Category: Foxboro

About Foxboro P0971DP, here is the detailed description:

I. Basic Information

Brand: Foxboro (Foxboro)

Model: P0971DP

Type: RTD input/output modules or cards

Second, technical specifications

Operating voltage: 220V (may vary according to different batches or customized requirements)

Output frequency: 350kHz (may vary according to specific applications)

Use of the environment: normal temperature and pressure

Power: 1200W (or other specific values, depending on the specific model and application scenarios)

Color: white

Imported or not: some of the information pointed out that it is not imported products, www.ge-drive.com but the specific need to confirm according to the purchase channel and place of origin

Third, the application field

Foxboro P0971DP, as an RTD input/output module or card under Foxboro brand, is widely used in industrial automation control system, especially in DCS (Distributed Control System) and other fields.

It can realize accurate measurement and control of temperature and other physical quantities, which is of great significance to improve the automation level of industrial production process and product quality.

Precautions

When using Foxboro P0971DP, please make sure to follow the product manual and safety operation regulations to ensure the normal operation of the equipment and personnel safety.

Regular maintenance and inspection of the equipment, timely detection and treatment of potential problems, to extend the service life of the equipment.

In case of technical difficulties or equipment failure, please contact the supplier or professional technicians in time to deal with it.

In summary, Foxboro P0971DP is a powerful and stable RTD input/output module or card, which plays an important role in industrial automation control system. For more information, please consult a specialized supplier or review the relevant technical data.

Regarding the advantages and disadvantages of Foxboro P0971DP, since the description of the advantages and disadvantages directly for this model may be rather limited, I will analyze them in the context of the general characteristics of similar modules in industrial automation control systems and the overall performance of the Foxboro brand.

Pros

High-precision measurement: Foxboro P0971DP, as an RTD input/output module, is usually equipped with high-precision temperature measurement capability, which is able to meet the demand for precise control in the field of industrial automation.

Stable: The Foxboro brand is known for the stability and reliability of its products, and the P0971DP module is able to maintain stable performance and reduce the failure rate during a long period of operation.

Good compatibility: The module may support a variety of RTD types, can be good compatibility and integration with other industrial automation equipment, convenient for users to system integration and expansion.

Easy Maintenance: Foxboro products are usually designed with easy-to-maintain and replaceable parts, and the P0971DP module is no exception, which helps to reduce maintenance costs and improve maintenance efficiency.

Safety Protection: The perfect grounding system and anti-interference design enable the P0971DP module to operate safely and reliably in complex industrial environments, avoiding the effects of electromagnetic interference and voltage shocks on the equipment.

Disadvantages

Higher cost: Foxboro P0971DP may have a higher price compared to similar products from some low-end and mid-range brands, which may increase the initial investment cost for users.

Technical threshold: As the module may have high technical content and complex functions, users may need to have certain professional knowledge and technical background in the process of using it to better utilize its performance.

Customization requirements: In some special application scenarios, users may need to customize the development and configuration of the P0971DP module, which may increase the development cycle and cost of the project.

Dependence on brand support: Although Foxboro brand has good after-sales service and technical support, users may face the problem of insufficient brand support in some remote areas or special situations.

It should be noted that the above advantages and disadvantages are based on the general characteristics of similar modules in industrial automation control systems and the overall performance of the Foxboro brand for analysis, and not entirely for the specific model Foxboro P0971DP. In practical applications, users should evaluate and select according to their specific needs and actual situation.

The EcoStruxure™ Foxboro™ DCS Field Control Processor 280 (FCP280) is a distributed, optionally fault-tolerant, field-installable controller module.

The FCP280 performs regulation, logic, timing, and sequence control with connected Foxboro DCS Fieldbus Modules (FBMs).

It also performs data acquisition, alarm detection, and notification.The FCP280. through a chassis-mounted network adapter, is

connects to the Foxboro DCS control network with standard fibre optic or 100 Mbps copper cable (see figure below).

The FCP280 requires Foxboro DCS Control Core Services Software v9.0 or higher.

A system with the FCP280 and this software is called an EcoStruxure Foxboro DCS Process Automation System.

Legend

A To/From Control Network Ethernet Fibre Optic Switch ‘B’

B 100 Mbps Orange duplex fibre optic cable

C To/From Control Network Ethernet Fibre Switch ‘A’/From Control Network Ethernet Fibre Switch ‘A’ Connection

D FCP280 Fault Tolerant Module Pair

E Each fieldbus port (1-4. Top 1. Bottom 4) can be connected to the fieldbus via a compact and/or standard 200 series FBM or a pre-approved configuration of a 100 series FBM

F Liquid crystal display

G LED operating indicators for module status and fieldbus communication

H Down arrow button

I Up Arrow Button

J Select button

K Network adapter (fibre optic adapter shown, copper adapter also available)

L Operating LED to indicate communication status with the control network

Function

– Performs regulation, logic, timing, and sequence control with connected Foxboro DCS Fieldbus Modules (FBMs)

Foxboro DCS Fieldbus Module (FBM)

– Performs data acquisition, alarm detection and notification

– Supports up to 128 compact or standard 200 series FBMs, 128 100 series FBMs, or up to 128 100 series FBMs

or a combination of up to 128 100 Series FBMs and 200 Series FBMs,

No fieldbus communication module required (up to 64 100-series FBMs per fieldbus allowed)

(up to 64 100-series FBMs per fieldbus per PIO bus/substrate port)

– Supports fieldbus expansion without fieldbus expansion modules

– Supports self-hosted mode, allowing the FCP280 to boot itself up with an active control database even in the absence of a host workstation.

Even if the host workstation is not online, the FCP280 can start up with a valid control database. www.ge-drive.com However, the control functions cannot be edited.

– Provides unique, patented fault-tolerant operation using two control modules, which greatly improves reliability compared to other process controllers.

– Provides an online image upgrade (OLUG) of the fault tolerant FCP280.

– Enhanced Online Image Upgrade (EOLUG) of the Fault Tolerant FCP280 can be performed while the process is running.

This form of upgrade helps to prevent any significant impact on the local control process.

– Provides CP overload protection to notify the operator when the FCP280 is reaching its performance limits

– Liquid crystal display (LCD) shows letter errors as well as real-time roles and statuses

– Connects to the Foxboro DCS control network via standard fibre optic or copper 100 Mbps Ethernet cable

– Rugged die-cast aluminium enclosure for installation in unventilated field cabinets

– Operates in G3 rated harsh environments

– CE certified for field installation in cabinets

– Each fieldbus port on the standard FCP280 baseboard supports a dedicated 2 Mbps or 268 Kbps HDLC fieldbus port

– Provides control capability for a variety of process applications using versatile control algorithms and a variety of FBMs

– Supports time synchronisation using optional external time from GPS satellites

– Supports time synchronisation using optional external time from GPS satellites Using soft letter blocks, the FCP280 can be configured via pushbuttons on the panel.

– Optional dual cable substrate allows use of separate cables for each ‘A’ and ‘B’ buses

Remote Installation

The FCP280 simplifies Foxboro DCS system architecture by requiring only the enclosure (via field enclosure) while maintaining control,

host workstation with Control Core Services v9.0 or higher, and an Ethernet switch to communicate through the control network structure.

The field-installed FCP280 is part of a highly distributed control network

In this network, the controllers work closely with specific process units mounted in close proximity to their I/O and the actual controlled equipment.

The process units are coordinated via a fibre optic 100 Mbps Ethernet network.

The FCP280 and its network adapters are encased in a robust die-cast aluminium enclosure that requires no ventilation due to its efficient design.

The FCP280 and its network adapter are CE certified and can be installed without the need for an expensive dedicated cabinet, helping to protect against electronic radiation.

The FCP280. network adapters and backplane can be installed in G3 rated harsh environments.

The FCP280 performs regulation, logic, timing and sequence control, as well as data acquisition, alarm detection and alarm notification.

Acquisition, alarm detection and alarm notification. Process variables are controlled using time-proven algorithms (mathematical calculations that perform specific functions).

These algorithms are contained in functional control blocks that are configured by the field process engineer to implement the desired control strategy.

The versatility of the algorithms, combined with the variety of available FBMs, provides control capabilities suitable for a wide range of process applications.

From simple feedback and cascade loops to highly complex feed-forward, non-linear and complex characteristic control schemes, a variety of control strategies can be easily implemented.

The FCP280 also supports the following functions:

– Setting and reading FCP280 beacons via panel pushbuttons

– Function Block Alarm Enhancement:

Re-alarm on alarm priority change

Re-alarm on configurable time-delayed dead zones and suppress alarms based on time

– Optional UTC external time synchronisation

– Improved controller performance

– The optional self-hosted mode allows the FCP280 to boot up and run, executing configured control schemes using checkpoint files stored in flash memory.

This allows the FCP280 to start up with an efficient control database even if the host workstation is not present.

– Supports high-speed functions such as ladder logic, Motor Drive Actuator Controller (MDACT) and Distributed Proportional Integral Derivative Function (DPIDA)

Supported Devices

The FCP280 supports the following devices on the 2 Mbps fieldbus:

– All compact and standard 200 series FBMs, which support many types of intelligent field devices.

All compact and standard 200 series FBMs can support many types of intelligent field devices, www.ge-drive.com including those on Foundation Fieldbus, PROFIBUS, HART, and DeviceNet networks.

– Foxboro DCS Field Device System Integrator (FDSI) Modules

– Intrinsically Safe I/O Subsystem (ISCM) – see Intrinsically Safe I/O Subsystem (PSS 31H-2Y6)

– DCS Migration Fieldbus Module for Siemens APACS+ Systems

– DCS Migration Fieldbus Module for Westinghouse WDPF® Systems

– DCS Fieldbus Migration Module for Fisher PROVOX® 20 Series Migration HART

– DCS Fieldbus Migration Module for Honeywell® TDC 2000 Systems (with standard backplane for HART use).

The FCP280 supports the following devices on a 268 Kbps fieldbus:

– 100 Series FBM

– SPECTRUM™ Migration Integrator

– SPEC 200™ Control Integrator

– SPEC 200 MICRO™ Control Integrator

– SPEC 200 CCM Control Integrator

Foxboro Gas Chromatographs are not supported.

Liquid Crystal Display (LCD)

The FCP280 has a liquid crystal display (LCD) on the panel that displays a variety of status and identification information, including

Status and identification information:

– The first line typically displays the letter number and role (Master/Shadow/Single) of the FCP280.

– The second line shows the FCP280’s part number, hardware revision information, date of manufacture, operating system version, and its status on the control network.

LED Indicators

The light-emitting diodes (LEDs) on the front of the FCP280 module provide a visual indication of the

– FCP280 operating status

– Transmit/receive communication activity on the four extended fieldbus channels (Fieldbus A and B on each channel) LEDs on copper or fibre optic network adapters provide visual indication of the following

– Internal and external power supply health status

– Communication activity with the control network A and B links and the FCP280

Enhanced reliability (fault tolerance)

The FCP280’s unique, patented fault-tolerant operation improves reliability compared to traditional process controllers.

The fault-tolerant version of the FCP280 consists of two modules operating in parallel with two Ethernet connections to the control network.

The two FCP280 modules are combined as a fault-tolerant pair, ensuring continuous operation of the controller in the event of any hardware failure in one of the modules.

Both modules receive and process information simultaneously and faults are detected by the modules themselves. One important method of fault detection is to compare the communication messages of the modules’ external interfaces.

A message leaves the FCP280 only if the two FCP280s agree on the message to be sent (bit for bit match).

bit match). Once a fault is detected, both modules run self-diagnostics to determine which module is affected.

The modules run self-diagnostics to determine which module is affected. The unaffected module then takes over control without affecting the normal operation of the system.

This fault-tolerant solution offers the following key advantages over redundant-only controllers

Redundant controllers only:

– No error messages are sent to the field or to applications using the controller data, because unless the two modules match exactly bit-for-bit in sending a message, the

No information is allowed to flow out of the controller.

– The secondary controller is synchronised with the primary controller, which helps to ensure that the most up-to-date data is available in the event of a primary controller failure.

– Since the secondary controller performs exactly the same operations as the primary controller, potential defects can be detected prior to any switchover.

WIDE SELECTION OF MEASURING ELEMENTS

Invensys Foxboro offers the widest variety of element constructions and ranges in the industry. www.ge-drive.com This versatility enables the 43AP Series Pneumatic Indicating Controllers to be applied to virtually any process.

WIDE CHOICE OF CONTROL MODES

On-off, proportional, proportional plus derivative, proportional plus integral (reset), proportional plus integral plus derivative, differential gap, and automatic shutdown actions are available.

BROAD RANGE OF INTEGRAL (RESET) AND DERIVATIVE ADJUSTMENTS

The integral unit has the complete range from 0.01to 50 minutes, and the derivative unit from 0.05 to 50 minutes.

VARIETY OF OPTIONS

These controllers are available with an extensive list of optional features. Among these are internal bumpless automatic-manual transfer stations (two types), “batch” function, remote pneumatic set point, Type 70 electric contacts, and control valve mounting.

ACCURACY UNAFFECTED BY MOUNTING STRESSES

Both the control unit and the measurement element are mounted on a rigid steel plate. Thus, these components are isolated from case stresses due to mounting, and dependable accuracy is ensured.

POWER FAILURES DO NOT INFLUENCE PROCESS-DRIVEN INDICATION

A power failure and the likely subsequent loss of supply pressure do not influence the process-driven indication.

WEATHERPROOF CONSTRUCTION

A glass fiber reinforced case and a gasketed door with a shatterproof polycarbonate window meet IEC IP53 and provide the environmental protection of NEMA® Type 3.

VERSATILE MOUNTING

Instruments may be mounted in a panel, on a flat surface, on a INTERNAL BUMPLESS AUTOMATIC-MANUAL TRANSFER STATION

This option provides bumpless-balanceable transfer between automatic and manual control by simple 2step procedure. Accidental transfer is avoided because the door must be opened to gain access to the transfer station.

The FBM233 Redundant Field Device System Integrator (FDSI) module provides an Ethernet interface between single- or dual-port field I/O devices and the EcoStruxure™ Foxboro™ DCS.

Each FBM233 module has an RJ-45 connector (10/100Mbps copper Ethernet connection) on the front of the module for connecting dual-port Ethernet devices.

The FBM233 connects to an Ethernet switch or hub to communicate with one external device or up to 64 external devices.

The combination of a pair of modules provides redundancy at the fieldbus module (FBM) level.

In this configuration, one FBM233 is the master and the other is the tracking module.

Input points on the control station are updated from device www.ge-drive.com  input points received on the network connected to the master.

Device output points (depending on the I/O driver) are written by both the master and the trace module.

If the I/O driver detects a problem (e.g. any device loses its heartbeat), a role switch is automatically performed, or the user can switch roles at any time via the SMDH.

Functional Features

Key features of the FBM233 include

– Redundant 10 Mbps or 100 Mbps Ethernet network transfer www.ge-drive.com rates to and from field devices

– Communication with up to 64 field devices

– Downloadable I/O software drivers from available protocol libraries

– Up to 2000 DCI block connections

– Integration of field device data into the Foxboro DCS control database using an Ethernet connection

– Field Installation

– G3 rated (harsh) environments.

I/O Driver

The FBM is a general purpose Ethernet hardware module that can be loaded with different software drivers.

These drivers configure the FBM to recognise the specific protocol used by the device.

Some of these software drivers are standard products. Other custom drivers can be developed to meet specific needs.

These drivers are dynamically downloaded to the FBM233 with software code specifically designed to interface with the protocols of third party devices.

The configuration steps and software requirements for each driver are specific to the device integrated into the system.

Ethernet Link Setup

Data communication between the FBM233 and field devices takes place via the RJ-45 interface on the front of the FBM233 module.

The RJ-45 connector of the FBM233 can be connected to the field device via a hub or an Ethernet switch.

The FBM233 connects to an Ethernet switch or hub to communicate with one external device or up to 64 external devices.

Configurator

The FDSI Configurator sets up the FBM233 ports and XML-based device profiles.

The Port Configurator makes it easy to set communication parameters (e.g., Dynamic Host Configuration Protocol (DHCP), IP address) for each port.

The Device Configurator is not required for all devices, but when it is, it can configure device-specific and point-specific considerations

(e.g., scan rate, address to which data is to be transferred, and amount of data to be transferred in a single transaction).

Standard 200 Series Base Plates

The Standard 200 Series Base Plate provides a mounting platform and communications backplane for DIN rail mounted 200 Series modules.

Overview

These Standard 200 Series Baseboards support distributed control of www.ge-drive.com small and large systems, specifically the following Foxboro Evo™ System Modules:

 Field Control Processor 280 (FCP280) Fault Tolerant or Non-Fault Tolerant

 Field Device Controller 280 (FDC280) Fault tolerant or non-fault tolerant

 Field Control Processor 270 (FCP270) Fault tolerant or non-fault tolerant

 Field Communication Modules (FCM100Et and FCM100E) and other FCMs

 Fieldbus Expansion Module (FEM100E)

 Fieldbus Isolator/Filter Modules (FBI200/FBI100)

 Standard Fieldbus Modules (FBMs) and 100 Series FBM connections.

The FBM-enabled 200 Series standard baseplate enables total system mounting capability by providing unit increments of 2. 4. and 8 FBM positions, as well as vertical and horizontal mounting.

Features

Key features of the 200 Series Base Plate are listed below:

 for FBM-enabled baseplates:

– 2. 4. and 8 module positions combined with vertical and horizontal mounting

– Field connectable I/O termination assemblies, redundant adapters, and modules

Identifiers for each module

– DIP switches for identification of specific module backplanes

– Additional 200 series baseboards can be added without removing the system from service (redundant bus required)

 supports FCP280/FCP270. FDC280. and FCM100Et baseboards:

– Connection for optional GPS time strobe.

All non-FDC280 module time strobe connections require a splitter/splitter. direct connections are supported on the FDC280 baseboard.

 All baseboards are supported except the FDC280 baseboard (RH101KF):

– Connection to 2 Mbps modular fieldbus for standard fieldbus modules or 268 Kbps fieldbus for 100 series FBMs

– Splitter/terminal modules for A/B fieldbuses

– Backwards compatible with existing I/O subsystems, allowing for future expansion

No additional interface hardware required

 Primary and secondary 24 VDC power supplies and communication connections

 Dedicated keying position for individual CP-type modules (e.g. FCP280. FDC280 or FCM/FBM), depending on the substrate type

 Passive backplane for increased system reliability.

200 Series Substrate Mounting

Most 200 series baseboards are available in three basic mounting configurations – horizontal DIN rail mount), vertical DIN rail mount, or horizontal or vertical DIN rail mount, but the baseboards themselves must be orientated horizontally.

Any of these mounting configurations can be used inside the cabinet, outside the cabinet, or mounted on secure DIN rails.

The compact FBM242 Discrete Output Interface Module contains 16 discrete output channels powered by an external power supply of the customer’s choice.

Features

The key features of the Compact FBM242 module are listed below:

 16 discrete outputs

 Supports discrete output signals for the following voltages

– 15 to 60 VDC

– 120 VAC/125 VDC

– 240 VAC

 Each output is galvanically isolated; group-isolated when used with external excitation.

 Compact and rugged, suitable for enclosures in Class G3 (harsh) environments

 Executes discrete I/O or ladder logic programs, configurable www.ge-drive.com with the following options:

Input Filter Time, Fail Safe Configuration, Fail Safe Fallback, Continuous or Instantaneous Outputs

 Various terminal assemblies (TAs) that include the following

– Current limiting devices

– Fuses

– Relay outputs with external power supply, fuses and distribution

– Solid-state outputs

– Redundant power distribution

Overview of the FBM242 Discrete Output Interface Module

The Compact FBM242 Discrete Output Interface Module contains 16 discrete output channels that are externally powered and rated up to 2 A at 60 VDC.

It is part of the Compact 200 Series I/O subsystem described in the Compact 200 Series I/O Subsystem Overview (Ref. 1).

The associated termination assembly (TA) provides discrete outputs for 2 A 60 VDC voltage loads, relay outputs (120 V AC/125 VDC or 240 V AC), or relay outputs with power distribution and fuses. Each output is completely isolated from other channels and ground.

The module connects the electrical output signals from the control processor to field devices. It performs digital I/O applications, supports ladder logic, and provides fail-safe configuration options for the outputs.

Compact Design

The compact FBM242 module is designed to be narrower than the standard 200 series FBM. It has a rugged acrylonitrile-butadiene-styrene (ABS) enclosure that provides physical protection for the circuitry.

The enclosure, designed for mounting the FBM, provides various levels of environmental protection up to harsh environments (Class G3) according to ISA Standard S71.04.

Visual indicators

Light-emitting diodes (LEDs) on the front of the module provide a visual indication of the module’s operating status and the discrete status of each output point.

Easy removal/replacement

The modules are mounted on DIN rail-mounted or rack-mounted Compact 200 series base plates.

Signal connectors for redundant fieldbus, redundant independent DC power supply and termination cables are included.

Two screws on the FBM secure the module to the Compact 200 series base plate.

When removing/replacing the module, there is no need to remove the field device termination cables, power supply or communication cables.

Fieldbus Communication

The fieldbus communication module or control processor is connected to the redundant 2 Mbps modular fieldbus used by the FBM.

The Compact FBM242 accepts communications from either path (A or B) of the redundant 2 Mbps fieldbus – if one of the paths fails or is not in operation, the FBM will not accept communications from the other path.

If one of the paths fails or is shut down at the system level, the module will continue to communicate over the active path.

Current Limit

Field power supplies used for contacts or solid state switches are current limited.

Terminal Assembly (TA)

Field I/O signals are connected to the FBM subsystem via DIN rail mounted TAs.

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.

The Foxboro® brand Model IDP10 is an analogue output, two-wire d/p Cell® transmitter.

It provides accurate, reliable differential pressure measurement and transmits a 4 to 20 mA analogue output signal.

High Reliability and Value

 is available in conventional or low-profile construction.

 Excellent performance and long-term stability based on microprocessor technology.

 Industry-standard 316L ss, Co-Ni-Cr, nickel alloy(1), monel alloy, or tantalum sensor materials, depending on transmitter construction.

 Available in durable aluminium or 316 SS housings; both meet NEMA 4X and IP66 ratings.

 Optional mounting bracket kits are available www.ge-drive.com for duct, surface, or manifold mounting of the transmitter.

 Dual seal certified to ANSI/ISA 12.27.01-2003.

 CE marked; complies with applicable EMC, ATEX, and PED European directives.

 Designed for hazardous area installations. Versions are available to meet organisational explosion-proofing and zoning requirements.

 Standard 5-year warranty.

Affordable Smart Transmitter Features

When you need the flexibility and performance of a configurable smart transmitter, but don’t need a digital output signal, these transmitters offer excellent benefits at a very affordable price:

 Liquid crystal display (LCD) digital indicator with on-board pushbuttons

 Pushbutton configuration and calibration

– Linear or square root output

– Adjustable damping

– Forward or reverse output

– Fail-safe outputs; scale up or scale down

– Rearrange without applying pressure

 can be easily upgraded to a fully intelligent version (FoxCom™, HART® or FOUNDATION™ fieldbus)

I/A SERIES PRESSURE TRANSMITTERS The I/A Series pressure transmitter family includes d/p Cell, Gauge, Absolute, Multi-Range, Multi-Variable, and High Performance transmitters, as well as pressure seals with remote or direct connection.

and transmitters with remote or directly connected pressure seals, all featuring field-proven silicon strain gauge sensors and universal topside construction.

Modular electronics

Choose the electronics modules you need to provide just the right level of intelligence for your application and budget.

If your needs change, the modular design allows easy migration to other protocols including FoxCom, HART, FOUNDATION fieldbus and 1 to 5 V dc versions.

Electronic -A Transmitter

This transmitter uses the -A electronics module. It is a very economical analogue output transmitter with comprehensive configuration features.

The transmitter offers the most powerful features for the most applications at the lowest cost.

cost. It can even be readjusted to a new calibration range using the standard LCD indicator without applying calibration pressure.

Sensor corrosion protection

For conventional construction, 316L ss, Co-Ni-Cr, nickel alloys (2), monel alloys, gold-plated 316L ss, and tantalum materials are available.

The high corrosion resistance of CoNi-Cr (TI 037-078) means a long service life in many difficult applications

The high corrosion resistance of CoNi-Cr (TI 037-078) means a long service life in many difficult applications without the extra cost of special materials.

For flat structures LP1 and LP2. 316L stainless steel and nickel alloys (2) are used as sensor materials.

High Performance

These transmitters utilise microprocessor-based calibration for excellent accuracy and ambient temperature compensation.

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The E69F Field Mount Current Pneumatic Signal Converter accepts a standard DC input signal and converts it to a proportional pneumatic output signal for use with other pneumatic instruments or control valves.

and converts it to a proportional pneumatic output signal for use with other pneumatic instruments or control valves.

As indicated by the “CE” marking on the product, it complies with applicable European Union directives.

Compact and easy to install

The small size and compact design of the E69F converter allows for easy connection to electrical and pneumatic interfaces.

It can be easily mounted on a surface, on a valve yoke or on a vertical pipe with a nominal DN 50 or 2.

Minimal influence on ambient atmospheric conditions

The design of the corona motor in the E69F converter allows a large clearance between the coil and the housing.

Normal atmospheric variations may cause corrosion and dust particles, but will not impede the operation of the mechanism as would be the case with voice coil type instruments.

Wide range of applications

Selectable input and output signals, different input ranges, and direct or reverse action make this converter easily adaptable to a wide variety of applications.

The choice of output signals makes the converter particularly suitable for valve applications.

PERFORMANCE SPECIFICATIONS Performance Specifications

Accuracy

±1.0% for Output Signal Codes 2 and 3 ranges

Output signal codes 7 and 8 ±2% of range

Linearity ±0.5% of range, typical

(Maximum deviation limited by accuracy specifications Maximum www.ge-drive.com deviation limited by accuracy specifications)

Repeatability ±0.25% of range, typical

(maximum deviation limited by accuracy specifications maximum deviation limited by accuracy specifications)

Hysteresis ±0.5% of range, typical

(Maximum deviation is limited by accuracy specifications Maximum deviation is limited by accuracy specifications)

Deadband 0.1 % of range

Air Supply Pressure Effect

Zero shift due to changes in air supply pressure is less than 0.04% per kPa (0.25% per psi).

Ambient Temperature Effects

Over an operating temperature range of 0 to 60°C (32 to 140°F), a change in ambient temperature of 28°C (50°F) will result in a zero and range shift of ±1.0% or less.

Tilt Effect

A 5-degree change in inclination from the vertical results in a maximum zero shift of 0.25% of range. This error can be eliminated by calibrating the instrument at the intended mounting position.

Shock Effect

The maximum zero offset is 0.5% of the range for a 300 m/s2 (30 “g”) shock test on a feedback support frame.