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World innovation: AD-converter ADCstamp


Measurement technology innovation and Messweb Masters Award winner 2024!

Worlds first ADCstamp® - The AD converter stamp for dataaquisition for easy design-in for system developers

Are you looking for a compact modular system for the simple development of high-performance DAQ (Data Acquisition) systems? With our latest measurement technology innovation ADCstamp, we offer you the perfect solution for your measurement task!

The module is particularly suitable for precise measurements of electrical signals and the monitoring of high-speed processes, in addition to many other possible applications.

The ADCstamp is the ideal module (AD-SystemOnModule) for all developers who, for example, need to integrate fast precision measurement inputs into an existing or new FPGA/CPU design for the power analysis of electric motors without having to deal with the challenges of the analog and digital measurement channel.

The 2kV galvanic isolation ensures maximum safety in all high-voltage applications. Clear design specifications, FPGA source code examples and complete FPGA starter kits allow commissioning in just a few minutes.

In short, the ADCstamp offers maximum precision, fast response times and reliable measurements - a revolutionary solution for science and technology.

With this innovation, we offer all hardware developers direct and easy access to our outstanding technology, which we have been successfully marketing for many years in the form of our own measuring devices.

Click here to watch a short presentation of ADCstamp by our expert and managing director Michael Tasler

 

Technical specifications:

  • Up to 4 MHz sampling rate - for fast signal acquisition
  • 24-bit AD conversion - for high-precision measurements
  • High-precision input amplifier with less than -96 dB noise and less than -90 dB distortion
  • Switchable measuring ranges from ± 1 to ± 1 500 V
  • Bandwidth: DC to 1.7 MHz - ideal for a wide range of applications
  • Effective number of bits (ENOB): 14.8 - for maximum measurement accuracy
  • Various input types can be connected (AC/DC, unipolar, bipolar, single-ended, differential-ended)
  • AC/DC coupling
  • ICP (IEPE) sensor supply
  • Strain gauge amplifier as add-on board
  • Switchable anti-aliasing filter
  • 10 to 16 V DC, 2 W supply voltage
  • 2 kV galvanic isolation, less than 10 pF stray capacitance - for interference-free measurements in high-voltage applications
  • 1000V CAT II with reinforced insulation - protection against high voltages
  • Insulation up to 6000V voltage peaks - for maximum safety
  • 1.8 to 3.3 V FPGA/CPU interface, Verilog and VHDL sources available
  • I2C interface including 8 kB flash - for calibration and user data
  • Dimensions: 68.0 x 25.4 x 12.0 mm
  • FPGA source code examples - for uncomplicated implementation
  • FPGA starter kits for a quick start or as the centerpiece of your own product line:
    • USB 3 Host Port
    • USB 3 Device Port, Gigabit Ethernet, IEEE1588 (PTP)
    • 2 x CAN, EtherCat, ToD, etc.

 

Schematic representation of a system implementation of the ADCstamp®

Advantages of the ADCstamp®

  • Integrates into ALL existing system environments
    • Small footprint compared to conventional modules
    • Various input types can be connected
    • Several modules can also be used as a multi-channel application
  • Uncomplicated & very quick entry
  • Outstanding measurement technology
  • Protection against external interference & assurance of measurement quality
  • Covers all areas from signal conditioning to signal conversion and signal processing
  • Developers can focus on other tasks
  • Can be used flexibly in a wide variety of design tasks
  • Can also be used as a multi-channel application
  • Ideal for power analysis of electric motors, acoustic research and industrial high-speed measurement

 

Fields of application

Imagine you are working in a state-of-the-art research laboratory developing new sensor technologies. You are faced with the challenge of carrying out extremely precise measurements of electrical signals generated by these sensors. This is where our ADCstamp comes into play. With its 24-bit AD conversion and high sampling rate of up to 4 MHz, you can digitize the analogue signals captured by the sensors with exceptional accuracy.

In addition, you need a fast response time to capture changes in real time. The high sampling rate of the ADCstamp allows you to collect data fast enough to respond to events that happen in micro-seconds. This is a particularly important key factor in applications such as the monitoring of high-speed industrial processes.

Another example could be the use of the ADCstamp in acoustic research, where data needs to be analyzed with the highest precision. Thanks to the ADCstamp's flat bandwidth, which ranges from DC to 1.7 MHz, both very low frequencies and signals in the higher frequency range can be captured without compromising the quality of the measurement.

The galvanic isolation of the ADCstamp protects your measurements from electrical interference that could distort the data. This is particularly useful in environments with high electrical noise, such as near powerful motors or transmitters.

In summary, the ADCstamp offers a versatile and precise solution for a wide range of measurement tasks. Whether in research, industry or other technological fields, the ADCstamp allows you to push the boundaries of precision measurement and is helping to revolutionize the world of data acquisition.

Customers

  • Test bench builder
  • Solution provider
  • System designers
  • Developers / students / research groups

Messweb Masters Award 2024

Our customers and the experts in the measurement technology industry are convinced: Our ADCstamp won the award in the “Measurement Technology” category at the “messweb masters 2024”. More information.

Here you can find the ADCstamp on Induux:

Link to Induux