Yokogawa EJX210A Liquid Level Transmitter

The EJX-A series is Yokogawa’s premium performance line of DPharp transmitters. Released is 2004, it offers the performance and stability needed in demanding applications. The EJX-A series performance makes it the thoroughbred of the DPharp family of pressure transmitters.

The EJX210A is the flange-mount Liquid Level Transmitter in the series.

The EJX210A features include:

  • ± 0.075% Accuracy
  • ± 0.1% Stability per 1 year
  • 120 ms Response Time
  • Exida and TUV SIL2 / SIL3 Certified
  • LPS (Local Parameter Setting)
  • Signal Characterizer for the 4 to 20 mA output
EJX210A

Our Main Business on :EJA210E,EJX210A,EJXC40A,EJXC80A, EJAC80E (Diaphragm Seal),EJXC80A, EJAC80E (Direct Mounted),EJXC50A, EJAC50E…All the Yokogawa Pressure Transmitter we sell Made in Japan! 100% Original!

EJX210A Flange Mounted Differential Pressure Transmitter

The high performance flange mounted differential pressure transmitter EJX210A can be used to measure levels of densities of solidifying or precipitating liquids. EJX210A outputs a 4 to 20 mA DC signal corresponding to the measured differential
pressure.
Its highly accurate and stable sensor can also measure the static pressure which can be shown on the integral indicator or remotely monitored via BRAIN or HART communications. Other key features include quick response, remote set-up using communications,and diagnostics and optional status output for pressure high/low alarm. The multi-sensing technology provides the advanced diagnostic function to detect
such abnormality as an impulse line blockage. FOUNDATION Fieldbus and PROFIBUS PA protocol types are also available. All EJX series models in their standard configuration, with the exception of the Fieldbus and PROFIBUS types, are certified by TÜV as complying with SIL 2 for safety requirement.

Attachments

# File Description Date added File size Downloads
1 pdf EJX210A Flange Mounted Differential Pressure Transmitter EJX210A Flange Mounted Differential Pressure Transmitter
10/12/2017 16:47 3 MB 6