![]() NVMe SSD: NVMe technology utilises the PCIe bus, instead of the SATA bus, to unlock enormous bandwidth potential for storage devices.Despite bus limitation, it’s common to see an overall system performance improvement of 10-15 times when using SATA-based SSDs in place of legacy HDD technology. In comparison, SSDs saturate the SATA bus at 550 MB/s. SATA SSD: HDDs are only able to achieve 50-120 MB/s in write performance.Also, SSDs are very stable, which ensures that stored data is secure. Faster speeds mean SSDs can handle data at the ultra-high speeds necessary in today’s business world, especially when running programs that access large amounts of data such as an operating system. SSDs offer shorter boot times for your computer, more immediate data transfer and higher bandwidth. SSDs are up to a hundred times faster than HDDs. An SSD is also better able to handle drops, shakes, shocks and everyday wear and tear, making it less apt to experience data loss. Since an SSD doesn’t have such parts, it can maintain a lower temperature with much higher performance. Use the data plugin to load D元50 measurement data and GPS data (latitude, longitude, altitude, speed and motion direction) into NI DIAdem.Heat is a major cause of failures in hard drives, and enough heat is generated by the continual motion of an HDD’s moving parts to cause it to break down over time. To control the instruments on MATLAB, please use Instrument Control Toolbox provided by MathWorks. MATLAB WDF Access Toolbox enables the access to waveform data files saved in WDF format on MATLAB. ![]() * VisualStudio 2008 SP1 is required to use this software. WDF File Access Library is the API to access waveform data files saved in WDF format. National Instruments LabVIEW Driver for D元50 is available. The full version of XViewer also enables parameter measurement, statistical analysis, FFT, and filtering. Load waveforms captured by the D元50 and display, zoom, and export the data to the popular CSV format. Display and analysis of recorded waveforms ![]() Remote control and waveform display monitoring of a D元50 via USB or Ethernet.ĭownload free software. Remote waveform monitoring and instrument control Remote setting, start-stop control and setup file editing can also be easily done on the connected PC.ĭownload free software. PC data and setup file managementĭata files or setup configuration files stored in the D元50 SD card can be backed up with the press of a button. This is a software license allowing users to add “vehicle edition”, a software option for the D元50 ScopeCorder, by themselves after purchasing the main unit. Leave a D元50 unattended and automatically save the waveform to a file or send a notification email if and when it triggers. For example, the wave window trigger is ideal for AC power line monitoring which enables voltage sags, surges, spikes, phase shifts or drop outs to be easily captured (available for 40 to 1,000 Hz waveforms). The user has a choice of a simple level trigger or can use enhanced triggers such as pulse width, waveform period and triggers across multiple channels. The D元50 brings high-quality laboratory measurements into the harsh environments of the field. The D元50 has an aluminum inner frame and an external rubber bumper and conforms to the Japanese JIS D1601 standard for resisting in-vehicle shock and vibration.Įven when used with the rechargeable battery, the D元50 will operate in temperatures from 0 to 45 degrees. Instruments used for in-vehicle driving tests or field maintenance must be able to make reliable measurements. FFT analysis Environmental features for portability
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