Custom Power Supplies
Our designs are tailored for demanding applications in mass spectrometry. We understand that laboratory instruments require high stability and precision, you can count on a clean, quiet signal, low output ripple and solid state polarity switching in voltages up to 30 kV. We focus on designing and producing unique, custom power solutions in the smallest possible package to meet the needs of analytical instrumentation original equipment manufacturers.
Our patented CeraMAX™ ceramic channel electron multipliers have become the first choice ion detectors for mass spectrometry. The monolithic ceramic construction and advanced ion-optical design offers resounding improvements over conventional ion detectors.
Products for this Capability
Our analytical power supplies are designed for mass spectrometry to provide power to the channel electron multiplier’s high energy dynodes, and ionization sources, including electrospray, atmospheric pressure chemical ionization, etc. and can be customized for OEMs.
- Up to 15 kV dc output
- Unipolar and bipolar
- Adjustable output
- Solid state polarity switching
- Low output ripple
- High output voltage per volume
High Precision Series
Our high precision power supplies are designed for demanding applications where high stability and precision are important. Typical applications include: Time-of-Flight, Electrophoresis, Photomultiplier Tubes, Electron Microscopes, etc.
- 0-30kV dc output
- Stability less than 25 ppm/°C
- Ripple as low as 0.001% or better at full load
- Line & load regulations -0.001%
- Precision and current & voltage monitors
- Automatic polarity switching upon digital command
- Digital on/off control
- Programmable output voltage
- Customization available for OEM
Ion Detectors - CeraMAX™ Ceramic Channel Electron Multipliers
Our patented CeraMAX™ ceramic channel electron multipliers have become the ion detectors of first choice for mass spectrometry. The monolithic ceramic construction and advanced ion-optical design ensure the ultimate in signal-to-noise performance for the highest sensitivity and most repeatable analysis.
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