Tag: Yokogawa

FCN/FCJ Autonomous Controller Functions (FCN-100/FCJ) Yokogawa

 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.

l FCN-100

l FCJ

FCJ is an all-in-one controller with a built-in I/O interface — ideal for installing inside machine equipment as well as configuring a distributed system. Its control network can be duplexed. For hardware details, refer to FCJ Autonomous Controller Hardware, GS 34P02Q11-01E

 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 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.

 CONFIGURATIONS

l System Configurations Both FCN and FCJ are 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 or FCJ 

 • A system in which FCNs and/or FCJs 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 FCNs and/or FCJs are interlinked with VDS, FCN/FCJ OPC Server or FAST/TOOLS (up to a total of 4 VDSs, FCN/FCJ OPC Servers and FAST/TOOLS can be connected).

l Development and Maintenance of FCN/FCJ

A PC/AT-compatible computer is used for development and maintenance of applications for an FCN and FCJ. Resource Configurator is a tool program to be installed in the computer used for maintenance, and is used to make the FCN/FCJ hardware settings. The user can access FCN and FCJs 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 for an FCN/FCJ. Logic Designer requires a license to run. These tool programs are supplied on a DVD-ROM.

 SPECIFICATIONS

l CPU Function Specifications Execution Speed: Approx. 50 µs per kilosteps in an IL program Number of Control Applications: Max. 16 tasks Task Priority: Can be specified (in 16 levels) Task Execution Cycle: 10 ms or longer (by 10 msec. increments) l CPU Memory Capacity Control Application Capacity: Max. 3 MB (approx. 400 kilosteps in an IL program) Data Area (1): Max. 8 MB Retained Data Area (2): Max. 410 KB (3) Java Application Capacity: Max. 32 MB 1: 2: 3: The data is not retained when the power is off. The data is retained even if the power is off. The data is retained during a power failure (can be used to store tuning parameter settings for the control application). Retained Data Area for control application is Max 350 KByte.

l Network (Ethernet) Specifications

Application Ethernet is used as the control network, which can be dual redundant, connecting FCNs/FCJs with various PLCs, display units and VDS. FCNs/FCJs are developed and maintained via Ethernet as well.

l Network (Serial) Specifications Serial ports can be used to link diverse devices and controllers.

Communication portfolios facilitating interconnection with display units, various programmable logic controllers, temperature controllers, and power monitors are available via a serial port.

l Guideline of Control Application Capacity

a total of the following. (1) Function blocks (POUs) Up to 512 

 • Regulator control blocks (e.g., indicator blocks, controller blocks, and manual loaders): Up to 128

 • Others (e.g., calculation blocks, switch instrument blocks, and communication POUs): Up to 384 (2) Sequence program Up to 180 kilosteps in Ladder or up to 128 sequence tables each of which has 32 condition and 32 action rows. Example of a control application with the maximum size:

 • Inputs/outputs: 96 AIs, 32 AOs, 256 DIs, and 256 DOs 

 • PID loops: 32 

 • Sequence program: 128 sequence tables 

 • Control cycle: 1 second

l Specification of FCN-100 with Duplexed CPU Modules 

 • After a failure of the CPU in service, the stand-by CPU obtains the control right instantaneously and resumes control without any influence of the CPU switchover. • When additionally installing a CPU module to an FCN with a single CPU module to configure duplexed CPU modules, such as when replacing a failed CPU module, carry out the All-program-copy (APC) command for equalization between the CPU modules. It is also possible to run the APC command automatically after CPU replacement. When the APC command is running, the control period lengthens by a second or two only during its first cycle. (1) 

 • Synchronization is periodically performed between the in-service CPU and stand-by CPU. The total processing time is hence longer than that of an FCN 100 with single CPU. • If the control application comprises multiple tasks, those tasks cannot access the same global variable.

 • The CPU module’s serial port cannot be used. 

 • Java applications cannot be run. 1: If one of the two CPUs in dual-redundant configuration is not style-3 NFCP100 CPUs, the APC command cannot be started automatically. In this case, control stops when the APC command is running and the I/O modules operate in the same way as they do when the Fallback option (can be set to ‘hold the output’ or ‘output specified values,’ for example) is selected. l Online Download Function 

 • Online download function is a feature with which control applications can be modified while a control function continues in operation. • With this feature, I/Os, variables, data types, program codes, and libraries can be added, deleted or modified.

 • Modifying the control loop during system operation does not affect other control loops. Changing a range of control loop or loop connection causes the control loop to become the MAN mode. l Implementation of Java Virtual Machine 

 • WWW server functionality: download HTML files and Java applets to Web browsers and access data in FCN-100s and FCJs 

 • E-mail transmission/reception: send and receive e-mail using SMTP and POP3 protocols, respectively support the authentication function of SMTP servers (SMTP Authentication/Pop Before SMTP) 

 • FTP client/server functionality: transfer files to/from other networking systems 

 • PPP (Point to Point Protocol) functionality: exchange data with a PC or a cellular phone via the public network such as GPRS by connecting a modem to a serial port of FCN/FCJ support the client mode and the server mode unsupport FCN-100’s serial port on one of duplexed CPU modules.

l Time Synchronization Function FCNs/FCJs enable time synchronization among equipment supporting SNTP (Simple Network Time Protocol). An FCN/FCJ can operate as an SNTP server or as an SNTP client.

l Connection to Display Unit FCNs and FCJs can connect a display unit using FA M3 Emulation Function or Modbus Communication Portfolio.

 SOFTWARE FCN-100 and FCJ can simultaneously run IEC 61131-3-compliant control applications and Java applications. Ethernet driver Real-time OS Control execution engine Control applications Java Virtual Machine Java applications I/O driver FCN/FCJ I/O modules Figure Conceptual Diagram of FCN/FCJ Software Configuration l Licenses The following licenses are required to run an FCN-100 and FCJ. FCN/FCJ Basic Software License Available in two editions: License for single-CPU FCN-100 and FCJ, and license for duplexed-CPU FCN-100. To use the FCN/FCJ Java functions, enable Java in the FCN/FCJ application software. (See 1 below) 1: For dual-redundant CPUs, FCN/FCJ Java functions cannot be used. FCN/FCJ Application Portfolio License To use application portfolios for FCNs/FCJs, respective portfolio licenses are required. For details, see Application Portfolios for FCN/FCJ, GS 34P02P20-01E. l Logic Designer Logic Designer is a tool program that runs on a computer and is used for developing control applications as tasks for an FCN/FCJ. For details, see Logic Designer, GS 34P02Q01-01E. l FCN/FCJ Simulator The simulator is designed to run control applications, which are created using the Logic Designer, on a general-purpose PC. This simulator enables users to debug control applications without using an FCN/FCJ. For details, see Logic Designer, GS 34P02Q75-01E. l Resource Configurator Resource Configurator is a tool program that runs on a computer and is used for making basic settings in an FCN/FCJ, including:

 • IP address settings 

 • I/O module settings 

 • License settings 

 • Initial communication settings Note: Resource Configurator is included in the supplied media (DVD-ROM) containing the FCN/FCJ software, and does not require a license to run. l Application Portfolios An Application Portfolio is a bundle of useful software parts for FCN/FCJ, such as those for advanced control. Application Portfolios are offered as: For control logic: PAS Portfolio SAMA Portfolio For communication: FA-M3 Communication Portfolio MELSEC Communication Portfolio SYSMAC Communication Portfolio Modbus Communication Portfolio DNP3 Communication Portfolio Temperature Controller Communication Portfolio and many more multifunctional portfolios. For details, see Application Portfolios, GS 34P02P20-01E. l FCN/FCJ Java Application Development Kit The FCN/FCJ Java Application Development Kit is software for developing Java software applications which run on the FCN-100 or FCJ. For more details, refer to FCN/FCJ Java Application Development Kit, GS 34P02Q76-01E. l InfoWell InfoWell is designed to transfer control application data from FCN/FCJ via web screens or e-mail. This package does not require programming and enables data transfer via web screens or e-mail by simple settings. For details, see InfoWell, GS 34P02P51-01E. l FCN/FCJ IT Security Tool This IT Security Tool sets IT security compliant with other Yokogawa system products security policy. FCN/FCJ engineering tools support IT security. Note: The IT Security is not available either for Domain Management or for Combination Management in CENTUM VP. l Counter Measure against Wide Area Network connection It is necessary to install VPN and/or firewall as a counter measure against network risk from Wide Area Network connection. For details, refer to STARDOM Network Configuration Guide, TI 34P02K25-01E.

​ STYLES OF SOFTWARE SUPPLY l FCN/FCJ Basic Software License

 • The Logic Designer License comes with an order ID sheet with the order ID number and password. Access the specified Web site of Yokogawa and enter the order ID number and password shown. Then, a file containing the respective license IDs for the supplied software titles will be given. 

 • FCN/FCJ system card(s): Each basic software license comes with a system card for a single-CPU FCN-100 and FCJ, or two for a duplexed-CPU FCN 100. Install this card in an FCJ or in each CPU card for an FCN-100 for use.

Yokogawa PW481, PW482, PW484 Input Power Supply Module

n GENERAL

This General Specifications (GS) describes the hardware specifications of Power Supply Module. This model can be installed in Field Control Unit (FCU), FIO Node Unit or Optical ESB Bus Repeater Unit. Dual-redundant power supply can be configured by installing 2 modules.

n STANDARD SPECIFICATIONSS2]

Note: Other specifications are the same as that of FCU, FIO Node Unit and Optical ESB Bus Repeater Unit. Refer to “Installation Guidance” (TI 33J01J10-01JA). Note: The output voltage and current are not specified, because PW48

 cannot be used as a generic power supply module. PW48

 is an exclusive module for FCU, FIO Node Unit and Optical ESB Bus Repeater Unit.

n INSTALLATION

Power Supply Module(PW481, PW482, PW484) can be installed in the following units.

FCU: AFV30D, AFV30S, A2FV50D, A2FV50S, A2FV70D, A2FV70S FIO

Node Unit: ANB10D, ANB10S, ANB11D, ANB11S Optical ESB Bus Repeater Unit: ANT10U Base Plate: A2BE1D, A2BE2D

• Power Supply Module must be installed in slots P1-P2.

• In the case of single configuration, Power Supply Module must be installed in slot P1.

• Dual-redundant configuration is enabled by installing 2 identical modules with the same model code.

n ORDERING INFORMATION

 100 – 120 V AC Input Power Supply Module

 220 – 240 V AC Input Power Supply Module

 24 V DC Input Power Supply Module

n APPLICABLE STANDARDS

Refer to “Integrated Production Control System CENTUM VP System Overview (GS 33J01A10-01EN).

n ORDERING INFORMATION

Specify model and suffix codes. For selecting the right products for explosion protection, please refer to TI 33Q01J30-01E without fail.

n TRADEMARK ACKNOWLEDGMENT

The names of corporations, organizations, products and logos herein are either registered trademarks or trademarks of Yokogawa Electric Corporation and their respective holders.

FCN-100/FCJ миграция TI 34P02K71-01E Yokogawa

Introduction 

  About This Manual This manual describes the migration procedure from the data, control applications and Duolet(Java) applications on the NFCP100, to the NFCP500(NFCP501/NFCP502). For the sake of simplicity, this manual uses the least terminologies and the most basic functions. For more details on functions and specifications, please refer to other available documentation (IM, TI, GS or online help). 

  Organization of This Manual Chapter 1: Chapter 2: Chapter 3: Introduces the overview of migration, and flow of procedure. Introduces the steps to migrate on the target device directly. Introduces the procedure to migrate work in-house equipment in advance.

Overview

This chapter describes the migration procedure from the data and control applications on the NFCP100, to the NFCP501/NFCP502. First step, backing up, convert and restore the data on the controller by the command operation on the personal computer. Next step, migrate the control application for the NFCP100 (project on the Logic Designer), to for the NFCP501/NFCP502. And download to the NFCP501/NFCP502.

Backing up, Converting, Restoring Data

This section describes the command for backing up the data of the NFCP100, for converting it for the NFCP501/NFCP502, and for restoring it to the NFCP501/NFCP502. The converted file is shown below. – Retain saved file – Settings of the resource configurator – DUONUS.PRP Setting items that are not included in the NFCP100, will be the default value. If necessary, set it. 

– CPU duplex configuration – SNTP server 

– Ethernet port No.3 and No.4 for NFCP502 – SD card

● FcxBackup Command

This command backs up the target files from NFCP100 or NFJT100.  

● FcxConvert Command

This command converts the FcxBackup command output file to NFCP501/NFCP502 file.

● FcxRestore Command

This command restores (downloads) the FcxConvert command output file to NFCP501/ NFCP502.

● FcxSaveRetain Command

This command saves, acquires, restores, and clears the retained data.

In this TI, only clear option is used.  The command with  option clears the retain data on the SRAM.  This command is used together with the FcxRestore command to ensure that the backed up retained data is reflected in the SRAM.

● Folder configuration example

If you specify “C:\temp” to the destination folder of the conversion tool

Migrating the Control Application

This section describes procedure of migrate the control applications (project on the Logic Designer) for NFCP100 and NFJT100 to NFCP501/NFCP502.   In Section 2 or later describes the procedure of the case you do not extend retain data area fundamentally.

● Not expanding the retain data area (Migration) 

– If the PLC type is IPC_40, this control application (project) can be used by re-compiling without changing itself. 

– If the PLC type is IPC_32 or IPC_33, re-create the resource with IPC_40, and re compile. 

 ● Expanding the retain data area (Extend function) – If the PLC type is IPC_40, re-create the resource with “FCFX_B”/ “FCFX_C”, and re-compile. – If the PLC type is “IPC_32” or “IPC_33”, re-create the resource with “IPC_40” and “FCFX_B”, and re-compile.

● Using the RS-232-C port on the FCJ

Change the port name used in the application program. COM1: If you are migrating to COM1 of NFCP501/NFCP502, the application program about the communication of the COM1 port is not changed. If you are migrating to a port of the RS-232C communication module, change in the same manner as the COM2 in the next section. COM2: Migrate to a port of the RS-232C communication module. Set the Port name of RS-232C communication module (e.g.) RS02 in the resource configurator. Change “COM2” to (e.g.) “RS02” in the application program.

ZR22G, ZR402G разделенный анализатор оксида магния и кислорода / влажности

Introduction

Thank you for purchasing the ZR22G, ZR402G Separate type Zirconia Oxygen/Humidity Analyzer. Please read the following respective documents before installing and using the ZR22G, ZR402G Separate type Zirconia Oxygen/Humidity Analyzer

An exclusive User’s Manual might be attached to the products whose suffix codes or option codes contain the code “Z” (made to customers’ specifications). Please read it along with this manual. The EXAxt ZR Separate type Zirconia Oxygen/Humidity Analyzer is usually the Oxygen Analyzer which connected ZR402G converter and ZR22G detector together, but it is to the High Temperature Humidity Analyzer when the option code “/HS (Set for Humidity Analyzer)” of ZR402G is selected.After that, in this manaul, the Humidity Analyzer refers to the thing which ZR22G combined with ZR402G with “/HS”.In addition, in this manual, the Oxygen Analyzer is mainly listed. When there are not mentions

such as “in the case of Humidity Analyzer”, it becomes same as the Oxygen Analyzer.The EXAxt ZR Separate type Zirconia Oxygen/Humidity Analyzer has been developed for combustion control in various industrial processes. This analyzer basically consists of a detector and a converter. You can select between several versions, based upon your application. Optional accessories are also available to improve measurement accuracy and automate calibration. An optimal control system can be realized by adding appropriate options. This instruction manual refers to almost all of the equipment related to the EXAxt ZR. You may skip any section(s) on the equipment which is not included in your system. Regarding the HART communication protocol, refer to IM 11M12A01-51E. IM 11M12A01-51E has been published as “Model EXAxt ZR Series HART Protocol” . The Integrated type (with sensor and analyzer integrated in one body) is described in  IM 11M12A01-04E.

For the safe use of this equipment

WARNING

Handle it with care. Be sure not to accidentally drop it. Handle safely to avoid injury. Connect the power supply cord only after confirming that the supply voltage matches the rating of this equipment. In addition, confirm that the power is switched off when connecting power supply. Some sample gas is dangerous to people. When removing this equipment from the process line for maintenance or other reasons, protect yourself from potential poisoning by using a protective mask or ventilating the area well.

CAUTION

The cell (sensor) at the tip of the detector is made of ceramic (zirconia element). Do not drop the detector or subject it to pressure stress.

• Do NOT allow the sensor (probe tip) to make contact with anything when installing the detector.

• Avoid any water dropping directly on the probe (sensor) of the detector when installing it.

• Check the calibration gas piping before introducing the calibration gas to ensure that there is no leakage of the gas. If there is any leakage of the gas, the moisture drawn from the sample gas may damage the sensor.

• The detector (especially at the tip) becomes very hot. Be sure to handle it with gloves.

NOTICE

l Specification check When the instrument arrives, unpack the package with care and check that the instrument has not been damaged during transportation. In addition, please check that the specification matches the order, and required accessories are not missing. Specifications can be checked by the model codes on the nameplate. Refer to Chapter 2 Specifications for the list of model codes. l Details on operation parameters When the EXAxt ZR Separate type Oxygen Analyzer arrives at the user site, it will operate based on the operation parameters (initial data) set before shipping from the factory. Ensure that the initial data is suitable for the operation conditions before conducting analysis. Where necessary, set the instrument parameters for appropriate operation. For details of setting data, refer to chapters 7 to 10. When user changes the operation parameter, it is recommended to note down the changed setting data.

Safety Precautions

Safety, Protection, and Modification of the Product

• In order to protect the system controlled by the product and the product itself and ensure safe operation, observe the safety precautions described in this user’s manual. We assume no liability for safety if users fail to observe these instructions when operating the product.

• If this instrument is used in a manner not specified in this user’s manual, the protection provided by this instrument may be impaired.

• If any protection or safety circuit is required for the system controlled by the product or for the product itself, prepare it separately.

• Be sure to use the spare parts approved by Yokogawa Electric Corporation (hereafter simply referred to as YOKOGAWA) when replacing parts or consumables.

• Modification of the product is strictly prohibited.

• The following safety symbols are used on the product as well as in this manual.

WARNING

This symbol indicates that an operator must follow the instructions laid out in this manual in order to avoid the risks, for the human body, of injury, electric shock, or fatalities. The manual describes what special care the operator must take to avoid such risks.

CAUTION

This symbol indicates that the operator must refer to the instructions in this manual in order to prevent the instrument (hardware) or software from being damaged, or a system failure from occurring.

Warning and Disclaimer

The product is provided on an as is basis. YOKOGAWA shall have neither liability nor responsibility to any person or entity with respect to any direct or indirect loss or damage arising from using the product or any defect of the product that YOKOGAWA can not predict in advance.

Notes on Handling User’s Manuals

• Please hand over the user’s manuals to your end users so that they can keep the user’s manuals on hand for convenient reference.

• Please read the information thoroughly before using the product.

• The purpose of these user’s manuals is not to warrant that the product is well suited to any particular purpose but rather to describe the functional details of the product.

• No part of the user’s manuals may be transferred or reproduced without prior written consent from YOKOGAWA.

• YOKOGAWA reserves the right to make improvements in the user’s manuals and product at any time, without notice or obligation.

• If you have any questions, or you find mistakes or omissions in the user’s manuals, please contact our sales representative or your local distributor.

Drawing Conventions

Some drawings may be partially emphasized, simplified, or omitted, for the convenience of description. Some screen images depicted in the user’s manual may have different display positions or character types (e.g., the upper / lower case). Also note that some of the images contained in this user’s manual are display examples. In the figure listed in this manual, the example of the oxygen analyzer is shown mainly. In the case of the humidity analyzer, unit indication may be different. Please read it appropriately.

Product Disposal:

The instrument should be disposed of in accordance with local and national legislation/regulations.

Trademark Acknowledgments

• All other company and product names mentioned in this user’s manual are trademarks or registered trademarks of their respective companies.

• We do not use TM or  mark to indicate those trademarks or registered trademarks in this user’s manual.

Authorized Representative in the EEA and the Importer into the EU/ EEA Market The Authorized Representative for this product in the EEA and the importer for this product into the EU/EEA market via Yokogawa sale channel is: Yokogawa Europe B.V. Euroweg 2, 3825 HD Amersfoort, The Netherlands n Importer for This Product into the Great Britain Market (ZR22G only) In relation to UKCA marking, the importer for this product into the Great Britain market via the YOKOGAWA sales channel is : Yokogawa United Kingdom Limited Stuart Road Manor Park Runcorn, WA7 1TR, United Kingdom n Identification Tag This manual and the identification tag attached on packing box are essential parts of the product. Keep them together in a safe place for future reference. n Users This product is designed to be used by a person with specialized knowledge. n How to dispose Batteries and Waste batteries: (Only valid in the EU for EU Battery Directive/Regulation and in the UK for UK Battery Regulation) Batteries are included in this product. This marking indicates they shall be sorted out and collected as ordained in the EU battery Directive/Regulation and UK battery Regulation. When you need to replace batteries, contact your local Yokogawa office in the EEA and/or UK respectively.

Battery type : Manganese dioxide lithium battery Notice:  The symbol (see above) means they shall be sorted out and collected as ordained in the EU Battery Directive. n Information of the WEEE Directive This product is purposely designed to be used in a large scale fixed installations only and, therefore, is out of scope of the WEEE Directive. The WEEE Directive does not apply. This product should be disposed in accordance with local and national legislation/regulations. The WEEE Directive is only valid in the EU and UK.

ATSA3S, ATSS3S, ATST4S GS 33K50H40-50E – Yokogawa

 GENERAL

This GS covers the hardware specifications of the Terminal Block that can be used for Modules with Built-In Barrier (FIO) of CENTUM VP. When installing these apparatuses with intrinsically safe circuit, “Explosion Protection” (TI 33Q01J30-01E) and “Explosion Protection of FIO Products” (IM 33Y06K01-90E) for CENELEC Approval should be referenced together with this GS. These terminal blocks are compliant with ISA S71.04 class G3. The temperature range of the module is -20 to 70 °C

 STANDARD SPECIFICATIONS

Variation of Connection Terminal blocks are used to connect I/O modules with built-in barriers to field devices.  The pressure clamp terminal block is available for I/O modules with Built-In Barrier.

Terminal Block

ATSA3S Analog (Single) Application

ATSA3D Analog (Dual-Redundant)

ATST4S Analog Thermocouple/mV (Single)

ATST4D Analog Thermocouple/mV (Dual-Redundant)

ATSR3S Analog RTD/POT (Single)

ATSR3D Analog RTD/POT (Dual-Redundant)

ATSS3S Analog output

ATSS3D Analog output (Dual-Redundant)

 ORDERING INFORMATION

Specify the model and suffix codes.

 TRADEMARK

• CENTUM is a registered trademark of  Yokogawa Electric Corporation.

• Other company names and product names in this document are registered trademarks or trademarks of their respective holders.