Data acquisition (DAQ) is the measurement, recording, analyzing, and presentation of real world phenomena. It includes electrical measurements such as voltage, current, power as well as measurements through sensors and transducers including temperature, pressure, flow, level, strain, acceleration, vibration, humidity, and more.
Selecting the ideal data acquisition components or solution depends on your application. Typical factors include sample rates, channel scalability, signal conditioning, sensor types, analysis capability, mobility, and environmental conditions.
A compact, battery-powered, touch screen instrument you can take into the field featuring the deep measurement and recording capabilities you need in the lab.
A headless ScopeCorder system capable of connecting multiple chassis into one PC-based system.
An all-in-one electromechanical measurement system offering the deepest measurement and analysis features to turn data into insights.
Using the OR trigger and Dual Capture, it is easy to trap and record failure conditions on electrical harnessses (wiring interconnects) over a long duration test.
Construction and verification of SENT communication system
Testing actuation of a side impact airbag to measure the optimal timing.
Battery Voltage Fluctuation During ABS Action
How can I capture data from motion sensors synchronized with other analog data? The Yokogawa ScopeCorder series of instruments feature input modules and functions to make this possible.
How to use built-in calculations to analyze motor rotor position and find the relative angle between the rotor and sensors such as encoders or resolvers.
We have developed the new SL1000 high-speed data acquisition unit which features a maximum sampling rate of 100 MS/s with 16 channels, and yet still offers 1-kV insulation. This PC-based instrument can also update waveforms at a high rate on the PC monitor like a single instrument, even for large quantities of data, due to the newly developed GIGAZoom Engine for data compression. This paper describes the functions and technologies of the high-speed data acquisition in the SL1000.
We have developed the WE500/WE900 measuring stations for the WE7000 series of PC-based measurement instruments. The WE500/WE900 have inherited the conventional plug-and-play architecture and high-speed data transmission function, and achieved even more advanced functionality and higher performance while maintaining compatibility with the conventional measurement modules. Along with the “embedded module” function that performs internal measurement data processing and autonomous operations, the WE500/WE900 come preinstalled with communication functions based on USB and Ethernet interfaces capable of transmitting data at a maximum rate of 480 Mbps.
The Yokogawa DL850E is a waveform measuring and recording instrument with eight slots for signal conditioning and data acquisition modules. In addition to high-speed signal inputs up to 100 MHz sampling rate, the DL850E has features for real-time signal processing that provide advantages to scientists and engineers trying to observe complex systems.
After a disastrous 2009, the large publicly held test companies enjoyed booming business in 2010.
When making a WT230 RS232C connection using GateWT, please verify the following RS232C communication settings on the instrument: Mode = 488.2 Hand = 0 For = 0 Baud Rate = 9600 Terminator Cr+Lf Even though you can run ...
Unfortunately there is no way to read these warning messages on the DL750. In addition, there is no other command available to determine if there was "No Matching Record" found in History for a particular ZONE ...
Error(Code:539)Press ESC Key to Close.Module configuration is not matched, so it couldn’t loaded.Configuration of saved data can see by File property.The following error is ...
No, this "calibration" does not refer to the ScopeCorders Auto-Cal feature. When the Auto-Cal function is set to OFF, the ScopeCorder will not automatically calibrate after a 30 minute warm-up period. You must do a ...
Unfortunately, we do not have an instruction manual describing the*.WDF file format structure like we did for the *.WVF files. However, we do provide a list of support options which will contain more details ...
The external trigger input (TRIG IN) as well as external input/output (EXT. I/O) trigger signal becomes the level signal. The WE7251/WE7271 digitizer module will detect the bus trigger by that level. As long as the ...
My DL750 HDD RECORDING "REALTIME" Files are missing. Please help. (Or: You need to locate them and move them to my PC via USB THUMB DRIVE.) DL750 REALTIME FILES ".WDF Files" are not visible on the DL750 HDD ...
In the oscilloscope's QIS (Quality Inspection Standards), the "beat method" can be used to inspect and verify the time base accuracy. The "beat method" utilizes the aliasing effect to create a "beat waveform." The "beat ...
This comprehensive training module covers the following topics:
Watch a step-by-step walkthrough of recording GPS position and motion data on the DL350.
In this video we review the major features of the DL350 showcasing its portability, functionality, and operability. This device features battery power, 18 signal conditioning input modules, and touchscreen access to enhanced triggers, math, and analysis.
In this video we demonstrate the GPS data logging capability of the DL350 Portable ScopeCorder. Recording Position, Velocity, and Altitude simultaneously with accelerometers or other analog inputs is simple with the DL350's built-in features.
In this video we demonstrate the automotive bus decoding features of the DL850EV ScopeCorder.
In this video, Dami Ashebu, an Application Engineer with Yokogawa Test and Measurement discusses how a DL850EV data acquisition system can be used to gather various analog and serial bus data for systems validation and reverse engineering in the automotive industry.