User Manual for Portable National Instruments Board, Bridge
Contents
1. Figure 6 BNC connector 10 Figure 7 NI DAQmx chassis with several modules Only channel 6 middle is needed Once this hardware setup is completed create a VI Logger task as described above and select Strain Ring or any other strain setup which includes both strain and voltage channels If none exist simply create a strain or voltage task add additional channels and save task The strain gauge is placed vertically and the researcher will smoothly increase compression directly downwards through the gauge into the force plate and then smoothly unload the gauge and force plate VI Logger will capture both the analog force signal from the force platform and voltage data from the strain gauge Export these data to BioProc2 3 see section Exportation of Data and run Pearson correlation on both channels This processing in BioProc2 3 will provide the user with the regression line or slope This is the conversion factor between voltage and newtons As well a hysteresis value is obtained 11 Figure 8 Complete setup for calibration Task Timing and Triggering Below Strain Setup is Task Timing tab An error in this version of MAX software means only one sampling rate is possible despite an input box allowing the user to select a sampling rate of their choice The set sampling rate is 3846 1 samples per second H2 Therefore if you wish to sample for a certain time period you must convert your time period to number o2. Time Condition Data Export Data export settings F View in Excel when task stops r Start at Stop at Logging Conditions M Begin logging when acquisition starts F Control logging with digital channel IV Jump to the Real Time Data view when task starts j Ei Task Attributes fa DAG Channels E Real Time Data AR Events Ide Figure 4 VI Logger configuration menu Task Function The configuration tree is modified and the new task is added to the sub branch NI DAQmx Tasks of Data Neighbourhood directory The right side of the screen is now split into two sections The first contains modifiers for the new task and the second contains real time information display This display provides description of the functionality or meaning of various tabs and is updated as the mouse cursor passes over them Scaling Analog Inputs Select Strain Setup tab on the right side of the screen Verify the gauge sensitivity on the particular strain gauge in use Most strain gauges in Montpetit Labs use a gauge factor of 2 but this should be verified prior to use Gauge resistance is not 350 ohms for the strain gauges in Montpetit Labs rather 150 ohms This value must be changed for valid results Our strain gauges use Full Bridge 1 The next step in collecting strain gauge data is scaling the voltage data into force values Scaling factors must be known for each strain gauge device Clic
3. User Manual for Portable National Instruments Board Bridge Amplifiers and VI Logger Software David Saxby School of Human Kinetics Faculty of Health Science University of Ottawa Last modified 16 August 2013 by DGER National Instruments NI DAQmx devices utilize supporting software VI Logger NI 2004 Montpetit labs currently run VI Logger Lite This version provides the user with all relevant functions of VI Logger including real time data monitoring and acquisition This manual is intended for Biomechanics students and will focus on analog to digital input device management and data exportation to other vehicles such as Excel and BioProc2 3 Table of Contents System FRE CQUI GINS osc cscts credited direc ire dred ea dd neidiscl diester elGeeaidiciseas 2 Basic Hardware Setup vicccsieceysscsnadaccunsnecsdsastnrsmeaindsdenscbascraunecsdensQhaudeasteesdinslbadteas 3 Bridge 20001 2 eee mere ere re cee nme Peer re er Pmt eer E en ean NEEE ere nner ee 4 Task Function and Data Collection cccccceeeceeeeeceeeeeeeeeeeeeeeeeceeeeeeeeeeeeeeseeeaaees 6 Viewing Collected Data in MAX interface cccceeeeeeeeeeeeeeeeeeeeeeeeeeeeeeenaaees 13 Exportation of CANA ecciiscicncdicisacnerccumunandinanthesdncutenatntndtineudaencutseincedinaatnoscuenendndncatnantuins 13 References ee ceecceccecccecceeececceeceeeceeceeceecuecaeecuececaeecuecaecseececauecuesaeeauectesaeeatesaees 14 System Requirements As listed on Nati
4. by the device Most commercial gauges are outfitted with precise bridge arm loads of 120 350 and or 500 ohms Robertson 2008 Poisson strain is an unavoidable result of force application For example in compression of a beam along its longitudinal axis the beam s width will also increase due to transverse i e perpendicular to applied force expansion Hence strain occurs in three dimensions two planes orthogonal to the applied force and one parallel Poisson s Ratio is the ratio of strain in the transverse direction divided by strain parallel to applied force Typically a strain gauge will consist of a series of active live resistors and Poisson gauges to mediate transverse strain Additionally resistors are physically engineered such the majority of their material is parallel to applied force thus minimizing Poisson Strain NI 2008 To measure strain in the test device strain gauges are wired using a variety of possible combinations In biomechanics the Wheatstone full bridge configuration is often used This bridge consists of four resistive arms wired in series with an external excitation voltage Vex e g 12 VDC power supply Figure 2 Typical Wheatstone bridge A voltmeter is wired between the bridge arms When the ratios of the series resistors Ri R2 and R3 R4 are equivalent no current will flow across the voltmeter Vo hence the voltmeter needle will remain unperturbed at 0 V With these ratios equivalent the br
5. elect NI DAQmx devices and all connected NI DAQmx devices will appear If desired device is not listed refresh the configuration tree by ensuring connection between device and computer then repeat above steps Select the device of interest On the right of the screen a summary of the modules present in your device will exist Numbering begins with modules closest to the power switch on the chassis or frame Select the module for use and either right click to activate drop down menu or select Create Task from above the right of the screen Select the category of task Biomechanics labs will use analog input Select the task function MAX identifies modules capable of capturing this data type An example configuration finds modules 2 6 and 7 appropriate for strain gauge data collection Select specific module and port for use Mont Petit Labs bridge amplifiers contain four ports number 0 to 3 Select port for use and click Next Apply a name to the task and click Finish VI Logger My VI Logger Task 1 BAX File Yiew Tools Help Configuration A e Runtask 17 Save task P Show Help amp My System YI Logger Tasks iit My Sample Task nit My VI Logger Task 1 att SS ii My VI Logger Task 2 Acquisition Settings iit My VI Logger Task 3 NI DAQms Task Name ViLoggerTask init My VI Logger Task 4 nit My VI Logger Task 5 Edit task Create new iit Sample Task
6. es model NI series I O e g NI 9237 Figure 1 Required equipment for data capture Bridge Amplifiers Strain is the measure of physical deformation of a material caused by an applied force Serway amp Vuille 2006 In the natural world an object is often subject to a combination of compression tension torsion and shear forces If a force is however applied uniaxially the ratio of stress to deformation is known as the Young s modulus Serway amp Vuille 2006 Young s modulus is defined as the fractional stress applied force divided by orthogonal cross sectional area divided by fractional strain change in uniaxial length divided by original length Under constant uniaxial applied force within the elastic limit of a material a material deforms in a linear fashion Various elastic moduli exist for the various force application vectors shear torsion and compression Serway amp Vuille 2006 Strain gauges Strain gauges exploit the physical deformation caused by applied force A strain gauge contains various electrical resistors wired into a specific circuit design The resistors consist of a series of winding or tightly woven wires bound to a carrier inert mounting material on the measurement device Ideally any strain on the test device ring bar cable etc is completely transferred to the gauge Consequently the resistor s resistance to electrical current varies in linear proportion to the strain experienced
7. f samples by multiplying the time period in seconds by the sampling rate 3 8461 kHz and enter the sample number into the text box marked Samples to Read Other timing options such as Continuous Acquisition mode are possible This mode will continuously collect data without a time frame or sample limit but still uses the default 3 8461 kHz sampling rate 12 A A Undo Redo Test Show Help Analog Input Voltage Task Channel List Aj Settings Input Range Voltage Max 5 Volts i Min 5 Volts x Terminal Configuration Differential na Custom Scaling lt NoScaler m A E Task Timing AL Task Triggering Acquisition Mode 1 Sample On Demand Clock Settings 1 Sample Hw Timed ON Samples Continuous Rate Hz Samples To Read Advanced Clock Settings Clock Type ___ Active Edge Clock Source Intemal v Rising Figure 9 VI Logger analog input voltage task menu Triggering allows data collection based on some voltage threshold or digit input value Trigger Type determines the type of trigger to be used Typically Analog Edge is used and either starts or stops data collection or signal generation when the analog signal reaches specific threshold Trigger Source is in Voltage Slope modifies the trigger to start or stop collection or generation of the analog data only when threshold is crossed in either a rising o
8. idge is now balanced This can be verified quickly by placing multimeter leads across specific input pins on a port of the NI DAQmx full bridge module These bridge amplifiers contain a circuit diagram on their casing Placing a multimeter monitoring resistance across pin channels 4 and 5 will read the lowest load across the bridge If we assume the bridge to be balanced then each arm is loaded equally at this measured resistance To verify bridge balance set the multimeter to read voltage and place pointers of multimeter across pin channels 2 and 3 while an external voltage is applied across the bridge If balanced the multimeter should read a voltage close to zero One must be sure to contact only the specified pins on the circuit diagram To verify specific loads across portions of the bridge simply isolate pin channels on either side of the resistor of interest using the circuit diagram on the back of the module case The Wheatstone bridge amplifier aligns one or more of its resistors with the principle strain axis It is possible to have multiple active resistors in a gauge The ring strain gauge in Montpetit labs uses 4 active resistors Thus small strain perturbations are effectively multiplied by a factor of 4 Therefore strain on the test device will impart strain on the active resistor s The change in resistor length results in increased resistance in one arm of the bridge and hence the bridge is no longer balanced This is observed by cur
9. k Custom Scaling and select Force An animated wrench will appear beside the tab Click the wrench to view a brief instruction about how to determine a custom scaling factor using the equation for a line y mx b Provided your relationship is linear strain values in a strain gauge are well within the elastic region of the material the scaling factor is simply the slope m of the line This can be experimentally determined by adding increments of known mass to the strain gauge and plotting the force of gravity on these masses against the increasing voltage values The mass should be suspended from the strain gauge and oriented such the full force of gravity is transmitted to the gauge aligned parallel to the applied force Thus a known force will produce a know voltage by some constant m the scaling factor A more accurate and valid approach for developing the scaling factor involves a dynamic compression of the strain gauge against a force platform Montpetit 319 has a Kistler force platform with an isolated lead for the vertical F force component Figure 5 Kistler force platform with F output channel This lead uses a BNC connection and must be fed into a specific box attached to the NI DAQmx chassis with BNC input and NI DAQmx compatible analog output This analog output is wired into the one of the analog input modules Similarly the strain gauge is connected to a port of one module as shown above
10. no cursors used VI Logger exports the entire trial Ensure to apply an identifiable name to the output file and browse export location Select Tab for delimiter method Next select Custom Template for export style and click Customize Template button Click Load and from the available options select BioProc2 vet This will produce a header and row format appropriate for BioProc2 3 graphing processing and analysis To modify footer format a list of possible variables to be added to header row or footer is displayed on the right This function is not drag and drop Therefore any new variables must be typed in manually References NI National Instruments 2004 VI Logger User Guide National Instruments Corporation NI National Instruments 2006 2007 NI cDAQ 9172 User Guide and Specifications National Instruments Corporation NI National Instruments 2007 NI 9237 Calibration Procedure National Instruments Corporation NI National Instruments 2008 Measuring Strain with Strain Gauges http www health uottawa ca biomech courses apa6903 Measuring 20Strain 2 Owith 20Strain 20Gauges pdf Robertson D G E 2008 Transducers http www health uottawa ca biomech courses apa6903 transducers pdf Serway Raymond A and Vuille Chris 2006 Essentials of College Physics Belmont CA Brooks Cole
11. onal Instruments webpage and supplied support manual for NI DAQmx hardware NI 2004 VI Logger NI 2006 2007 has the following system requirements e Windows 2000 XP e A minimum of a Pentium III or later or Celeron 600 MHz or equivalent processor but National Instruments recommends a Pentium 4 or equivalent processor e A minimum of 256 MB of RAM and a screen resolution of 800 x 600 pixels National Instruments recommends 512 MB of RAM and a screen resolution of 1 024 x 768 pixels e At least 200 MB of disk space for the VI Logger installation Additional disk space for data logging and storage depends on the speed and quantity of data logging e To use VI Logger Help the MAX interactive help system and the NI Example Finder you must have Microsoft Internet Explorer 5 0 or later e To use the Lite package an NI DAQmx device and NI DAQm x software e To use the Full package an NI DAQmx device and NI DAQmx software or a Traditional NI DAQ device and DAQ 7 0 or later or a FieldPoint I O module and FieldPoint 4 0 or later e To use the full package you must purchase VI Logger 2 0 obtain a serial number and activate the software Basic Hardware Setup Ensure all required components are present prior to scheduling data collection and or laboratory time AC DC 12 V power supply with pin positive arrangement USB cable 8 module chassis with or without desktop mount NI cDAQ 9172 Required data collection modul
12. r falling slope 13 If Analog Window is selected as triggering type then collection or generation stops when voltage leaves a specific range Top and Bottom voltages of the window are input numerically and Trigger Condition determines if the trigger acts when voltage enters or exits the voltage window cut off s Reference Trigger sets a point such data may be collected prior to triggering pre trigger Pre Trigger Samples specify the minimum number of samples per channel to acquire prior to trigger reference NI DAQmx devices require a minimum of 2 pre trigger samples Running a Task Select VI Logger Tasks from the configuration tree Select Create New at the top of the screen or right click and select From the connected hardware select Using NI DAQmx A new default task will appear labelled My VI Logger Task From Acquisition Settings drop down menu select the NI DAQm x task you desire For experimental determination of the scaling factor for a strain gauge select a task with both analog Strain and Voltage channels selected For standard strain gauge data collection select Strain task and appropriate channel If triggering is set data acquisition will occur when voltage threshold is disturbed If no triggering is employed click Run task to collect data Click End task to manually end acquisition Data collection will also be halted when the p
13. rent flow across the voltmeter Robertson 2008 A key descriptive trait of a strain gauge is it sensitivity to strain This quality is known as Gauge Factor and is the ratio of fractional change in electrical resistance to fractional change in length of material strain It is worth noting resistors in the bridge will be affected by temperature fluctuation Most manufacturers will treat their materials to minimize this effect but if the portable device is used in extreme weather conditions this may affect validity collected data As well if extensive leads are used to connect between data acquisition hardware and computer terminals this will add load to the circuit and affect results It is best to use leads of minimal length when possible Montpetit Lab Configuration University of Ottawa Montpetit Lab NI DAQmx Bridge Amplifier Configuration Analog strain data is collected through NI 4 Channel 24 bit full bridge analog input with 60 Vpc isolated bridge amplifier module using a 2 metre lead Figure 3 Strain ring Task Function and Data Collection Creating Tasks To open National Instruments software double click Measurement and Automation shortcut icon on desktop The opening interface contains a directory of functions on the right and a configuration tree on the left In the configuration tree open Devices and Interfaces Select the device model for use in data collection Montpetit Labs utilize NI DAQmx devices S
14. reset number of samples is collected as specified in Task Timing Continuous data collection will run until user selects End Task Viewing Collected Data in MAX interface As trials are captured task labels in the configuration tree will branch to include captured trials Select a trial to view collected data Ensure tab at the bottom Historical Data is selected Summary provides only brief overview of collection statistics but does contain sample numbers and units of measure At the top of the graph function tabs exist The blue arrows with solid bar scroll to the beginning or end of the data set The blue arrows without bar allow for fine scrolling of data Cursors may be introduced by selecting the crossed black arrows One or two cursors may be selected The cursors are moved with the mouse or by specifying a time difference Exportation of data To view the data in Excel click View in Excel when task stops and VI Logger will automatically open the data in Excel Another option is to collect multiple trials and then view one by one in Excel To do this collect data and then select the trial of interest and click View in Excel tab above graph 14 Export to BioProc2 3 To view data file in BioProc2 3 a custom export format must be loaded Within the configuration tree right click the data trial for export and select Export Data The pop up window displays the time frame to be exported Default or
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