Proceq Pundit Lab, Pundit Lab Plus Operating Instructions Manual

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Operating Instructions

Pundit Lab / Pundit Lab

Ultrasonic Instrument

Made in Switzerland

... more than 50 years of know-how you can measure!

Made in Switzerland

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1. Safety and Liability

1.1. Safety and usage precautions

This manual contains important information on the safety, use and maintenance of the Pundit Lab. Read through the manual carefully before the ﬁrst use of the instrument. Keep the manual in a safe place for future reference.

1.2. Liability and warranty

Proceq’s “General Terms and Conditions of Sale and Delivery” apply in all cases. Warranty and liability claims arising from personal injury and damage to property cannot be upheld if they are due to one or more of the following causes:

• Failure to use the instrument in accordance with its designated use as described in this manual.

• Incorrect performance check for operation and maintenance of the instrument and its components.

• Failure to adhere to the sections of the manual dealing with the performance check, operation and maintenance of the instrument and its components.

• Unauthorized structural modiﬁcations to the instrument and its components.

• Serious damage resulting from the effects of foreign bodies, accidents, vandalism and force majeure.

All information contained in this documentation is presented in good faith and believed to be correct. Proceq SA makes no warranties and excludes all liability as to the completeness and/ or accuracy of the information.

1.3. Safety instructions

The instrument is not allowed to be operated by children or anyone under the inﬂuence of alcohol, drugs or pharmaceutical preparations. Anyone who is not familiar with this manual must be supervised when using the instrument.

1.4. Labelling

The following icons are used in conjunction with all important safety notes used in this manual.

Note:

This symbol indicates important information.

1.5. Correct Usage

• The instrument is only to be used for its designated purpose as describe herein.

• Replace faulty components only with original replacement parts from Proceq.

• Accessories should only be installed or connected to the instrument if they are expressly authorized by Proceq. If other accessories are installed or connected to the instrument then Proceq will accept no liability and the product guarantee is forfeit.

Table of Contents

1. Safety and Liability 3

2. Getting started 4

3. System Settings 6

4. Viewing the Waveform 8

5. Measuring with Pundit Lab 9

5.1. Preparation 9

5.2. Basic Measurements 10

5.3. Basic Measurement – Pulse Velocity 11

5.4. Basic Measurement – Waveform Display 12

5.5. Basic Measurement – Path Length 13

5.6. Basic Measurement – Compressive Strength (Pundit Lab+ only) 14

5.7. Compound Measurement – Surface Velocity 15

5.8. Compound Measurement – Perpendicular Crack Depth 16

5.9. Minimum Dimensions 17

5.10. Transducer Selection Guide 17

5.11. 250 kHz Shear Wave Transducers 18

5.12. Transducer Holder Accessory 19

6. Technical Speciﬁcations 19

7. Part Numbers and Accessories 20

7.1. Units 20

7.2. Transducers 20

7.3. Parts and Accessories 20

8. Maintenance and Support 21

9. Pundit Link 22

9.1. Starting Pundit Lin 22

9.2. Viewing the Data 23

9.3. Adjusting the Settings 24

9.4. Exporting Data 25

9.5. Deleting and restoring Data 26

9.6. Further Functions 26

9.7. Live View 27

9.8. Conversion Curves 30

10. Pundit Lab Remote Control Interface 31

Standards and Guidelines

Pundit Lab complies with the following standards: EN 12504-4 (Europe), ASTM C597-02 (North America), BS 1881 Part 203 (UK), ISO1920-7:2004 (International), IS13311 (India), CECS21 (China)

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2. Getting started

Rear Panel

Connectors for: Oscilloscope

USB – PC / Power Supply

The Pundit Lab can be powered by batteries, by the mains or by the USB connection to a PC.

Front Panel

The soft keys are context sensitive. The display icon shows the active function.

The lower right-hand key is for Power ON/OFF and also to “Cancel” a setting and return to the previous menu.

The navigation key is for scrolling through menus and for setting variable parameters.

Transducer Connection

Connect the transducers to the front of the display unit using the BNC cables. If cables of different lengths are used, the longer cable should be connected to the transmitter.

Note: To avoid the possibility of electrical shock, the transducers must be connected before switching on and disconnected only after switching off.

Basic Measurement

Compound Measurement

System Settings

Information

Power ON

Press and hold the lower right-hand key for 3 seconds. The main menu and the type "Pundit Lab" or "Pundit Lab

" is displayed.

Clicking on the “Information” soft key brings up important device information.

Battery status or USB connection

Serial number

Hardware version Firmware version

Power Management – Power OFF

When operating on battery power the instrument goes into standby mode after 5 minutes of inactivity. After 30 minutes it shuts down completely. When powered by the USB connection, the display shuts down after 1 hour of inactivity. Press the lower right hand key (Power ON/ OFF, Cancel) to recover from standby mode. To power off, press and hold the lower right-hand key for 3 seconds.

Zeroing the Pundit Lab

The Pundit Lab should be zeroed using the calibration rod on a regular basis and in particular if the transducer frequency is changed or if the cables are changed. The expected calibration value (µs) is marked on the calibration rod.

Couple the transducers to the calibration rod by applying couplant to the transducers and both ends of the rod and pressing ﬁrmly together as shown.

Note: When zeroing the exponential transducers the dedicated calibration rod (325 40 174) should be used.

Select System Settings (See chapter 3 for more info)

Check Tx/Rx matches transducer frequency. Pulse width requires no adjustment. Correction factor set to 1.0. Select Calibration.

If necessary, select to enter the transit time as marked on the calibration rod.

Variable parameter; set as follows:

Up/down keys - ﬁne adjustment Left/right keys - coarse adjustment. Center key - enters the value and returns to the previous menu. Cancel key - cancels the input and returns to the previous menu.

Press “Start” to begin the calibration sequence.

The ﬁnal display shows the expected transit time and below it the measured transit time. This should match the value on the calibration rod.

Batteries

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3. System Settings

Select System Settings

Set:

- Transducer frequency

- Pulse width

- Calibration setting

- Averaging time/signal

Or scroll to next screen Set:

- Excitation voltage

- Receiver gain

- Units (metric/imperial) (Pundit Lab+ only: Compressive strength unit)

- Correction factor

Pundit Lab+ only Set: Date and time Compressive strength curve (Rebound value for SONREB method)

Parameter Presets (Click on soft key to

scroll through)

Variable (Set with navigation key; see 2.1)

Tx / Rx Frequency (kHz) 24, 37, 54, 82, 150, 200, 220, 250,

500

Pulse width Automatic 1-100 µs

Calibration (See 2.1) - 1-110 µs

Averaging Time Signal

Excitation voltage (V) 125, 250, 350, 500, AUTO -

Rx Gain Pundit Lab

Pundit Lab

1x, 10x, 100x, AUTO 1x, 2x, 5x, 10x, 20x, 50x, 100x, 200x, 500x, 1000x, AUTO

Units Pundit Lab

Pundit Lab

ft / m ft / m, MPa, N/mm2, psi, kg/cm2

Correction factor - 0.07 – 1.3

Date and time (Pundit Lab

)

Set time stamp.

Compressive strength curve (Pundit Lab

)

Curves deﬁned in PunditLink. Enter a rebound value

for SONREB curves.

Automatic Gain and Voltage Setting

The excitation voltage and the receiver gain can both be set to automatic. In this mode the Pundit Lab ﬁnds the optimum combination of the two parameters for a stable measurement.

Rx Gain 200x, 500x, 1000x

This feature is available in Pundit Lab

only and replaces the need for an external ampliﬁer (325 40 059) when using long cables or exponential transducers. When such high gain stages are selected it is highly recommended to use manual triggering with the waveform display.

Pulse Width

The pulse width is automatically set to the optimum value for the selected transducer frequency and typically requires no adjustment. For certain applications, it may however be adjusted if desired. (Refer to ASTM D 2845 - Standard Test Method for Laboratory Determination of Pulse Velocities and Ultrasonic Elastic Constants of Rock.)

It also allows non-standard transducers up to 500 kHz to be used with Pundit Lab: Pulse width “p” in microseconds (µs) to be entered here is calculated from the formula p = 1'000/(2*f) , where f = transducer frequency in kHz

If a non standard value is set manually it is indicated by an asterisk.

Averaging Time/Signal

A number of measurements are made and the resulting transmission times are averaged. Time averaging provides the highest resolution of 0.1 µs.

Signal averaging provides greater stability for longer path measurements (e.g. several metres). In this case a number of measurements are made and the waveforms are averaged to determine the transmission time. The resolution in this mode is 0.5 µs.

Continuous/Burst Transmission

Continuous transmission continues transmitting until the “Stop” button is pressed.

Burst transmission sends out packets of pulses until a stable reading is obtained then stops automatically.

Correction Factor

Pulse velocity measurements are affected by several factors. These are well described in BS 1881 : Part 203 and it is recommended that the user refers to this document. Two key factors are the moisture content of the concrete and the temperature. The table below shows the correction factor that should be keyed in based on the recommendations made in the above standard.

Temperature Dry concrete Wet concrete

10°C – 30°C 1.0 (No correction) 1.0 (No correction)

60°C 1.05 1.04

40°C 1.02 1.02

0°C 0.99 0.99

-4°C 0.98 0.92

Units (Pundit Lab+ only)

Selecting units opens a second screen where the user may select a compressive strength unit in addition to the imperial or metric units.

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Date and Time (Pundit Lab

only)

Used to provide measurements with a time stamp. Use the left and right keys to move between settings. Use the up and down keys to adjust the settings. Press enter to save, or cancel to return without saving.

4. Viewing the Waveform

While carrying out the measurements described in the following chapter it is possible to view the received waveform. Pundit Lab offers three possibilities to look at the waveform.

Oscilloscope

Connect an oscilloscope to the connector on the rear panel. A typical waveform will look like this:

Both the trigger pulse and the received waveform are displayed.

Pundit Link - PC

The waveform may also be viewed on a PC or Laptop connected via the USB port. Please refer to the Pundit Link operating instructions for details (chapter 9).

On the instrument

The waveform may be directly viewed on the instrument. See next chapter for operating de-

tails.

5. Measuring with Pundit Lab

The Pundit Lab can be used for several applications including the following:

• Pulse velocity measurement

• Path length measurement

• Uniformity assessment

• Surface velocity measurement

• Crack depth measurement

• Estimating the dynamic elastic modulus of samples (with the shear wave transducers)

• Pundit Lab+ only. Estimating compressive strength using pulse velocity alone or in combination with a rebound hammer

Transducer arrangement

Three transducer arrangements are commonly used.

Wherever possible use the direct arrangement as this ensures the maximum signal transmission between the transducers. The semi-direct arrangement is less sensitive than the direct, but more sensitive than the indirect arrangement. The path length is the distance between the centers of each transducer.

The indirect method is particularly useful for determining crack depth, surface quality or in the case when only one surface is accessible.

5.1. Preparation

Basic preparations are common to each application. The distance (path length) between the transducers should be measured as accurately as possible. It is very important to ensure adequate acoustic coupling of the transducers to the surface under test. A thin layer of couplant should be applied to the transducer and the test surface. In some cases it may be necessary to prepare the surface by smoothing it.

For compound measurements and uniformity testing a test grid should be drawn out on the surface.

Rebars affect the ultrasonic measurements as the signal will travel faster through the rebar than through the concrete. The location of rebars should be determined using a rebar locator such as Proceq's Profoscope and ultrasonic tests should be positioned so as to avoid them. BS 1881 Part 203 gives information on the effect of rebars on the expected results.

The standard measuring procedure is:

• Apply the couplant.

• Position the transducers.

• Perform the measurement.

• Reposition the transducers (compound measurements only).

• Save the result.

Rx Waveform

Trigger pulse

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5.2. Basic Measurements

Basic measurements consist of a single measurement without the need to reposition the transducers. There are two basic measurements, depending on which parameter is known, either the path length or the pulse velocity.

Set path length

Set pulse velocity

Continuous/Burst transmission

Stop/Start Measurement

Saving Measurements

At the end of a measurement the test result can be saved.

Save into a ﬁle deﬁned by an ID number.

Do not save and return to the previous screen.

Review List (Pundit Lab

only)

From the main menu, clicking on the system information key (See getting started) brings up a sub menu:

Select this to key to display the system information.

Select this key to go the review list which allows previous measurements to be viewed.

An asterisk beside the pulse velocity or the distance indicates that this is the parameter that was calculated.

1st row : Measurement ( e.g. 4 of 16) / Time stamp 2nd row: Measurement ID / Temperature 3rd row: Frequency / Voltage / Gain / Correction factor / Rebound value (SONREB only) 4th row: Transmission time / Distance 5th row: Pulse velocity / Compressive strength / Conversion curve

5.3. Basic Measurement – Pulse Velocity

In order to measure the pulse velocity it is necessary to measure the path length between the two transducers.

Select “Basic Measurements”

Select parameter setting “path length”

Enter the path length

Start the measurement

The display shows:

- Transmission time

- Measured pulse velocity

- Received signal level *

Stop the measurement (Not necessary in burst mode)

Save the result or: Adjust the gain settings. (See Chapter 3) or: Start a new measurement

* Best results are obtained when the received signal level is around 75%. Use the automatic

gain and voltage settings (See Chapter 3) for optimized performance.

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5.4. Basic Measurement – Waveform Display

Select “Basic Measurements”

Start the measurement

Select “Waveform”

Adjust as required (See below)

Cancel to return to standard display

Waveform Controls

Y < > Vertical zoom X < > Horizontal zoom t - + Manual trigger adjustment

Stop/Start

Note 1: Rx gain may need reducing for vertical zoom to have a noticeable effect. Note 2: Once adjusted, trigger point does not reset automatically unless a new measurement is started in the menu “Start the measurement” Note 3: The waveform is not saved, only the transmission time.

5.5. Basic Measurement – Path Length

If the pulse velocity of the material under test is known, it is possible to measure the path length between the transducers. The procedure is exactly the same as for measuring pulse velocity except that in this case the known pulse velocity is entered.

Select “Basic Measurements”

Select parameter setting “pulse velocity”

Enter the pulse velocity

Start the measurement

The display shows:

- Transmission time

- Measured path length

- Received signal level

Stop the measurement (Not necessary in burst mode)

Save the result or: Adjust the gain settings. (See Chapter 3) or: Start a new measurement

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5.6. Basic Measurement – Compressive Strength (Pundit Lab+ only)

Prior to carrying out this measurement, a conversion curve must be created in PunditLink and uploaded to the instrument. Up to ﬁve curves may be stored on the instrument. Select the appropriate curve and set the desired compressive strength unit. (See chapter 3 “System Settings”.) Carry out a pulse velocity measurement as described above (5.3).

While the measurement is being carried out, or when the measurement has completed, clicking on the up or down keys switches between pulse velocity and compressive strength indication.

SONREB Method

This method for measuring compressive strength combines the ultrasonic measurement with a rebound hammer measurement.

The format of the curve is: Compressive Strength f

= aVbS

Where: a, b and c are constants V is the ultrasonic pulse velocity in m/s S is the rebound value.

Many examples of SONREB curves can be found in the literature

In the settings menu (Chapter 3) the rebound value should be entered before carrying out the measurement. In this case the rebound value entered is saved along with the rest of the measurement data.

A rebound value of 83.1 has been entered here and saved with the measurement data.

Note: The rebound value may be a Q-value (SilverSchmidt) or an R-value (Original Schmidt). This is for the user to deﬁne, but it is always displayed in the review list as “R for rebound value”.

5.7. Compound Measurement – Surface Velocity

Select “Compound Measurements”

Select "Surface Velocity"

Select parameter setting “b”.

Measure and enter the distance “b”

Transducers in ﬁrst position – Start

“t1” is measured. Stable reading indicated by a tick

Receiver to 2nd position - Start

“t2” is measured. Stable reading is indicated by a tick and result screen is displayed. The display shows:

- “t1”

- “t2”

- Surface velocity Save the result or press start to repeat the measurement.

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5.8. Compound Measurement – Perpendicular Crack Depth

Select “Compound Measurements”

Select “Crack Depth”

Select parameter setting “b”.

Measure and enter the distance “b”

Transducers in ﬁrst position – Start

“t1” is measured. Stable reading indicated by a tick

Transducers in 2nd position - Start

“t2” is measured. Stable reading is indicated by a tick and result screen is displayed. The display shows:

- “t1”

- “t2”

- Crack Depth Save the result or press start to repeat the measurement.

5.9. Minimum Dimensions

Minimum dimensions are recommended for accurate test results.

Minimum path length

100 mm for concrete with maximum aggregate size of 20 mm or less. 150 mm for concrete with maximum aggregate size between 20 mm and 40 mm.

Minimum lateral dimensions of the sample

This is dependent on the transmission wavelength and the pulse velocity. The minimum path length should be equal to or greater than the transmission wavelength, or a severe reduction in the pulse velocity may be detected. The following table taken from BS 1881: Part 203 shows the minimum recommended lateral dimensions for the test object.

Tx Frequency kHz Pulse velocity

3500 m/s

Pulse velocity 4000 m/s

Pulse velocity 4500 m/s

Minimum Lateral Dimensions of Test Object

24 146 mm 167 mm 188 mm 54 65 mm 74 mm 83 mm 150 23 mm 27 mm 30 mm

5.10. Transducer Selection Guide

Generally, lower frequencies allow more depth of penetration. Higher frequencies allow better resolution in the measurements.

The inhomogeneities in concrete inﬂuence the propagation of an ultrasound pulse. This inﬂuence can be signiﬁcantly reduced by choosing the frequency, f, such that the wave length, λ, is at least twice as large as the aggregate size. λ is given by: λ = c/f, where c is the pulse velocity (speed of sound) in concrete. The table below shows typical aggregate sizes and the corresponding maximum recommended frequency, respectively:

c (m/s) 3500 4000 4500

aggregate size (mm)

8 16 32 8 16 32 8 16 32

fmax (kHz) 219 109 55 250 125 63 281 141 70

Note: The crack depth measurement uses the method described in BS 1881:Part 203. For good results, the crack must be perpendicular to the surface and free of water or debris. The crack must be sufﬁciently wide to prevent the wave from propagating around it. Rebars close to the crack will also affect the result. If these conditions are not met, the crack depth will appear much smaller than it is.

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5.11. 250 kHz Shear Wave Transducers

When measurements with the 250 kHz shear wave transducers are performed, it is crucial to use the special shear wave coupling paste, otherwise shear waves cannot be properly transmitted into the object under test. The shear wave coupling paste is a non-toxic, water soluble organic substance of very high viscosity. Furthermore, we highly recommend using Pundit Link’s waveform display in order to manually locate the onset of the shear wave echo. Since the latter is always preceded by a relatively weak longitudinal echo (see Figure below), the transit time determined by Pundit Lab, would correspond to the longitudinal instead of the shear wave.

Required steps before measurements can be performed

1. Put a small amount of shear wave coupling gel on the transducers.

2. Firmly press the transducers on either side of the 25 µs calibration rod (Part No 710 10

028). Make sure that the coupling gel is properly distributed and that no air is trapped between the transducer and the calibration rod.

3. Connect the transducers to Pundit Lab.

4. Select the 250 kHz transducer from the list of supported transducers (see Pundit Lab manual chapter 3 for more details).

5. Zero the instrument as described in the Pundit Lab manual chapter 2.1.

Performing measurements with the 250 kHz shear wave transducers.

Typical echo signal obtained, with an experimental setup. The ﬁrst echo arrives at approximately 25.4 µs and corresponds to the weak longitudinal wave. After 50.6 µs the much stronger shear wave echo appears in the signal.

5.12. Transducer Holder Accessory

This accessory is particularly useful for compound measurements. (See chapter 5)

The individual transducer holders may be detached and used separately helping to reduce the physical strain when carrying out extensive measurements.

6. Technical Speciﬁcations

Transit time Measurement

Range 0.1 – 9999 µs Auto ranging. Resolution 0.1 µs

Display

79 x 21 mm passive matrix OLED

Transmitter

Optimized energizing pulse 125 V, 250 V, 350 V, 500 V, AUTO

Receiver

Selectable gain steps Pundit Lab

1x, 10x, 100x, AUTO

Selectable gain steps Pundit Lab

1x, 2x, 5x, 10x, 20x, 50x, 100x, 200x, 500x, 1000x, AUTO

Bandwidth 20 kHz – 500 kHz

Memory

Non volatile, > 500 measured values

Regional Settings Metric and imperial units supported

Power Supply

Battery 4 x AA batteries ( > 20 hours continuous use) Mains: 5v, <500mA via USB Charger PC 5v, <500mA directly via USB cable

Mechanical

Dimensions 172 x 55 x 220 mm Weight 1.3 kg (incl. batteries)

Environmental conditions

Operating temperature -10° to 60°C (0° to 140°F) Humidity <95% RH, non condensing IP Classiﬁcation IP42

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7. Part Numbers and Accessories

7.1. Units

Part No. Description

326 10 001 Pundit Lab consisting of: Display unit, 2 transducers (54kHz), 2 BNC

cables 1.5 m, couplant, calibration rod, battery charger with USB-cable, 4x AA(LR6) batteries, data carrier with software, documentation and carrying case

326 20 001 Pundit Lab

consisting of: Display unit, 2 transducers (54kHz), 2 BNC cables 1.5 m, couplant, calibration rod, battery charger with USB-cable, 4x AA(LR6) batteries, data carrier with software, documentation and carrying case

7.2. Transducers

325 40 026

Transducer 24 kHz (Two required for operation)

325 40 131

Transducer 54 kHz (Two required for operation)

325 40 141

Transducer 150 kHz (Two required for operation)

325 40 176

2 Exponential transducer 54 kHz, including calibration rod

325 40 177

Transducer 250 kHz (Two required for operation)

325 40 175

Transducer 500 kHz (Two required for operation)

325 40 049

2 Shear wave transducers 250 kHz, including couplant

7.3. Parts and Accessories

326 80 211

Pundit lab carrying bag

325 40 059

Ampliﬁer for long cables (>10m) and exponential transducer (not required for Pundit Lab

)

325 40 021

Cable with BNC-plug, L=1.5m (5ft)

710 10 004

Cable with 2x BNC-plug, L=3.6m (12ft)

325 40 022

Cable with BNC-plug, L=10m (33ft)

325 40 024

Cable with BNC-plug, L=30m (100ft)

710 10 031

Ultrasonic couplant, 250 mL bottle

325 40 048

Shear wave couplant

710 10 028

Calibration rod 25 µs for Pundit

710 10 029

Calibration rod 100 µs for Pundit

351 90 018

USB cable 1.8m

341 80 112

USB charger, global

326 01 033

Demo Block Pundit Lab

325 40 150

Transducer Holder complete

8. Maintenance and Support

Error Screen

If this screen appears during measurements, it indicates that no stable signal has been received.

If this occurs : Do the measurement in continuous mode. Change voltage pulse or gain. Use the waveform display to determine optimal voltage and gain settings.

1.0

Signal too weak

2.0

Invalid measurement (The condition t1 >t2/2 during crack-measurement is not fulﬁlled)

11.0

Memory full

37.0

Pundit Lab

only. Invalid system time (Back-up battery for the real time clock is

probably empty)

Support Concept

Proceq is committed to providing a complete support service for this instrument by means of our global service and support facilities. It is recommended that the user register the product on www.proceq.com to obtain the latest on available updates and other valuable information.

Standard Warranty and Extended Warranty

The standard warranty covers the electronic portion of the instrument for 24 months and the mechanical portion of the instrument for 6 months. An extended warranty for one, two or three years for the electronic portion of the instrument may be purchased up to 90 days of date of purchase.

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9. Pundit Link

9.1. Starting Pundit Link

Locate the ﬁle “Punditlink Setup.exe” on your computer or on the CD and click on it. Follow the instructions you see on the screen.

Make sure that the “Launch USB Driver install” tick is selected.

The USB driver installs a virtual com port which is needed to communicate with the Pundit.

Double click on the Pundit Link Icon on your desktop or start the Pundit Link via the start menu. The Pundit link starts with a blank list.

Application settings

The menu item “File – Application settings” allows the user to select the language and the date and time format to be used.

Connecting to a Pundit

Connect the Pundit to a USB port, then select one of the following options:

To download all data from the Pundit.

To begin the “Live view” mode for remote controlled measurements and waveform analysis.

In both cases the following window will be displayed:

Leave the settings as default or if you know the COM port you can enter it manually.

Click on “Next >”

When a Pundit has been found its details will be displayed on screen. Click on the “Finish” button to establish the connection.

9.2. Viewing the Data

The data stored on your Pundit will be displayed on the screen:

• An “Id” number identiﬁes the measurement object.

• The “Name” column allows the user to assign a name for the measurement object.

• The “Date and time”. For Pundit Lab this is the time when the data is downloaded on to the PC, or in “Live view” mode, the date and time when the measurement was made. For Pundit Lab+ it is the date and time when the measurement was made.

• The “Measurement type” indicates either “direct” or one of the compound measurement types.

• The “Velocity” column displays the measured pulse velocity or the setting for path length measurements.

• “Time 1” and “Time 2” displays the measured transmission time or times for compound measurements.

• The “Distance” column shows the measured distance or the setting for pulse velocity measurements.

• The “Crack Depth” shows the measured crack depth.

• The “Correction Factor” shows the setting of the correction factor.

• For Pundit Lab+ only: The “Compressive Strength” shows the calculated value based on the chosen “Conversion Curve”.

• For Pundit Lab+ only: The “Rebound Value” is the value entered (SONREB method only)

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Click on the double arrow icon in the “Id” column to see more details:

Note: Click on “Add” to attach a comment to the object.

9.3. Adjusting the Settings

Each of the settings that were used in the Pundit at the time of the measurement series can be adjusted subsequently in Pundit Link. For compressive strength measurements made with Pundit Lab+ the conversion curve and rebound value can be adjusted subsequently. This can be done either by right clicking directly on the item in the appropriate column, or by clicking on the blue setting item in the detailed view of a measurement object. In each case a drop down selection box will appear with the choice of setting.

Adjusting the date and time

Right click in the “Date & Time” column.

The time will be adjusted for the selected series only. Please note, the Pundit Lab does not have an internal clock, so the date and time displayed for downloaded data, is the time at which it was downloaded. In “Data Logging” mode it is the date and time at which the measurement was made.

9.4. Exporting Data

Pundit Link allows you to export selected objects or the entire project for use in third party programs. Click on the measurement object you wish to export. It will be highlighted as shown.

Click on the “Export as CSV ﬁle(s)” icon. The data for this measurement object is exported as a Microsoft Ofﬁce Excel comma separated ﬁle or ﬁles. The export options may be chosen in the following window:

Click on the “Export as graphic” icon to open the following window which allows the various export options to be chosen.

In both cases, the preview window shows the effects of the current output selection. Finish by clicking on export to select the ﬁle location, name the ﬁle and in the case of a graphical output to set the output graphic format: .png, .bmp or .jpg

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9.5. Deleting and restoring Data

The menu item “Edit – Delete” allows you to delete one or more selected series from the downloaded data.

Note: This does not delete data from the Pundit, only data in the current project.

The menu item “Edit – Select all”, allows the user to select all series in the project for deletion, exporting etc.

Restoring original downloaded data

Select the menu item “File – Restore all original data” to restore the data to the original format as it was downloaded. This is a useful feature if you have been manipulating the data, but wish to go back to the raw data once again. A warning will be given to say that the original data is about to be restored. Conﬁrm to restore.

Note: Any names or comments that have been added to series will be lost.

Deleting data stored on the Pundit

Select the menu item “Device – Delete all measurements object on Pundit” to delete all data stored on the Pundit. A warning will be given to say that all of the data is about to be deleted. Conﬁrm to delete.

Note: This will delete every measurement series. It is not possible to delete individual series.

9.6. Further Functions

The following menu items are available via the icons at the top of the screen:

“PQUpgrade” icon - Allows you to upgrade your ﬁrmware via the internet or from local ﬁles.

“Open project” icon – Allows you to open a previously saved .pql project.

“Save project” icon – Allows you to save the current project.

“Print” icon – Allows you to print out the project. You may select in the printer dialog, if you want to print out all of the data or selected readings only.

9.7. Live View

Pundit Lab allows you to remotely control the Pundit Lab and to view the waveform directly on the PC screen.

Click on the “Live view” icon. If you are not already connected to the Pundit, the connection sequence will be initiated. (See 9.1). The “Live view” window will be displayed.

All transmission parameters may be controlled here. Click on the “Advanced settings …” button to adjust the following parameters:

Please note that the pulse width is by default set to an optimum value for the transducer frequency selected.

Time frame

Can be set between 0.1ms and a maximum of 10ms. (please note, 10 ms corresponds to a measurement of approximately 40m through concrete. Typical measurements will be less than

0.5ms. This setting sets the time scale for the waveform display as can be seen below.

e.g. Recording time set to 0.2 ms

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e.g. Recording time set to 0.5 ms

e.g. Recording time set to 5ms

Setting the trigger point manually

Pundit Link gives the user the option to set the trigger point manually. See the example below.

Trigger point capture automatically.

Zoom in by clicking on the time and amplitude scale zoom buttons for ﬁne adjustment.

Click and drag the blue line to adjust the trigger point manually.

Note: In this example the signal amplitude is very low. Use higher output voltage settings and gain settings for better results.

Data Logging

The Data Logging mode allows the user to program a test sequence.

Interval – between measurements.

Number of events – until the test is completed.

Readings per event – how many measurements are made in each interval.

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Live mode

The live mode allows the user to test with or without recording the data.

In continuous mode, the Pundit Lab begins measuring as soon as “Start” is pressed and continues until “Stop” is pressed.

If a limited number of readings only is required, this may also be set.

Pressing “Next” logs the data and allows a new measurement to begin.

Waveform settings

Clicking "Auto Scale" adjusts the zoom parameters of the waveform display to an optimum setting.

9.8. Conversion Curves

Pundit Lab+ allows compressive strength estimates to be made using pulse velocity measurements or a combination of pulse velocity and rebound hammer measurements. To do this it is necessary to create a conversion curve and upload this onto the instrument.

Conversion curves are very much speciﬁc to the concrete under test and there are many examples in the literature.

Pundit Lab+ allows either polynomial curves or exponential curves to be programmed and in the case of a combined ultrasonic/rebound value measurement a curve based on the SONREB (SONic REBound) method may be entered.

Select the menu item “Conversion Curves”

Here you can view existing curves stored on your computer, copy an existing curve for modiﬁcation or:

Create new curve.

Enter the curve parameters and click on “Create”.

The new curve will now appear in the drop down list and may be loaded onto the Pundit Lab+.

10. Pundit Lab Remote Control Interface

The Pundit Lab interface is completely open for those users who do not wish to use the PunditLink software but instead wish to integrate Pundit Lab into the software they use in the laboratory such as LabVIEW.

The remote control interface document providing complete instructions is available in the downloads section on the Proceq website www.proceq.com.

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Made in Switzerland

Proceq Europe

Ringstrasse 2 CH-8603 Schwerzenbach Phone +41-43-355 38 00 Fax +41-43-355 38 12 info-europe@proceq.com

Proceq UK Ltd.

Bedford i-lab, Priory Business Park Stannard Way Bedford MK44 3RZ United Kingdom Phone +44-12-3483-4515 info-uk@proceq.com

Proceq USA, Inc.

117 Corporation Drive Aliquippa, PA 15001 Phone +1-724-512-0330 Fax +1-724-512-0331 info-usa@proceq.com

Proceq Asia Pte Ltd

12 New Industrial Road #02-02A Morningstar Centre Singapore 536202 Phone +65-6382-3966 Fax +65-6382-3307 info-asia@proceq.com

Proceq Rus LLC

Ul.Optikov 4 korp.2, lit. A, Ofﬁce 410 197374 St. Petersburg Russia Phone/Fax + 7 812 448 35 00 info-russia@proceq.com

Proceq Middle East

P. O. Box 8365, SAIF Zone, Sharjah, United Arab Emirates Phone +971-6-557-8505 Fax +971-6-557-8606 info-middleeast@proceq.com

Proceq SAO Ltd.

Rua Paes Leme, 136, cj 610 Pinheiros, São Paulo Brasil Cep. 05424-010 Phone +55 11 3083 38 89 info-southamerica@proceq.com

Proceq China

Unit B, 19th Floor Five Continent International Mansion, No. 807 Zhao Jia Bang Road Shanghai 200032 China Phone +86-21-6317-7479 Fax +86-21-6317-5015 info-china@proceq.com

www.proceq.com

Subject to change without notice.