IS8000 Integrated Software Platform

The IS8000 Integrated Software Platform streamlines the process of integrating, synchronizing, and measuring data. Add-on software packages give this test and measurement software evolving capabilities.

Revision History

Version Date Description
V24.4.1.0 Oct 31, 2024 ・Added support for the DLM3000HD Series High-Definition Oscilloscopes.
・Fixed bugs and improved performance.

Previous version 

Software Update Information

Ver. 24.4.1.0

  • Added support for the DLM3000HD Series High-Definition Oscilloscopes.
  • Fixed bugs and improved performance.

Previous version 

The Power of One

The IS8000 software platform is an integrated solution that accelerates engineering workflow. It is a revolutionary software solution that tightly integrates the timing, control, and data collection from multiple instruments, creating a comprehensive measurement suite that delivers high confidence, efficiency, and unity.

IS8000 Integrated Software Platform | Yokogawa Test&Measurement

High speed data acquisition up to 10 Gb

In combination with the 10 GbE option (C60 option) on the DL950 and the IS8000, up to 8 channels of data can be stored in real time on a PC at a sampling rate of up to 20 M samples per seconds.*

Longer recording times are now possible for high-speed, multi-channel inputs such as gate signals and switching waveforms of multi-phase inverters.

* With 1 Gb Ethernet/USB connection, the maximum transfer rate is 6.4 MB/s (200 kS/s × 16 ch) 
IS8000 Integrated Software High Speed Data Acquisition | Yokogawa Test&Measurement
 

Multi-unit monitoring with time synchronization (SY1 option)

IS8000 and SY1 option enable accurate power and waveform data synchronization across multiple channels with minimal error. Data from the WT5000 power analyzer and DL950 ScopeCorder is time correlated with less than 10 us error using IEEE1588 technology.

IS8000 Integrated Software Multi Unit Monitoring Time Synchronization | Yokogawa Test&Measurement
 

Control and realtime remote monitoring

YOKOGAWA’s high-precision power analyzer, ScopeCorder and oscilloscope can be remotely operated, monitored and configured from IS8000. Additional options, third-party high-speed cameras can also be controlled, greatly reducing the burden of operating and managing various instruments measuring power, physical phenomenon, video, and control signals.

IS8000 Integrated Software Control Realtime Remote Monitoring | Yokogawa Test&Measurement
 

FFT and math function (MH1 option)

Measure up to 16 FFT processes for a wealth of analysis functions for automatic calculation of frequency and integrated value and filter processing.

IS8000 Integrated Software FFT and Math Function | Yokogawa Test&Measurement
 

Report generator (RP1 option)

Customized reports are easily created by dragging and dropping measurement data, waveforms, graphs, etc. onto the sheet.

IS8000 Integrated Software Report Generator | Yokogawa Test&Measurement
 

File import and export

The IS8000 supports binary, ASCII, and the MDF format, a very common format for the automotive industry. Power and waveform data on the IS8000 can be shared with your development system or third-party software.

IS8000 Integrated Software Platform MDF ASCII Data Export | Yokogawa Test&Measurement

*1 Import of MDF files generated by other software/devices will be supported in the future
*2 Power trend data saved by WT5000, WT3000, 1800 series

Synchronization high-speed camera (FS1 option)

IS8000 synchronizes high speed camera images with related current, voltage, and control signals. Simultaneous slow motion playback allows visualization between design and results.
In addition, video files captured by other than high-speed camera and waveform files can be synchronized offline for display and analysis.

IS8000 Integrated Software Synchronization High Speed Camera | Yokogawa Test&Measurement
 

IEEE1588 Precision Time Protocol

IEEE 1588 is a standard for the Precision Time Protocol (PTP), a protocol for high-precision time synchronization of networked instruments and control systems. The PTP grandmaster server provides a reference clock for each client instrument to achieve high-precision clock synchronization. Since the ScopeCorder DL950 has the PTP master function, high precision clock synchronization of the corresponding instruments on the same network is possible even without a PTP grandmaster server. The IS8000 is also capable of combining the simultaneous measurement data of each of these PTP-synchronized instruments in the same window.

IS8000 Integrated Software Platform IEEE1588 Precision Time Protocol | Yokogawa Test&Measurement

 

Serial Bus Analysis(SB1)

This is an analysis function for CAN bus communication widely used in in-vehicle networks and other applications. It enables decoding of communication contents, frame display, and search for specific information in CAN bus communication signal. This new serial bus analysis option can also be used to analyze signal waveforms acquired not only by Yokogawa's oscilloscopes but also by the ScopeCorder series and IS8000. It is effective for reanalysis of communication signal waveforms previously measured, and for comparison and analysis with other physical quantity measurements.

Serial Bus Analysis(SB1)

 

Modbus/TCP Communication(MB1)

Modbus/TCP communication. A communication configuration file for connection to the YOKOGAWA GM10 and VZ20X recorders is included with the software. Other Modbus/TCP communication devices can also be connected to the IS8000 by creating a communication configuration file using the included tool. Integration of these devices with a Yokogawa Test & Measurement’s power analyzer and waveform measuring instrument by the IS8000 will provide a measurement system that supports more input channels, longer recording times and a wider variety of temperature sensors.

Screenshot example of data acquisition with Yokogawa's GM10 and DL950

Screenshot example of data acquisition with DL950 Yokogawa's GM10

Modbus configuration file editor

Modbus communication configuration file editor

Optional software package for IEC harmonic and flicker compliance test

IS8011/IS8012 optional software package is designed to perform harmonic and flicker tests in accordance with IEC61000-3-2, 3-3, 3-11 and 3-12 standards using the WT5000 precision power analyzer. Users can easily set the conditions and output the test report without any specialized knowledge. Users can make a pass/fail judgment by class A, B, C, and D of the harmonic current measurement values.

IS8000 Integrated Software IS8011 IS8012 IEC Harmonic Flicker Compliance Analysis | Yokogawa Test&Measurement

Compatible measurement device:
WT5000 (/G7 option required)

Applicable standards:
IEC 61000-3-2 Harmonic Measurement

  • IEC 61000-3-2 Edition 3.0:2005/A1:2008/A2:2009, IEC 61000-3-2 Edition 4.0:2014, IEC 61000-3-2 Edition 5.0:2018/A1:2020
  • EN 61000-3-2:2006/A1:2009/A2:2009, EN 61000-3-2:2014, EN 61000-3-2:2019, EN 61000-3-2:2021
  • IEC 61000-4-7 Edition 1.0:1991, Edition 2.0:2002 and A1 of the Edition 2.0:2008
  • EN 61000-4-7:1993, EN 61000-4-7:2002/A1:2009
  • JIS C 61000-3-2:2011, JIS C 61000-3-2:2019
  • JIS C 61000-4-7:2007

IEC 61000-3-3 Voltage Fluctuation and Flicker Measurement

Voltage fluctuation and flicker suppression standards

  • IEC 61000-3-3 Edition 2.0:2008, IEC 61000-3-3 Edition 3.0:2013/A1:2017/A2:2021
  • EN 61000-3-3:2008, EN 61000-3-3:2013, EN 61000-3-3:2013/A1:2019, EN 61000-3-3:2013/A2:2021

Flicker meter function and design specifications

  • IEC 61000-4-15 Edition 1.1:2003, IEC 61000-4-15 Edition 2.0:2010
  • EN 61000-4-15:1998/A1:2003, EN 61000-4-15:2011

IEC 61000-3-11 Voltage Fluctuation and Flicker Measurement

Voltage fluctuation and flicker suppression standards

  • IEC 61000-3-11 Edition 1.0:2000, IEC 61000-3-11 Edition 2.0:2017
  • EN 61000-3-11:2000, EN 61000-3-11:2019

Flicker meter function and design specifications

  • IEC 61000-4-15 Edition 1.1:2003, IEC 61000-4-15 Edition 2.0:2010
  • EN 61000-4-15:1998/A1:2003, EN 61000-4-15:2011

IEC 61000-3-12 Harmonic Measurement

  • IEC 61000-3-12 Edition 1.0:2004, and Edition 2.0:2011/A1:2021
  • EN 61000-3-12:2005, EN 61000-3-12:2011
  • IEC 61000-4-7 Edition 2.0:2002/A1:2008
  • EN 61000-4-7:1993, EN 61000-4-7:2002/A1:2009

Supported devices

Functions Supported devices
Online data acquisition DL950, WT5000
Remote control and setting, acquisition data download DL350, DL850 series, DL950, DLM3000 series, DLM3000HD series, DLM5000 series, DLM5000HD series, WT5000 (Remote control and setting only)
Data File Import DL350, DL850 series, DL950, DL750 (Only WVF file), SL1400 (Only WVF file) , SL1000, WT1800 series (WT1800R will be supported by a future update.), WT3000 series, WT5000, DLM2000 series, DLM3000 series, DLM3000 series, DLM3000HD series (will be supported by the future update.), DLM4000 series, DLM5000 series, DLM5000HD series
High-speed camera Sync.
(FS1 option)
Supported cameras for online sync.: Photron’s FASTCAM SA-Z, MIni UX*/AX/WX series, NOVA S series, NOVA R2
Supported devices for online sync.: DL950
Modbus/TCP Communication
(MB1 option)
Devices supported Modbus/TCP protocol.
ECU Monitor sync.
(EM1 option)
DTS INSIGHT's RAMScope GT170(only for the variable data acquisition and calibration module), GT122

* Pre-trigger recording and multi-trigger recording using the Mini UX series in combination with the FS1 option are not supported.

 

Main specifications

The writings in red are changes from the previous version.

  Ver. 24.3.1.0
Connecting support firmware DL950 Ver.1.50 or later
WT5000 Ver. 3.31 or later
Languages English / Chinese / Japanese
PC requirements For data acquisition with 10 Gb Ethernet connection;
CPU: Desktop PC required Intel Core i7-1165G7 or later Intel CPU 4 cores(8 threads) or more 4.7 GHz or faster
Amount of memory: 16 GB or more
Amount of SSD: 512 GB or more(M.2 slot is recommended, Sequential read/write 3 GB/s or faster)

For data acquisition with 1 Gb Ethernet/USB connection and offline analysis;
CPU: Intel Core i5-10210U or later Intel CPU 4 cores(8 threads) or more 4.2 GHz or faster
Amount of memory: 8 GB or more
Amount of SSD: 256 GB or more(Sequential read/write 400 MB/s or faster)
OS Windows 11 Pro or Enterprise edition (except EM1 option)
Windows 10 64bit Pro or Enterprise edition
Communication interface USB (USBTMC / VISA), Ethernet (VXI-11, HiSLIP, Modbus/TCP *8)
Display resolution 1366×768 dots or higher, 100 % zoom
Number of connectable units Up to 5 units
(Only one unit without SY1 option)
(SY1 option is required even if the time synchronisation is not used)
Supported file format WDF DL350, DL850 series, DL950, SL1000, DLM2000 series, DLM3000 series, DLM3000HD series , DLM4000 series, DLM5000 series,DLM5000HD series
CSV (Waveform data) DL950, DL850 series, DL350, DLM5000HD/5000/4000/3000HD/3000/2000 series, Xviewer Application Software and IS8000 *6
CSZ IS8000 CSV data compressed in ZIP format
CSV (Power measurement data)*2 WT5000, WT3000 series*1, WT1800 series (WT1800R will be supported by a future update.)
WVF DL750, SL1400
MF4 IS8000 data files
ASAM MDF 4.1 files
mepjt, anpjt IS8000 Project files
Export file formats ASAM MDF 4.1 files (mf4), ASCII files (csv), CSV files compressed in ZIP format (csz)
Online data acquisition
(DL950)*7
Motion mode Scope mode (Trigger/ Free-run)*4
The trigger mode cannot be used with multi-unit synchronized DL950s.
Maximum transfer rate 10Gb Ethernet connection: 320MB/s (20MS/s x 8ch, 10MS/s x 16ch)
1Gb Ethernet / USB connection: 6.4MB/s (200kS/s x 16ch)
Online data acquisition
(WT5000)*7
Monitoring/DAQ items Power trend graph and numeric
Harmonic bar graph *9*10
Data-streaming waveform *3
Vector diagram
Online data acquisition
(common)*7
Maximum continuous recording time/size The recording will be kept until free storage space falls below 10%.
Maximum recording channels 128 channels
Display format Common TY-Overview (up to 128 ch for each group, up to 16 group), XY (up to 2 windows for each group), TY-View (up to 4 areas for each group), Numeric Monitor(Up to 128 channels)
For WT5000 Power trend graph and numeric display
Peak-to-peak compressed waveform (Data update interval: 1s or slower)
Bar graph of the amplitude and phase of each harmonic *9*10
Data streaming waveform display *3
Harmonic list display
Matrix display
Vector diagram
Waveform overlays Aligned by time, absolute time ,head of data, end of data or arbitrary position
Automated waveform parameter measurements Parameters Up to 28 parameters (including P-P, Amp, RMS and Freq).
Automated measurement of history statistics Waveform parameters for each waveform in the historical memory and their statistics can be calculated automatically.
Automated measurement of cycle statistics Waveform parameters of each period of a cyclic waveform and their statistics can be calculated automatically.
Cursor Vertical (up to 2 curors in a window), Horizontal (up to 2 curors in a window)
Annotation Comments, acquired data and calculated values can be added on the overview/view, waveform window and X-Y window.
Supported devices Data acquisition DL950
WT5000(760903 Current Sensor Element supported.10ms update rate supported.)
Flash ACQ data saving DL950
Data file import DL350, DL850 series, DL950, SL1000, WT1800 series (WT1800R will be supported by a future update.), WT3000 series, WT5000, DLM2000 series, DLM3000 series, DLM3000HD series, DLM4000 series, DLM5000 series,DLM5000HD series, DL750 (Only WVF files), SL1400 (Only WVF files)
Remote control and setting, acq. data download DL350, DL850 series, DL950, DLM3000 series, DLM3000HD series, DLM5000 series,DLM5000HD series, DLM4000/2000 series, WT5000(Remote control and setting only)
Screen Capture Save Clipboard, png, jpg, gif
CSV batch converter Load MF4 (MDF4.1), WDF, WVF
Save CSV, CSZ (CSV compressed in ZIP format)
Mathematical data analysis(MH1) Number of Math channels Up to 16 channels
Operators +, -, x, /, Phase shift, ABS, SQRT, LOG, EXP, RMS, NEG, SIN, COS, TAN, ATAN, PH, DIF, DDF, INTEG, BIN, P2, P3, F1, F2, FV, PWHH, PWHL, PWLH, PWLL, PWXX, DUTYH, DUTYL, FLT1, FLT2, HLBT, MEAN
Number of computed points Up to 12.5 M points
or up to100 M points can be supported by installing MATLAB Runtime
Digital filters Gauss, Sharp, IIR(Butterworth)
FFT analysis (MH1) Operator Type: LS, RS, PS, PSD, CS, TF, CH
Sub-type: REAL, IMAG, MAG, LOGMAG, PHASE
Window function Rect, Hanning, Flat top, Hamming
Number of FFT channels Up to 16 channels independently
Number of computed points Up to 2 M points
or up to100 M points can be supported by installing MATLAB Runtime
Serial bus analysis(SB1) supported protocol CAN (CAN FD is not supported at present.)
Search target SOF, ID/Data, Error
Number of search points Up to 100,000 frames
Bit rate Select the value from 33.3kbps, 83.3kbps, 125kbps, 250kbps, 500kbps,1Mbps, or enter it within the range of 10kbps to 1Mbps in 0.1kbps steps.
Report Generator (RP1) Export Microsoft Word, Excel, PDF, Print
Components Waveforms, Measurement data, Comments, Images
High-speed camera Sync. (FS1) Supported cameras for online sync Photron’s FASTCAM SA-Z, MIni UX*5/AX/WX series, NOVA S series, NOVA R2
Supported video format for online sync high-speed camera video files(avi)
Supported devices for online sync DL950
Supported video file formats for offline sync AVI(*.avi), MP4(*.mp4), WMV(*.wmv), AVCHD(*.mts), MOV(*.mov), MPEG2-PS(*.mpg, *.mpeg)
ECU Monitor sync.(EM1) Supported monitoring tools DTS INSIGHT's RAMScope GT170(only for the variable data acquisition and calibration module), GT122
Supported data file RAMScopeVP output files(a2l)
Supported devices for online sync DL950

*1 Harmonic measurement data excluded.
*2 The measurement data of first 128 channels can be imported.
*3 /DS option is required for the WT5000 to be connected.
*4 Trigger DAQ with DL950 external clock input is not supported.
   Freerun DAQ with DL950 external clock input, including 16-channel input module or CAN/CAN FD/LIN/SENT module, is not supported.
*5 Pre-trigger recording and multi-trigger recording using the Mini UX series in combination with the FS1 option are not supported.
*6 Only CSV files saved with Ver. 22.6.1.0 or later IS8000 can be imported.
*7 Connecting instruments and collecting data with multiple launches of the IS8000 software on the same PC is not covered by the specification.
*8 MB1 option is required.
*9 G7 option on the connecting WT5000 is required to display measurement data complying with IEC 61000-4-7 Annex B (2k-9kHz).
*10 Firmware version 3.61 or later and the G7 option are required on the connected WT5000 to display interharmonic measurement data compliant with IEC 61000-4-7 Ed. 2.1 Annex A.

 

Models and features

Models and features

Classic Data Viewer is available at no extra charge on PCs with a valid IS8001/IS8002 license activated.

 

DL950 ScopeCorder

DL950 ScopeCorder for IS8000 Software | Yokogawa Test&MeasurementThe DL950 combines a mixed signal oscilloscope and portable data acquisition recorder into a single platform which can capture both high speed transient events and long term trends and capable of high-speed, multi-channel measurements up to 200 MS/s and up to 16-bit A/D. With a combination of more than 20 different modules for your application, a single unit can measure isolated analog signals from low voltage to 1000 V, as well as logic signals, vibration and strain, temperature and more. It can also display automotive communication data such as CAN/CAN FD/LIN/ SENT as trend waveforms. The 12.1-inch large touch screen enables an intuitive operation. The newly designed application menu makes it easy to set up frequently-used applications. By combining the DL950 with the IS8000, data can be transmitted directly to a PC while measuring, allowing analysis on a PC. Up to five DL950 units can be synchronized with optical fiber cords to measure up to 160 channels simultaneously. Click here to learn more about the DL950 ScopeCorder.

WT5000 Precision Power Analyzer

WT5000 Power Analyzer for IS8000 Software | Yokogawa Test&MeasurementWT5000 precision power analyzer is a high-precision power meter with a basic power accuracy of ±0.03%, one of the best in the world. With a DC power accuracy of ±0.07%, a 10 MHz voltage measurement bandwidth, a 5 MHz current measurement bandwidth, and a low power factor characteristic of ±0.02% (of apparent power), the WT5000 provides highly accurate measurements of power consumption, loss, and conversion efficiency of devices. Up to seven power inputs and four motor torque inputs enables simultaneous evaluation of multiple motor drive systems. The WT5000 helps to improve the efficiency of development of EVs, EHVs, renewable energy related devices, and energy saving home appliances. Click here to learn more about the WT5000 Precision Power Analyzer.

DLM5000HD Series and DLM3000HD Series High-Definition Oscilloscope

The DLM5000HD, with eight channels, and the DLM3000HD, with four channels, are compact 12-bit oscilloscopes designed to observe and analyze complex high-speed waveforms in high resolution, making it easy to check fine noise, ringing, and other details. The intuitive touchscreen, auto setup, and extensive analysis functions accelerate complex diagnosis, providing unparalleled testing precision.
Click here to learn more about the DLM5000HD Series High-Definition Oscilloscope.
Click here to learn more about the DLM3000HD Series High-Definition Oscilloscope.

DLM5000HD

DLm3000HD

 

Compatible Models

Standard Functions

IS8000 Integrated Software Compatible Models Standard Functions | Yokogawa Test&Measurement

Optional Functions

IS8000 Integrated Software Compatible Models Optional Functions | Yokogawa Test&Measurement

IS8000 Integrated Software Interface | Yokogawa Test&Measurement

IS8000 Integrated Software Intuitive User Interface | Yokogawa Test&Measurement

Automotive & Industrial

IS8000 Integrated Software Motor Efficiency | Yokogawa Test&MeasurementMotor Efficiency

Overview

Motor efficiency is a critical measurements for electric vehicles as small improvements can result in increased range. Efficiency measurements require accurate synchronous measurments of power consumption with motor speed and torque.

IS8000 Advantage

High Precision synchronized power and high speed recorder measurements
Data from the WT5000 power analyzer and DL950 ScopeCorder is time correlated with less than 10 us error using IEEE1588 PTP technology. Precise power parameters and waveforms are displayed on the same time axis.
 

IS8000 Integrated Software Switching Waveform Analysis Sic Invertor | Yokogawa Test&MeasurementSwitching Waveform Analysis for SiC Invertor

Overview

In order to analyze the motor and inverter system, voltage and current signals between 3 phases, motor I/O signals, and multiple IGBT gate signals are required to properly measure and diagnose system performance and efficiency.

IS8000 Advantage

Combining multiple waveforms
More than 8 waveforms are required to measure invertor performance in a loaded system. IS8000 can connect with multiple 8 channel DLM5000 oscilloscopes for analog and digital signals to scale up to any channel requirement, all in one control and viewing interface.
 

Power & Energy

IS8000 Integrated Software Solar Wind Power System Development | Yokogawa Test&MeasurementSolar/Wind Power System Development

Overview

Renewable energy systems, like wind, solar and hydro must maintain efficiencies through their power conversion stages to decrease their impact on the environment. Multiple measurement points require precsion and synchronization.

IS8000 Advantage

View and compare waveforms from multiple instruments
IS8000 can easily shnchronize waveforms from multiple instruments, creating an easy view for comparion. Manipulating waveforms is easily done with zoom and pan controls to analyze long records of energy waveforms.
 

Research & Development

IS8000 Integrated Software Analysis of Robotic Welding Control | Yokogawa Test&MeasurementAnalysis of Robotic Welding Control

Overview

It is necessary to optimize robotic welding conditions for a cost effective manufacturing system. Multiple signals and inputs are required to be monitored in order to determine the best combination between the robot’s position and performance, including high speed camera inputs, source voltage and current, and multiple position and control I/O signals.

IS8000 Advantage

Simultaneous recording of multiple signal types
IS8000 displays multiple inputs. The camera image is aligned in time with the other waveform, including the control signals and the voltage and current waveforms. Simultaneous slow motion playback allows visualization between design and results.

IS8000 Integrated Software Platform Licenses and Fees | Yokogawa Test&Measurement

Subscription License

This licenses type is based on annual subscription renewal for the platform and optional features. Users can purchase the software for as long as they need it, keeping their initial investment to a minimum. Users will always have the latest version of the software available for the duration of the subscription, so they will always be able to use the latest features, standards and security.

Perpetual License

This is a one-time purchase and can be used indefintely. Additional optional features can be purchased at a later date. The platform can be upgraded free of charge for up to five years major software version revisions after purchase. After that, users can continue to use the software in the same environment. This license is suitable for users who do not plan to change their equipment environment at the time of installation.

Activation 

All IS8000 models and licenses, except the free trial period, require software activation over the internet before use. If the PC with the IS8000 installed cannot be connected to the network, it is possible to activate the IS8000 via another network-accessible PC. For more information, please refer to the electronic manual.

Overview:

Detailed measurement methods, supply voltage settings, and others are specified for the harmonic/flicker standard test.

Overview:
  • IS8000 Integrated Software Platform
  • Measure current waveform using oscilloscope

Product Overviews

    Product Overview
    Overview:

    The IS8000 Integrated Software Platform software platform is an integrated solution that accelerates engineering workflow. It is a revolutionary software that tightly integrates the timing, control, and data collection from multiple instruments, creating a comprehensive measurement suite that delivers confidence, efficiency, and unity.

    Overview:

    Test and measurement engineering work groups can have differing priorities and requirements, which often results in multiple instrumentation systems and data file formats, as well as incompatible reporting. This lack of effective communication between groups and instruments causes decreased efficiency and quality and increased spending and time to market. Unify test and measurement instrumentation, software, and data across engineering teams with a suite of solutions that caters to the different needs of engineering work groups, including accurate power data, fast sampling rates, long recordings of multiple different input types, and insights into waveform data.

How-tos

    Overview:

    Looking for a turnkey high-speed data transfer solution with better bandwidth and minimal manual overhead?

    The 10Gb Ethernet option on the Yokogawa Test&Measurement DL950 ScopeCorder fits that very role and makes capturing and recording high-speed data seamless and convenient.

    Record data at 50 times the speeds of traditional Ethernet and USB connections and automatically transfer data to your PC in a single step using the IS8000 Integrated Software Platform.

    Overview:

    The multi-unit synchronization option for the Yokogawa Test&Measurement DL950 ScopeCorder lets you time synchronize up to five DL950 ScopeCorders, for up to 160 channels of voltage, current, temperature, strain measurements, and more. This video walks you through how to set up and connect the multiple DL950 ScopeCorders, take measurements, and pull the data from all of the instruments for analysis with the IS8000 Integrated Test and Measurement Software Platform.

    Overview:

    Having multiple memory options allows engineering groups to optimize how data is stored, no matter if you need to record for a long time at slower sampling rates, do a fast capture at high sampling rates, or anything in between.

    The Yokogawa Test&Measurement DL950 ScopeCorder operates as an oscilloscope and incorporates the ability to record data for long periods of time like a data acquisition recorder. There are four memory types on the DL950 ScopeCorder: internal memory, solid state drive, flash memory, and PC storage through the IS8000 Integrated Test and Measurement Software Platform. This videos talks about the advantages of each of these and how to pick the best data recording method for you.

    Overview:

    We are going live on YouTube to answer your questions about the Yokogawa Test&Measurement DL950 ScopeCorder. Join us as we discuss how to make the most of this versatile instrument based on your application needs. Whether you’ve worked with a ScopeCorder for years or curious if it is a good fit for your engineering work group, this live stream can help.

    Overview:

    Learn how to sync video data from a high-speed camera with data acquisition devices and scopes used by engineers in test and measurement applications.

    Overview:

    In this video, an Application Engineer shows users how to bring in Modbus/TCP-communicating instruments for measurement data synchronization across devices with the IS8000 Integrated Test and Measurement Software Platform from Yokogawa Test&Measurement.

Webinars

    Overview:

    You know the basics of electrical power measurements, have set up your dyno, and made key measurements – which is great. But as your motor and drive projects progress, the complexities of system drive requirements can change frequently. Control algorithms, networked communications, and mechanical systems form a complex web of interactions that need sorting. This 60-minute webinar explains how to get past ground-level measurements and delve into comprehensive solutions that leverage test and measurement instruments including power analyzers, high-speed data acquisition, and real-time software.

    Topics include:

    • How to avoid the “gotcha's” of inverter-based measurements
    • Computations for field-oriented control
    • The integration of CAN bus communications
    • Correlations in the frequency domain
    • Other advanced motor and drive topics

    The technical presentation includes an audience Q&A.

    Overview:

    With ongoing innovations in motor and inverter technologies seeking to advance global decarbonization objectives in the automotive industry, it’s crucial that engineers have a thorough understanding of how to properly analyze these systems.

    This complimentary webinar provides engineering professionals involved in motor and control system development with insights that enable data benchmarking and troubleshooting issues related to energy efficiency in electric vehicle (EV) powertrains.

    Key webinar topics include:

    • Establishing baselines for system efficiency
    • Conducting inverter control signal analysis at the systems level
    • Identifying critical measurements for benchmarking inverter input, inverter output, and motor output
    • Analyzing motor control signals, including torque control variables, positional sensors, and pulse-width modulation (PWM), as well as torque measurements

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