About fieldbus, 1 outline, 2 internal structure of dpharp – Yokogawa EJX930A User Manual

<3. About Fieldbus>

3-1

IM 01C25T02-01E

3. About Fieldbus

3.1 Outline

Fieldbus is a widely used bi-directional digital

communication protocol for field devices that

enable the simultaneous output to many types of

data to the process control system.
The transmitter of Fieldbus communication type

employs the specification standardized by The

Fieldbus Foundation, and provides interoperability

between Yokogawa devices and those produced by

other manufacturers. Fieldbus comes with software

consisting of three AI function blocks that enable the

flexible 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 DPharp

The transmitter contains two virtual field 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 transmitter 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.

(3) LCD Transducer block

• Controls the display of the integral indicator.

(4) AI1 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.

(5) PID function block

• Performs the PID control computation based on

the deviation of the measured value from the

setpoint.

3.3 Logical Structure of Each

Block

PID function

block

F0301.ai

DPharp

Fieldbus

System/network management VFD

Function block VFD

Link Master

PD Tag

Resource block

Block tag

Parameters

Communication

parameters

VCR

Node address

Function block

execution schedule

LCD

Transducer block

Block tag

Parameters

LCD

AR function

block

IS function

block

IT function

block

SC function

block

AI function

block

AI function

block

Sensor

input

Output

SENSOR

Transducer block

Block tag

Parameters

AI function

block

Block tag

OUT

Parameters

OUT_D

Sensor

Figure 3.1

Logical Structure of Each Block

Setting of various parameters, node addresses,

and PD Tags shown in Figure 3.1 is required before

starting operation.

3.4 Wiring System Configuration

The number of devices that can be connected to

a single bus and the cable length vary depending

on system design. When constructing systems,

both the basic and overall design must be carefully

considered to achieve optimal performance.