OMD-740 Portable Oxygen Purity Analyzer, CE

Description

Description

The OMD-740 Portable oxygen purity analyzer combine a rugged anodized aluminum enclosure and an advanced set of electronic features including a smart MENU interface with our industry leading precision electrochemical oxygen sensor technology.  The result is a highly reliable and cost effective design with easy-to-use user interface.

  • Enclosure: Anodized Aluminum; Portable
  • Ranges: 0 – 100% & 50/70/80/90 – 100%
  • Resolution: 0.01 %
  • Input Power: 100 – 240 VAC w/ International Plug
  • Analog Output: 0 – 1V DC
  • Data Logging: Removeable USB Flash Drive
  • Optional Integral Sampling Pump

The built in smart MENU interface allow the user to fully configure the analyzer through the onboard MENU system.  No need for a complicated laptop or other control device to setup the analyzer in the field.

The analyzer comes standard with a 0 – 100% full scale range with a resolution of 0.01%. The analyzer can also be configured by the end user in the field for suppressed ranges of 50 – 100%, 70 – 100%, 80 – 100% and 90 – 100%. A removable USB flash drive for data logging via .CSV (Excel) file format. With an 8GB USB Flash Drive, you can data log for 1 minute intervals for about 50 years before running out of storage. The advanced set of electronic features and flexibility to easily access data allows this analyzer to be unmatched in the market.

The display of the analyzer is designed to be used in direct sunlight. No need to bring a shade or other method to see the screen.

The oxygen sensor used in the OMD-740 is based on the galvanic electrochemical fuel cell principal and is compensated for both pressure and temperature giving the user added accuracy. All oxygen sensors are manufactured in house by Southland Sensing Ltd. under a strict quality program.

The sensors are self-contained and minimal maintenance is required – no need to clean electrodes or add electrolyte.

Product Documentation

Product Documentation

OMD-740 Specification Sheet (PDF Download)