Category: YOKOGAWA

 FEATURES

●    FCN-based    Turbomachinery    Controller

The FCN autonomous controller can be applicable to a variety of processes from sequence control processes to

analog control processes. A wide variety of types of I/O modules are supported and a flexible system configuration

can be selected according to purpose.

Applying an FCN-based turbomachinery controller to the control of generator turbines or other turbomachinery such

as compressors also enables control of their ancillary facilities.

The CPU module, power supply, and communication can be made redundant for applications that require high

reliability.

●    Turbomachinery    I/O    Modules

Combined use of an FCN autonomous controller and turbomachinery I/O modules makes it possible to control and

protect turbomachinery such as turbines and compressors. With the STARDOM turbomachinery controller, a flexible

system can be constructed according to the scope of control and the installation space.

Of the turbomachinery control and protection functions, processing that requires high speed response is carried out by

the turbomachinery I/O modules. There are two types of turbomachinery I/O modules: a servo module that performs

high speed servo control in a cycle of 5 ms and a high speed protection module that performs a high speed protection

action in a fast scan (5 ms) or a standard scan (10 ms).

    FUNCTIONS

The primary functions of a turbomachinery controller comprise of regulatory control of the turbomachinery speed,

load, and fluid pressure, and so on, and protection of the turbomachinery from anomalies. Control and monitoring of

ancillary facilities can also be added if necessary.

●    Configuration    Types

There are two types of configuration for the STARDOM turbomachinery controller.

Type 1: Configuration with a FCN-RTU

Type 2: Configuration with a FCN-500

OVERVIEW

The General Specifications (GS) describe the features, functions, system configuration examples, engineering

environment, software operating environment, hardware configuration, installation environment, and compliant

standards of a turbomachinery controller using the STARDOM FCN autonomous controller, and outline the functions

of turbomachinery I/O modules.

As for the FCN, refer to “FCN-RTU Low Power Autonomous Controller Hardware” (GS 34P02Q13-01E), “FCN

Autonomous Controller Hardware (FCN-500)” (GS 34P02Q14-01E), “FCN-RTU Low Power Autonomous Controller

Functions” (GS34P02Q02-01E) and “FCN Autonomous Controller Functions (FCN-500).” (GS34P02Q03-01E)

 CONFIGURATION

FCN-RTU consists of the following modules:

• Base module (NFBU050.NFBU200)

• Power supply module (NFPW426.NFPW444)

• CPU (with built-in I/Os) module (NFCP050)

Short type  (NFBU050)

F01E.ai

Long type  (NFBU200)

F01cE.ai

• Additional I/O modules (up to eight modules can be mounted on a base module)

There are two types of base module.

Short type : Configuration with a NFBU050 base module (short)

Long type : Configuration with a NFBU200 base module (long)

The following table shows a list of the functions of each configuration.

I/O MODULES

An autonomous controller FCN-RTU supports the following I/O modules and

up to eight of them can be installed on it.

For details, refer to the following General Specifications.

• GS 34P02Q31-01E Analog I/O Modules

• GS 34P02Q35-01E  Digital I/O Modules

• GS 34P02Q55-01E  Foundation fieldbus Communication Module

• GS 34P02Q57-01E  PROFIBUS-DP Communication Module

• GS 34P02Q58-01E  CANopen Communication Module

 GENERAL

This document describes the general specifications of

the FCN-RTU low power autonomous controller with

NFCP050 CPU module.

For functions, refer to “FCN-RTU Low Power

Autonomous Controller Functions” (GS 34P02Q0201E).

 FEATURES

• High performance and low power consumption

modular controller

• Memory with ECC.

• FCN-RTU can be used wide temperature range and

high altitude place.

• Analog and digital I/Os adequate for gas/oil wellhead

control built in CPU module

• Four serial ports for plural communications built in

CPU module

• Up to eight additional I/O modules (with NFBU200)

• Wide voltage range (10 to 30 V DC input) power

supply module (NFPW426)

• Power supply module can be duplexed (NFBU200

with NFPW444)

• Low heat dissipation eliminates the need for a fan

• A wealth of RAS features — CPU self-diagnostics,

temperature monitoring, I/O diagnostics, and more

• Additional I/O modules (except CPU embedded I/Os)

hot-swappable

 FEATURES

l High Performance

• Applicable to a variety of processes, from sequence

control processes to analog control processes.

• Inter communication with other autonomous

controllers or other equipment for inter-linked control

actions, in addition to stand-alone operation.

• Using Versatile Data Server Software (VDS) or

Supervisory Systems (FAST/TOOLS) together allows

a system with enriched operation and monitoring

functions to be built up.

• An FCN/FCJ OPC server for Windows can be used

for accessing the data of an FCN/FCJ from an OPC

(OLE for Process Control) client on a PC.

• Java-enabled — enables users to implement various

applications, including displaying images on a Web

browser, saving data files, transferring files using the

FTP protocol, sending/receiving e-mails and public

network connection using the PPP protocol.

With InfoWell, applications such as web browsers

and  e-mail communications can be utilized without

programming.

l High Reliability

• RAS features (CPU self-diagnostics, temperature

monitoring, I/O diagnostics, and more)

• Memory with error-correcting code (ECC)

• Low heat dissipation, eliminating the need for a

cooling fan

• The Ethernet control network, CPU, power supply

module, and SB bus (FCN local bus) can all be

duplexed for an FCN-100.

• The control network can be duplexed for an FCJ.

l Engineering Efficiency

• Five IEC 61131-3 compliant programming languages

are supported, enabling the user to selectively use

these languages according to their purposes of use

and applications.

• Control logic can be encapsulated into software

parts for reuse, allowing efficient and quality system

configuration.

• Application Portfolios packed with Yokogawa’s

application expertise, enable easy implementation of

advanced functions, including control-loop instrument

blocks and communication with non-Yokogawa PLCs.

l Easy Maintenance

• Online download function allows a control application

to be modified during system operation

• All modules are hot-swappable with an FCN-100.

 GENERAL

This document describes the system configurations,

development/maintenance, software configurations,

network and specifications, for two types of

autonomous controllers in the STARDOM: FCN with

NFCP100 CPU module and FCJ.  (FCN is an acronym

for field control node, and FCJ for field control

junction.)

Notation in this document:

• The term “FCN” refers to the module consisting type

autonomous controllers.

• The term “FCN-500” refers to the autonomous

controllers with NFCP501/NFCP502 CPU module.

• The term “FCN-100” refers to the autonomous

controllers with NFCP100 CPU module.

• The term “FCN-RTU” refers to the low power

autonomous controllers with NFCP050 CPU module.

• The term “FCJ” refers to the all-in-one type

autonomous controllers.

FCN-100 is a controller module consisting of CPU, I/O,

and other modules as necessary.  It supports a variety

of I/O modules, provides a highly reliable system with

duplexed power supply, CPU and control network

options as well as superb scalability.

For hardware details, refer to FCN Autonomous

Controller Hardware (FCN-100), GS 34P02Q12-01E.

 CONFIGURATIONS

l    System    Configurations

FCN-500 is locally mounted controllers to allow diverse

systems to be configured according to the individual

users’ work sites; however, the possible system

configurations can be broadly divided into three types:

• A system consisting of a standalone FCN-500

• A system in which FCN-500s are connected to

each other through the control network and perform

interlinked actions (up to a total of 15 FCNs and FCJs

can intercommunicate with one FCN/FCJ).

• A system in which one or more FCN-500s are

interlinked with VDS, FCN/FCJ OPC Server or FAST/

TOOLS.

VDS and FCN/FCJ OPC server, FAST/TOOLS can

be connected up to 8 units in total. The FCN/FCJ

OPC server counts as 2 units because the DA server

and AE server operate. The FAST/TOOLS with

duplexed network counts as 2 units.

Development    and    Maintenance    of    FCN-500

A PC/AT-compatible computer is used for development

and maintenance of applications for an FCN-500.

Resource Configurator is a tool program to be installed

in the computer used for maintenance, and is used to

make the FCN-500 hardware settings.

The user can access FCN-500s via a Web browser

from a PC to make detailed settings for the network

and so on, and to perform maintenance operations

such as database backup and restoration.

Logic Designer is a tool program for the development

of control applications (IEC 61131-3) for an FCN-500.

Logic Designer requires a license to run.

 FEATURES

l High Performance

• Applicable to a variety of processes, from sequence

control processes to analog control processes.

• Intercommunication with other autonomous

controllers or other equipment for inter-linked control

actions, in addition to stand-alone operation.

• Using Versatile Data Server Software (VDS) or

SCADA Software (FAST/TOOLS) together allows

a system with enriched operation and monitoring

functions to be built up.

• An FCN/FCJ OPC server for Windows can be used

for accessing the data of an FCN/FCJ from an OPC

(OLE for Process Control) client on a PC.

• Duolet application is Java language application and

enables users to implement the following functions

on FCN-500; displaying images on a Web browser,

saving data files, transferring files using the FTP

protocol, sending/receiving e-mails and public

network connection using the PPP protocol.

l High Reliability

• RAS features (CPU self-diagnostics, temperature

monitoring, I/O diagnostics, and more)

• Memory with error-correcting code (ECC)

• Low heat dissipation, eliminating the need for a

cooling fan

• The Ethernet control network, CPU, power supply

module, and E2 bus/SB bus (FCN local bus) can all

be duplexed for an FCN-500.

l    Engineering    Efficiency

• Five IEC 61131-3 compliant programming languages

are supported, enabling the user to selectively use

these languages according to their purposes of use

and applications.

• Control logic can be encapsulated into software

parts for reuse, allowing efficient and quality system

configuration.

• Application Portfolios packed with Yokogawa’s

application expertise, enable easy implementation of

advanced functions, including control-loop instrument

blocks and communication with PLCs.

l Easy Maintenance

• Online download function allows a control application

to be modified during system operation

• All modules are hot-swappable with an FCN-500.

GENERAL

This document describes the system configurations,

development/maintenance, software configurations,

and network specifications for the FCN autonomous

controllers with NFCP501/NFCP502 CPU module in

the STARDOM. (FCN is an acronym for field control

node.)

Notation in this document:

• The term “FCN” refers to the module consisting type

autonomous controllers.

• The term “FCN-500” refers to the autonomous

controllers with NFCP501/NFCP502 CPU module.

• The term “FCN-100” refers to the autonomous

controllers with NFCP100 CPU module.

• The term “FCN-RTU” refers to the low power

autonomous controllers with NFCP050 CPU module.

• The term “FCJ” refers to the all-in-one type

autonomous controllers.

FCN-500 is a controller consisting of CPU, I/O, and

other modules as necessary. It supports a variety of I/O

modules with excellent scalability. And, highly reliable

system can be configured with duplex power supply

modules, CPUs, control network system.

For hardware details, refer to FCN Autonomous

Controller Hardware (FCN-500), GS 34P02Q14-01E.

Building Automated Test System

Macro Programming

•  Build a simple auto-measurement system without an external

controller.

•  Easy to create test program by recording the user’s actual key

strokes and parameter selections.

Fast remote Interfaces

•  GP-IB, RS-232. and Ethernet (10/100Base-T) interfaces

•  Improve the testing throughput of test systems by the fast

measurement, command processing, and data transfer speed.

•  SCPI compatible commands and AQ6317 Emulation Mode

•  LabVIEW® Driver available

Easy to Keep Accurate

Ambient condition change, vibration and shock to an optical precision

product, like an optical spectrum analyzer, will effect the optical

components, and eventually degrade optical performance. Using

standard functions, The AQ6370C can maintain its high optical

performance within a couple of minutes so that you can quickly start

a measurement.

Built-in wavelength reference source

The AQ6370C comes equipped with a wavelength reference source

for the wavelength calibration and optical alignment.