SL2000 High-Speed Data Acquisition Unit
The SL2000 is a high-speed, modular data acquisition system that combines the functionality of an isolated oscilloscope with the flexibility of a high-speed DAQ, ideal for design validation, ATE systems and operational testing.
Compatible with the same plug-in modules as the DL950 ScopeCorder, the SL2000 offers exceptional versatility for mixed-signal measurement. A single unit can simultaneously capture a wide variety of signals, including high voltages, vehicle communication busses, and NVH inputs such as vibration, strain, and temperature.
Key specifications:
- Isolated 1000 V input, up to 7000 V input with differential probe
- Up to 200 MS/s sampling
- Up to 8 G point memory
- 10 Gbps PC streaming
- Real-time power and motor d-q analysis
Engineered for ATE Systems
Engineered for ATE SystemsThe SL2000 is a 4U-high, high-speed data acquisition system and modular isolated oscilloscope designed for high-channel-count automated testing and validation.
By integrating a wide range of plug-in modules, the SL2000 enables both transient capture and long-duration, multi-channel recording of diverse signal types including voltage, current, temperature, acceleration, strain, frequency, digital I/O, and automotive communication protocols such as CAN, CAN FD, LIN, and SENT.
Two Operation Modes: Scope and DAQ
Scope Mode: For high speed, repetitive signals. Works like an oscilloscope:
- Captures waveforms on trigger using T/Div and sampling settings
- Displayed with V/Div scaling
DAQ Mode: For long-duration, continuous recording. Functions like a data logger:
- Records with defined sampling intervals and total duration
- Displayed using absolute upper and lower limits
Scalable to 160 channels with IS8000 software
Capture signals at speeds up to 200 MS/s, and scale to 160 synchronized channels (/C50) by linking as many as five chassis as a single triggered unit.
Even higher channel counts are possible through custom integration.
Flexible Control Software Options for Test Automation
Choose the approach that fits your workflow. IS8000 software offers a no-code, configurable solution for rapid instrument setup, data capture, and visualization, ideal for standardized test environments and where ease of use and long-term supportability are key.
For fully customized systems, Yokogawa's open API and sample code enable seamless integration into your bespoke ATE software for precise control and data streaming.
Advanced Real-Time Analysis
With optional functions such as real-time math (/G03), power calculations (/G05), and motor dq analysis (/MT1), the SL2000 can perform on-the-fly waveform computation, power analysis, and motor control vector analysis. Trigger conditions can also be set based on computed math results.
The SL2000’s capabilities are organized into five key groups to support high-throughput, automated test applications. Designed for flexibility, speed, and precision, each function accelerates workflows in demanding validation and production environments.
High-Bandwidth Data Streaming
High-Bandwidth Data StreamingThe SL2000 delivers continuous, high-speed data transfer for real-time integration with automation software and test orchestration platforms.
- 20MS/sec streaming to PC over 10 GbE of raw and computed waveforms
- Free-run or triggered streaming via SDK over USB, Ethernet, or 10 GbE
- Open SDK access for C, Python, MATLAB, and LabVIEW environments
- No-code Yokogawa IS8000 software for ready to run testing
Scalable, Synchronized Systems
Scalable, Synchronized SystemsFor high channel count systems or multi-instrument testbeds, the SL2000 offers precise synchronization and seamless scaling.
- Multi-chassis expansion: up to 160 channels across 5 synchronized SL2000 units (timing skew within ±30 ns)
- Support for IEEE1588 PTP, IRIG, and GPS timing options enables synchronization across distributed or mobile setups
- IS8000 platform integration for synchronization with cameras, power analyzers, and external gear
Versatile Inputs
Supporting a wide array of sensor types and signals, the SL2000 is highly adaptable to various test configurations.
- Modular input architecture: accommodates up to 8 plug-in modules
- Analog inputs: voltage (up to 200MS/sec at 14 bits), current sensors, strain, temperature, vibration, and more
- Logic and digital inputs: digital logic, serial bus payload decoding & measurement (CAN, CAN FD, LIN, SENT)
- High-voltage inputs (1kV direct / 7kV with differential probe) and isolation for battery, inverter, and power-stage testing
Extensive Trigger Library & GO/NO-GO Logic
Sophisticated triggering and automated test decisions help streamline pass/fail evaluation and event-driven acquisition.
- Flexible trigger modes: Auto, Normal, Single, On-Start, and time-based triggers
- Trigger from any source: analog, logic, math channels, external signals, or scheduled time
- Advanced conditions: edge, pulse-width, A→B(N), wave-window, and power anomaly triggers
- GO/NO-GO actions: save data, trigger alerts, or send email based on waveform evaluation
- Dual-capture and long-memory support for simultaneous transient and trend analysis
Hardware-Accelerated Math & Analysis
Hardware-Accelerated Math & AnalysisBuilt-in computation capabilities allow real-time analytics without external post-processing or slowing down acquisition.
- User defined and real-time math channels (/G02 and /G03): perform waveform calculations such as integration, filtering, RMS, PWM, combined waveform math and custom operations
- Power analysis (/G05) for voltage/current, harmonics, power factor, and efficiency
- Motor dq analysis (/MT1): Park/Clarke transforms with speed, torque, and rotor position outputs
Software Options That Fit Your Test Strategy
The SL2000 is designed to fit seamlessly into your test environment—whether you want to get started right away with intuitive software or build a fully customized system. Choose the path that fits your workflow best.
1. Out-of-the-Box Software for Immediate Measurement and Analysis
Get up and running quickly with Yokogawa’s powerful software platforms designed for the SL2000. No programming required—just connect, configure, and measure.
IS8000 Integrated Measurement Platform
IS8000 offers synchronized control and visualization of the SL2000 alongside other Yokogawa instruments, such as power analyzers and high-speed cameras. It’s a unified platform for electrical, mechanical, and protocol data—all in one view.
- Set up and control the SL2000 remotely
- View and record data in real time
- Analyze waveforms, apply math, and export results
- Save data in MDF format for compliance and traceability
- Reduce test setup time with multi-device synchronization
IS8002CDV Classic Data Viewer
For engineers who need straightforward viewing and remote access, IS8002CDV is a feature-rich viewer for SL2000 data files and instrument control.
- Remotely operate the SL2000 and transfer data
- Display, zoom, and measure waveform parameters
- Perform waveform calculations (with optional add-ons)
- Convert data into various file formats for sharing or analysis
Together, IS8000 and IS8002CDV provide an efficient and reliable way to make precision measurements, perform quick analysis, and manage data—all without needing to develop custom software.
2. Custom Integration and Automation for Advanced Test Environments
For test engineers and developers building automated systems or specialized workflows, Yokogawa provides a robust set of development tools and libraries to tailor the SL2000 to your exact needs.
ScopeCorder SDK (Software Development Kit)
The SDK includes a DLL-based API that allows you to fully control the SL2000 from your own software environment. Easily automate acquisition, trigger events, and data transfers from a PC.
Key supported operations:
- Free Run Mode: Continuous data acquisition from start to stop
- Trigger Mode: Event-based waveform capture
- Flash Access: Transfer waveforms stored in flash memory
- File Handling: Automate file retrieval and data archiving
Development Tools and Drivers
- WDF File Access Library: Read and process waveform data files
- MATLAB Toolbox: Directly import WDF files into MATLAB
- Data Format Conversion Tool: Convert binary data into human-readable formats
- DL-Term: Command line tool for communication and scripting
- TMCTL Library: Simplifies control over USB, Ethernet, or serial interfaces
- LabVIEW and USB Drivers: Integrate the SL2000 into LabVIEW-based systems
- Sample Programs: Get started quickly with examples in C, Python, and other languages
Whether you're building a test automation system, developing custom visualization tools, or integrating the SL2000 into a larger bench setup, these resources help you get the most out of your measurement hardware.
2-motor/4-motor system test for EV
In Hybrid Electric Vehicle (HEV) development, two or four motor systems, with each motor connected to a driving wheel, are commonly used. This design eliminates traditional powertrains, simplifying the overall system and alleviating concerns when driving a 4WD on snowy roads. The multi-channel, high-speed, isolated DL950 can simultaneously capture and analyze signals from these multi-motor setups.
Distributed energy resource test (renewable energy)
Renewable energy sources like hydro, solar, and wind power are integrated into the power grid, driving the transition to a sustainable society. The DL950/SL2000 supports this transition with its long-term power recording and analysis capabilities. For example, wind turbines require synchronized monitoring of power generation efficiency at multiple locations, which can be achieved with high precision using GPS or IRIG signals.
Additionally, the DC/AC conversion efficiency of solar panel-generated DC power can be accurately measured using the WT5000 precision power analyzer, while the waveform data from the DL950/SL2000 can be seamlessly integrated with the WT5000’s measurement data to provide a comprehensive analysis of inverter performance.
Vibration and Acoustic Analysis
Vibration is inherent to "moving objects" such as motors and engines. Analyzing the frequency of vibrations to identify abnormal areas is an essential test in the development of "moving objects." By using multiple acceleration modules, Vibrations at multiple points can be simultaneously captured and up to eight vibration frequencies can be analyzed using FFT functionality to identify faulty components.
Railway Vehicle Running Test
By using the DL950 and SL2000, we can simultaneously record the voltage, current, and rotational speed of the battery, inverter, and drive motor, as well as the vibration and interior temperature of railway vehicles.
- Simultaneous measurement of remote devices with a synchronization accuracy of ±150 ns (typ) when using the /C40 option.
- Distributed synchronous measurement with up to 160 channels
- Simultaneous recording of strain and sound (using voltage output microphones or sound level meters) is also possible
- Using power calculations and motor dq analysis, power efficiency and motor performance can be evaluated.
Vehicle Serial Bus Data Recording and Driving Trajectory Display
You can simultaneously view the trends of physical values from CAN/CAN FD bus data alongside the corresponding measured waveforms on the same screen. For example, you can verify the correlation between the ON/OFF signal of the ignition switch, the corresponding CAN/CAN FD signal, and the actual signals from related pressure sensors, all on the same screen. By connecting a GPS unit, Latitude, longitude, altitude, speed, direction, and time information can be added to the measurement data. Using DIAdem, you can simultaneously display the measurement data and driving position. With IoT gateways or M2M routers, remote control and data monitoring can be performed wirelessly.
8 G points large memory (/M2 option)
With up to 8 G points of memory and 20 seconds of continuous capturing, even at 200 MS/s, no signal changes are missed.
*Up to 4 G points of memory is allocated per channel.
SSD recording (/ST1 or /ST2 option)
The 512 GB internal SSD can record for long periods of time at up to 2 MS/s. Waveforms from dual capture can also be recorded, which is useful for in-vehicle endurance testing and capturing rare spontaneous events.
Flash acquisition (/ST2 option)
Long time recording at up to 20 MS/s, which is 100 times faster than the previous model, is available. You can capture data anywhere you cannot bring a PC such as on-vehicle or field testing. The flash memory is non-volatile, so the captured data stays in the instrument even after turning off the power. Data can later be transfered to a PC.
Multi-sample rates
Sample rates can be set by channel. Reducing the sample rate reduces the amount of data even when modules with high and low sample rates are mixed together. This allows for less memory space to be used and improves the transfer speed.
Available Data Storage
• Built-in SSD 512 GB
• SD Memory Card (SD/SDHC/SDXC)
• USB Storage up to 8 TB
• Network Drive
High-Speed 200 MS/s 14-Bit Isolation Module
- 2-Channel Analog Input
- 200 MS/sec, 14-Bit
- 40 MHz Bandwidth
- Max. Input Voltage (DC + ACpeak): 1000V / 200V
High-Speed 100 MS/s 12-Bit Isolation Module
- 2-Channel Analog Input
- 100 MS/sec, 12-Bit
- 20 MHz Bandwidth
- Max. Input Voltage (DC + ACpeak): 1000V / 200V
General Purpose 10 MS/s 12-Bit Isolation Module
- 2-Channel Analog Input
- 10 MS/sec, 12-Bit
- 3 MHz Bandwidth
- Max. Input Voltage (DC + ACpeak): 600V / 200V
High Resolution 1 MS/s 16-Bit Isolation Module
- 2-Channel Analog Input
- 1 MS/sec, 16-Bit
- 3 MHz Bandwidth
- Max. Input Voltage (DC + ACpeak): 600V / 140V
- High Sensitivity Range (10 mV), Low Noise (±100 µVtyp)
4-Channel 10 MS/s 16-Bit Isolation Module
- 4-Channel Analog Input
- 10 MS/sec, 16-Bit
- 3 MHz Bandwidth
- Max. Input Voltage (DC + ACpeak): 600V / 200V
4-Channel High-Resolution 1 MS/s 16-Bit Isolation Module
- 4-Channel Analog Input
- 1 MS/sec, 16-Bit
- 300 kHz Bandwidth
- Max. Input Voltage (DC + ACpeak): 600V / 200V
General Purpose 10 MS/s 12-Bit Non-Isolation Module with AAF
- 2-Channel Analog Input
- 10 MS/sec, 12-Bit
- 3 MHz Bandwidth
- Max. Input Voltage (DC + ACpeak): 600V / 200V
High-Voltage 1 MS/s 16-Bit Isolation Module
- 2-Channel Analog Input
- 1 MS/sec, 16-Bit
- 300 kHz Bandwidth
- Max. Input Voltage: 1000V (Direct Input)
16-Channel General Purpose Module
- 16-Channel
- Isolated (GND-Terminal), Non-Isolated (CH-CH)
- 10 kS/s on All Channels or 200 kS/s Single-Channel
- Max. Voltage Per Channel (DC + ACpeak): 42V
Temperature & Universal Voltage Module with AAF
- 2-Channel
- Universal Module (with Anti-Aliasing Filter)
- 12 Thermocouple Types Supported
High Precision 500 S/s Voltage & Temperature Module
- 2-Channel
- 12 Thermocouple Types Supported
- High Sensitivity Range (1 mV) & Low Noise (±4 µVtyp)
High Precision 125 S/s Voltage & Temperature Module
- 2-Channel
- 16-Bit, 125 S/s (Voltage) & 125 S/s (Temperature) Sample Rate
16-Channel Temperature & Voltage Module
- 16-Channel Voltage/Temperature Input Module
- Use with 701953 Scanner Box
701953 16-CH Scanner Box
- External scanner box for 720221 module
- Voltage or temperature measurement (scanner method)
- Thermocouple (K, E, J, T, L, U, N, R, S, B, W, Au-Fe-chromel)
DSUB Strain Module
- 2-Channel
- Strain Module with Shunt Calibration, Type DSUB
- Use with 701957 or 701958 DSUB Bridge Head
Accelerometer & Voltage Module with AAF
- 2-Channel
- Selectable Anti-Aliasing Filters
- Direct Accelerometer Excitation and Input
Frequency Measurement Module
- 2-Channel, Isolated
- 1 MS/s Sample Rate
- 420V Max Input with 10:1 Probe
- 0.01 Hz to 500 kHz Measurement Frequency
- Trend and Trigger on Frequency, RPM, RPS, Period, Duty Cycle, Pulse Width, Pulse Integration, and Velocity
Logic Input Module
- Two Ports, 8 Bits Each (16 Logic)
- Display Logic as Waveforms at 10 MS/s
- Compatible with 700986, 700987, 702911, 702912 Logic Probes
CAN Bus + LIN Monitoring Module
- Up to 60 Channels Per Port x2 Ports
- Decode CAN, CAN FD, and LIN
- Extract and Trend Serial IDs as Analog Waveforms
- Applicable to ScopeCorder Vehicle Edition
SENT Monitoring Module
- Decode SENT (SAE-J2716) Protocol Signals
- Display Physical Quantities from Output Sensors
- Applicable to ScopeCorder Vehicle Edition
720242 CAN/CAN FD Monitor Module
- CAN/CAN FD Monitor Module
- Decode the CAN/CAN FD-Bus signals, display information on physical data as analog waveforms, compare with sensor data
- DL850V & DL850EV, DL350 (/VE option), DL950 (/VCE option) ScopeCorder Vehicle Edition
720241 CAN/LIN Bus Monitor Module
- 720241 CAN/LIN bus monitor module
- Decode CAN or LIN-Bus signals
- Display physical data as analog waveforms
- DL850V & DL850EV, DL350 (/VE option), DL950 (/VCE option) ScopeCorder Vehicle Edition
701947 Isolated Probe 1000V / 200 MHz
- 1.5m Isolated Probe (ScopeCorder)
- DC to 200 MHz bandwidth
- 100:1 attenuation Isolated
- BNC connector type
- For ScopeCorder Isolated Modules
702902 Isolated Passive Probe 1000V / 60 MHz
Passive Probe, 1000V(DC+ACpeak) CAT II, 60MHz, 10:1, 10MΩ, 2.5m
Wide operating temperature range(-40 to 85°C)
For isolated BNC input modules for ScopeCoder series
700929 Isolated Passive Probe 1000V / 100 MHz
- Versatile 700929 passive oscilloscope probe
- 100MHz frequency bandwidth
- Isolated input module of ScopeCorder series
- For use with isolated BNC inputs
701940 Passive Probe 600V / 10 MHz
- 701940 Passive Probe
- 10 MHz, 10:1/1:1, 600 V (DC + ACpeak) CAT II, 1.5 m
- For ScopeCorder Non-Isolated Modules
701977 Differential Probe 7000 V / 50 MHz
- 701977 Differential Probe for Oscilloscope 7000 V / 50 MHz
- 50 MHz, 1000:1 / 100:1, Max.
- Differential Voltage: 5000 Vrms and 7000 Vpeak or less
701978 Differential Probe 1500 V / 150 MHz
- 701978 Differential Probe for Oscilloscope
- 1500 V / 150 MHz
- 500:1 / 50:1
- Max. Differential Voltage:±1500 V (DC + ACpeak)
701917 Current Probe 50 MHz / 5 ARMS
- 701917 oscilloscope current probe
- Frequency bandwidth: DC to 50 MHz
- Maximum continuous input range: 5 Arms
- Functions with Digital Oscilloscopes, ScopeCorders, other waveform measuring instruments
701918 Current Probe 120 MHz / 5 ARMS
- Yokogawa 701918 Current Probe
- Frequency bandwidth: DC to 120 MHz
- Maximum continuous input range: 5 Arms
- Functions with Digital Oscilloscopes, ScopeCorders, other waveform measuring instruments
701930 Current Probe 10 MHz / 150 ARMS
- 701930 Current Probe 10 MHz / 150 ARMS
- Powered by Yokogawa Digital Oscilloscopes, Scopecorders or external power supply
701931 Current Probe 2 MHz / 500 ARMS
- 701931 Current Probe 2 MHz / 500 ARMS
- Powered by Yokogawa Digital Oscilloscopes, Scopecorders or external power supply
701932 Current Probe 100 MHz / 30 ARMS
- 701932 Current Probe 100 MHz / 30 ARMS
- Powered by Yokogawa Digital Oscilloscopes, Scopecorders, or external power supply
701933 Current Probe 50 MHz / 30 ARMS
- 701933 50 by 30 current probe
- Powered by Yokogawa Digital Oscilloscopes, Scopecorders or external power supply
702915 Current Probe 50 MHz/ 0.5 ARMS, 5 ARMS, 30 ARMS
- 702915 Current Probe
- Freq bandwidth: DC to 50 MHz
- Maxi continuous input range: 0.5 Arms/ 5 Arms/ 30 Arms
- Digital Oscilloscopes, ScopeCorders, other waveform measuring instruments
702916 Current Probe 120 MHz/ 0.5 ARMS, 5 ARMS, 30 ARMS
Frequency bandwidth: DC to 120 MHz
Maximum continuous input range: 0.5 Arms/5 Arms/30 Arms
Functions with Digital Oscilloscopes, ScopeCorders and other waveform measuring instruments
720930 Clamp on Probe
The 720930 and 720931 passive clamp-on current probes allow current waveform readings directly via analog input modules on ScopeCorders using isolated BNC connections.
- AC 50 A
- 40 Hz to 3.5 kHz Bandwidth
720931 Clamp on Probe
The 720931 passive clamp-on current probe anables current waveform readings directly via analog input modules on ScopeCorders including the DL350 and DL850 using isolated BNC connections.
- AC 200 A
- 40 Hz to 3.5 kHz Bandwidth
AC/DC Split Core Current Sensor CT1000S
Industry leading high precision, high current AC/DC split core measurement. Compatible with power analyzers and waveform measurement instruments.
701934 External Probe Power Supply
- 701934 External Probe Power Supply
- Power supply for current probes, FET probes, and differential probes
- Supplies power for up to four probes, including large current probes
701901 BNC to Safety Banana 1.8m Cable, 1:1
- 701901 BNC to Safety Banana 1.8m Cable, 1:1
- 1000 Vrms-CAT II, 1.8 m long
- Safety BNC(male) to safety banana(female)
- 701959, 701954, 758921, 758922, 758929
758928 Pinchers tip (Hook type)
1000 Vrms CAT III, 1 set each of red and black
Equivalent to B9852MM (Color Black)
Equivalent to B9852NM (Color Red)
701954 Large Alligator Clip (dolphin type)
Set contains one black and one red clip.
1000 Vrms-CAT II.
758929 Large Alligator Clip Adapter 1000V
- Yokogawa 758929 Alligator Clip Adapter
- Rated at 1000V
- Attaches to 758917 test leads
- Sold in pairs black/red
758922 Small Alligator-Clip Adapter 300V
Rated at 300 V. Attaches to the 758917 test leads. Sold in pairs.
758921 Fork terminal adapter
- 758921 Fork Terminal Adapters
- For fitting a 4mm banana plug to a fork terminal
- One black and one red clip
- 1000 Vrms-CAT II
366926 BNC to Alligator 1m Cable, 1:1
- 1 m long BNC to alligator clip cable
- Only for circuits with voltage levels no greater than 42 V
366961 Banana to Alligator 1.2m Cable, 1:1
A subassembly of 1.2 m long test leads with alligator-clip adapters.
Use only for circuits having voltage levels no greater than 42 V.
Applicable for ScopeCorders.
701955/701956 NDIS Bridge Heads 120Ω/350Ω
- 701955 NDIS Bridge Head, Bridge resistance: 120Ω , 5m NDIS cable included
- 701956 NDIS Bridge Head, Bridge resistance: 350Ω , 5m NDIS cable included
701957/701958 D-Sub Bridge Heads 120Ω/350Ω
- 701957 and 701958 D-SUB Bridge Head
- Shunt calibration
- 5m DSUB cable included
- Bridge resistance: 120Ω
- Bridge resistance: 350Ω
758924 BNC to Banana Conversion Adapter
For conversion between BNC and female banana plug
Applicable for ScopeCorder modules with BNC inputs.
702911-702912 Logic Probe
8-bit, non-isolated, response speed: 3µs or less, treshold level approx 1.4V
702911: 1 meter cable, 702912: 3 meter cable
700986 Logic Probe
8-bit, non-isolated, response speed: 1µs, threshold level approx 1.4V
Two measurement leads (B9879PX and B9879KX) included.
700987 Logic Probe - Isolated Inputs
- 700987 Logic Probe - Isolated Inputs
- 8-bit, isolated, response speed: 1ms or less (DC), 20ms or less (AC), threshold level 6VDC, or 50VAC.
- 758917 and 758922, 758929, 701954
758917 Measurement Lead Set
- Set of 0.8m long red and black test leads
- Used with Power Analyzers and DMMs
- Used in combination with a pair of optional 758922 or 758929 alligator-clip adapters
- 1000 Vrms, 32 Arms CAT II
758933 Measurement lead
2 pieces (red and black) in 1 set
length: 1.00 m
Used in combination with the 701959, 758921, 758922, or 758929
Rating: 1000 V CAT III/19 A
701902/701903 Safety BNC to BNC Cable 1m/2m
- 701902/701903 Safety BNC to BNC Cable for oscilloscope
- Safe, high-voltage measurements with ScopeCorder isolated input modules
- 701902: 1000 Vtms-CAT II (BNC-BNC), 1 m
- 701903: 1000 Vrms-CAT II (BNC-BNC), 2 m
701948 Extension Clip Accessories
Connected to the 700929, 701947
Maximum input voltage: 1,000V (DC + ACpeak)
Length: 0.26m/0.3m/0.4m
701906 Long Test Clip
Set contains one black and one red clip
1000 Vrms-CAT II
2 pieces (red and black) in 1 set
Connected to the 758933, 758917, or 701901
Length: 0.3m
Applicable for DL750/DL750P, SL1000, SL1400
705926 Connection Cable for DA4, DA12, Scanner Box (701953)
Applicable for ScopeCorder and WT300 series.
A1002JC NDIS Connector for 701270
- Yokogawa Oscilloscope and ScopeCorder products
- A1002JC NDIS connector
- Direct connection to strain module 701270
366924 BNC to BNC 1m Cable
- 366924 BNC to BNC cable for oscilloscope
- 1m BNC wire
- Simultaneous measurement with 2 units
- Input external trigger signal
366925 BNC to BNC 2m Cable
BNC-BNC 2m. For connection to simultaneously measurement with 2 units, or for input external trigger signal.
701919 Probe Stand
- 701919 oscilloscope probe stand
- Flexible arm, heavy base to hold and stabilize 8-13mm probes
- Can simplify circuit board testing
720941 Optical Transceiver Module 1000BASE-SX SFP module 850 nm
For DL950,SL2000 multi-unit connection
720942 Optical Fiber Cord Multi mode optical fiber (LC-LC/3 m)
For DL950,SL2000 multi-unit connection, 3 m
Maximum power point tracking (MPPT) charge controllers play a crucial role in the optimization of renewable energy system efficiency and performance. Through dynamic tracking of a renewable energy source’s maximum power point, an MPPT controller enables more efficient energy harvesting, faster charging, and adaptability to changing environmental conditions.
ANIS8000APP02-01EN
- DL950
- Evaluating and designing the Electric Power Steering (EPS)
- Multi-channel simultaneous measurement
- Real-time calculation
ANIS8000APP04-01EN
DL950_Comprehensive_evaluation_of_vehicle_systems_using_real_signal
DL950_Evaluation_of_ECU_and_InverterMotor
- IS8000 Integrated Software Platform
- Measure current waveform using oscilloscope
【search key】DL9 ,DL95 ,DL
Brochures
- Versatility to discover more DL950 ScopeCorder/SL2000 High-Speed Data Acquisition Unit (8.7 MB)
- Plug-in modules specifications ScopeCorder series DL950/SL2000/DL850E/DL850EV/DL350/SL1000 (3.8 MB)
Instruction Manuals
- Model 709833 Additional Option License for the SL2000 User's Manual (344.4 KB)
- SL2000 High-Speed Data Acquisition Unit Getting Started Guide(with supplement) (11.0 MB)
- DL950 ScopeCorder, SL2000 High-Speed Data Acquisition Unit Features Guide & User's Manual (28.1 MB)
- DL950 ScopeCorder, SL2000 High-Speed Data Acquisition Unit Features Guide (9.8 MB)
- DL950 ScopeCorder, SL2000 High-Speed Data Acquisition Unit Operation Guide (3.7 MB)
- DL950, SL2000 Input Module User’s Manual (601.0 KB)
- DL950 ScopeCorder, SL2000 High-Speed Data Acquisition Unit User's Manual (18.6 MB)
- DL950 ScopeCorder, SL2000 High-Speed Data Acquisition Unit Request to Download Manuals (231.7 KB)
- DL950 ScopeCorder, SL2000 High-Speed Data Acquisition Unit Communication Interface User's Manual (3.4 MB)
Software
- IS8000 Integrated Software Platform
- IS8002CDV Classic Data Viewer
- ScopeCorder SDK (Software Development Kit)
- WDF File Access Library
- USB Drivers
- TMCTL
Firmware
Drawings
How-tos
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.
CAN Bus communication is widely used in the transportation industry where reliable transmission of data is paramount. Monitoring and recording these communications can be easier when using the proper instruments. In this video, a Yokogawa Test&Measurement Applications Engineer demonstrates how to setup the DL950 ScopeCorder to read the temperature of a motor drive alongside its voltage and current output.
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.
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.
Webinars
- 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
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:
