400 - 6361, 2-Ch, 2.8MS/s, AnyWave Control Unit

WaveMaster + AnyWave

BOLAB WaveMaster software and the BOLAB AnyWave control unit allow the control of power supplies as well as 4 quadrant amplifiers via the analog interfaces.

The powerful and easy-to-use BOLAB WaveMaster software is unique in the world. Without any knowledge in software development, designing ordinary and complex waveforms is very easy. A graphic waveform editor allows the generation

of individual curves in no time. Also, with tabular input, all types of waveforms can be produced instantly.

Data Sheet

SPECIFICATIONS

BOLAB WaveMaster Software

&

BOLAB AnyWave Control Unit

 

Generate Arbitrary Waveforms with standard power supplies and 4 quadrant amplifiers

 

BOLAB AnyWave Control Units 

  • Up to 2,8 MS/s sampling rate (approx. 330ns resolution)
  • 2 synchronous output channels
  • 16-bit resolution
  • Analog input channels
  • Almost endless data streams for waveform generation
  • No limitation as is the case with function generators
  • Trigger inputs / outputs for real-time actions (starting waveform / activating measurement)
  • 2 Channel Arbitrary Waveform Generation
  • Live Data Acquisition
  • Graphic / Tabular Waveform
  • Design Importing Real Waveforms (e.g. from Oscilloscopes)
  • Complete Standard Waveform Libraries
  • Protocol Report with Recorded Data
  • DLLs for Python, LabView, CANoe, etc.
Type Analog Output Sampling rate Number of Analogue outputs Analogue Input Sampling Rate
400 - 6212 250 kS/s 2 25 kS/s
400 - 6361 2,86 MS/S1) 2 300 kS/s

 1) When using one channel/waveform

 

General

The BOLAB AnyWave control unit controls all kinds of power supplies as well as 4 quadrant amplifiers via analog interfaces. It has two analog outputs to provide two waveforms synchronously to different power supplies / 4 quadrant amplifiers. Sampling rates of 2,8 MS/s, 16 bit and 250 kS/s, 16-bit units are available.

BOLAB’s AnyWave control unit provides a bandwidth of up to 300 kHz very easily.

Its internal memory is handled by a double buffer mode which provides endless data streams without any interruption! Waveforms of almost infinite lengths can be simulated. This provides the most advantage in comparison to any function generator solutions which are limited in their memory and speed due to their limited arbitrary function!

 

BOLAB WaveMaster Software 

  • Easy to use graphic waveform editor and tabular input
  • Reference waveform and data acquisition with live graphics
  • Including standard libraries for
    • LV124, VW 80000
    • LV148, VDA 320
    • LV123, VW 80300
    • GMW
    • JLR
  • Command library to build-up or for integration into automated test systems such as:
    • LabView
    • Vector CANoe (CAPL)
    • Vector via C# real time!
    • Python
    • C#
    • C++
    • ANSI C
    • MATHLAB
  • Simulation of imported oscilloscope signals
  • Protocol report with reference data and measurement

 

General 

 BOLAB WaveMaster software and the BOLAB AnyWave control unit allow the control of power supplies as well as 4 quadrant amplifiers via the analog interfaces.

 The powerful and easy-to-use BOLAB WaveMaster software is unique in the world. Without any knowledge in software development, designing ordinary and complex waveforms is very easy.

 A graphic waveform editor allows the generation of individual curves in no time. Also, with tabular input, all types of waveforms can be produced instantly.

 The simplicity of how fast oscilloscope data signals can be imported is exceptional. Reading ASCII and TDMS data files is also possible the same way.

 BOLAB WaveMaster Software allows generating analog signals for the power supplies and 4 quadrant amplifiers as well as for recording data for both voltage and current measurements to produce these synchronous and live in parallel to the reference waveform.

 Data generation and data acquisition were never that easy.

 

Easy to use – magic in its functionality!

 

BOLAB WaveMaster Software Remote DLLs 

With the BOLAB WaveMaster Software, remote DLLs are available for nearly all programming languages. With its command library, users can control the 4-quadrant amplifiers and power supplies perfectly. There is no need to handle hardware interfaces such as USB or LAN.

One command for each function handles all interfaces. Data files are sent to the instrument within milliseconds. No need to be concerned about memory space and resolution of the amplifiers and power supplies.

A simple “load” command calculates the best possible resolution for the waveform and sends data to the arbitrary unit. In every DLL (LabView- TM, Vector CANoe, C#, C++, ANSI C, Python, etc.), all commands are identical. This allows switching between programming languages very convenient.

Commands for creating waveforms from user programming surroundings are included as well. Variable waveforms for simulation of timely ramp increases, variation of frequency, and many other applications are typical test scenarios.

 

Tabular and Graphic Inputs 

Individual waveforms are easily generated in tabular and/or graphical spreadsheets. Sine, triangle, rectangle, and other possibilities allow user-defined waveforms generation instantly. 

Copy/paste functions, both inside the BOLAB WaveMaster Software as well as data exchanges from/to EXCEL, allow for endless possibilities. 

Hundreds of thousands of baselines can be maintained!

 

WYSIWYG (What you see is what you get) 

These waveforms are shown in their real-time and amplitude ratio. The display portrays an accurate rendition of the waveforms.

If changes are implemented in the waveform, the graphic display is instantly updated and shown with actual dimensions.

 

Database library for standards 

An existing large and constantly growing database library exists. Each waveform has its own file. At any time, files can be copied to other places. Individual database structures are also possible. 

Permanently latest updates and new standards can be downloaded from the web. 

BOLAB’s libraries are always kept up to date. Upcoming new standards do not need to be purchased since downloads will be available at no cost.

 

LV 124 / VW80000 2009 / 2013 / 2017 / … 

YES E-01 Long-term overvoltage
YES E-02 Transient overvoltage
YES E-03 Transient undervoltage
YES E-04 Jumpstart
YES E-05 Load dump
YES E-06 Superimposed alternating voltage
YES  E-07 Slow decrease and increase of the supply voltage
YES  E-08 Slow decrease, a quick increase of the supply voltage
YES E-09 Reset behavior
YES E-10 Short interruptions
YES E-11 Start pulses
YES E-12 Voltage curve with electric system control
YES E-13 Pin interruption
YES E-15 Reverse polarity
Accordingly, GS 95024MBN LV124 standards, etc. are also available.

LV 148 / VDA 320

2013 / 2014 / … 

YES E48-01a Long-term overvoltage
YES E48-02 Transient overvoltage
YES E48-03 Transient process in the lower operating range with limited function
YES E48-04 Recuperation
YES E48-05 Superimposed AC voltage
YES E48-06 Slow decrease and increase of the supply voltage
YES E48-07 Slow decrease, a quick increase of the supply voltage
YES E48-08 Reset behavior
YES E48-09 Short interruptions
YES E48-10 Start pulses
YES E48-15 Operation in the range without functional limitation
YES E48-16 Operation in the upper range with functional limitation
YES E48-17 Operation in the lower range with functional limitation
YES E48-18 Overvoltage range
YES E48-19 Undervoltage range

ISO 16750-2

2003 / 2006 / 2010 / 2011 / … 

YES 4.3.x Overvoltage Systems
YES 4.4.2 Superimposed altering Voltage
YES 4.5 Slow decrease and increase of supply voltage
YES 4.6 Slow decrease and increase of supply voltage
YES 4.6.2 Reset Behavior at Voltage Drop Code
YES 4.6.3 Starting Profile
YES 4.6.4 Load Dump
YES 4.7 Reversed Voltage
 

ISO 7637-2

2002 / 2004 / 2007 / 2011 / … 

  • Test Pulses 2b
  • Test Pulses 4 

Some waveforms and tests require additional hardware components. Please contact us for assistance.

 

LV 123 / VW80300 2014 / 2016 / … 

  VW80300 LV 123  
YES EHV-01 10.4.1 Operation within the regular HV operating voltage range
YES EHV-02 10.4.2 Operation within the HV overvoltage range
YES EHV-03 10.4.3 Operation within the HV Undervoltage range
YES - 10.4.4 Range of highly limited operating capability
YES EH-04 - Pre-Charging
YES EHV-05 10.4.5 Generated HV voltage dynamics
YES EHV-06 10.4.5 System HV voltage dynamics
YES EHV-07 - HV voltage dynamics of energy storage devices
YES EHV-08 10.4.6 Generated HV voltage ripple
YES EHV-09 10.4.6 System HV voltage ripple
YES - 10.4.7 Overvoltage
YES - 10.4.8 Undervoltage
YES EHV-10 10.4.9 Load dump all the way to HV voltage limit
YES EHV-10 - Load dump with the rapid rate of change
YES EHV-13 - HV service life

Accordingly, GS 95024 MBN LV124, Porsche standards, etc. are also available.

JLR EMC

2010 / 2013 / …

 

YES CI 210 Immunity From Continuous Power Line Disturbances
YES CI 220 Mode Characteristics
YES CI 230 CI 230 Immunity from Power Cycling
YES 4.6 CI 250 Continuous Disturbances
YES CI 250 Transient Sequence
YES CI 265  Waveform EFTBNRandom Sequence
YES CI 265 Waveform Random Crank
YES CI 270 Immunity to Voltage Overstress

 

GMW

2008 / 2014/ 2015 / … 

YES 8.2.1 Jump Start
YES 8.2.2 Reverse Polarity
YES 8.2.3 Over Voltage
YES 9.2.2 Power Supply Interruptions
YES 9.2.3 Battery Voltage Dropout
YES 9.2.4 Sinusoidal Superimposed Voltage
YES 9.2.5 Pulse Superimposed Voltage
YES 9.2.17 Stop-Start Crank Waveforms
YES 9.2.18 Switched Battery Lines

 

Other libraries available:

  • Hyundai
  • McLaren
  • PSA Peugeot - Citroen
  • Fiat
  • Ford
  • MAN
  • Renault
  • Toyota
  • Etc.

If any standard is not available in our library: 

We help and implement your standards and individual waveforms at no charge in only a few days! If technically feasible

Optional Expansion

LV 123 / VW 80300 Test Systems 

  • 15 KW – 200 KW systems
  • 15A … 660 A
  • DC … 200 kHz
  • Including Load Dump tests!
  • Automated Tests
  • Prepared for future waveforms due to individual waveform design graphically and tabular
  • Integration via DLL´s into programming languages

 

LV 124 / LV 148 / VDA 320 Test Systems

  • 500 W – 000 W systems
  • 15 A …660 A
  • Up to 100 V / µs
  • Starting with 1 kW, modularly extendable up to 18 kW
  • Automated tests
  • Additional hardware components for E-16, E-18, E-19, E-20, E-21, E-22 available

 

 

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