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<3. About Fieldbus>

3-1

IM 01C25R03-01E

3. About Fieldbus

3.1 Outline

Fieldbus is a widely used bi-directional digital

communication protocol for eld devices that

enable the simultaneous output to many types of

data to the process control system.

The EJX multivariable transmitter Fieldbus

communication type employs the specication

standardized by The Fieldbus Foundation, and

provides interoperability between Yokogawa

devices and those produced by other

manufacturers. Fieldbus comes with software

consisting of ve AI function blocks that enable the

exible implementation of systems.

For information on other features, engineering,

design, construction work, startup and maintenance

of Fieldbus, refer to “Fieldbus Technical Information”

(TI 38K03A01-01E).

3.2 Internal Structure of EJX

Multivariable Transmitter

The EJX Multivariable transmitter contains two

virtual eld devices (VFD) that share the following

functions.

3.2.1 System/network Management VFD

• Sets node addresses and Physical Device tags

(PD Tag) necessary for communication.

• Controls the execution of function blocks.

• Manages operation parameters and

communication resources (Virtual

Communication Relationship: VCR).

3.2.2 Function Block VFD

(1) Resource block

• Manages the status of EJX hardware.

• Automatically informs the host of any detected

faults or other problems.

(2) SENSOR Transducer block

• Converts sensor output to pressure, static

pressure, and capsule temperature signals,

and transfers to the AI function blocks and ow

transducer blok.

(3) FLOW Transducer block

• Accepts differential pressure, static pressure

and external temperature data from the

transducer block, calculates ow, and transfer

to the AI function block.

(4) LCD Transducer block

• Controls the display of the integral indicator.

(5) AI function block

• Condition raw data from the Transducer block.

• Output differential pressure, static pressure and

capsule temperature signals.

• Carry out scaling, damping and square root

extraction.

(6) SC function block

• Converts the input signal value based on the

segment table function.

(7) IT function block

• Integrates one or two input signals and outputs

the result.

(8) IS function block

• Selects one of multiple input signals according

to the specied selection method and outputs

the signal.

(9) AR function block

• Performs ten types of calculations on a

combination of two main input signals and three

auxiliary input signals.

(10) PID function block

• Performs the PID control computation based on

the deviation of the measured value from the

setpoint.