Micro Motion Model 9739 transmitter now with high speed signal processing provides performance improvements and a seamless upgrade for Coriolis transmitter installed base.
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Micro Motion Model 9739 transmitter now with high speed signal processing provides performance improvements and a seamless upgrade for Coriolis transmitter installed base
BOULDER, COLORADO (June 29, 2010) -- Emerson Process Management has upgraded the Micro Motion® 9739 transmitter to include multivariable-digital (MVD™) technology for faster performance and improved measurement accuracy. Existing users are supported with an easy-to-install retrofit kit that provides a convenient and cost-effective upgrade path.
MVD technology is high-speed signal processing, embedded in electronics, to deliver measurement accuracy in the toughest conditions. The front-end digital processing MVD technology offers dramatically reduced signal noise while delivering a faster response time to improve the overall measurement quality.
The RFT9739 transmitter is a popular and well established product with over 100,000 installed worldwide with various Micro Motion Coriolis sensors. The retrofit kit brings the many benefits of MVD technology to existing 9-wire Micro Motion Coriolis flow and density meters. The kit is easily installed in minutes, using the existing housing and without the need for any piping or wiring changes.
The new 9739 MVD retrofit kit has the same outputs as the previous RFT9739 transmitters and uses the same base housing providing a fast, cost-effective and convenient way to upgrade to MVD technology. Using an existing Micro Motion Coriolis sensor, an upgrade to the 9739 transmitter with MVD will deliver a 2x improvement in turndown for users.
The Micro Motion Model 9739 transmitter with MVD technology has ATEX, CSA-US, and UL approvals. The upgrade is available for field-mounted transmitters versions, housed in a NEMA 4X (IP65) enclosure. The 9739 transmitter with MVD technology is ideally suited for applications ranging from monitoring to process control.