The SL1000 is a modular data acquisition system that delivers independent, isolated channel hardware at high speeds up to 100 MSamples per channel, with no compromise in bit resolution, memory depth, or data streaming performance. Choose from a wide variety of I/O modules for electrical and physical sensor signal measurements to meet the needs of any high channel count application.
Selecting a data acquisition platform for electronics or mechatronics applications has always been a balancing act. High speed digitizers lack the isolation, attenuation, or bit resolution necessary for power electronics testing. PC-based platforms with fast streaming throughput sacrifice noise immunity, signal conditioning, and hardware integrity.
Until now. The new Yokogawa SL1000 is the only data acquisition system that delivers independent, isolated channel hardware at 100MS/ch rates, with no compromise in bit resolution, memory depth, or streaming performance.
¹: In combination with 10:1 probe (for isolated BNC input) model 702902 or 700929
²: Optional
³: Speed depends on PC performance and measuring conditions.
In the pursuit of isolated high-speed waveform measurements, Yokogawa has achieved a maximum sample rate of 100 MS/s (10 ns sampling interval). The SL1000 can accurately capture high-speed and high-voltage phenomena by using the newly developed 100 MS/s, 12-Bit resolution, 20 MHz frequency range and 1-kV * Isolation Module (model 720211).
Furthermore, you can combine modules that support measurements of a variety of signals, giving you solutions for an extensive range of applications.
*: In combination with 10:1 probe (for isolated BNC input ) model 702902 or 700929
Data can be saved to the SL1000’s internal acquisition memory over long durations, or it can also be streamed in real-time to a PC's hard disk or the SL1000’s internal hard disk ¹ ².
¹: with the /HD1 Option
²: Maximum speed of real time hard disk recording depends on measuring conditions.
³: Trigger mode: Single, measuring on 1 module, 2 channels.
Perform measurements with up to four simultaneously independent sample rates. The amount of data saved on hard disk can be reduced by optimizing the sample rate for the DUT on a module by module basis.
You can transfer data to the PC at high speeds via USB 2.0 or Ethernet 1000BASE-T Gigabit Ethernet¹. The SL1000’s high-speed data compression engine (GIGAZoom engine) displays waveforms on the PC in real time² (even with massive amounts of data at high sample rates). It offers the same display updating and zooming performance as standalone measuring instruments.
¹: with the /C10 Option
²: The number of channels from which waveforms can be displayed during measurement may be limited depending on the PC performance and measuring conditions.
Continuously measured data can be saved in real time to a PC's hard disk and/or the SL1000's internal hard disk ¹. File names are assigned automatically, freeing you from time consuming file operations. Data can be saved simultaneously - and in real time - to both the PC’s and SL1000's hard disks ¹. This bolsters the reliability of your data storage system, protecting your vital data. You can access the SL1000's internal hard disk ¹ with Xviewer waveform viewer software, or through an FTP client over Ethernet ².
¹: with the /HD1 Option
²: with the /C10 Option
³: Typical values. Actual values depend on PC performance and measurement conditions.
By using the various recording features, you can efficiently and automatically record only the data you need to the hard disk. Just specify the recording destination, recording start and stop conditions, conditions for repeating recording, and other criteria. With free run mode, the specifiable parameters for the recording start condition are immediate, time, and alarm; for the recording stop condition, the parameters are continuous, time, recording time, and alarm; and for the repeating condition, recording interval and number of recordings*. With triggered mode, measured data is recorded on each trigger. You can also manually save data from the SL1000's internal acquisition memory to PC hard disk.
*: Max. file size per recording is 12 GB (recording on 4 channels, approximately 1.5 GW/ch)
Maximum 8 Synchronized Units
1: Typical values. Actual values depend on PC performance and measurement conditions
(Note)
In synchronized unit mode, recording into PC and SL1000 embedded HDD at the same time is not possible.
The recording file is per unit basis. (Utility software interface.)
You can input the comments in the mark area when monitoring (Free run mode) over long periods of time.
You can now see both the T-Y and X-Y waveform Display. It is easy to evaluate data with fast update.
It is easy to set zoom position of waveform when measuring over long periods of time data or large data.
You can save the data in both ASCII and Binary format. You can also load data with the same analysis program (ex. MATLAB).
Setting Operation Display
You can easily detect unevenness or changes in acquired data.
The Wizard automatically recognizes any connected SL1000 and its' plug-in modules. Just click the Start button to start measuring right away - no complicated settings to enter. The four screens of the Setup Wizard guide you easily through detailed settings for configuring the system, measuring, saving and displaying. Of course, you can save and recall your settings at any time.
Up to four groups of measurement channels can be defined with individual measurement conditions and display settings. Even waveforms from groups with different sample rates can be displayed in the same window.
Measurement conditions and channel display settings can be viewed and set easily using a tabular format. Use drag and drop shortcuts to quickly setup multiple channels.
Measurement condition setting screen Display setting screen
Measurement and saving can be started and stopped using the same familiar buttons found on a DVD remote control. Start using the instrument on the same day you receive it, with absolutely no programming required.
You can display a zoomed portion of the waveform simultaneously with the overall waveform during triggered measurement. Even during live recording, you can use the display hold * to review past data. You can also perform cursor measurements or automated measurement of waveform parameters (up to 26 during triggered measurement) in real time.
*: The display hold may automatically switch to display resume depending on the measuring conditions.
Adjust your vertical display scale with ease using mouse shortcuts.
Adjust your vertical display scale with ease using mouse shortcuts.The File Transfer Function transfers files from the SL1000 to PC via, the Acquisition Software, intelligently in the case of multiple synchronized units.
SL1000 File Utility is file processing software for manipulating acquired files before analyzing waveforms with Xviewer. It can also analyze multiple channels across several units at the same time.
* SL1000 File Utility is bundled with the SL1000 standard install CD.
Xviewer is a PC software application designed to work with Yokogawa’s digital oscilloscopes and ScopeCorders.
MATLAB WDF Access Toolbox enables the access to waveform data files saved in WDF format on MATLAB.
To control the instruments on MATLAB, please use Instrument Control Toolbox provided by MathWorks.
Observation of Inverter Switching Waveforms
There are several factors for a user to consider when using an IEPE accelerometer, particularly when used with newly available integrated signal conditioner/data acquisition process. Correctly managing these factors will help the user avoid erroneous data from their IEPE accelerometer and ensure the quality of the data measurement is at the level they expect and require.
Surge Waveform Recording & Power Monitoring
Xviewer may only be used to view and analyze data saved by the SL1000, it cannot be used to remotely control the SL1000. You can also transfer files between the SL1000 and a PC. For the SL1000, Xviewer can support ...
Please see the attached document.
Even though the correct USB drivers have been installed, and the device displays correctly in the Windows Device Manager Window, the High-Speed Data Acquisition Unit SL1000 Acquisition Software fails to detect the SL1000 main unit. Solutions: Verify ...
Yes, you can use the 700929 isolated probe with non-isolated input modules.
The SL1000 High-Speed Data Acquisition Unit is capable of linking up to 8 units, up to 128ch max, in synchronized mode using our SL1000 Acquisition Software. Using a common LINK file, data from all units can be processed and analyzed, as one, at the ...
One possible solution is to use a third party 10:1 attenuator such as the one shown in the attached document. You may use the attenuator to allow the direct input of higher voltage levels with the 701262 module, since ...
The AC Power Input in all Yokogawa instruments is designed as a 3-pin connection (one of which is a GND pin). In some parts of the world, PCs are sold with AC power cables that are 2-pin. Often times this means the ...
The SL1000 High-Speed Data Acquisition Unit Portable Parallel Analyzer (PPA) doesn’t support offset summing like DLM2000 Mixed Signal Oscilloscopes. The SL1000 doesn't have offset hardware; instead, the vOffset variable is used to affect the displayed value only. So, using this parameter would have no ...
High Resolution mode can be used to remove high frequency noise and increase vertical resolution. It achieves this by increasing the number of effective bits per data to 12-bits through digital and bandwidth filters.
The sanitation procedure for various Yokogawa oscilloscopes have been documented below. Please download the document or pdf that refers to your Yokogawa oscilloscope.
No, the SL1000 and 720210 Modules service manual does not include any adjustment procedures however, it does contain the inspection procedure (QIS).
To perform a shunt calibration using the 701271 strain gage module and the ScopeCorder, please complete the following procedures: Connect the strain module 701271, bridge head 701957/701958 and the strain ...
The SL1000 High-Speed Data Acquisition Unit has the following types of memory: Internal Hard Drive: 40 GB Non-Volatile SRAM Waveform Acquisition Memory: 128 MW or 256 MB Volatile RAM Setup File Data Storage: 1 MB Volatile SRAM(Battery-Backup)
The maximum total file size you can record continuously depends on your sample rate, channel count and storage capacity. Please see the attached PDF file for an example of recording settings.Note: The dead-time between ...
The SL1000 is capable of transferring previous data sets/files while streaming is still in progress through the File Divide feature. When the SL1000 starts recording, it opens a new file and starts logging data. If the ...
Yes, VXI-11 is required and needs to be enabled for the DLM2000 Mixed Signal Oscilloscope to connect properly to Xviewer when using an ethernet connection. If the VXI-11 option is unchecked, a connection failed message will appear. Related ...
There are some modules that can be used with the DL750 Scopecorder but cannot be used with the DL850 Scopecorder. This is due to the nature of the FPGA for that module, which cannot be interchanged between the DL750 Scopecorder and the DL850 Scopecorder. During ...
Depending on the mode, the dead time may range from 0 to 10ms approximately. The dead time for the different modes are listed below. Free Run Mode: 0ms Normal Mode without HDD recording: 10ms Normal Mode with HDD ...
This training module covers the following topics: