Category: Emerson

Modularity and flexibility

The RXi – Industrial Monitor Display Portfolio is available in screen sizes ranging from 7 inches to 24 inches, all in widescreen format.

The 7-inch and 15-inch models also feature outdoor sunlight readable (SLR) screens.

The modular nature of the unit provides great flexibility in configuring RXi – Industrial Monitors.

You can easily replace an indoor screen with an outdoor screen, change the screen size, or replace a damaged screen, all while using the same backplane module.

Recognising that effective processes require proper visualisation, the RXi – Industrial Monitor portfolio offers more functionality than ever before.

With display port inputs and display port outputs on every industrial monitor, you can simplify your architecture with MST daisy chaining.

Designed for Visualisation

RXi – Industrial monitors are designed with precision in mind when it comes to visualisation.

Multi-touch, projected capacitive screens feature high resolution, vivid graphics capabilities and fast response times to ensure relevant information is always available for viewing and interaction.

This enables operators to make faster, more informed decisions with a high-performance platform that reduces total cost of ownership.

Anywhere, anytime: a wide range of applications

The portfolio operates efficiently in temperatures as high www.cniacs.com as 65°C and as low as -20°C. The modules can be used outdoors and are available in a variety of configurations. Modules can be used outdoors and are equipped with sunlight-readable (SLR)

Readable (SLR) UV-protected screens.The screens of the RXi – Industrial Monitors are strictly IP66 certified and are protected against dust, humidity and even direct water spray.

RXi – Industrial monitors offer you solutions to meet your every need.

Display technology: designed to maximise the user experience

RXi – Industrial Displays bring industrial displays into today’s connected world, combining design, durability and power.

In an ultra-thin package, it’s perfect for the factory floor.

The sleek and powerful user experience (UX) connects people to machines with the latest touchscreen technology and widescreen displays.

The capacitive ultra-touch screen can be used while wearing personal protective equipment and is as sensitive as the latest smartphones.

In addition, the outdoor-grade sunlight readable (SLR) screen is almost twice as bright as the brightest smart devices.

Optically bonded screens with UV protection greatly reduce reflections and glare, providing operators with vivid, clear images for more complete and powerful process visualisation.

Rosemount 3153N Nuclear Qualified Pressure Transmitter

Industry-leading performance

– Meets the following standards

o IEEE Std 323™-1974/1983/2003

o IEEE Std 344™-1975/1987/2004

– 36 Mrad (360 kGy) TID Gamma Radiation

– 8.5g ZPA Seismic

– 333ºF (167.2ºC) Vapour/Temperature

– 0.2% Reference Accuracy

Introduction to the Rosemount 3153N Nuclear Pressure

The Rosemount 3153N Nuclear Pressure Transmitter is designed for precision pressure measurement in nuclear applications.

These applications require reliable performance and safety over a long service life.

The 3153N complies with IEEE Std 323™-1974/1983/2003 and IEEE Std 344™-1975/1987/2004.

Irradiance is 36 Mrads TID Gamma, Seismic Rating 8.5g ZPA, and Vapour Pressure/Temperature Performance.

Rigorous quality control during manufacturing includes traceability of pressure retaining components, special nuclear cleaning and hydrostatic pressure testing.

Transmitter Description

The Rosemount 3153N transmitter is similar in construction and performance to the proven Rosemount 3051 transmitter.

The transmitter is available in absolute (AP), gauge (GP), and differential (DP) configurations with a choice of six pressure ranges.

Direct electronic sensing using a fully sealed www.cniacs.com coplanar capacitive sensing element (see Figure 1) eliminates mechanical force transfer and problems associated with shock and vibration.

Compact design, two-wire system compatibility, and non-interactive external range and zero adjustments for standard calibration simplify installation and commissioning.

Wiring terminals and electronics are located in separate compartments, helping to

ensure that the electronics remain sealed during installation.

Operation

The process pressure is transmitted to the sensing diaphragm in the centre of the sensor unit by means of an isolating diaphragm and a silicone oil filler fluid.

The process or reference pressure is transmitted in a similar manner to the other side of the centre sensing diaphragm.

Capacitor plates on both sides of the sensing diaphragm detect the position of the sensing diaphragm.

Sudden and small axial movements should be detected within 40 milliseconds or less to minimise or avoid rotor-to-casing contact.

or avoid rotor-to-case contact. Redundant sensors and voting logic are recommended.

Thrust bearing temperature measurement is strongly recommended as a supplement to thrust position monitoring.

Shaft thrust monitoring consists of one to three displacement sensors mounted on the shaft end or thrust collar in the axial direction parallel to the shaft.

The displacement sensors are non-contact sensors that measure shaft position.

For critically important safety applications, the A6250 monitor provides triple redundant thrust protection.

The A6210 monitor can also be configured for differential expansion measurement.

During turbine start-up, both the casing and the rotor expand due to changes in thermal conditions.

Differential expansion therefore measures the relative difference between the displacement sensor mounted on the housing and the target of the sensor mounted on the shaft. If

housing and shaft grow at approximately the same rate, the differential expansion remains ideally close to zero.

Differential expansion measurement modes are supported in series/complementary or cone/slope modes.

Finally, the A6210 monitor can be configured in average rod drop mode to monitor riding belt wear in reciprocating compressors.

Over time, the rider band in a horizontal reciprocating compressor wears due to the force of gravity acting on the horizontally orientated piston in the compressor cylinder.

If the rider belt wears beyond the point where the piston would come into contact with the cylinder wall, damage to the machine and possible malfunction occurs.

By installing at least one displacement probe to measure the piston rod position, you will be notified when the piston drops – a sign of a worn rider band.

You can then set the shutdown protection threshold for automatic tripping.

The average piston rod drop parameter can be used as a coefficient to indicate actual riding belt wear.

Or, without applying any coefficients, the rod drop will indicate the actual movement of the piston rod.

The AMS 6500 is easily integrated with DeltaV and Ovation process automation systems.

Includes pre-configured DeltaV graphical Dynamos and Ovation graphical macros to speed graphical development for operators.

AMS software provides maintenance www.cniacs.com personnel with advanced predictive and performance diagnostic tools, enabling them to identify machine failures early with confidence and accuracy.

Features:

Dual-channel, 3U-sized, 1-slot plug-in module reduces cabinet space requirements by half over traditional four-channel 6U cards

API 670 and API 618 compliant hot-swappable modules

Pre- and post-buffered and proportional outputs, 0/4-20 mA outputs, 0 – 10 V outputs

Self-test features include monitoring hardware, power inputs, hardware temperature, simplification, and cable connections,

Hardware temperature, simplification and cable

Built-in software linearisation for easy post-installation adjustment of sensors

For use with displacement sensors 6422. 6423. 6424 and 6425 and driver CON xxx

CSI A6120 Enclosure Seismic Vibration Monitor for CSI 6500 Machinery Health Monitor

The Case Seismic Vibration Monitor for use with electromechanical seismic sensors is designed for high reliability on the plant’s most critical rotating machinery.

This 1-slot monitor is used in conjunction with other CSI 6500 monitors to form a complete API 670 machinery protection monitor.

Applications include steam, gas, compressors and hydraulic turbines. Casing measurements are common in nuclear power applications.

The primary function of the casing seismic vibration monitor is to accurately monitor casing seismic vibration, the

and to reliably protect machinery by comparing vibration parameters with alarm set points, actuated alarms and relays.

A case seismic vibration sensor, sometimes referred to as a case absolute vibration sensor (not to be confused with a shaft absolute vibration sensor), is an electrodynamic, internally spring-loaded, and magnetically actuated vibration sensor.

It is an electrodynamic, internal spring and magnet, velocity output type sensor.

A housing seismic vibration monitor monitors the overall vibration of a bearing housing at millimetres per second (inches per second).

Since the sensor is mounted on the bearing housing, vibration in the housing can be affected by many different sources.

These include rotor motion, foundation and bearing box stiffness, blade vibration, adjacent machinery, etc.

When replacing ffeld sensors, many are being updated to piezoelectric sensors, which provide internal integration from acceleration to velocity.

Piezoelectric sensors are a new type of electronic www.cniacs.com sensor rather than the older electromechanical type.

Case Seismic Vibration Monitors are backward compatible with electromechanical sensors installed in the ffeld.

The CSI 6500 Machinery Health Monitor is an integral part of PlantWeb® and the AMS Suite.

PlantWeb combines Ovation® and DeltaV™ process control systems to provide operators with an integrated view of machinery health.

The AMS Suite provides maintenance personnel with advanced predictive and performance diagnostic tools to accurately determine machine failures at an early stage.

Features:

Dual-channel, 3U-sized, 1-slot plug-in module that cuts cabinet space requirements in half compared to traditional four-channel 6U cards

API 670-compliant hot-swappable modules

Remotely selectable limit multiplication and trip bypass

Pre- and post-buffered and proportional outputs, 0/4-20 mA outputs, 0 – 10 V outputs

Use with electric (electromechanical) sensors 9266. 9267. or 9268

The ModBus and Rack Interface Module is designed to provide high reliability for the plant’s most critical rotating machinery.

It reads parameters from all AMS 6500 modules and outputs them via ModBus TCP/IP and/or ModBus RTU (serial).

This 1-slot monitor can be used with www.cniacs.com other AMS 6500 monitors to form a complete API 670 machinery protection monitor.

Applications include steam, gas, compressor and hydraulic turbine machinery.

Operators have access to machinery health parameters in the control environment for seamless integration.

The module powers a local graphical display on the protection rack for reading machine and instrument information.

It can be configured with ModBus TCP/IP or ModBus RTU, or both with redundant paths.

The AMS 6500 is an integral part of PlantWeb® and AMS software.

PlantWeb combines the Ovation® and DeltaV™ process control systems to provide operators with an integrated view of machine health.

AMS software provides maintenance personnel with advanced predictive and performance diagnostic tools to accurately determine machine failures at an early stage.

3U-sized, 1-slot plug-in module reduces cabinet space requirements by half compared to traditional 6U cards

API 670-compliant hot-swappable modules

Password protected user configuration

Self-test features include monitoring of hardware, power inputs and hardware temperature

A6824 module can be used in multiple 19’ racks

A6824 is a 6TE wide module with no redundancy option for IMR6000 series 19’ racks

About DeltaV™ System Power Supplies

Power supplies – systems can’t operate without them.DeltaV™ System Power Supplies provide you with the most efficient and reliable power solutions available.

DeltaV power supply kits provide www.cniacs.com power to the system electronics and to the field. This is all the power you need for your DeltaV system.

Benefits

DC/DC system power supplies are plug-and-play components. They fit any power carrier, including horizontal 2-width and vertical 4-width carriers.

These carriers contain an internal power bus that connects to the controller and I/O interfaces, eliminating the need for external wiring. The carriers are easily mounted on T-shaped DIN rails!

Flexible and cost-effective, DeltaV DC/DC system power supplies accept 12V DC and 24V DC input power.

Modular construction and load-sharing capabilities of the power supplies allow you to add more power to your system or provide power redundancy.

Safety. Your I/O is always accurate because I/O subsystems and controllers are always supplied with stable, accurate 12V DC or 5V DC power. Power supplies are EMC- and CSA-compliant; notification is immediate in the event of a power failure; and system and field power supplies are completely isolated.

Simplified system power supply. System power supplies provide more current on the 12 VDC I/O interface power bus, eliminating the need for 24 to 12 VDC bulk power supplies. All controller and I/O power is now available from the factory 24 VDC bulk power supply.

INTRODUCTION

The MX controller provides communication and control between ffeld devices and other nodes on the control network. Control strategies and system configurations created on earlier DeltaV™ systems can be used in this powerful controller.The MX controller has all the features and functionality of the MD Plus controller, but twice the capacity.

The control language implemented in the controller is described in the Control Software Suite product data sheet.

Advantages

Right-Sized Controller

The MX controllers complement the MQ controllers by providing a larger capacity controller for applications requiring greater control capability:

2 X control capacity

2 X user configurable memory

2 X DST counts

DeltaV™ MX controllers and DeltaV I/O subsystems are easy and quick to install.

Post change. You can easily upgrade an MQ controller to an MX to handle project scope changes later in the project The MX has the same installed footprint as an MQ controller, but twice the performance. Simply replace the MQ with the MX, and then

All existing configurations, documentation, www.cniacs.com and hardware design remain intact.

Redundant Architecture: MX controllers support 1:1 redundancy for increased availability. Existing MD/MD Plus or MQ controllers are upgradable and powerful online!

Increased Productivity

Self-addressing.The DeltaV controller is unique in its ability to automatically identify itself within the DeltaV control network.

When the controller is powered up, it is automatically assigned a unique address – no dip switches, no connections – plug and play!

Automatic Location. The physical location of the controller is easy to find.

LEDs on the face of the controller can flash to provide a strong visual cue.

Automatic I/O Detection. The controller recognises all I/O interface channels on the subsystem. As soon as an I/O interface is plugged in, the controller knows the general characteristics of the ffeld device managed by that I/O interface. This reduces the worthless engineering associated with configuration – simple!

Connection to electronic commissioning and wireless I/O.

Starting with DeltaV v14.3. CHARM and wireless devices connected via the CHARM I/O card (CIOC) and the Wireless I/O card (WIOC) can be assigned to the MX controller.

This makes it easier than ever to add I/O to existing controllers by simply adding a CIOC and/or WIOC to the DeltaV zone control network.

Features 

▪ Modular, plug-in components support long-term process reliability 

▪ Modules are installed and configured quickly and easily with single-point DIN rail fastening 

▪ Built-in connectors eliminate power and communications wiring 

▪ Electronic ID identifies module type, group, serial number and revision 

▪ Fewer module styles reduce spare parts inventory costs 

▪ Redundant power supplies deliver system reliability 

▪ “Hot swapping” streamlines system maintenance 

▪ Standardized status indicators offer color-coded diagnostic messages 

▪ Remote Ovation I/O provides a flexible, costeffective means to distribute I/O modules to strategic locations throughout the plant 

Ovation I/O Architecture 

The Base 

Ovation packaging reduces the system footprint by using base units which attach to mounting plates by DIN rail; these hold four independent Ovation I/O modules of any style. This approach simplifies maintenance by making it easy to install, move or replace individual base units. 

Base unit features include:  

▪ Field terminal blocks that accept two 14 AWG or a single 12 AWG 

▪ I/O bus communications built into the base 

▪ I/O modules automatically addressed by location 

▪ I/O modules may reside in any location 

▪ I/O module redundant power distribution 

▪ No interconnecting cables for I/O bases 

▪ Built-in spare fuse holders and strip gauge in base 

The base unit’s high-impact plastic housing protects the backplane, exposing only the connectors as modules are removed.  

Features 

▪ Collects plant information from disparate systems to form a single data source for secure, remote visualization, and monitoring  

▪ Provides staff with read-only access to near real-time www.cniacs.com and archived plant information,

regardless of geographic location 

▪ Presents comprehensive views of assets to all levels of an organization  

▪ Enables proactive response to process changes, operational abnormalities, or equipment issues 

▪ Scalable from a single unit to widely dispersed plants with numerous deployment options 

▪ Measures, monitors, and reports Key Performance Indicators (KPIs) 

▪ Fully supported through Emerson’s lifecycle services programs

Applications 

EDS is a powerful tool that simplifies information management by consolidating data from disparate systems into a single source for remote monitoring and analysis.  

EDS delivers increased awareness of plant operations by securely connecting staff to near-real time and archived data, regardless of geographic location. Timely and accurate representation of plant performance enables more informed decision-making to enhance operations and streamline maintenance.  

For example, severe weather events pose many forms of danger to any industrial process site, which could require plant staff, both on and off duty, to quickly troubleshoot problems before they escalate. EDS provides critical process data to the right people at the right time, helping to mitigate emerging issues.  

Using EDS data and tools, power generators can assess abnormal conditions that could lead to infrastructure damage or widespread power outages. Water plants can monitor increased flows within distribution networks to better predict flooding, thus helping to prevent overflows and associated environmental impact. 

As an option, Ovation EDS can automate operator round activities, including interfaces to computer maintenance or lab information systems and customized route and data collection templates. 

EDS data can also monitor key performance indicators (KPIs) for measuring against objectives and generating required performance reports. Example KPIs include: 

▪ Power generation: fuel usage, plant availability, emissions, generation revenue, or efficiency (heat rate). 

▪ Water and wastewater plants: quality, compliance, energy usage, chemical usage, or operating and maintenance expenses. 

As an integrated information source, EDS provides valuable insights to all levels of an organization: 

▪ Executives or corporate management can obtain a complete view of district- or fleet-wide operations. 

▪ Plant management can view and trend information to make informed operating or maintenance decisions. 

▪ Plant supervisors, engineers, and technicians can easily evaluate process or plant status. 

The AMS 6500 Machinery Health Monitor is an integral part of PlantWeb® and AMS software.

PlantWeb provides integrated machine health operation in conjunction with the Ovation® and DeltaV™ process control systems.

AMS software provides maintenance www.cniacs.com personnel with advanced predictive and performance diagnostic tools to accurately determine machine failures at an early stage.

Features

Dual-channel, 3U-sized, 1-slot plug-in module cuts cabinet space requirements in half compared to traditional four-channel 6U cards

API 670-compliant hot-swappable modules

Password-protected user configuration

Self-test features include monitoring hardware, power inputs, hardware temperature, sensors and cables

Hardware temperature, sensors and cables

Pre- and post-buffered and proportional outputs, 0/4-20 mA outputs, 0 – 10 V outputs

For use with Inductive Displacement Sensor 9350

A6410 Dimensions:

PCB/EURO card format to

DIN 41494. 100 x 160 mm (3.937 x 6.300 in)

Width: 30.0 mm (1.181 in) (6 TE)

Height: 128.4 mm (5.055 in) (3 HE)

Length: 160.0 mm (6.300 in)

Net weight: approx. 320 g (0.705 lb)

Gross weight: approx. 450 g (0.992 lb)

Including standard packaging

Package volume: approx. 2.5 cubic metres (0.08 cubic feet)

Space

Space Required 1 slot

14 modules per 19″ rack