Introducing NI Data Acquisition Devices
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Introducing NI Data Acquisition Devices Allison You NI Taiwan Applications Engineer Allison You 游謹綸 Applications Engineer National Instruments Education •National Taiwan University MS, Electronics Engineering - Master thesis on the behavior of the DNA molecules in alternating current fields •National Chiao Tung University BS, Electronics Engineering - Theoretical physics project on quantum computing by numerical simulation 20 Years | NI Data Acquisition 1987 NUBUS 1991 AT/PC/XT/EISA 1993 E Series 1997 PXI DAQ 2005 USB DAQ 2004 M Series 2008 Wi-Fi DAQ 2006 NI CompactDAQ NI-STC3 Timing and Synchronization Technology NI-STC3 Timing and Synchronization Technology • • • • Counter improvements 100 MHz timebase New digital I/O timing engines Retriggering on every subsystem X Series Multifunction DAQ • • • • Up to 32 Analog Inputs, up to 2 MS/s (16-bit resolution) Up to 4 Analog Outputs, up to 3.33 MS/s (16-bit resolution) Up to 48 digital I/O lines, up to 10 MHz Four 32-bit counters on each device Counter Improvements • You no longer need to “burn” a counter to time other subsystems • Each one has more functionality than before Counter Improvements • You no longer need to “burn” a counter to time other subsystems • Each one has more functionality than before Counter Improvements • Finite pulse train now only takes one counter X Series Key Features NI-STC3 timing and synchronization technology NI-DAQmx software optimizations High-throughput, native PCI Express interface 100 MHz Timebase produces more accurate sampling rates Timebase Programmable Clock Divider Analog or Digital I/O Clock • How to create a 1.25 MS/s sample clock? – 20 MHz/16 = 1.25 MS/s – 100 MHz/80 = 1.25 MS/s • How to create a 1.23 MS/s sample clock? – 20 MHz/17 = 1.18 MS/s – 100 MHz/81 = 1.235 MS/s Digital Timing Engines M Series: Correlated X Series: No more correlated Retriggerable Operations M Series: Retriggerable Operations X Series: X Series devices support retriggering on analog I/O, digital I/O and counter I/O NI-DAQmx Software Optimizations • Easy multicore application development with LabVIEW and NI-DAQmx • Optimizations for low latency and single-point control • Easy multidevice synchronization and data logging Synchronizing Multiple Devices M X Series: Data Logging Configure Logging.vi The easiest AND fastest way to log acquired data to disk X Series Specifications New Features •Three AI Timing Engines •Built In BNC Triggers •Four Counters •Locking USB Cable •9-30 VDC Power •Screw Terminals •Four Slot Chassis 10 Hz 100 Hz 10 kHz More Features, More Tests What Customers See What Test Engineers See Advanced controller boards Digital I/O “Ultra quiet” operation NVH test noise, vibration, harshness Multiple temperature zones Thermal gradient testing Energy Star compliance Power consumption AI Modules Low Speed Modules • • Sample Rate < 100 S/s Measurements – – – • Temperature DC Voltage/Current, Pressure/Load monitoring Example Modules – – – NI 9211 NI 9213 NI 9219 Dynamic Modules • • Sample Rate 50 kS/s/ch Measurements – – – • Dynamic strain Frequency analysis Sound/Vibration Example Modules – – – NI 9237 NI 9225/29/39/27 NI 9233/34 High Speed Modules Sample Rate > 100kS/s Measurements High Speed Voltage Example Modules NI 9201/21 NI 9215 NI 9205 Appliance Test with Multiple Sensors Block Diagram: Original Chassis Power Calculation Vibration Analysis Temperature Chart Block Diagram: New Chassis cDAQ-9174 (Four-Slot CompactDAQ) Differences from cDAQ-9178 • 4 slots – Different panel mount holes • No external BNC triggers Everything else is identical • Timing engines • Counters • Power consumption • All other features Physical Updates Locking USB Cable BNC Trigger Lines (8 slot only) Screw Terminal Option for Power (DC 9-30V) More Features, Less Wattage 11 Channels at 50k (24bit) 4 Channels at 100k (16bit) Under 5 Watts Measured with CompactDAQ system •cDAQ-9174 •NI 9225 (Voltage up to 300 Vrms) •NI 9227 (Current up to 5 Arms) C Series • Busses – – – – USB Ethernet Wi-Fi (802.11) Embedded • Chassis – 1-slot – 4-slot – 8-slot • Modules – Over 50 Digital Timing Engines cDAQ-9174/78 cDAQ-9172 Independent timing engine removes need to use counter resource to clock the DIO. •Not “wasting” a counter •Easier to program NI CompactDAQ New Features/Lower Price •Three AI Timing Engines •Built In BNC Triggers •Four Counters •Locking USB Cable •9-30 VDC Power •Screw Terminals •Four Slot Chassis NI WSN-9791 Wireless Sensor Network Ethernet Gateway Features •2.4 GHz, IEEE 802.15.4 radio •10/100 Ethernet •Outdoor range up to 300 m •9-30 VDC power input Specifications •2U Compact Form Factor •Panel or DIN rail mounting •Industrial ratings •Operating temperature -30 to 70 ºC •50 grms shock 5 g vibration •Status LEDs NI WSN-3202 and NI WSN-3212 Wireless Sensor Network Measurement Nodes Common Features • 2.4 GHz IEEE 802.15.4 radio •Outdoor range up to 300 m •Greater than 3 year battery life with 4 AA batteries • Optional 9-30 VDC power input •Configurable as a mesh router •Four bi-directional DIO lines • Industrial ratings • Operating temperature -40 to 70 ºC •50 grms shock 5 g vibration Node AI DIO Sample Interval Sample Rate Resolutio n (bits) Features NI WSN-3202 Analog Input Node 4 4 1 second 60 samples/mi n 16 Sensor power: 20 mA @ 12V Input Ranges: ±10 V, ±5 V, ±2 V, ±0.5 V NI WSN-3212 Thermocouple Input Node 4 4 2 seconds 30 samples/mi n 24 Supports types J, K, R, S, T, N, B, E 2.4 GHz Standards Power Consumption, Cost, and Complexity High Low (Battery) WLAN IEEE 802.11 Wi-Fi Transmission Distance Long WPAN Bluetooth Medium Short IEEE 802.15.4 ZigBee, NI-WSN 100 k 1M 10 M Data Rate (b/s) 100 M Wireless Sensor Networks NI Wi-Fi DAQ NI WSN Up to 250 kS/s < 10 S/s Up to 100 m Up to 300 m Star Mesh Power Line / Wall-Powered Battery Security WPA2 (IEEE 802.11i) N/A Throughput / Bandwidth Range Topology Visit ni.com/wireless for more information NI-WSN (IEEE 802.15.4) • • • • • Based IEEE 802.15.4-2006 Integration with LabVIEW Up to 3 year battery life at 1 minute sample interval Data Rate: 250 kbits/s Provides: • Mesh Routing - Ability for network to detect alternative paths • Sleep Mode – Ability end node conserve power and maintain reliable communication NI WSN Software NI Measurement & Automation Explorer (MAX) Integration • Network configuration • Add/remove WSN nodes • Set wireless channel • Update firmware • Configure nodes as routers NI WSN Software LabVIEW Project Integration • Autodetection of WSN nodes • Drag-and-drop variables LabVIEW WSN Module Pioneer • Extend battery life – Transmit meaningful data (threshold, averaging, and deadband) – Adapt sample and transmission rates to operating conditions • Perform custom analysis – Convert raw data into meaningful information – Interface to sensors • Reduce response time with embedded decision making – Control actuators without host interaction The Power of DAQ along with Graphical System Design
