-Recurrence (Hz): Recurrence value indicates the number of times an initial pulse is triggered, which 1000 Hz is generated and collected a pulse once every 0.001 (1/1000) seconds. By using this function, you can determine the value of the pulse repetition frequency.

Max recurrence input method: automatically sets the Max Recurrence value.

Wave type: Allows you to select the type of wave. LW (longitudinal) and SW(shear) are available.

Figure: Classification of waves (LW and SW)

Auto FSH: Automatically adjust a gain value to the registered setting value (80%) of FSH (Full Screen Height)

Figure: example of performing auto FSH

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2.6.2-3 Sub menu: RECEIVE

Digitizing Frequency (with data compression): Set the frequency used when converting analog signal to digital signal. Performs data compression automatically when digitizing and selects the largest value of the sample that skips to digitizing changes.

Input range: 50 MHz, 25MHz, 12.5 MHz, 6.25 MHz and 3.125 MHz

Performs data compression automatically when digitizing, and selects the largest value among the samples that skip to digitizing changes.

Figure: Illustration of digitizing frequency

Compression: Displays the compression factor of the current group. Ex) 1,2,4,8 and 16. The Compression factor is related to the range and quantity of point.

Filter: Allows you to select the filter type to apply, according to receiver.

Low pass filter: Passes all signals lower than Xx MHz

High pass filter: Passes all signals higher than X Mhz

Band pass filter: Passes only signal between higher than X Mhz and lower than Y MHz.

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Figure: Examples of 2MHz low pass, 5MHz high pass, and 1 to 5 MHz band pass filters

Rectifier: This function lets you choose the rectification mode of the echo pulses according to your application. The following options can be selectable.

Fullwave: All half-waves are displayed above the baseline on the screen.

RF: No rectification

POS halfwave: Only positive half-waves are displayed on the screen

NEG halfwave: Only negative half-waves are displayed on the screen

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2.6.2-3 Sub menu: DIGITIZING

Samples: Number of samples collected from single angle. Sample count calculation:

Sample count = Range (mm)/(US velocity/Sample frequency/2)

Figure: Illustration of Samples

Resolution: Distance of one sample resolution.

Resolution = (End Range – Start Range)/Samples

Sample Size: The size of the collected sample 1 bit, 16 bits = 2 bytes.

Frame Size calculation: Example: 30 to 61 degrees, 2500 samples per vector, total number of vectors is 32. Therefore, 32 * 2500 * 2 bytes = about 16k bytes

Acquisition rate: The maximum rate (Hz) at which ultrasonic signals can be collected. If you move the scanner faster than the Acquisition Rate, you will not be able to acquire the acquisition signal.

Data Throughput:

Data Throughput = Frame Data Size x Acquisition Rate

Example) 500 Kbyte x 20 Hz = 10 Mb/s. Also this value (10 Mb/s) defines the maximum data throughput range of P1 device.

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2.6.3 Submenu SUB TOOLBARS: BEAM ( )

2.6.3-1 Sub-Menu: BEAM

This sub-menu allows you to set the values for refraction, resolution and aperture size. See the following figure.

Figure: Beam types-Sectorial/Linear

Type: Setting for selecting beam type

Sectorial: Collecting beams of different angles

Linear: Collecting beams of same angle

Refraction angle: This setting allows you to start angle, stop angle and resolution for a sectorial type. For example: Start from 30 degree, Stop at 61 degrees of 1.0-degree resolution generates 32 Beam Focal Laws. See the following figure.

Figure: Beam formation example (Start/Stop/Resolution)

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Aperture size: When beam type is set to linear mode, the number of elements that make up the beam.

Example) When 16 elements are set to 16 apertures, the total 16 beam focal laws will generate. See the following example and figure.

1 Index: 1~16

2 Index: 2~17..

16 Index: 16~32

Figure: aperture size of 32

2.6.3-2 Sub-Menu: FOCUS

This sub-menu allows you to set the values for focus type and focus position.

Focus Type:

True Depth: All focal laws are focused at Depth value

Half Path: All focal laws are focused at Distance value

Projection: All focal laws are focused on a predefined focus plane (Offset)

Figure: Focus type

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Focus position: The US depth at the highest position. Unit is in mm.

Focus Plane Position Offset: A position (from wedge reference point to the focus plane offset) of the focus plane. Unit: mm

Figure: Illustration of focus plane offset

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2.6.4 Submenu SUB TOOLBARS: PROBE ( )

Tap on ( ) button to open probe setting page. Tap on buttons, then change the value or options with rotary knob switch.

2.6.4-1 Sub Menu: PROBE

Probe Name: By pressing ( ) button to select the probe name using the existing database.

Select the probe in following order: Manufacturer > Frequency > PartNo

For example: Manufacturer (Olympus) > Frequency (1.5)>PartNo (1.5L16-A10)

Skew Angle: Maximum collectable velocity

Figure: Illustration of skew angle

Frequency: Frequency input setting of a probe. Unit: MHz

Element Pitch: Center to center distance between two adjacent elements.

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Figure: Element pitch

Probe Separation: Center to center distance between two adjacent probes. Example: Pitch-and-Catch probe, a distance between pitch (left) and catch (right). See the following figure.

Figure: Example (Probe Separation)

2.6.4-2 Sub Menu: ELEMENT

Element setting for Transmitter & Receiver according to the probe type. Probe Element Index starts from 1 and supports up to 128 elements.

Number of element: Defines the total number of a probe element. Example: 32, 64, …

Figure: Number of element

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Type: Options for probe type. Types: Single (PAUT), Pitch and Catch, Conventional and TOFD. See the figure.

Figure: Probe types

Connector: Select connector to select external converter. Connector types: PA (Phased-Array) and BNC. The option available when Conventional, TOFD probe types are selected.

Transmitter: Set the configuration of transmitter element index. For example) Start 1, Stop 16

Receiver: Set the configuration of receiver element index. For example) Start 16, Stop 32

2.6.4-3 Sub Menu: OFFSET

Scan Offset: Probe reference position setting from origin point coordinate

Figure: Illustration of scan offset

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Index Offset: Probe reference position setting from origin point coordinate

Figure: Illustration of scan offset

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2.6.5 Submenu SUB TOOLBARS: WEDGE ( )

This sub-menu allows you to set the values for refraction, resolution and aperture size. See more from following section: Wizard -> Defining a Wedge.

2.6.6 Submenu SUB TOOLBARS: TRANSMITTER/RECEIVER ( )

Tap on ( ) button to open TX/RX setting page. Tap on buttons, then change the value or options with rotary knob switch.

2.6.6-1 Sub Menu: Tx DELAY

Transmit delay of each transmitter for beam focusing. The unit is in nanosec. Transmitter active select (Check to Activate all). The user may also check in custom order.

Azimuthal: Meaning of refracted angle. Also grid in this option indicates tx delay of the selected refracted angle in nano seconds.

Exit Point: Ultrasound signal generated from the probe passes through the wedge and the starting point of the specimen, also indicates the starting position of the actual vector. See the following figure.

Figure: illustration of exit point

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Focal Point Z: The point where the beam is focusing. Unit is in mm. See the figure for reference.

Figure: Illustration of focal point

2.6.6-2 Sub-Menu: Rx DELAY

Receive delay of each transmitter for beam focusing. Unit is in nanosec. Receive active select (Check to Activate all). User may also check in custom order.

Figure: Illustration of Rx Delay

Azimuthal: Meaning of refracted angle. Also grid in this option indicates Rx delay of the selected refracted angle in nano seconds.

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2.6.6-3 Sub-Menu: TCG

After setting TCG Calibration, you can easily see the exact position and DB value of TCG point.

Picture: TCG point list indicating

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2.6.7 Submenu SUB TOOLBARS: MECHANICAL SETTING ( )

Tap on ( ) button to open mechanical setting page. Tap on buttons, then change the value or options with rotary knob switch.

2.6.7-1 SCAN:

Scan Unit type (mm/deg): This indicates the scan unit type, which measured in mm/deg in case of flat/cylindrical specimen.

Select the scan page-Scan unit type, and adjust the value using the rotary knob switch.

Scan position: Set the value for specifying the position of a scan before performing. Select the scan-page scan unit type, and adjust the value using the rotary knob switch.

Figure: Scan position (red arrow: scan direction)

Scan start: Set the value for specifying the start position of a scan before performing.

Select the scan page-Scan start, and adjust the value using the rotary knob switch.

Figure: Scan start (red arrow indicates scan start)

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Scan stop: Set the value for specifying the stop position of a scan before performing.

Select the scan page - Scan stop, and adjust the value using the rotary knob switch.

Figure: Scan stop (red arrow indicates scan stop position)

Scan step: Set scan page-Scan step, and adjust the value using the rotary knob switch.

Figure: Scan step (red arrow indicates the scan step)

2.6.7-2 INDEX:

Index setting values can be changed in index page. Select the axis (axs) function and select each bar, and you can change required values using the rotary knob switch and by tapping to check/uncheck the option:

Index Unit type (mm/deg): This indicates the index unit type, which measured in mm/deg in case of flat/cylindrical specimen. Select the index page-index unit type, and adjust the value using the rotary knob switch. This indicates the index unit type, which measured in mm/deg in case in

Index position: Set the value for specifying the position of an index before performing.

Select the index page-Index position, and adjust the value using the rotary knob switch.

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Figure: Index position (red arrow indicates index position)

Index start: Set the value for specifying the position of an index before performing.

Select the index page-Index position, and adjust the value using the rotary knob switch.

Figure: Index position (red arrow indicates index position)

Index stop: Set the value for specifying the position of an index before performing.

Select the index page-Index position, and adjust the value using the rotary knob switch.

Figure: Index stop (red arrow indicates the index position)

Index step: Set the value for specifying the position of an index before performing.

Select the scan page-Scan position, and adjust the value using the rotary knob to adjust

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the values.

Figure: Index step (red arrow indicates the index step)

2.6.8-3 ENCODER

Encoder setting values can be changed here, in Enc tab page, where unit is steps/mm. Select the Encoder (enc) function and select each bar, and you can change required values using the rotary knob switch.

Axis Reverse: When Scan/Index encoder is recognized as a different axis, changing Axis reverse, encoder axes can be changed to each other.

Figure: Axis reverse

Scan Reverse: Enable to change scan encoder direction (+, -)

Scan resolution: Adjust the value of many steps performed per mm in scan direction. Select the encoder page-Scan resolution, and adjust the value using the rotary knob switch.

Scan resolution type: steps/mm

Index Reverse: Enable to change index encoder direction (+, -)

Index resolution: Adjust the value of many steps performed per mm in scan direction. Select the encoder page-Scan resolution, and adjust the value using the rotary knob switch.

Index resolution type: step/mm

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2.6.8 Submenu SUB TOOLBARS: SPECIMEN/WELD SETTING ( )

Tap on ( ) button to open mechanical probe settings page. Tap on buttons, then change the value or options with rotary knob switch.

Figure: Specimen / Weld setting pages

2.6.8-1 Sub-Menu: SPECIMEN

Name

Select the specimen name from predetermined list or insert the name

Material

Define the type of material that used for specimen, from predetermined list

L-Wave velocity

Ultrasound velocity of specimens (Longitudinal wave)

Figure: Longitudinal Wave

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S-Wave velocity

Ultrasound velocity of specimens (Shear wave)

Figure: Shear Wave

Shape type

Select Flat to change the value of width, height, length

Select Cylindrical (inspection from ID) to change the value of specimens Inside Diameter, Outside Diameter, Length.

Ref.angle (deg): The refracted angle in degree can be calculated by material sound velocity and Snell’s law, which not exceeds than 90 degrees.

Parameter adjustment range: -85 to 85 degrees

Select the Ref.angle function and use the rotary knob switch to set the value.

2.6.8-2 Weld

Enable/disable the wedge list and choose the weld from list

Check ( ) to enable setting menu with external

Weld type: Click here to refer more about weld type.

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2.6.9 Submenu SUB TOOLBARS: SETTING LOAD / SAVE ( )

Tap on ( ) button to open setting load and save page. Settings can be easily saved as .SET file on-device storage or external USB storage. Tap on buttons, then change the value or options with rotary knob switch.

2.6.9-1: Setup (file format: SET)

Device storage selection ( ): Select as main storage as files to be saved. Also this function shows how much storage used and available for save/load.

External USB selection ( ): Select as external storage as files to be saved. Also this function shows how much USB storage used and available for save/load.

File save ( ): Tap on save button to save settings.

Add/copy SET file ( ): This function allows to add and copy SET file

Modify the selected folder and file name ( ): This function allows to add and copy SET file

Delete the selected folder and file ( ): This function allows you to eliminate particular folder and files.

Load the SET file ( ): Load the predetermined SET file to the device

Refresh the list ( ): When external USB devices or file/folders not displayed properly, refresh the list using this function.

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2.6.9-2: Image (file format: PNG)

Device storage selection ( ): Select as main storage as files to be saved. Also this function shows how much storage used and available for save/load.

External USB selection ( ): Select as external storage as files to be saved. Also this function shows how much USB storage used and available for save/load.

Modify the selected folder and file name ( ): This function allows to add and copy PNG files.

Delete the selected folder and file ( ): This function allows you to eliminate particular folder and files.

Refresh the list ( ): When external USB devices or file/folders not displayed properly, refresh the list using this function.

2.6.9-3: Data (file format: IQV)

Device storage selection ( ): Select as main storage as files to be saved. Also this function shows how much storage used and available for save/load.

External USB selection ( ): Select as external storage as files to be saved. Also this function shows how much USB storage used and available for save/load.

Modify the selected folder and file name ( ): This function allows to add and copy IQV files.

Delete the selected folder and file ( ): This function allows you to eliminate particular folder and files.

Refresh the list ( ): When external USB devices or file/folders not displayed properly, refresh the list using this function.

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2.6.9-4: Layout

Device storage selection ( ): Select as main storage as Layout files to be saved. Also this function shows how much storage used and available for save/load.

External USB selection ( ): Select as external storage as files to be saved. Also this function shows how much USB storage used and available for save/load.

Modify the selected folder and file name ( ): This function allows to add and copy Layout files.

Delete the selected folder and file ( ): This function allows you to eliminate particular folder and files.

Refresh the list ( ): When external USB devices or file/folders not displayed properly, refresh the list using this function.

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2.6.9-5: Setting

Figure: File Name Setting

Note: Save Probe, Wedge and NO to make it easier to find

Data File Preset: Data Save name set

Image File Preset: Image Save name set

Danger: Problems may arise when you clear the set command.

Note - Create the desired name #SET #_#DATE #_#NO # Example of

Settings: Probe (5L32A) Wedge (N60S) Setting up

Example: PAUTP1 #SET #_#DATE #_#NO # Save

PAUTP1 (5L32AN60S_20180530_1)

2.6.10 Submenu SUB TOOLBARS: DEVICE SETTING ( )

This part contains general procedures that use of function from the File and Device menus, and it describes commonly performed tasks that have an overall impact on the P1 device software interface.

Tap on ( ) button to open device setting page. Tap on buttons, then change the value or options with rotary knob switch.

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2.6.10-1: Display

User interface color options

The user interface contains two selectable theme mode, which default (dark), green (light) and white (light) modes. More reference from page 64.

Theme

Choose from drop-down list of Theme to change the UI color. Available colors: Black, Green and White.

Figure: UI theme color options

A Scan color

Choose from drop-down list of A Scan color to change the color. Available colors: Yellow, Blue, Green, Cyan, Red, Magenta, Red, White and Black

Figure: A Scan color options

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A Scan BG color

Choose from drop-down list of A Scan Background color to change the background color. Available colors: Black, White and Gray

Figure: A Scan background color options

C-Scan merge

( ) Displays the maximum value of the entire Scan view in real-time mode.

Figure: C-Scan merge Check list

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Color map

Choose from drop-down list of Color map color to change the S-Scan color. Available colors: Corrosion, Gray, Rainbow, RFRectified and TOFD

Figure: Color map options

Grid

Select a type of Grid for A Scan view background appearance.

Off: no grid background

Grid 1: Wide dotted grid background type 1

Grid 2: Narrow dotted grid background type 2

Figure: Grid options

LCD Brightness: Slide the bar shift -> right or shift-> left to adjust the LCD brightness.

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2.6.10-2: Gate Line

Horn

The Horn contains the selection used to define the horn conditions. Alarms are useful for highlighting the occurrence of specific conditions.

In scan view window, when amplitude curve passes over by certain threshold and LED alarms will turn on/Beep sound feedback given by once or a certain amount of period. Select the setting horn and choose the setting by using the rotary knob switch.

Off: No beep sound is generated

Once: Generates beep sound only once when gate is detected

Duration: Generates continuous beep sound when gate is detected

Gate Detection:

Choose from drop-down list of Gate Detection to change the way to detect a gate. You can select among two kinds of gate detection (See the figure below):

Peak: Detect the highest signal position of the gate

Edge: Detect edge signal position of a gate

Figure: Gate detection (Peak and Edge)

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2.6.10-3: Device

Display with Alarm gate shows the Version/Date/Time the rotary knob to adjust the date settings with Version/Date and Device > Category

Information

Displays the detailed information of device and software version. Information type: Software version / Max channel/ Max element

Date

This part describes how to set date and time on the P1 device. Tap on Date button and use the rotary knob to adjust the device’s date settings.

Figure: Date setting example

Time

Tap on time and use the rotary knob to adjust the gate shows the Version/Date/Time the rotary knob to adjust the time.

Figure: Time setting example

Save button

Tap on Save button, and select the save button type. By setting this feature, push the physical SAVE button to save particular file mode.

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Figure: Example of Save button option

Saving formats and types:

Setting file: Save all settings. The file format is SET.

Screen capture: Capture the screen activities. The file format is PNG.

Time: Automatically saves files without encoder scan. The file format is IQV.

Language

Change the display language. Available languages: English/Korean

2.6.10-4: Preference

Figure: Preference list

Default Setting : Restore settings to their original defaults

Minimize P1 : Select minimize button to minimize a program window to the taskbar

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2.7 Submenu: Gate option toolbar

The Gate option toolbar explained following table. Tap on button to open Submenu: Gate option toolbar.

Submenu GATE option toolbar:

Following chart explains the OPTION in option toolbar.

Button Description Scan view

Switch between Amplitude / US (% to mm)

Flip scan view window Vertically

Flip scan view window Horizontally

Specimen overlay Visible/Invisible

Choose the Maximum A-Scan

Show/hide the Reference bar

Show/hide the Measurement bar

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Show/hide the Gate

Smoothing filter When selected, this option

enables the smoothing filter.

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2.8 Submenu: Scan view toolbar

The right menu Scan view TOOLBARS explained in following table. Tap on button to open Submenu Scan view TOOLBARS. Tap on buttons, then change the value or options with rotary knob switch.

Following chart demonstrates the four types of scan view window.

Scan view Description Appearance

Single A scan view window

Single C scan view window

Displays A and C scan view at same time

Drag the gate lines in scan view window and zoom-in/zoom out of

scan view window

Displays the Drag the gate lines in scan view window and zoom-

in/zoom out of scan view window

Adjust number of scan view to show

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2.9 Submenu: Shortcut toolbar (horizontal)

The right menu Gate Submenu toolbar appears as the following figure. Tap on button to open: Gate sub-menu. Tap on buttons, then change the value or options with rotary knob switch. The right menu Main Toolbars appears as following

Submenu: Shortcut toolbar >>Gate sub-menu:

Tap to add Gate line in scan view

Tap to delete Gate line in scan view

Tap to choose the Screenshot* feature.

Tap to choose the amplitude value settings

Tap to Zoom-in the scan view

Tap to Zoom-out the scan view

Tap to Scale to fit

Tap to pause all pulse & receive features

Tap to the maximum A-scan (parameter settings)

*This feature enables you to save image in device and external USB device is inserted

To capture the screen of P1 device:

Tap on ( ) button to take a screenshot, and make sure USB device is connected to the P1 device. Since the saving location predefined in Settings >> File management >>

Image >> Device / USB storage. You can explore your saved images from File Management setting to copy, delete or modify. Note that image file format is .PNG.

Figure: Screen capture and save

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Switch to P1 Scan pane screen:

It operates the program for a more efficient work environment ( )

The program is operated to prevent unnecessary touches and to make the scan window look bigger during scan operation.

Figure: Switch to full screen when clicked

: You can move the window arbitrarily when clicked.

: Switch from full screen mode to default screen mode when clicked

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Submenu: Shortcut toolbar >>Gate sub menu:

Tap to Reference bar (with long press)

Tap to Measurement bar (with long press)

Tap to zoom, drag (with long press)

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APPENDIX A

DIGITIZING METHOD

A digitizing frequency default value initially set to 50 MHz, 25 MHz, 12.5 MHz, 6.25 MHz and 3.125 MHz are available. Since the maximum sample count in A-scan is default as 16K (16384).

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APPENDIX B

MANUAL CALIBRATION METHODS

The P1 device can be calibrated manually either automatically (Wizard). Following methods are used for calibrating the P1 device manually. The sound velocity and calibration range have to be set and the probe delay taken into consideration depending on the material and dimensions of the test piece.

Methods (click on title):

Metal Path calibration method

Depth calibration

Velocity calibration

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Metal Path calibration method:

Metal path calibration method uses IIW type II calibration block in order to find the most peak point. (Tap on Calibration method to choose the metal path selection from manual calibration in Settings, see the page).

Step 1: Tap on button and select Type >> Metal Path calibration method (Refer the Figure)

Figure: 100R / 50R method on IIW type II calibration block

Step 2: Tap on button to open scan view window, then tap on to add gate on scan view.

Figure: Example of adding a gate (red)

To find the Peak point of frequency:

Following types of will display in following scheme. Adjust Ref.A to 100.0 mm (100

R) can be calibrated in following way.

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Step 3: Tap on Auto FSH (%) button to automatically adjust a gain value to the registered setting value (80%) of FSH (Full Screen Height).

80%

Figure: Perform Auto FSH %

Step 4: Tap on Calibrate button to measure reference position. In case of adjusting 100mm (100R) in Reference A.

Figure: Perform Calibration

As shown figure above, SA (100.0 mm) value is automatically calculated after pressing Calibrate button.

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Depth calibration method:

While metal path calibration method used IIW Type II calibration block, the depth calibration method uses Navship test block regarding to find a depth.

Figure: 50R depth hole example on Navship test block

It is a similar method to each other, only difference is metal path method uses 100R whereas depth calibration sets depth (For example, 50mm). See the example in the figure on next page.

Step 1: Tap on button and select Type >> Depth calibration method.

Step 2: Tap on button to open scan view window, then tap on to add a gate on scan view. Adjust Ref Depth A to 50.0 mm in terms of 50R method.

Figure: Example of adding a gate (red)

Step 3: Tap on auto Auto FSH (%) button to automatically adjust a gain value to the registered setting value (80%) of FSH (Full Screen Height).

80%

Figure: Perform Auto FSH %

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Step 4: After adjusting Ref.Depth A to 50 mm (50R), then tap the button to perform Calibrate.

Figure: Perform depth calibration

As shown figure above, DA (25.0 mm) value is automatically calculated after calibration

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Velocity calibration method

Reference Position A (mm): Locating position that accessed as Reference A for calibration (note that the ex. 50.0 mm (50 R) applied)

Reference Position B (mm): Locating position that accessed as Reference B for calibration (note that the ex.100.0 mm (100R) applied) (Refer figure below)

Figure: 100R/50R method on IIW type II calibration block

Metal path Calibration : 100 R for Ref.A

Depth Calibration : 50 R for Ref.B

Velocity Calibration : 50R for Ref.A/100R for Ref.B

Step 1: Tap on button and select Type >> Velocity calibration method (refer figure below)

Step 2: From scan view window, then tap on to add two gates on scan view. Then set Ref.A to 50.0 mm, Ref.B to 100.0 mm.

Figure: Example of adding a two gate line (red, green)

Step 3: Tap on Auto FSH (%) button to automatically adjust a gain value to the registered setting value (80%)

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80%

Figure: Perform Auto FSH % (adjust to 80%)

Step 4: After signal adjusted by FSH function, tap on Calibrate button.

Figure: Perform calibration

As shown figure above, SA (50.0 mm), SB (100.0 mm) value is adjusted, calculated VLC is 3238 m/s after calibration.

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APPENDIX C

MANUAL TCG/ ADC CALIBRATION

Methods (click on title):

TCG calibration

DAC calibration

Example)

Assume there is 20 mm, 40 mm, 60 mm hole on test block (refer the figure below). Since scan view signal set to 100% to default, selecting Auto FSH function adjust each signal curve to 80% for TCG/DAC curve drawing.

40mm

60mm

20mm 80%

80%

80%

Figure: IIW Type II calibration block/ Peak point to FSH for DAC/TCG

Calibration with example)

To perform TCG calibration:

1. Place the probe on calibration block (Navship test block recommended)

2. Select ( ) button from Wizard, then select

a) Select Wizard -> Calibration -> DAC/TCG

b) Select Mode DAC/TCG -> TCG

c) Add Gate Line on A Scan

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Figure: Set Gate on A Scan for TCG peak point

d) Choose ( ) to perform Auto FSH (adjust to 80%)

Figure: Auto FSH for TCG point

e) Choose (Add Point) to perform TCG drawing

Figure: TCG drawing on A Scan

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To perform ADC calibration:

1. Place the probe on calibration block (Navship test block recommended)

2. Select ( ) button from Wizard

a) Select Wizard -> Calibration -> DAC/TCG

b) Select Mode DAC/TCG -> DAC

c) Add Gate Line on A Scan

Figure: Set Gate on A Scan for DAC peak point

d) Choose ( ) to perform Auto FSH (adjust to 80%)

Figure: Auto FSH for DAC point

e) Choose (Add Point) to perform DAC drawing

Figure: DAC point drawing on A Scan

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DEEPSOUND P1 Complete User Manual Release 1.0

Important NOTICE:

Seongsan Lab reserve the right to make corrections, modifications, enhancements, improvements, and other changes to its products and services at any time and to discontinue any product or service without notice. Customers should obtain the latest relevant information before placing orders and should verify that such information is current and complete. All products (hardware and software) are sold subject to Seongsan Lab’s terms and conditions of sale supplied at the time of order acknowledgement.

Any questions with DEEPSOUND P1 device?

Here at Seongsan lab, we understand that sometime there may some problem may arise. In that case, we strongly recommend that:

Read this document deeply, since this document provide all the information you will need.

If you do not find any proper solution from this document, feel free to send us e-mail or mail to addressing below, since testing and other quality control techniques are used to the extent Seongsan Lab deems necessary to support this manual.

Mailing Address:

Seung-il venture tower 802, Gasan Digital Road 2-gil 136,

Geumcheon-gu, seoul, Korea

E-mail: [email protected]

Copyright © 2018, Seongsan Lab

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Complete User Manual

Copyrightⓒ 2017-2018 Seongsan Lab, Seoul, South Korea

This manual is protected under international copyright laws.

No part of this manual may be reproduced, distributed, translated, or transmitted in any form or by any means, electronic, magnetic, optical, chemical, manual or otherwise, without the prior written permission of Seongsan Lab.

All rights reserved

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DEEPSOUND P1

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