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Power Boosters

Solartron Analytical

Power Boosters

For Solartron Analytical Potentiostats

Power boosters for single or multi-channel potentiostats from Solartron Analytical (Ametek). Run high performance electrochemical tests on ultra-low impedance energy storage devices and electrochemical cells.

  • Floating design – suitable for testing grounded cells
  • DC and impedance tests on short stack fuel cells and individual
    cells within the stack (depending on potentiostat auxiliary channel
    capabilities)
  • Range of models with 100 V / 25 A range
  • 100 kHz impedance measurement bandwidth for SOFC and high frequency applications
  • Controlled by the potentiostat automatically

Power Boosters High Power Boosters

Contact us for more information and quotes:
+44 (0)1223 422 269 or info@blue-scientific.com

Solartron Analytical Power Boosters

Applications

  • Energy sources for consumer devices
  • Fuel cells and supercapacitors
  • Battery research (Li-Ion and automotive)
  • Solar Cells
  • Electrochemical etching and electroplating

Benefits

  • Extensive range of DC tests and impedance analysis techniques
  • Automatically controlled and integrated with Solartron software
  • Choice of models with varying specifications
  • Floating design for grounded cells

DC Tests

Make use of an extensive range of DC techniques:

  • Potentiostatic / galvanostatic
  • Cyclic voltammetry
  • Ohmic drop / ESR equivalent series resistance analysis
  • High speed voltage / current pulse techniques (eg for testing GSM mobile phone and satellite communication energy storage devices)

Impedance Tests

These techniques are available, depending on the potentiostat and FRA:

  • Swept sine analysis – for ultimate accuracy and repeatability
  • Multi-sine / Fast Fourier Transform (FFT) – for fast impedance analysis
  • Harmonic and intermodulation analysis – for optimising
    stimulus levels and detecting noise / interference

With a frequency range of 10 µHz to 100 kHz, you can characterise a broad range of energy storage devices over their full frequency range.

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