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FOXBORO Compact FCM2F2 Fieldbus Communication Module

OVERVIEW

Fieldbus Communication Modules (FCMs) are fibre optic communication extenders that allow 200 Series fieldbus modules to be remotely mounted near plant processes.

FCM2F2 (RH914YZ), FCM2F4 (RH917JA) and FCM2F10 (RH916TQ)

Three models are available with nominal maximum substrate-to-substrate fibre optic cabling distances: up to 2 km (1.24 mi), 4 km (2.48 mi) and 10 km (6.21 mi) respectively.

FCMs are mounted in pairs on standard baseboards for redundancy. Non-redundant configurations require only a single FCM.

Fibre optic cabling is unaffected by electrical noise (EMI, RFI and lightning) and is a versatile and highly reliable means of extending signal communications.

It can be used in areas containing equipment such as rotating machinery, arc welders, etc. It can also be installed in cable bridges containing high voltage power lines, or in outdoor areas exposed to lightning hazards.

or outdoor areas exposed to lightning hazards. Its electrical isolation features protect against voltage differences and ground loops.

FCM Design

The FCM has a rugged extruded aluminium enclosure that provides physical protection for the circuitry.

Enclosures specifically designed for the installation of FBMs and FCMs provide varying degrees of environmental protection for the FCM, up to harsh environments (Class G), in accordance with ISA Standard S71.04.

The FCM can be removed/replaced from the base plate without power failure. six light-emitting diodes (LEDs) on the front of the FCM.

Six light-emitting diodes (LEDs) on the front of the FCM are used to indicate the status of network activity with the modular fieldbus and fibre-optic link, as well as the operational status of the FCM.

Figure 1 shows an example of a redundant configuration where the baseboards (containing the FCM) are connected point-to-point via fibre optic cable.

The cabling configuration shows a single fibre optic segment connecting two substrates. However, up to three fibre segments can be used to connect four baseboards (maximum).

The maximum fibre cabling distance between any two base stations is 10 km (using FCM2F10s (RH916TQ)).

The total fibre optic cabling distance (all cable segments) between base stations does not exceed 20 km (10.42 miles).

Baseboard Module Mounting

The FCM is mounted on a standard baseboard. The baseboard includes signal connectors for fieldbus, power, and I/O cable connections.

A baseboard can support up to eight FBMs, or a combination of FBMs and FCMs.

When connecting two baseboards with fibre optic cables (redundant), one pair of FCMs per baseboard is required (four FCMs total).

For non-redundant configurations, only one FCM is required per baseboard.

Multiple baseboards in the same cabinet do not www.ge-drive.com necessarily require FCMs and fibre optic cables.

Any baseboards within 60 metres (196.85 feet) can be connected together with standard twisted-pair cabling.

Fibre Optic Cabling

Fibre optic cables for fieldbus connections to these modules are purchased by the customer.

The fibre optic cable required for the FCM2F2 (RH914YZ) and FCM2F4 (RH917JA) connections is multimode, graded-indexed glass fibre.

The core is 62.5 micron, the cladding is 125 micron and the NA is 0.275 (numerical aperture).

125 micron cladding with 0.275 NA (numerical aperture). At a wavelength of 1300 nm

Maximum allowable signal loss is 1 dB per kilometre at 1300 nm and 3.6 dB per kilometre at 850 nm.

Cables must be terminated with ST-type connectors. Cables with different characteristics must not be used.

The cable required for the FCM2F10 (RH916TQ) connection is a standard single-mode fibre optic cable with ST-type connectors.

Other cable requirements (such as flexibility or durability) depend on the specific application.

Prosoft PLX31-MBTCP-SIE Industrial Ethernet Communication Gateway

ProSoft Technology’s Modbus® TCP/IP to Siemens Industrial Ethernet Gateway allows for

high-speed bi-directional data transfer between Modbus® TCP/IP controllers and Siemens® S7-400. S7-300. S7-200. S7-1200 and S7-1500 PACs.

In addition, the gateway has a number of features, including data prioritisation, that simplify integration, reduce commissioning time and optimise performance.

Functions

 The ProSoft Discovery Service utility allows your PC to view the gateway and edit its default IP address without being on the same subnet.

 Supports up to 20 simultaneous client and server connections to speed communications between devices such as HMIs, SCADA systems, power monitors, and traffic computers.

 In addition to S7 controllers, the Gateway can also be used with Siemens® S5 controllers with corresponding interfaces.

 The Gateway includes an SD card slot (SD card optional) for storing configuration files. It can be used for disaster recovery.

 Safe module configuration via Module Switch (v1.04 and higher).

 can exchange large amounts of data using up to 10.000 16-bit registers.

Specification Description

Power Supply 24 VDC nominal

10 to 36 VDC allowed

Positive, negative, ground terminals

Current Load 24 VDC nominal @ 300 mA

10 to 36 VDC maximum @ 610 mA

Operating Temperature -25°C to 70°C (-13°F to 158°F)

Storage Temperature -40°C to 80°C (-40°F to 176°F)

Shock IEC 60068-2-27; 15G @ 11ms, 3 axes (in operation)

IEC 60068-2-27; 30G @ 18ms, 3 axes (non-operating)

Vibration IEC 60068-2-6; 5G @ 10 to 150 Hz

Relative humidity 5% to 95% RH, non-condensing

Dimensions (H x W x D) 5.38 x 1.99 x 4.38 in.

13.67 x 5.05 x 11.13 cm

LEDs Configuration (CFG), Error (ERR), Power (PWR), Hardware Failure (FLT), Network Connection (FLT).

Error (ERR), Power (PWR), Hardware Failure (FLT), Network Status www.ge-drive.com (NS), EtherNet/IP™ Class I or Class

Module Status (MS),

Module Configuration Status (EtherNet/IP only) Ethernet

Communication Port Link/Active and 100 mbit

Ethernet ports 10/100 Mbit full-duplex and half-duplex RJ45 connector Galvanic isolation

Isolation 1500 Vrms, 50 to 60 Hz for 60 seconds, applied according to section 5.3.2.

Applied in accordance with IEC 60950 Section 5.3.2: 1991 Ethernet Broadcasts

Storm recovery capability of less than or equal to 5000 [ARP] frames per second for less than or equal to 5 minutes.

2.5 mm screwdriver J180 power connector included with each unit

Prosoft PTQ-PDPMV1 PROFIBUS DP Master Network Interface Module

The PROFIBUS DPV1 master module is a powerful communication interface for Quantum ® processors.

Developed under licence from Quantum ®, the module uses proprietary backplane technology to enable powerful data exchange with the processor.

The module supports the full master specification according to IEC 61158. The ability to transfer acyclic parameter data via Class 1 or Class 2 DPV1 services.

Enables the processor to easily communicate with slave devices that support the PROFIBUS DPV0/V1 protocol.

This module is the input/output module between the PROFIBUS network and the processor. The processor data transfer is asynchronous to the I/O data transfer on the PROFIBUS network.

Features Benefits

Easy to configure and manage ♦ Includes ProSoft Configuration Builder software for designing, configuring, and monitoring PROFIBUS networks

PROFIBUS DPV1 Master FDT (Field Device Tool) Communication DTM (PROFIBUS comDTM) software included.

(PROFIBUS comDTM) software for connecting any compatible FDT software container, FDT device DTM, and applicable PROFIBUS slave devices

Configuration of PTQ modules and PROFIBUS networks via Ethernet

Industry Recognition ♦ Schneider Electric CAPP (Collaborative Automation Partner Programme) certification

PROFIBUS Trade Organisation (PTO) certified

Rugged and reliable ♦ Modules built on Siemens ASIC ASPC2 Step E and Infineon C165 microprocessors

Firmware can be quickly upgraded

Compliant with Unity HEC Hot Standby feature specification.

Supports up to 6 PTQ-PDPMV1 modules per rack (hot standby supports up to 4 modules)

implementation of up to four)

Supports extended diagnostic data, alarm indication www.ge-drive.com and acknowledgement processing, multicast and broadcast messaging (DPV1)

Configuration

ProSoft Configuration Builder (PCB) provides a PC-based software configuration solution for managing module configuration files and viewing communications and network diagnostics.

The PCB is a powerful solution not only for new configuration files, but also for importing configuration information from previous installations (known jobs) into new projects.

General Specifications

– Single slot – Quantum backplane compatible

– Module is recognised as an option module with access to PLC memory

for data transfer

– Configuration data is stored in the ProTalk® module’s non-volatile memory

– Microsoft Windows XP, 2000 and NT configuration software included with module

– Up to six modules can be placed in a rack

– Local rack – modules must be placed in the same rack as the processor

– Compatible with all common quantum programming software packages, including Concept

(version 2.6 or later), Unity Pro (version 2.2 or later), ProWORX (version 2.20 or later) (HSHS)

or higher) (HSBY for Unity Pro environments only)

– Quantum data types supported: 3x, 4x

– High-speed data transfer on the backplane provides fast data update times

– Sample ladder files available

Functional Specifications

– Easy-to-use bus view drag-and-drop configuration interface via ProSoft

Configuration Builder software (see PSW-PCB datasheet)

– Monitors and modifies process data and DPV1 acyclic data, and provides online slave diagnostics

– Supports PROFIBUS PA slaves on the network via DP/PA coupler or link

– Supports up to 125 slave devices via repeaters

– Supports extended diagnostic data (DPV1)

– Supports all standard baud rates up to 12 Mbits/s

– Automatic baud rate detection at all valid PROFIBUS DPV1 rates

– Supports parameter read/write operations according to PROFIdrive 3.1 standard

– Supports synchronisation and freeze commands

– Alarm indication and acknowledgement processing (DPV1)

– Support for multicast and broadcast messages (DPV1)

– Conformity of the slave configuration to the processor determined by CRC checksums

– Includes FDT/DTM PROFIBUS master transport communication DTM software (part number PSW-CDTM-PDPM)

Hot Standby

– Hot standby function supports SE 140 671 CPUs

– Supports up to six PTQ-PDPMV1 hot standby modules per rack

– Provides health status for active master and passive

Auxiliary master health status

– PROFIBUS switchover time of 100 ms nominal, not to exceed 300 ms

– Cable break detection via segmented network slave count information

– Generation of PROFIBUS health information from the secondary master via FDL ping service

– No setup parameters are required. Module automatically detects hot standby system Physical characteristics

– PROFIBUS DPV1 RS-485 interface with 9-pin D-type female connector and isolated optocoupler

– Master LED status indicators for operation, network out of communication, and master token hold state

Prosoft RLX2-IHNF 802.11abgn Fast Industrial HotSpot™

The ProSoft Technology Rapid Industrial Hotspot (RLX2-IHNF) provides secure wireless solutions for factory floor, SCADA automation,

SCADA automation, process control systems and mobile worker Wi-Fi infrastructure.

It operates in 2.4 or 5 GHz bands, including DFS channels, for indoor or outdoor applications.

The hotspot supports access point, repeater and client modes. 802.11n technology provides fast data rates of up to 300 Mbps.

This provides excellent packet-per-second performance and robust communications in harsh industrial environments.

802.11n MIMO and channel bonding support demanding wireless applications such as Ethernet I/O and high-resolution video.

The included IH Browser configuration and monitoring software allows users to view network topology, assign IP addresses, monitor network diagnostics and update radio firmware.

The optional OPC Diagnostic Server is ideal for managing wireless SCADA networks over long distances.

Features and Benefits

EtherNet/IP™ or Modbus® based PLC/PACs can use message commands to read diagnostic information from the radio, helping to reduce downtime when troubleshooting wireless networks.

802.11i, WPA-2 Personal/Enterprise with 128-bit AES encryption secures the network RADIUS security secures the network with advanced authentication and encryption Virtual Local Area Networks (VLANs) enable secure network segmentation

Network Address Translation (NAT) eliminates the need for machine builders to change IP addresses every time a machine is deployed

Quality of Service (QoS) provides data prioritisation for I/O control devices, video data, etc.

Ultra-fast roaming (less than 10 milliseconds) maintains seamless, high-speed connectivity with one or more devices on mobile equipment and machines such as cranes, AGVs, and transporters as they move between access points

IGMP snooping and packet filtering optimise UDP multicast traffic for superior EtherNet/IP I/O communications

Supports communication with multiple Ethernet devices when used with existing third-party wireless infrastructure

Supports AeroScout RTLS (Real-Time Location Service) tags by passing signals from the tag to the network

Supports Power over Ethernet (PoE) to reduce cabling costs

Disaster recovery feature allows radio configurations to be stored on a microSD card for quick replacement in the field

Serial network connectivity (Modbus, DNP 3. etc.) via 802.11 wireless network

Simple local and remote configuration, monitoring and wireless network www.ge-drive.com diagnostics via IH browser utility or SNMP

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16-Point Discrete Input Module in GE IC200MDL240 VersaMax I/O Family

Product Description

The IC200MDL240 is a 16-point discrete input module in the VersaMax I/O family, formerly manufactured by GE Intelligent Platforms and now owned by Emerson Automation. The module has sixteen (16) channels of positive or source inputs that accept 120 VAC input signal voltages with a signal range of 0-132 VAC, 47-63 Hz, and a minimum user input current of 7 mA per point.The module has a backplane 5VDC output current of 110 mA.

About the IC200MDL240

The IC200MDL240 is a discrete input module from the VersaMax I/O platform formerly manufactured by GE Intelligent Platforms and now manufactured by Emerson Automation. The module is a sixteen (16) point discrete input module that supports forward logic or source wiring configurations. It can be used to connect field and electrical devices that provide binary or on/off signal states, such as auxiliary contacts, proximity sensors, pushbutton devices, limit switches, and similar devices.

This 16-point module accepts an input signal voltage range of 0-132 VAC, 47-63 Hz, with a nominal signal voltage of 120 VAC and a minimum on-state current of 7 mA.The input channels are divided into two (2) groups of eight (8) channels each with a dedicated common channel. Its group-to-group isolation is rated at 250 VAC for 1 minute and 1500 VAC. Similarly, the module’s optical isolation (logically isolated user inputs) as well as rack ground isolation are rated at 1500 VAC (1 minute) and 250 VAC (continuous).

The turn-on response time for each channel is 1 cycle with a minimum of 2 ms, while the turn-off response time is 2 ms. The turn-on state voltage is 70-132 VAC, and the turn-off state voltage range is 0-40 VAC. In addition, the turn-on state current is a minimum of 7 mA, while the turn-off state current is a maximum of 1.5 mA.

The IC200MDL240 is a DIN-rail mount type that supports both www.ge-drive.com horizontal and vertical orientations. When the module is mounted vertically, there is no performance derating, but there is a 132 VAC derating.

The GE Fanuc IC200MDL240 Versamax Discrete Input Module is a 16-point discrete input module.The IC200MDL240 Input Module accepts AC input signals from sensors, pushbuttons, and switches in a 2-state signal format (ON/OFF or OFF/OFF) and sends them in a 16-bit discrete data format to the CPU Module or NIU Module for intelligent processing. The IC200MDL240 input module offers a compact modular design that provides application flexibility and saves wiring and engineering costs.The IC200MDL240 input module is mounted on an I/O carrier base with management unit functionality, which supports hot module insertion and removal as well as simplified field wiring.

The IC200MDL240 Input Module provides 16 discrete source inputs in two banks of 8. The IC200MDL240 Input Module does not have point-to-point isolation, but does have 250-volt AC continuous isolation between each bank. the IC200MDL240 Input Module has a 120-volt AC rating and a 0 to 132-volt AC input range. the IC200MDL240 Input Module has a 70 to 132 volt AC on-state range and a 0 to 20 volt AC short-off-state range. The module draws all operating power from the baseboard power supply. It has a maximum baseboard current draw of 110 milliamps at 5 volts and a minimum on-state rating of 5 milliamps.The IC200MDL240 Input Module has an impedance rating of 8.6 kilohms at 60 Hz.The IC200MDL240 Input Module has 16 labelled LEDs to indicate status updates at each input point, and a green LED to indicate the backplane status.

GE IC698PSA350 PACSystem RX7i High Capacity Power Module

Description:

The IC698PSA350 is a power supply module for the PACSystem RX7i platform, currently part of Emerson Automation, formerly known as the General Electric Intelligent Platform (GE IP). This power supply mounts to the RX7i universal backplane. It has an input voltage range of 85 to 264 VAC 47 to 63 Hz and 100 to 150 VDC with a maximum input power of 440 watts (typical) and 500 watts (maximum). All three (3) outputs (e.g., 5 VDC, 12 VDC, and -12 VDC) have a maximum output power of 350 watts and output currents of 0-60 amps, 0-12 amps, and 0-4 amps, respectively.

The IC698PSA350 is a high capacity power supply module for the PACSystem RX7i controller family. The module is used to provide backplane power, which the module uses to activate internal circuitry and begin operation. The power supply module occupies one slot in the chassis and can only be installed in slot 0 of the RX7i chassis.

The IC698PSA350 operates with input voltages of 85 to 264 VAC, 100 to 150 VDC, and an AC input frequency of 47 to 63 Hz. The module is rated at 120/240 VAC and 125 VDC, and has input power requirements of 440 watts typical and 500 watts maximum. The power factor of this power supply module is 0.99 when used for AC input power.

The IC698PSA350 is a single-slot power supply module that mounts in the leftmost slot of the RX7i chassis or slot 0. It is equipped with various LED status indicators. It is equipped with various LED status indicators to help identify the module’s operating status. These include the “Field OK”, “Output OK”, and “Over Temperature” LEDs. The power module has built-in protection circuits such as over-temperature and over-voltage protection and airflow protection. A 70 CFM forced air cooling fan under the system chassis provides cooling air to the power supply module. If a stoppage in airflow is detected, the overheat LED will illuminate.

The IC698PSA350 power supply is available in both Series A and Series B. The Series A power supply has an internally mounted 0.25″ x 1.25″ fuse, while the Series B power supply has a 5 x 20 metre fuse. The fuses installed are 8A/250V fuses.

The IC698PSA350 power supply module is part of the RX7i series and is manufactured by GE Fanuc. The module can send logic level signals to the module via the backplane. It has a rated output power of 350 watts. The rated operating voltage is 120/240 VAC and 125 VDC. The power supply module operates at 47 to 63 Hz. The operating temperature range of the module is 0 to 60 degrees Celsius. The power supply module is equipped with an www.ge-drive.com airflow sensor that easily detects a fan failure or a cessation of airflow around the drive. If either of these conditions occurs, the high temperature LED will light up. The sensor can be enabled or disabled via a jumper on the outside of the module.

During installation, the GE Fanuc IC698PSA350 power module should not have any live power connections and should be properly grounded. For field wiring, the input terminals are located on the front of the module and can be connected to 120/240 VAC and 125 VDC input voltage sources. The terminals can be connected to solid or stranded wire. The ground terminal or GND should be connected to the GND terminal of the rack using 12 AWG wire. The ambient temperature of the installation area should not exceed 60 degrees Celsius during normal operation. The isolation rating of all outputs is 1500 Vdc. The IC698PSA350 module has a 15 millisecond ride-through time and a 5 millisecond hold time.

Technical Description of the IC698PSA350

The IC698PSA350 is a PACSystem RX7i power supply module formerly manufactured by GE Intelligent Platforms (GEIP) (now part of Emerson Automation). The module has an input supply voltage range of 85 to 264 VAC 47 to 63 Hz or 100 to 150 VDC, with a typical input power of 437 watts and a maximum input power of 500 watts. It has nominal output voltages of 5VDC to 60 A, 12VDC to 2 A, and – 12VDC to 1 A to the backplane. The module output power is 350 watts.

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PCH Engineering PCH 1026 Digital Wind Turbine Structure Vibration Monitor

Purpose

– Long-term monitoring of low-frequency structural and seismic vibration

APPLICATIONS

– Wind turbines

– Tower vibration

– Drive train vibration (pitch turbines)

– Blade edge vibration (stall turbines)

– Steel towers

– Chimneys

– Bridges

– Buildings

– Seismic Vibration to ISO4866

Configuration and Setup

– Setup and configuration can be performed through the serial RS-232 port using the supplied Setup and Monitoring PC program, CHT 1012. All settings can be changed in the field.

– Setup and display can also be performed remotely from an external PC or controller (e.g., WTC or process controller) via an optional RS-485 connection.

– A log in the PC software records monitor-specific settings and identifies the instrument by its serial number.

Features

– 3 internal vibration sensors (accelerometers)

– Triaxial measurements in A, B and C directions

– Omni-directional tower monitoring

– Proven optimal tower monitoring

– Up to 4 different frequencies can be monitored independently, one frequency per transducer or up to 4 different frequencies per transducer

– Proven filter technology based on wind turbine application experience

– Measurement of RMS, Maximum, Peak or Peak values

– 1 – 4 independent industry standard 4-20mA outputs

– 4 independent alarm relays with programmable brake/break function and 1 system fault relay

– Programmable alarm thresholds and independent delay times for each alarm relay

– Internal continuous watchdog for sensors and electronic circuitry. Fault indication on system fault relay.

– Test functions for all sensors and electronic circuits.

– Designed for harsh environments including temperature, electrical noise interference and humidity.

– Customised monitoring algorithms are available to differentiate the customer from the competition.

Configuration

The PCH 1026 is a self-contained monitor in a sealed, rugged case. It requires only DC power and the required output connections to operate.

Required.The PCH 1026 is designed for low frequency monitoring applications.

Built-in vibration sensors in 3 directions: Built-in vibration sensors in 3 directions: X, Y and Z.

Includes test functions for all sensors and electronic circuits, as well as an internal watchdog for continuous self-monitoring functions.

The design of the PCH 1026 is based on a digital platform that provides customers with a wide range of solutions and allows for quick configuration and setup changes in the field.

Signal Conditioning

All signal conditioning is performed digitally.

This means that settings and configurations can be changed and verified via the included PC software programme (CHT1012).

Digital signal processing is performed by state-of-the-art DSP technology, ensuring accurate and efficient monitoring.

Selective monitoring of frequencies or bands of interest can be achieved by choosing from a variety of high and low pass filters. Simply select from which frequency to monitor.

The PCH 1026 has a wide range of filters that have been proven over many years of industry experience.

Alarm and System Fault Relays

Alarm Relays:

The PCH 1026 provides 4 independent alarm relays with programmable “on” or “off” functions.

All 4 relays can be assigned to the desired frequency or measurement direction.

For example one relay is responsible for the desired frequency, or the same relay can be responsible for up to 4 different frequencies.

Alarm threshold levels, delay times, latching or non-latching functions can be set independently for each relay using the supplied PC software.

System Failure Relay:

The PCH 1026 provides system fault relays with disconnects for optimum fail-safe configurations.

Configuration. A fault detected by the PCH 1026’s internal watchdog will trigger the system fault relay in either test mode or monitor mode.

The system fault relay responds to the following conditions: power failure, overload, processor stop, sensor failure.

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PCH Engineering External Bidirectional Low Frequency Accelerometer CHB 1101

The CHB 1101 transmitter is an external bi-directional low frequency accelerometer for use with the PCH 1026 mk2 wind turbine and structural vibration monitor.

The external bi-directional accelerometer is used for advanced nacelle monitoring with distributed pick-up points.

Separate cables with integrated D-Sub and M12 connectors make installation and connection of the vibration monitor very simple.

Easy to install

The CHB 1101 has an internal memory chip which stores factory information: serial number, model number, sensitivity and self-test parameters.

When the CHB 1101 is connected, the monitor reads the information in the memory chip and automatically adapts to the settings of the particular sensor.

This means that the accelerometer can be freely replaced without having to manually change the parameters.

The monitor reads the chip every 30 seconds to verify that the accelerometer is still connected and recognised.

The monitor will stabilise for 20 seconds after power is applied.

The stabilisation time after disconnecting/connecting the CHB 1101 is 3 seconds. During settling, the PCH 1026 Mk2 will perform a self-test of the internal and external accelerometers.

Self-Test

The monitor will issue a system error message if the self-test fails or the accelerometer is disconnected.

Accelerometers must be specified in the PCH 1026 Vibration Monitor setup to use this feature.

The CHB 1101 accelerometer is an optional feature of the www.ge-drive.com PCH 1026 Mk2 Wind Turbine and Structural Vibration Monitor.

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GE IC694CEE001 Single Slot RX3i Carrier/Expansion Module

Product Description

The IC694CEE001 is a single-slot RX3i carrier/expansion module from GE.

It features an integrated PROFINET network interface and redundant 24 VDC power inputs.

The IC694CEE001 uses existing state-of-the-art RX3i or 90-30 series I/O for superior availability.

Optimal uptime and extreme flexibility reduce operating costs.

The IC694CEE001 protects critical applications where any single point of failure affecting more than one I/O module is unacceptable.

The RX3i IO is designed for mission-critical discrete and process applications.

With advanced diagnostics and outstanding flexibility, this rack-based IO offers a wide range of standard and advanced IOs.

The IC694CEE001 carrier connects a remote node consisting of an RX3i I/O module to a PROFINET I/O local area network (LAN).

and connects it to the RX3i CEP001 carrier. This allows you to add another RX3i IC694 I/O module to the remote node.

The main remote I/O functions of the IC694CEE001 carrier include: scanning of all modules within the remote node (input and output scanning).

Publishing data to PROFINET IO controllers on the PROFINET network during a user-specified production cycle.

Receiving data from PROFINET IO controllers on the PROFINET network according to the production timeframe defined by the customer; and

Monitoring PROFINET communication and module configuration between PROFINET I/O controllers and modules in remote nodes.

Manage the status of the I/O in the event of a www.ge-drive.com communication outage; and issue fault messages (such as alarms and diagnostics), alarms and diagnostics) to the controller.

NOTE: The USB port is for firmware upgrades only and should not be used for permanent connections. The CEP Carrier requires a user-supplied +24 VDC power supply.

Functions

Scans all modules within a remote node (input and output scanning)

Publish data to the PROFINE IO controller on the PROFINET network during a user-specified production cycle

Receives data from PROFINET IO controllers on the PROFINET network during a user-specified production cycle

Manage PROFINET communications and module configuration between PROFINET IO controllers and modules within remote nodes.

Manage the status of I/O in the event of a communication outage

Publishing fault messages (alarms, diagnostics, etc.) to PROFINET IO controllers

Comprehensive programming and configuration services for all supported RX3i IO modules using Proficy Machine Edition

Supports daisy-chained/linear, star or ring (redundant media) network topologies

Two switched Ethernet ports: two eight-core RJ-45 shielded twisted-pair 10/100 Mbps copper interfaces

One USB port for field updating firmware using WinLoader

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GE IS220YDIAS1A Discrete Contact Input/Output Module

Product Description.

The IS220YDIAS1A is a discrete contact input/output module from General Electric.

This module is designed for gas and steam industrial control in the Mark VIe Speedtronic control system.

The Mark VIe was the last Speedtronic system designed by GE and was one of a series of industrial control systems marketed under the Speedtonic name.

The IS220YDIAS1A is part of the Mark IVe control system or Mark VIeS functional safety system.

As an I/O block, it is designed to be plugged into specific terminal blocks such as the IS200STCIS1A and 2A, IS400STCIS1A or 2A or IS400TBCIS2C.

The IS220YDIAS1A has an on-board power supply with a nominal voltage of 28.0 VDC.

The contact inputs and contact wetted outputs have a maximum nominal voltage of 32 VDC.

The IS220YDIAS1A has both UL and CE approvals. It can be used in both hazardous and non-hazardous locations.

Hazardous location use ratings can be found in documents such as GE’s GEH-6725.

This I/O module is designed for use in ambient conditions from -35 to 65 degrees Celsius.

The IS220YDIAS1A is a well-designed module that can be easily mounted on the IS230 terminal board.

The simplicity of installation and availability of documentation make this module ideal for most applications.

Numerous indicator LEDs on the front of the module allow the user www.ge-drive.com to read the status of the IS220YDIAS1A discrete input module.

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