The DPS 600 Series GC systems are the world's only moduler GC systems. GC Modules can be mixed to and matched to make 100's of cost effective, application specific configurations for any GC method. With 7 detectors to choose from, on-Column or Split/Splitless injectors, and an Autosampler interface.
The DPS 600 Series GC Systems are new kindd of GC. They encompass a state of art space saving expandable chassis at their core. Our plug-and-play modular components allow for unprecedented performance, and yet all of our GC Systems are easier to build, maintain, and upgrade in the field.

The intelligence of the 600 Series GC Systems are locked safely in microprocessors, where our proprietary Digital Sample Processing routines control the temperatures and gas pressures to tighter specyfications than ever before.
The DPS 600 Series GC systems specifications are on par with biggest selling GC's in the market, yet they are smaller, lighter, faster, more intelligent, and have good pricing.

DPS 600 gas chromatograph plays a critical role in quality control of chemistry, medicine and food industries, and also applicable to quarantine, environment protection, quality supervision, oil, petrochemical industry, forensic analysis, agriculture and commodity inspection.

Published in Gas Chromatographs

The Companion GC is a portable gas chromatograph utilizing the same modular plug and play components, that are found in full size laboratory GC DPS 600. The performance of the Companion GC has not been compromised because of it's small size.

The DPS Companion GC System are a new breed of GC. They are the first portable GC, where you can select 1 of 5 avaible detectors, allowing you to do more work in the field than ever before. From environmental to forensic, and Homeland security to military applications.The intelligence of the DPS Companion GC Systems are locked safely in microprocessors, where our proprietary Digital Sample Processing routines control the temperatures and gas pressures to tighter specifications than ever before.

Published in Gas Chromatographs