Electronics Instrumentation For Ion Trap Mass Spectrometers

Shankar, Ganesh Hassan

12 1900

The thesis aims at building an experimental setup for conducting the boundary ejection and resonance ejection experiments on wide variety of ion trap mass analyzers. The experimental setup has two parts namely power electronics circuits and mechanical assembly. The focus of the thesis is on the electronics hardware which provides various power sources required for the operation of ion trap mass spectrometer. The electronics circuits discussed in the thesis have better performance, flexibility and ruggedness compared to the existing setup. The traditional power supplies used in ion trap mass spectrometers are all linear supplies. But one major drawback of these supplies is the high power dissipation and consequently, the power efficiency degrades. We are trying to introduce switch mode power supplies to reduce the power dissipation loss and eventually increase the power efficiency. In the course of the work the following power supplies have been developed. The supplies are - 1.Constant current source, 2.Filament base, 3.gating power supply and pulsing circuit, 4.High voltage DC power supply and 5. High voltage RF generator.

Electronics - Instrumentation

Mass Spectrometers

Paul Trap Mass Spectrometer

Ion Trap Mass Spectrometer

Electronic Circuits

Cylindrical Ion Trap Mass Spectrometer

Switched Mode Power Converters

Ion Trap Mass Analyzers

Mass Spectrometry Application

Boundary Ejection

Resonance Ejection

Cylindrical Ion Trap (CIT)

Instrumentation

Performance Characterization Of A Cylindrical Ion Trap Mass Spectrometer

Chatterjee, Saikat

10 1900

The cylindrical ion trap (CIT) is made up of two planar endcap electrodes and a cylindrical ring electrode. The investigation of simpler geometries like CIT has been started off in recent years with a view towards miniaturization. As a step towards this, numerical studies on CITs were carried out in our laboratory. Here in this study, our motive is to characterize a CIT through experiments. We have designed a mass spectrometer where a CIT is used as the mass analyzer. The trap performance was observed by varying six parameters associated with our experiment. The parameters are (1) the ionization voltage, (2) the ramp time, (3) the ionization time, (4) the cooling time, (5) the dead time and (6) the bias voltage applied across the filaments. All the experiments have been performed in the mass selective boundary ejection mode.

Mass Spectrometers - Instrumentation

Cylindrical Ion Trap (CIT)

Ion Trap Mass Spectrometer

Paul Trap Mass Spectrometer

Paul Trap

Instrumentation