Measure and analyze a wealth of signals in real-time and speed up development and fault finding.
The DL850E ScopeCorder is a powerful portable data acquisition recorder and oscilloscope that can capture and analyze both transient events and trends up to 200 days. Using flexible modular inputs it combines measurements of electrical signals, physical (sensors) and CAN / LIN serial buses and is able to trigger on electrical power related and other calculations in real-time.
Flexible and Swappable Input Modules With Built-in Signal Conditioning
Choose from 17 types of input module and install up to 8 in a ScopeCorder at a time to configure a ScopeCorder up to 128 channels.
- Voltage & Currents
- Sensor Outputs
- Temperature, Vibration/Acceleration, Strain, Frequency
- Logic Signals & CAN / LIN
Precise Measurement of Fast Switching Signals Even in the Harshest Environments
Real-Time Evaluation of Dynamic Behavior within Power Applications
A Trustworthy Measurement Platform for Durability Testing
Fast and Large Acquisition Memory
- Standard memory 250MPoint
- Expanded memory 1GPoint (/M1 Option)
- Expanded memory 2GPoint (/M2 Option)
Giga Zoom Engine II
Zoom into 2 Billion samples in just a blink of the eye. Each ScopeCorder is equipped with the revolutionary Giga Zoom Engine II, a powerful processor designed for optimizing access to data seamlessly. It is possible to activate 2 zoom windows while displaying the entire original signal.
A ScopeCorder provides a wide variety of unique acquisition features to handle small or large amounts of data. Therefore it can perform multi-channel measurements for longer measurement periods while still being able to precisely capture transient events with the highest detail.
Reduce time spend on fault finding or transient analysis - simple & enhanced triggers
Having the possibility to set individual triggers on multiple channels provides the power to investigate what causes a particular transient event. Moreover, the availability of a large acquisition memory, and thus longer measurement time, helps the analysis of the effect of such an event on other parts of the application.
Wave Window Trigger
The ideal trigger for AC power line monitoring. Easily capture voltage sags, interfering impulses, phase shifts or drop outs.
Action on trigger
Leave a ScopeCorder unattended and automatically save the waveform to a file or send an email for notification of a trigger event.
Capture High-Speed Transients During Long Term Recording - Dual capture
To visualize long term trends for durability testing, data is typically acquired at lower speed sample rates. On the other hand, suddenly-occurring transitional phenomena have to be captured at high-speed sample rates and detail to be able to investigate the event. The "Dual Capture" function uniquely resolves these conflicting requirements by recording at two different sampling rates.
Set waveform triggers and capture 5,000 high-speed transient events at sample rates up to 100 MS/s, while at the same time continuously record trend measurements at up to 100kS/s.
Recall waveform events - History Memory
When an abnormal phenomenon is spotted during a repetitive high speed measurement, the anomaly has often already disappeared from the screen by the time the measurement is stopped. With a ScopeCorder the "History" function is always active and automatically divides the available acquisition memory in up to 5,000 "history waveforms".
These history records are easily accessible and can be displayed simultaneously after measurement is stopped. Using condition-based searches inside the history memory, users can quickly isolate individual waveforms records. Once the required waveforms have been identified they can be used for further analysis.
Using cursors is a quick and easy method to measure waveform parameters on the screen. Available cursors are horizontal, vertical, marker, degree or combined horizontal & vertical.
Automatic Waveform Parameter Measurement
The parameter measure function is the most precise method for automatically calculating any or all of the 28 different waveform parameters such as, amplitude, peak to peak values, RMS, rise time, frequency and more.The internal time clock (date and time) can be synchronized and adjusted across multiple units. Applications are likely to include synchronizing the ScopeCorder at a windmill farm, finding faults in power grids, and more.
With this powerful analysis function, the ScopeCorder measures selected parameters individually for each waveform cycle and provides statistical information which can easily be saved to a file. By selecting maximum or minimum values from the results, the instrument can automatically zoom into the selected waveform cycle for further analysis, potentially saving additional data analysis time.
Real-time hard disk recording
Use a ScopeCorder as a measurement platform for simple durability testing up to 200 days. Realtime hard disk recording enables measurement data to be streamed directly to either a built-in hard drive (/HD0 option) or via the eSATA interface (/HD1 option) to an external hard drive.
Continuous PC based data acquisition - ScopeCorder Acquisition Software
Especially for longer duration or surveillance testing the ScopeCorder comes with an easy to setup acquisition software. The software enables continuous data recording to a PC hard drive. When using the software in free run mode there are virtually no restrictions in recording time and/or file size. Just click the start button to immediately start measurements!
The Setup Wizard Makes It Easy
Guided by four screens, the Setup Wizard easily guides you through the necessary settings for configuring the acquisition system such as measurement settings, data save and display options.
GPS Time Synchronisation
The ScopeCorders internal clock and the sampling clock can be time synchronized with a GPS clock reference using the /C20 or /C30 option. This allows multiple units to be synchronised in order to combine measurements from different remote locations with most accurate timing. Applications are likely to include synchronising the ScopeCorder measurements at a windmill farm, finding faults in power grids and railway applications. Measurement files from multiple ScopeCorder units can be merged into one measurment overview using Xviewer software.
GPS Interface (/C30 option)
A GPS antenna (included with the option) can be directly connected to the ScopeCorder side panel.
The instruments time clock and the sampling clock will be synchronized to the GPS clock with ±200ns accuracy.
IRIG interface (/C20 option)
An IRIG time code signal generated by an external GPS clock device (not included) can be offered to the ScopeCorder.
Powerful Real-Time Calculations and Analysis Functions
By default the ScopeCorder is equipped with a set of basic arithmetic mathematical functions such as addition, subtraction, division, multiplication, fast Fourier transformation and other computations. Furthermore to really enrich the measurement and analysis capabilities of a ScopeCorder, several real-time options are available.
Real-Time Measurement of Electrical Power - /G5 option
Trend calculations such as active power, power factor, integrated power and harmonics, using a dedicated Digital Signal Processor (DSP) that is able to calculate and display up to 126-types of electrical power related parameters in real-time. This enables the user to display raw waveform signals such as voltages and currents along with power calculated parameters and even the capability to trigger on all of them. Data updating rate up to 100kS/s. Trend waveforms of each order of harmonics, bar-graphs and vector displays can be displayed. Both RMS and Power analysis modes are available. Besides the powerful power calculations, the /G5 option also contains all the functionality of the /G3 option.
Real-Time Mathematical Computations and Digital Filtering - /G3 option
Armed with a dedicated digital signal processor the ScopeCorder can perform mathematical calculations such as arithmetic operators with coefficients, integrals and differentials, and higher order equations on acquired measurement data. The results of these calculations are displayed during waveform capture in real-time. In addition to mathematical operators, steep digital filters can also be selected to isolate or trigger on the amplitude of certain frequency components.
User defined computations - /G2 option
With user defined computations it is possible to create equations using a combination of differentials and integrals, digital filters, and a wealth of other functions. Moreover it is possible to perform various types of FFT analysis using two FFT windows. In applications such as vibration and shock tests, you can easily evaluate abnormal vibrations while simultaneously measuring other signals.
Application Example | With FFT
CAN and LIN Bus Monitoring
Use a ScopeCorder to decode the CAN or LIN-Bus signals and display information on physical data like engine temperature, vehicle speed and brake-pedal position as analog waveforms and compare this with the data coming from real sensors.
Battery Powered Operation - /DC option
In addition to AC power, it is also possible to take the ScopeCorder Vehicle Edition in a vehicle and power the unit from the vehicle's DC battery. The DC power option allows AC and DC power supplies to be used together to ensure a highly reliable power source. If the AC power goes down, the DL850EV instantly switches to the DC supply without interrupting the measurement.
- DC power (10 - 18V)
- AC power (100 - 120V / 200 - 240V)
Flexible operation and a variety of connection interfaces
A ScopeCorder has been designed to grant users access to functionality in the field quickly and easily using the front panel menu buttons. For users that prefer workbench operation it is possible to connect a USB mouse or keyboard.