System architecture -7, Rosemount 5300 series, Reference manual – Emerson Process Management ROSEMOUNT 5300 User Manual

Reference Manual

00809-0100-4530, Rev BA
July 2009

2-7

Rosemount 5300 Series

SYSTEM
ARCHITECTURE

The Rosemount 5300 Series Radar Transmitter is loop-powered, and it uses
the same two wires for both power supply and output signal. The output is a
4-20 mA analog signal superimposed with a digital HART

®

or F

OUNDATION

™

Fieldbus signal.

By using the optional Rosemount 333 HART Tri-loop, the HART signal can
convert up to three additional 4-20 mA analog signals.

With the HART protocol multidrop configuration is possible. In this case,
communication is restricted to digital, since current is fixed to the 4 mA
minimum value.

The transmitter can be connected to a Rosemount 751 Field Signal Indicator,
or it can be equipped with an integral display.

The transmitter can easily be configured using a Rosemount 375 Field
Communicator or a PC with the Rosemount Radar Master software.
Rosemount 5300 Series transmitters can also be configured with the AMS

®

Suite and DeltaV™ software, and other tools supporting Electronic Device
Description Language (EDDL) functionality.

For HART communication a minimum load resistance of 250

 within the loop

is required.

Figure 2-5. HART system
architecture

4-20 mA/HART

Rosemount 751
Field Signal Indicator

Rosemount 375
Field
Communicator

HART modem

5300 SERIES

RADAR

TRANSMITTER

DCS

Rosemount
333 HART
Tri-Loop

3 x 4-20 mA

Rosemount Radar Master
or
AMS Suite

Integral
Display

Note! For HART communication, a
minimum load resistance of
250

 within the loop is required.