Resources
V-OVG Data Sheet
The Owlstone V-OVG is a system for generating precise, repeatable trace concentrations of gases. By using permeation and diffusion tube technology, a range of concentrations from low parts per billion to high parts per million levels can be achieved. The large permeation oven allows the use of up to 6 permeation tubes to create multiple-component mixtures, or a diffusion tube to generate high ppm concentrations.
View resourceQuick Start Installation Guide for V-OVG
This document is a quick guide to help with installation of the V-OVG. This document is only a supplement to the V-OVG User Manual, which must be read before using the instrument.
View resourceGenSys User Manual
This user manual contains all the information you will need to initially install and run the Owlstone Gen-Sys system. Additional information and updates are available on the owlstone-inc.com website under Support in the main menu.
View resourceOVG-4 Technical Specification
The Owlstone OVG-4 is a system for generating trace concentration levels of chemicals and calibration gas standards.
View resourceUltrafast Differential Ion Mobility Spectrometry at Extreme Electric Fields in Multichannel Microchips
The maximum electric field intensity (E) in field asymmetric waveform ion mobility spectrometry (FAIMS) analyses was doubled to E > 60 kV/cm. In earlier devices with >0.5 mm gaps, such strong fields cause electrical breakdown for nearly all gases at ambient pressure.
View resourceRapid Thermal Modulation Ion Spectrometry (RTMIS) Part 1
Underlying Separation Principles and Model of Operation
View resourceOptimizing Ion Separators for DMS/FAIMS at Ultra-High-Fields
American Chemical Society Fall Meeting – Analytical Division, Conventional and Differential Ion Mobility Spectrometry - AM Session, Philadelphia, PA. August 20 2012
View resourceDevelopments in Ultra FAIMS Instrumentation for Standalone and Hyphenated Applications
Pittcon 2012, Orange County Convention Center, Orlando, Fl
View resourcePrecise determination of nonlinear function of ion mobility for explosives and drugs at high electric fields for microchip FAIMS
High-field asymmetric waveform ion mobility spectrometry (FAIMS) separates ions by utilizing the characteristics of nonlinear ion mobility at high and low electric fields.
View resource