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Chapter 2

Using the Module

©

 National Instruments Corporation

2-35

NI PXIe-4330/4331 User Manual

TEDS

The NI PXIe-4330/4331 supports communicating with Transducer Electronic Data Sheet 
(TEDS)-enabled sensors (IEEE 1451.4 Class 2). TEDS-enabled sensors carry a built-in, 
self-identification EEPROM containing a table of parameters and sensor information. This 
allows your data acquisition system to automatically detect and configure the sensors.

TEDS contains information about the sensor such as calibration, sensitivity, and manufacturer 
information. This information is accessible in Measurement & Automation Explorer (MAX), 
VIs in LabVIEW, or by calling the equivalent function calls in a text-based ADE.

For more information about TEDS plug and play sensors, refer to 

ni.com/pnp

.

Configuring and Using TEDS in Software

To manually configure TEDS in MAX, right click on the NI PXIe-4330/4331 module within 
the Configuration tree. Then select 

Configure TEDS

 from the pop-up menu. 

To programmatically configure TEDS, call the DAQmx Configure TEDS VI.

Accessory Auto-Detection

NI SC Express modules automatically detect compatible accessories or terminal blocks. The 
RSVD pins on the I/O connector provide power to the accessories as well as digital 
communication lines. This allows software to detect when accessories are inserted or 
removed. In addition, software can automatically identify the specific terminal block as well 
as access any calibration or scaling information associated with the terminal block.

Measurement & Automation Explorer (MAX) allows you to see what accessories are 
currently connected to your module. In MAX, expand 

Devices and Interfaces

 and locate 

your module. If a terminal block is connected to your module, it will be displayed beneath the 
module. Unsupported terminal blocks appear in MAX with an X next to them.

NI-DAQmx property nodes can be used to programmatically access information about 
connected accessories in your application. Refer to the 

NI-DAQmx Help

 for documentation 

about programmatically accessing accessory status. Select 

Start»All Programs»National 

Instruments»NI-DAQ»NI-DAQmx Help

.

Summary of Contents for SC Express PXIe-4330

Page 1: ...NI SC Express NI PXIe 4330 4331 User Manual NI PXIe 4330 4331 User Manual April 2010 373029A 01 ...

Page 2: ...0 Lebanon 961 0 1 33 28 28 Malaysia 1800 887710 Mexico 01 800 010 0793 Netherlands 31 0 348 433 466 New Zealand 0800 553 322 Norway 47 0 66 90 76 60 Poland 48 22 328 90 10 Portugal 351 210 311 210 Russia 7 495 783 6851 Singapore 1800 226 5886 Slovenia 386 3 425 42 00 South Africa 27 0 11 805 8197 Spain 34 91 640 0085 Sweden 46 0 8 587 895 00 Switzerland 41 56 2005151 Taiwan 886 02 2377 2222 Thaila...

Page 3: ...rmation retrieval system or translating in whole or in part without the prior written consent of National Instruments Corporation National Instruments respects the intellectual property of others and we ask our users to do the same NI software is protected by copyright and other intellectual property laws Where NI software may be used to reproduce software or other materials belonging to others yo...

Page 4: ...6 Half Bridge Type I 2 8 Half Bridge Type II 2 10 Full Bridge Type I 2 12 Full Bridge Type II 2 14 Full Bridge Type III 2 16 Force Pressure and Torque Sensor Configurations 2 18 Common Mode Voltage Considerations 2 20 Shielding and Grounding Considerations 2 21 Module Pinout 2 21 I O Connector Signal Description 2 23 NI PXIe 4330 4331 Block Diagram 2 23 Signal Acquisition Considerations 2 25 Softw...

Page 5: ...r Filters 3 3 Appendix A Offset Nulling Bridge Balancing Appendix B Technical Support and Professional Services Figures Figure 2 1 Basic Wheatstone Bridge Circuit Diagram 2 1 Figure 2 2 Connecting Remote Sense Wires to the NI PXIe 4330 4331 2 3 Figure 2 3 Quarter Bridge Type I Measuring Axial and Bending Strain 2 4 Figure 2 4 Quarter Bridge I Circuit Diagram 2 5 Figure 2 5 Quarter Bridge Type II M...

Page 6: ...Bridge Type III Circuit Diagram 2 17 Figure 2 17 Force Pressure and Torque Sensor Circuit Diagram 2 18 Figure 2 18 NI PXIe 4330 4331 Signal Conditioning Block Diagram 2 24 Figure 2 19 NI PXIe 4330 4331 Digital Back End Block Diagram 2 25 Figure 2 20 Analog Level Trigger on Rising Slope 2 31 Figure 2 21 Analog Edge Triggering with Hysteresis on Rising Slope 2 31 Figure 2 22 Analog Edge Triggering w...

Page 7: ...er half and full bridge Setting the DC voltage excitation between 0 625 V and 10 V Selecting 120 Ω 350 Ω and 1 kΩ quarter bridge completion resistors Programmable bridge offset null and shunt calibration Analog and digital filtering to reject out of band signals Remote sense of bridge excitation Installation Refer to the NI SC Express 4330 4331 Installation Guide and Terminal Block Specifications ...

Page 8: ...er to the NI SC Express 4330 4331 Installation Guide and Terminal Block Specifications for more signal connection information Wheatstone Bridges Many sensors including strain gages load cells pressure sensors and torque sensors are based on the concept of a Wheatstone bridge There are four elements or legs in a Wheatstone bridge In general these elements can be resistive or reactive but in the maj...

Page 9: ...plies it as a reference to its analog to digital converter ADC In this way variations in the excitation voltage are compensated for and the module returns data as a ratio of the bridge output voltage and the excitation voltage Connection Options to Correct for Resistance Errors The basic Wheatstone bridge in Figure 2 1 shows the excitation voltage impressed directly across the bridge However field...

Page 10: ... across the excitation lead wire resistance Rlead If you do not use remote sensing of the actual bridge voltage the resulting reduction in gain is given by the following equations for half bridge sensors for full bridge sensors If you connect the remote sense signals directly to the bridge resistors the NI PXIe 4330 4331 senses the actual bridge voltage using high impedance RS leads and eliminates...

Page 11: ...f strain by changing the resistance of an arm in the bridge by some known amount This is accomplished by shunting or connecting a large resistor of known value across one arm of the bridge creating a known change in the bridge output You can then measure the output of the bridge and compare it to the expected bridge output value You can use the results to correct gain errors in the entire measurem...

Page 12: ...etion resistor located inside the NI PXIe 4330 4331 R3 must be equal to the nominal resistance of the active gage R4 RS Shunt calibration resistor located inside the NI PXIe 4330 4331 R4 Active element measuring tensile strain ε You provide this element RL Lead resistance The resistance in the EX and QTR SC field wiring should match GF Gage Factor specified by the gage manufacturer VCH Measured vo...

Page 13: ...ing configurations Figure 2 6 shows the quarter bridge type II circuit wiring diagram Figure 2 5 Quarter Bridge Type II Measuring Axial and Bending Strain A quarter bridge type II has the following characteristics One active strain gage element and one passive quarter bridge element dummy gage used for temperature compensation The active element R4 is mounted in the direction of axial or bending s...

Page 14: ...stor located inside the NI PXIe 4330 4331 R4 Active element measuring tensile strain ε RL Lead resistance GF Gage Factor specified by the gage manufacturer VCH Measured voltage of the bridge VEX Excitation voltage provided by the NI PXIe 4330 4331 Vr Offset compensated ratiometric bridge output defined by the following equation Note The ratio of the bridge output voltage and the excitation voltage...

Page 15: ... Figure 2 8 shows the half bridge type I circuit wiring diagram Figure 2 7 Half Bridge Type I Measuring Axial and Bending Strain A half bridge type I has the following characteristics Two active strain gage elements One strain gage element is mounted in the direction of axial strain while the other acts as a Poisson gage and is mounted perpendicular to the principal axis of strain Half bridge comp...

Page 16: ...ring tensile strain ε RL Lead resistance GF Gage Factor specified by the gage manufacturer ν Poisson s ratio defined as the negative ratio of transverse strain to axial strain longitudinal strain Poisson s ratio is a material property of the specimen you are measuring VCH Measured voltage of the bridge VEX Excitation voltage provided by the NI PXIe 4330 4331 Vr Offset compensated ratiometric bridg...

Page 17: ...ration Figure 2 10 shows the half bridge type II circuit wiring diagram Figure 2 9 Half Bridge Type II Rejecting Axial and Measuring Bending Strain A half bridge type II configuration has the following characteristics Two active strain gage elements One strain gage element is mounted in the direction of bending strain on one side of the strain specimen top while the other is mounted in the directi...

Page 18: ...4331 R4 Active element measuring tensile strain ε RL Lead resistance GF Gage Factor specified by the gage manufacturer VCH Measured voltage of the bridge VEX Excitation voltage provided by the NI PXIe 4330 4331 Vr Offset compensated ratiometric bridge output defined by the following equation Note The ratio of the bridge output voltage and the excitation voltage is done internally on the NI PXIe 43...

Page 19: ...the full bridge type I circuit wiring diagram Figure 2 11 Full Bridge Type I Rejecting Axial and Measuring Bending Strain A full bridge type I configuration has the following characteristics Four active strain gage elements Two strain gage elements are mounted in the direction of bending strain on one side of the strain specimen top while the other two are mounted in the direction of bending strai...

Page 20: ...nt calibration resistor located inside the NI PXIe 4330 4331 RL Lead resistance GF Gage Factor specified by the gage manufacturer VCH Measured voltage of the bridge VEX Excitation voltage provided by the NI PXIe 4330 4331 Vr Offset compensated ratiometric bridge output defined by the following equation Note The ratio of the bridge output voltage and the excitation voltage is done internally on the...

Page 21: ...2 13 Full Bridge Type II Rejecting Axial and Measuring Bending Strain A full bridge type II configuration has the following characteristics Four active strain gage elements Two are mounted in the direction of bending strain with one on one side of the strain specimen top and the other on the opposite side bottom The other two act together as a Poisson gage and are mounted transverse perpendicular ...

Page 22: ...located inside the NI PXIe 4330 4331 RL Lead resistance GF Gage Factor specified by the gage manufacturer ν Poisson s ratio defined as the negative ratio of transverse strain to axial strain longitudinal strain Poisson s ratio is a material property of the specimen you are measuring VCH Measured voltage of the bridge VEX Excitation voltage provided by the NI PXIe 4330 4331 Vr Offset compensated ra...

Page 23: ...e type III circuit wiring diagram Figure 2 15 Full Bridge Type III Measuring Axial and Rejecting Bending Strain A full bridge type III configuration has the following characteristics Four active strain gage elements Two strain gage elements are mounted in the direction of axial strain with one on one side of the strain specimen top while the other is on the opposite side bottom The other two act t...

Page 24: ...Factor specified by the gage manufacturer ν Poisson s ratio defined as the negative ratio of transverse strain to axial strain longitudinal strain Poisson s ratio is a material property of the specimen you are measuring Rs Shunt calibration resistor located inside the NI PXIe 4330 4331 VCH Measured voltage of the bridge VEX Excitation voltage provided by the NI PXIe 4330 4331 Vr Offset compensated...

Page 25: ...ors typically use a full bridge configuration with a 350 Ω nominal bridge resistance but other configurations and nominal bridge resistances can be used Figure 2 17 shows the force pressure torque sensor circuit diagram Figure 2 17 Force Pressure and Torque Sensor Circuit Diagram 1 Sensors that measure force pressure or torque through other means for example piezoelectric force sensors cannot be u...

Page 26: ... are specified as pairs of corresponding physical and electrical values electrical1 physical1 and electrical2 physical2 These should be based on the calibration certificate of the sensor if one is available otherwise they can be based on the specifications or data sheet of the sensor Any two points can be used assuming that they are far enough apart to accurately determine the slope of the linear ...

Page 27: ...e Considerations The NI PXIe 4330 4331 supports common mode voltages between 2 V The majority of full bridge sensors are balanced between the upper and lower arms of the bridge resulting in a common mode voltage equal to one half the excitation voltage when connected to a single ended excitation voltage or 0 V when connected to a balanced differential excitation voltage Since the NI PXIe 4330 4331...

Page 28: ...o reduce the excitation voltage to a level that results in a common mode voltage that is within range To find the maximum excitation voltage that meets this criterion solve the following equation setting Vcm equal to 2 V if r 0 5 or setting Vcm equal to 2 V if r 0 5 Shielding and Grounding Considerations Note For proper electromagnetic compatibility EMC performance use shielded wire and connect th...

Page 29: ...D EX AI 2 25 QTR SC EX AI 24 QTR SC RS RS 23 AIGND EX AI 3 22 QTR SC EX AI 21 QTR SC RS RS 20 DGND T0 T1 No Channel 19 T3 T0 T1 18 T3 T2 T2 17 DGND T4 T5 16 T7 T4 T5 15 T7 T6 T6 14 AIGND EX AI 4 13 QTR SC EX AI 12 QTR SC RS RS 11 AIGND EX AI 5 10 QTR SC EX AI 9 QTR SC RS RS 8 AIGND EX AI 6 7 QTR SC EX AI 6 QTR SC RS RS 5 AIGND EX AI 7 4 QTR SC EX AI 3 QTR SC RS RS 2 RSVD DGND RSVD No Channel 1 RSV...

Page 30: ...lected based on the selected excitation voltage level Table 2 2 I O Connector Signal Descriptions Signal Names Direction Description AIGND Analog Input Ground AI 0 7 AI 0 7 Input Analog Input Channels 0 to 7 AI and AI are the positive and negative inputs of the differential analog input QTR SC 0 7 These pins provide the connection point for quarter bridge completion and shunt calibration EX 0 7 EX...

Page 31: ...nfigure the NI PXIe 4330 4331 to select between internal 120 Ω 350 Ω and 1 kΩ quarter bridge completion resistors In addition you can enable programmable shunt calibration resistors individually or in parallel to provide three different possible shunt calibration resistor values Each channel also provides a transducer electronic data sheet TEDS interface This interface can read the TEDS informatio...

Page 32: ...n order to acquire data at the specified rate The DDS clock can be generated either using an onboard oscillator or using the 100 MHz backplane clock provided by PXI Express Running the DDS clock from the 100 MHz backplane clock allows for synchronization of multiple NI PXIe 4330 4331 modules In addition to sending and receiving triggers from the PXIe backplane the NI PXIe 4330 4331 can also be con...

Page 33: ...gnals with frequencies lower than fs 2 This maximum frequency is known as the Nyquist frequency The bandwidth from 0 Hz to the Nyquist frequency is the Nyquist bandwidth ADC The NI PXIe 4330 4331 ADCs use a conversion method known as delta sigma modulation This approach involves oversampling the input signal at a higher rate and then decimating and filtering the resulting data to achieve the desir...

Page 34: ...resented correctly while others contain aliased artifacts Lowpass filtering to eliminate components above the Nyquist frequency either before or during the digitization process can guarantee that the digitized data set is free of aliased components The NI PXIe 4330 4331 modules employ both digital and analog lowpass filters to achieve this protection The NI PXIe 4330 4331 modules include an oversa...

Page 35: ...tal filtering performed by the NI PXIe 4330 4331 produces a delay of many samples worth of time between when an event occurs on the input signal going into the NI PXIe 4330 4331 and when the data associated with that event is available at the output of the acquisition and filtering process This delay is called the group delay In order to simplify the process of acquiring data from the NI PXIe 4330...

Page 36: ...he maximum rate for the module Timing and Triggering This section contains information about timing and triggering theory of operation Sample Clock Timebase The ADCs require an oversample clock to drive the conversion The oversample clock frequency is greater than the sample rate On the NI PXIe 4330 4331 modules the oversample clock is produced from a DDS clock generation circuit The DDS in turn i...

Page 37: ...trigger samples The analog trigger on the NI PXIe 4330 4331 cannot be used as a start trigger This restriction is a result of the way the module compensates for the filter group delay When using an analog reference trigger the module first waits for the specified number of pre trigger samples to be acquired Once enough pre trigger samples are acquired the reference trigger will occur the next time...

Page 38: ...dge triggering you add a window above or below the trigger level This triggering mode often is used to reduce false triggering due to noise or jitter in the signal For example if you add a hysteresis of 1 mV V to the example in Figure 2 20 which uses a level of 3 2 mV V the signal must start at or drop below 2 2 mV V to arm the trigger The analog comparison becomes true when the signal rises above...

Page 39: ...ises above 4 2 mV V as shown in Figure 2 22 Figure 2 22 Analog Edge Triggering with Hysteresis on Falling Slope Window Triggering A window trigger occurs when an analog signal either passes into enters or passes out of leaves a window defined by two levels Specify the levels by setting a value for the top and bottom window boundaries Figure 2 23 demonstrates a trigger that acquires data when the s...

Page 40: ...minate clock drift between modules in long duration operations You can synchronize the analog input operations on two or more NI PXIe 4330 4331 modules to extend the channel count for your measurements In addition the NI PXIe 4330 4331 can synchronize with certain other DSA modules such as the NI PXIe 449x modules using Reference Clock Synchronization You can also synchronize modules that support ...

Page 41: ...r slaves at DAQmx Trigger Advanced Synchronization Synchronization Type to Slave and that of the Master to Master Also query DAQmx Timing More Synchronization Pulse Synchronization Time on all modules being synchronized choose the maximum value and set that as the DAQmx Timing More Synchronization Pulse Minimum Delay To Start on all modules 7 Commit all of the sync pulse slave module tasks using t...

Page 42: ... pop up menu To programmatically configure TEDS call the DAQmx Configure TEDS VI Accessory Auto Detection NI SC Express modules automatically detect compatible accessories or terminal blocks The RSVD pins on the I O connector provide power to the accessories as well as digital communication lines This allows software to detect when accessories are inserted or removed In addition software can autom...

Page 43: ...dules in a PXI Express measurement or control system The PXI Express backplane is responsible for generating PXIe_SYNC100 independently to each peripheral slot in a PXI Express chassis For more information refer to the PXI Express Specification at www pxisa org PXI_CLK10 PXI_CLK10 is a common low skew 10 MHz reference clock for synchronization of multiple modules in a PXI measurement or control sy...

Page 44: ...d as a trigger signal for input operations An SC Express module is not a System timing controller An SC Express module can be used in the system timing slot of a PXI system but the system will not be able to use the Star Trigger feature PXIe_DSTAR A C PXI Express devices can provide high quality and high frequency point to point connections between each slot and a system timing slot These connecti...

Page 45: ... When the filter clock has sampled the signal high on N consecutive edges the low to high transition is propagated to the rest of the circuit The value of N depends on the filter setting Refer to Table 3 2 The filter settling for each input can be configured independently At power on the filters are disabled Enabling filters introduces jitter on the input signal The maximum jitter is one period of...

Page 46: ...he bridge while not under load and then use this measurement as the initial bridge voltage when scaling readings from the bridge This method is simple fast and requires no manual adjustments The disadvantage of the software compensation method in contrast to hardware compensation is that software compensation does not physically remove the offset of the bridge If the offset is large enough it limi...

Page 47: ... you may renew to continue your benefits For information about other technical support options in your area visit ni com services or contact your local office at ni com contact Training and Certification Visit ni com training for self paced training eLearning virtual classrooms interactive CDs and Certification program information You also can register for instructor led hands on courses at locati...

Page 48: ... PXIe 4330 4331 User Manual B 2 ni com this manual You also can visit the Worldwide Offices section of ni com niglobal to access the branch office Web sites which provide up to date contact information support phone numbers email addresses and current events ...

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