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General Specifications

GS 33P01B10-31E

Integrated Production Control System CENTUM CS 3000 System Overview (Vnet/IP Edition)

R3

GENERAL

Vnet/IP is a control network with high reliability and quick response and achieves steady response with little delay even under heavy load. Using general-purpose network equipment conforming to IEEE802.3 and UDP/IP standards, it realizes open-based communications. Vnet/IP can connect to a Vnet system with a Vnet router. This GS provides the system specifications, system configuration equipment, and network specifications for CENTUM CS 3000 Systems with Vnet/IP.

SYSTEM CONFIGURATION

Vnet/IP domain Boundary router Open Display Style Console HIS Enclosed Display Style Console HIS PC for builder HIS Human Interface Station Remote network

Bus 2

L3SW

Other Vnet/IP domains

L2SW

Bus 1

L2SW

L2SW Vnet router

FCS (for FIO) SNTP Server GSGW Generic Subsystem Gateway Package APCS Advanced Process Control Station ESB bus Local node ER bus Other Vnet domains

(Subsystem)

Remote node

L2SW: Layer 2 switch L3SW: Layer 3 switch

F01E.EPS

Figure Example of System Configuration

Yokogawa Electric Corporation 2-9-32, Nakacho, Musashino-shi, Tokyo, 180-8750 Japan Tel.: 81-422-52-5634 Fax.: 81-422-52-9802

GS 33P01B10-31E ©Copyright Sep. 2004 2nd Edition Oct.1, 2004

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2

Vnet/IP

This is a control bus conforming to the IEEE802.3 standard. Line speed is 1Gbps. A Vnet/IP bus has a dualredundant configuration. On its bus 2, control communications and open-based communications with various Ethernet standard protocols are provided. At the bus-2 side, data access through an Exaopc OPC interface and TCP/IP protocol-based communications can be carried out. For equipment for network connections, including repeaters, cables, layer 2 switches, layer 3 switches, and the like, commercially available general-purpose products are used. For the IP address, IPv4 for Class C private space addressing is applied. (IPv4 for Class B private space addressing is also applied.)

SYSTEM COMPONENTS

Human Interface Station (HIS)

An HIS serves as a human interface for operation, monitoring, and engineering. Software packages installed in a general-purpose personal computer (an IBM PC/AT compatible computer, hereinafter referred to as a generalpurpose PC) or in a console HIS, consisting of a generalpurpose PC and Open Display Style Console Assembly, implement operation and monitoring functions as well as engineering functions. Users can install and run operation and monitoring functions and/or engineering functions in an HIS as necessary. For connections to the Vnet/IP, a VI701 Control Bus Interface Card is used. For HIS hardware specifications, see publications GS 33Q06B40-31E and GS 33Q06B50-31E for Human Interface Stations and GS 33Q02C10-31E for Standard Operation and Monitoring Function.

Layer 2 Switch

This is a device to connect equipment within the Vnet/IP domain. The layer 2 switch, unlike a HUB, incorporates bridge functions to send data to the destination terminal equipment only; it can, therefore, reduce traffic within its domain. Commercially available equipment can be used for a layer 2 switch.

Field Control Station (FCS)

The FCS performs process control and manages communications with subsystems such as PLCs. Two types of field control stations for Vnet/IP and FIO are available: Field Control Unit (for Vnet/IP, FIO, rackmounted) AFV10D: Duplexed Field Control Unit (for Vnet/IP, FIO, rack-mounted) For FCS hardware specifications, see publication GS 33P06C10-31E. AFV10S:

Layer 3 Switch

This switch is used to connect Vnet/IP domains. The layer 3 switch relays a communications frame to another domain with IP address route control, or routing functions. Select layer 3 switch hardware capable of relaying communications frames at high speeds. Commercially available equipment can be used for a layer 3 switch.

Advanced Process Control Station (APCS)

An APCS advanced process control station implements control functions with a general-purpose PC connected to a Vnet/IP, aimed at improving advanced control and plant efficiency. For this purpose, install LFS1200 APCS control functions. Use VI701 Control Bus Interface Card for connection to Vnet/IP. For more details, see APCS Control Functions General Specifications (publication GS 33Q03M10-31E).

Boundary Router

This is a router to connect a Vnet/IP to a remote network. Connected to the bus-2 side only.

Vnet Router

A Vnet router is a device to connect a Vnet/IP domain and a Vnet domain for relaying control communications. This router realizes operation and monitoring of a control station in one domain from another domain by connecting the Vnet/IP and Vnet domains. The following product is available: AVR10D: Duplexed Vnet Router (for redundant use of communications and power supply modules) For the hardware specifications, see publication GS 33P06H10-31E.

Generic Subsystem Gateway Package (GSGW)

With a general-purpose PC connected to a Vnet/IP, GSGW packages can collect and set data of various types of subsystems using an OPC DA server. They can easily collect and set subsystem data without creating dedicated communications programs. Install LFS1250 Generic Subsystem Gateway Package. Use VI701 Control Bus Interface Card for connections to Vnet/IP. For more details, see publication GS 33Q03P1031E.

SNTP Server

When synchronizing the time of the Vnet/IP station with UTC (Coordinated Universal Time), the SNTP server is connected.

Peripherals

Since an HIS supports Microsoft Windows 2000, Windows XP, Windows 2000 Server or Windows Server 2003, windows-compatible peripherals, such as printers, can be used. Consult Yokogawa for more details on peripherals that can be used with an HIS.

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3

On the bus-2 side, up to 124 general-use Ethernet devices (including intelligent network devices) other than listed above can be connected.

SYSTEM SPECIFICATIONS

HIS Operation/Monitoring Capacity (Tags)

Number of tags: Up to 100,000 (when using LHS4000, up to 1,000,000 per system) Number of tags that can be entered in one HIS: Up to 100,000

Expanded System

A layer 3 switch allows a hierarchical construction with other Vnet/IP domains. In addition, a Vnet router allows connection to a system using other Vnets or VL nets. Existing systems (via an HF-bus or RL-bus) cannot be directly connected to a Vnet/IP network. These systems can be connected via a BCV on a Vnet. A hierarchical connection using a layer 3 switch and a Vnet router allows a system expansion that exceeds the maximum system indicated in the previous section. In other words, hierarchical connections of other control systems allow hierarchical system expansion at the core of CENTUM CS 3000. Total number of interconnected domains: Up to 16 (Vnet/IP domains + Vnet domains) Hierarchical connections by Vnet router: Three-level control bus hierarchy, i.e., three control bus levels, linked by two bus converters Number of tag names: Max. of 100,000 (up to 1,000,000 per system when using LHS4000) Connecting devices: Vnet routers and bus converters Note that the levels of Vnet/IP domains on an access router and the levels of Vnet routers are not counted when hierarchical connections are restricted.

Minimum System

A minimum system consists of one HIS and one FCS.

Maximum System

In a CENTUM CS 3000 system, a system within an area that does not communicate via devices such as routers, layer 3 switches, or the like is called a domain. Up to 64 Vnet/IP-enabled devices per domain can be connected. Our Vnet/IP-enabled devices include equipment with VI701 (control bus interface cards) incorporated in a general-purpose PC, FCS for Vnet/IP and Vnet routers. The following lists our specific Vnet/IP-enabled devices: HIS: FCS: APCS: GSGW: Exaopc: PRM: AVR10D: Human Interface Station Field Control Station Advanced Process Control Station Generic Subsystem Gateway Package OPC Interface Package Field Communications Server for Plant Resource Manager Vnet Router

HIS

HIS

Vnet/IP domain Layer 3 switch Vnet router Vnet domain BCV-V Vnet domain BCV-V FCS FCS FCS Vnet domain EFCS BCV-V: Bus converter (Vnet to Vnet) BCV-H: Bus converter (HF-bus to Vnet) Two bus-converter levels and three control-bus levels (max.) connected via a Vnet router

F02E.EPS

BCV-V HF-bus domain

Bus converter (0 level) One control-bus level

One bus-converter level and one control-bus level that are connected via a Vnet router

Figure Expanded System Configuration

Vnet/IP domains and Vnet domains can be managed in the same project. In addition, these two domains can be integrated with a multiple project connection package.

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4

In case of PCs storing Audit trail data When using LHS5170 Access Administrator Package, one PC which is dedicated to the audit trail data must be prepared. When there are 9 or more stations (ENG, Recipe Management PC) in one project, the server PC may be required for storing Audit trail data. Please count the total station number in one project using the equations shown below in order to judge whether server PC is required or not. If the number is eight or smaller, a server PC is not required. If the number is larger than 8, consult our sales rep for further examination. Total station number = ENG + Recipe Management ENG: Number of PCs in which Standard Builder Function (LHS5100 or LHM5100) is installed. Recipe Management: Number of PCs in which CS Batch 3000 Recipe Management package (LHS5161) is installed

Installing of Server PCs

CENTUM CS 3000 realizes many functions using file sharing function of Windows. The number of PCs to share files simultaneously is restricted on the Windows Workstation OS. Therefore, when there are 9 or more stations (HIS, ENG, Exaopc) in one project, the server PC may be required. Please count the total station number in one project using the equations shown below in order to judge whether server PC is required or not. If the number is eight or smaller, a server PC is not required. If the number is larger than 8, consult our sales rep for further examination. In case of PCs storing master Engineering database file When not using Engineering Tool for Foundation Fieldbus (SSS5700) Total station number = HIS + ((ENG - 1) x 2) + Exaopc When using Engineering Tool for Foundation Fieldbus (SSS5700) Total station number = HIS + ((ENG - 1) x 2) + Exaopc + 2 Number of PCs in which Standard Operation and Monitoring Function (LHS1100 or LHM1101) is installed ENG: Number of PCs in which Standard Builder Function (LHS5100 or LHM5100) is installed. Exaopc: Number of PCs with Exaopc Interface Package (NTPF100) When using Multiple Project Connection Package (LHS4450), please see the specifications for Multiple Project Connection Package (GS 33Q02S10-31E). When using Expanded Test Function (LHS5425), server PC is always required for storing master Engineering database. HIS :

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5

Vnet/IP NETWORK SPECIFICATIONS

The Vnet/IP is a real-time process control network used to connect system components. The Vnet/IP supports two types of communications: control-bus communications and open communications. The Vnet/IP is always dual-redundant. Usually, control bus communications are carried out via bus 1. Open communications are carried out via bus 2. If a control communications error occurs at the bus-1 side, control bus communications will be carried out via bus 2. The Vnet/IP uses generalpurpose communications devices for network connection.

HIS ENG APCS GSGW Exaopc 1000BASE-T Max. 100 m

Wide-area connection enabled by dedicated-line connection

Up to seven levels of layer 2 switch Layer 3 switch Layer 2 switch Vnet/IP domain Vnet/IP domain

Vnet router Vnet domain

Bus 1 Bus 2 Layer 2 switch Vnet/IP domain

BCV-H

Layer 3 switch

HF-bus domain

FFCS-L

F03E.EPS

Figure Network Configuration

Connection within a Domain

In a system used with the Vnet/IP, sections separated by communications devices, such as routers, layer 3 switches, etc., are called domains. One domain allows the connection of up to 64 of our Vnet/IP-based devices including the FCS, HIS, etc. In addition, a maximum of 124 devices, which includes switches, routers, etc., can be connected in configuring a network with Ethernet devices other than our Vnet/IP-based devices. Devices in a domain are connected in a star or tree-like fashion at the core of a layer 2 switch. A dual-redundant Vnet/IP bus is an independent subnet for each line; therefore, a layer 2 switch should be installed in each line. Up to seven levels of layer 2 switch connections can be connected in a domain.

Inter-domain Connection

General-use layer 3 switches allow connections between Vnet/IP domains. Up to 16 domains can be connected. Up to 15 level (16-hierarchical) connections of Vnet/IP domains can be connected. Two types of Vnet/IP domain connections are possible: bidirectional and hierarchical connections. In bidirectional connections, HIS's in both domains can perform operation and monitoring of the other domain. Bidirectional Connection Both HIS's can perform operation and monitoring of the other domain. Stations in both domains can receive and send FCS and HIS messages. Hierarchical Connection Hierarchical domain relations are established. The HIS of a high-order domain can operate and monitor a low-order domain. FCS and HIS messages generated in a low-order domain can be accepted by a station in a high-order domain. A Vnet conversion router allows connection to a system connected to a Vnet. Connection to an existing system connected with a BCV via a Vnet is also possible.

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6

Network Device Specifications

Layer 2 switch Connection Port: 1000BASE-T, full duplex Connection between switches: 1000BASE-T, 1000BASE-LX with speed, 1 Gbps (1.5 [email protected] byte) or faster, full duplex Auto-Negotiation: Essential Layer 3 switch Connection Port: 1000BASE-T, full duplex Connection between switches: 1000BASE-T, 1000BASE-LX with speed, 1 Gbps (1.5 [email protected] byte) or faster, full duplex Unicast dynamic routing protocol: RIPv2 (RIPv compatible mode essential) Multicast Protocol: IGMP: Essential DVMRP or PIM-DM: Essential Management function SNMP

Communications Specifications

Control bus communications Communication Method: Read/write communication, message communication, and link transmission Link Transmission Period: 100 msec Open communications Open communications are executed via the bus-2 side. Connected with commercially available Ethernet communications devices. The bandwidth that can be used for open communications via the bus-2 side is up to 300 Mbps. Transmission Path Specifications Network Topology: Star formation Transmission Path Redundancy: Available (control bus communications only) Transmission Cable: Unshielded twisted pair (UTP) at enhanced category 5 or greater.

Connection Between station and layer 2 switch Between layer 2 switches Cable Standard 100BASE-TX (IEEE802.3u) Speed Maximum Distance

100 Mbps 100 m (*1)

Address Used for Vnet/IP

Class C private address is used for communications for control and open communications. Communications for control Bus-1 side 192.168.(Domain No.).1 to 129, 254 Bus-2 side 192.168.(Domain No.).1 to 129, 254 Open Communications Bus-2 Side 192.168.(128 + Domain No.).130 to 253 The following addresses are used for multicast communications. For stations within domains Bus-1 side 239.192.24.0 Bus-2 side 239.192.24.1 For all domains Bus-1 side 239.192.24.4 Bus-2 side 239.192.24.5 Class B address is used for the TCP/IP protocol communications on Vnet/IP. Make sure that there are no overlaps in IP addresses.

1 Gbps 1000BASE-T (IEEE802.3ab) 1 Gbps 1000BASE-T (IEEE802.3ab) 1000BASE-LX (IEEE802.3z) 1 Gbps 100 m 5 km 100 m 5 km

T01E.EPS

1 Gbps Between layer 2 1000BASE-T switch and router (IEEE802.3ab) 1000BASE-LX (IEEE802.3z)

*1:

1 Gbps

For Vnet Router and Open communication network.

Communications between Devices

Maximum distance between arbitrary stations: 40 km Only a couple of media converter between devices can be connected.

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7

ER Bus

Application An ER bus is a remote I/O communications bus to connect an FCU or local node unit to a remote node. Communication Specifications Connectable Devices: Remote node units (ANR10S, ANR10D) Number of ER buses: Max. 4 per FCU Number of Connectable Devices: The number of remote node units that can be connected to an ER bus varies according to the model and database selected.

Total Number of Maximum Local and Number of Remote Remote Nodes Nodes (*1) 3 3

I/O COMMUNICATIONS BUS

ESB Bus

Application An ESB bus is an I/O communications bus that connects the processing unit of an FCS to a local node. Communication Specifications Connectable Devices: Node units (ANB10S and ANB10D) Number of Connectable Devices: The number of local node units that can be connected to an ESB bus varies according to the database selected.

Total Number of Maximum Local and Number Remote of Local Nodes Nodes (*1) 3 3

Database

Database

Control Function for Standard Field Control Unit Control Function for Standard Field Control Unit plus Application Capacity Expansion Package

*1: *2:

Control Function for Standard Field Control Unit Control Function for Standard Field Control Unit plus Application Capacity Expansion Package

*1: *2:

14

14

9

14

T03E.EPS T02E.EPS

The total should not exceed this number. If local node units are connected to an AFV10S or AFV10D FCU, ESB Bus Coupler Modules (EC401) should be installed in slots 7 and 8.

The total should not exceed this number. Up to eight remote nodes per ER bus can be connected.

Transmission Path Specifications Network Topology: Bus formation Transmission Path Redundancy: Available Transmission Speed: 128 Mbps Transmission Cable: Dedicated cable (YCB301) Transmission Distance: 10 m max.

Transmission Path Specifications Network Topology: Bus formation Transmission Path Redundancy: Available Transmission Speed: 10 Mbps Transmission Cable: Coaxial cable (YCB141, YCB311). Use YCB147 ER-bus Adapter and YCB149 ER Bus Converter Unit for connecting YCB141 and YCB311 cables. Transmission Distance: Max. 185 m (for YCB141) Extendable to 2 km when using Ethernet repeaters (total transmission distance up to 2370 m). Can use two (a set of) Ethernet repeaters per ER bus. When mixing YCB141 and YCB311: Length of YCB141 + (185/500) x Length of YCB311 185 Number of bus adapter units: Max. 4 per segment (*3) Extendable to 2 km when using generalpurpose Ethernet repeaters.

*3: If an ER bus is connected with a repeater, one segment indicates the area between repeaters.

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8

Engineering Software

Standard Builder Function Access Control Package Graphic Builder CS Batch 3000 Builder CS Batch 3000 Recipe Management Package LHS5170 Access Administrator Package (FDA: 21 CFR Part 11 compliant) LHS5420 Test Function LHS5425 Expanded Test Functions LHS5426 FCS Simulator Package LHS5427 HIS Simulator Package LHS5450 Multiple Project Connection Builder LHS5490 Self-documentation Package SSS4510 Long-term Trend Historian SSS4520 Event Viewer SSS5700 Engineering Tool for Foundation Fieldbus SSS6700 Device Management Tool for Foundation Fieldbus SSS7700 Plant Resource Management Server SSS7710 Plant Resource Management Client SSS7720 Field Communications Server For details on the above functions, see the respective GS's. LHS5100 LHS5110 LHS5150 LHS5160 LHS5161

SOFTWARE

Operation and Monitoring Software

Standard Operation and Monitoring Function Console HIS Support Package for Enclosed Display Style LHS1130 Console HIS Support Package for Open Display Style LHS1150 Server for Remote Operation and Monitoring Function LHS2411 Exaopc OPC Interface Package (for HIS) LHS2412 CENTUM Data Access Library LHS4000 Million Tag Handling Package LHS4100 Configured Information Reference Package LHS4150 Recorder Output Package LHS4190 Line Printer Support Package LHS4200 Consolidated Historical Message Viewer (Meeting FDA) LHS4410 Control Drawing Status Display Package LHS4420 Logic Chart Status Display Package LHS4450 Multi Project Connection Package LHS4510 Expert Trend Viewer Package LHS4600 Multiple-monitor Package LHS4700 Advanced Alarm Filter Package LHS6510 Long-term Data Archive Package LHS6530 Report Package LHS6600 CS Batch 3000 Process Management Package LHS6710 FCS Data Setting/Acquisition Package (PICOT) LHS7110 Web Monitoring Package For details on the above functions, see the respective GS's. The operating system for an HIS is Windows 2000 Professional or Windows XP Professional. If it is necessary to run other third-party software on the HIS, contact our sales representative to confirm that it is supported. LHS1100 LHS1120

Documentation Software

LHS5459 Electronic Instruction Manual For details, see publication GS 33Q04N30-31E.

Operation Support Software (for HIS)

NTPS100 Exaplog Event Analysis Package NTPS200 Exapilot Operation Efficiency Improvement Package For details on the above functions, see publication GS 36J06A10-01E, "NTPS100 Exaplog Event Analysis Package" and publication GS 36J06B20-01E, "NTPS200 Exapilot Operation Efficiency Improvement Package".

Standard FCS Software

Control Function for Standard Field Control Unit (for Vnet/IP) LFS1530 Application Capacity Expansion Package (for AFV10 ) For details, see publication GS 33P03B10-31E. LFS1500

Optional FCS Software

LFS3132 Valve Pattern Monitor Package LFS8620 Off-site Block Package For details on these functions, see the respective GS's.

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9

INSTALLATION AND ENVIRONMENTAL CONDITIONS

The installation and environmental conditions for Yokogawa's devices, except for general-purpose PCs, General-Purpose Network Device, console HIS's, node units for FIO and I/O modules, are shown below. For a general-purpose PC and General-Purpose Network Device, see their specifications. For an enclosed display style console HIS, an open display style console HIS, a node unit for FIO, or an I/O module, see the general specifications for each device (publications GS 33Q06B4031E, GS 33Q06B50-31E or GS 33Q06Q01-31E). Ambient Temperature: 5 to 40 C (YAX101) 5 to 35 C (YAX801, YAX211) 0 to 50 C (FCS) Ambient Humidity: 20 to 80%RH 10 to 90%RH (FCS) Non-condensation Temperature Change Rate: 10 C per hour Power Requirements: 100 to 120 V AC 10%, 50 or 60 Hz 3 Hz 220 to 240 V AC, 50 or 60 Hz 3 Hz 24 V DC 10% Withstanding Voltage: 1,500 V AC for 1 minute (for 100-V or 220-V AC model) 500 V AC for 1 minute (for 24-V DC model) Insulation Resistance: 20 M at 500 V DC 10 M at 500 V DC (YAX101, YAX801, YAX211) Grounding: Independent ground of up to 100 Noise: Electric Field: Up to 3 V/m (26 MHz to 1 GHz) Magnetic Field: Up to 30 A/m (AC), 400 A/m (DC) Static: Up to 4 kV (direct discharge) Continuous Vibration: Displacement amplitude: Up to 0.25 mm (1 to 14 Hz) Acceleration: Up to 2 m/s2 (14 to 100 Hz)

Subsystem Communication Software

For each subsystem, optional communications software is available. FA-M3 Communication Package (for ALR111, ALR121) LFS2420 YS Communication Package (for ALR121) LFS2421 YS Communication Package with Direct Connection (for ALR121) LFS2430 MELSEC Communication Package (for ALE111) LFS2431 FA-M3 Communication Package (for ALE111) LFS2432 DARWIN/DAQSTATION Communication Package (for ALE111) LFS2433 PLC-5/SLC500 Communication Package (for ALE111) LFS2453 Modbus Communication Package (for ALE111) LFS2456 SLC500 Communication Package (for ALR111, ALR121) LFS2457 PLC-5 Communication Package (for ALR111, ALR121) LFS2542 PROFIBUS Communication Package (for ALP111) LFS2610 Foundation Fieldbus Communication Package (for ALF111) LFS2710 HART Communication Package (for AAIhhhH) LFS9153 Modbus Communication Package (for ALR111, ALR121) LFS9162 MELSEC-A Communication Package (for ALR111, ALR121) For details, see the respective GS's. LFS2420

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10

CENTUM CS 3000 Entry Class

The CENTUM CS 3000 Entry Class is available for small-scale systems.

Components and Software

The CENTUM CS 3000 Entry Class uses specific Entry Class packages such as built-in HIS packages. There is no restriction on FCS models.

Operation and Monitoring Software

The following software packages are provided for the Entry Class. Except for the packages listed below, current CS 3000 system operation and monitoring software packages can be used. But, the LHS4000 Million Tag Handling Package cannot be used in an HIS with the built-in LHM1101 Standard Operation and Monitoring Function. Operation and Monitoring Software

Entry Class Model LHM1101 LHM1150 LHM4410 LHM4420 LHM6600 Product Standard Operation and Monitoring Function Server for Remote Operation and Monitoring Function Control Drawing Status Display Package Logic Chart Status Display Package CS Batch 3000 Process Management Package Remarks Number of operation and monitoring tags : up to 8000

-- -- --

Maximum number of active recipes: Type A: 4 Type B: 10 Type C: 999

--

T04E.EPS

LHM6710

FCS Data Setting/Acquisition Package (PICOT)

Engineering Software

Entry Class Model LHM5100 LHM5150 LHM5490 Product Standard Builder Function Test Function Self-documentation Package Remarks

-- -- --

T05E.EPS

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11

TRADEMARKS

· CENTUM, Vnet/IP, DARWIN, DAQSTATION and Exaopc are registered trademarks of Yokogawa Electric Corporation. · Exaplog and Exapilot are trademarks of Yokogawa Electric Corporation. · Windows is a registered trademark of Microsoft Corporation in the United States and/or other countries. · Ethernet is a registered trademark of XEROX Corporation. · Modbus is a registered trademark of Schneider Electric and/or such related companies. · PLC, PLC-5 and SLC500 are trademarks or registered trademarks of Rockwell Automation, Inc. · MELSEC and MELSEC-A are registered trademarks of Mitsubishi Electric Corporation. · SYSMAC is a registered trademark of Omron Corporation. · "FOUNDATION" of "FOUNDATION fieldbus" is a registered trademark of Fieldbus Foundation. · Other product and company names appearing in this document are trademarks or registered trademarks of their respective holders.

REGULATORY COMPLIANCE

The standards to which CENTUM CS 3000 hardware devices conform are listed below. See the applicable general specifications to ensure each device's compliance. Safety Standards (*1) [CSA] CSA C22.2 No. 1010.1 for 100 to 120 V AC and 24 V DC power supply [CE Mark] Low Voltage Directive EN 61010-1 for 220-240 V AC and 24 V DC power supply (*6) EMC Conformity Standards (*1) [CE Mark] EMC Directive EN 55011 Group 1 Class A for 220-240 V AC and 24 V DC power supply EN 61000-6-2 for 220-240 V AC and 24 V DC power supply (*2) EN 61000-3-2 for 220-240 V AC power supply (*3) EN 61000-3-3 for 220-240 V AC power supply (*4) [C-Tick Mark] AS/NZS 2064 for 220-240 V AC and 24 V DC power supply Standards for Hazardous Location Equipment [Non-incendive] (*5) Class I, Division 2, Groups A, B, C and D Temperature code T4 CSA Standard C22.2 No. 157-92 CSA Standard C22.2 No. 213-M1987 ISA Standard ISA-S12.12 1994 For 100-120 V AC and 24 V DC power supply [Type n] EN 50021 1998 [Intrinsic Safety] EN 50014 1997 +A1 +A2 EN 50020 1994 EN 50021 1999

*1: To conform to safety standards and EMC conformity standards, install 19-inch rack-mounted devices in a keyed metallic cabinet. A lightning arrestor or the like is required to meet this surge immunity standard. An external device such as a power unit with harmonic current neutralizer and an active harmonics conditioner must be connected to meet this harmonic current emission standard. The specified limits of voltage drops across wiring must be satisfied to meet this standard. To meet the standard for hazardous location equipment, 19-inch rack-mounted devices must be approved by CSA in Canada, or must be installed in a keyed metallic cabinet approved by non-incendive regulator in your area. The analog input side of this equipment is measurement category 1.

*2: *3:

*4: *5:

*6:

For details, see CENTUM CS 3000 Installation Guidance (TI 33Q01J10-01E).

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