Category: Emerson

Examples include steam, gas, compressor and water turbomachinery, blowers and fans.

The purpose of the displacement probe is to measure position or shaft motion without contacting the surface under test (rotor).

In sleeve bearing machines, a thin film of oil separates the shaft from the bearing material.

The oil acts as a damping agent so that shaft vibrations and position are not transmitted through the bearing to the bearing housing.

Vibrations due to shaft movement or position are greatly attenuated by the action of the bearing oil film.

The use of housing vibration sensors to monitor sleeve bearing machines is therefore discouraged.

The ideal method of monitoring shaft position and motion is through the bearing or a non-contact eddy current sensor mounted inside the bearing.

PR 6423 is commonly used to measure machine shaft vibration, eccentricity, thrust (axial displacement), differential expansion, valve position and air gap.

Non-contact measurement of static and dynamic shaft displacements

– Shaft and radial displacement (position)

– Shaft eccentricity

– Shaft vibration (motion)

Meets international standards DIN 45670. ISO 10817-1 and API 670

Rated for use in explosive areas, Eex ib IIC T6/T4

Other displacement transducer options include PR 6422. PR 6423. PR 6424. and PR 6425

Choose from CON 011/91. 021/91. 041/91 and other converters and cables for a complete transducer system

Functional features:

Designed for SIS

Modular design for flexible installation

Allows for online expansion

Increased I/O density

I/O density for cabinet-mounted systems

Introduction to the DeltaV™ VerticalPlus I/O Rack

Keep your I/O subsystems running efficiently with DeltaV™ VerticalPlus I/O Racks.

The VerticalPlus platform allows you to integrate DeltaV SIS logic solvers vertically, giving you the flexibility you need for cabinet design.

Power supplies/controllers and I/O carriers are modular.

You buy only what you need, but rest assured that as your system grows, you can add plug-and-play carriers-it’s easy!

The Advantage

Designed specifically for SIS. The redesigned carrier supports simplex and redundant SLS modules.

These modules communicate via a redundant safety bus, which is separate from the BPCS communications.

The VerticalPlus carrier also communicates with other SIS nodes on the vertical and horizontal carriers via redundant SISNet repeaters.

The modular design allows for flexible installation. A single T-shaped DIN rail is all that is needed to mount the power/controller carrier in place.

Fieldbus power is now independent for each individual card.

The modular design approach of the DeltaV system allows you to add I/O carriers as needed.

Allows you to expand online. Additional carriers can be added online as needed.

Increases the density of the cabinet-mounted system. Six I/O carriers can be mounted on one side of a standard 1200mm x 600mm x 2200mm cabinet.

Pre-configured user-selectable measurement types simplify software configuration

Password protection with 4 user login levels and customisable access rights

Context-sensitive help information to quickly resolve set-up issues

Includes trending, time functions, order analyses and start/stop data for comprehensive setup.

Configuration includes setup of basic predictive functions, including troubleshooting and diagnostics

Applications

The AMS 6500 Configuration Software for Machinery Protection allows you to configure protection modules, view real-time vibration monitoring systems and sensor health.

The intuitive configuration process begins with the selection of the card type. Next, the configuration software displays a simple table view.

All configuration settings are clearly visible. Tabs help you categorise information between inputs, outputs, advanced machine diagnostics and management tasks.

diagnostic and management tasks. The allowable range for each required entry is clearly visible to help you understand the range of the parameter.

Preset parameters are automatically loaded when using Emerson sensors and transducers.

Real-time data can be displayed during system configuration to verify that wiring, card settings, and instrumentation are healthy and properly connected.

Real-time information such as gap voltage, waveform data, and overall vibration data can be viewed.

Ongoing maintenance functions such as resetting latching relays or loading saved configurations can be easily performed via software.

The software can be run on a PC or laptop.

The System Configuration Software allows you to configure the following monitors of the A6000 series

The following monitors of the A6000 series can be configured:

a6110. a6120. a6125. a6140. a6150. a6151. a6210. a6220. a6310. a6312. a6312-8.

a6410. a6620. a6630. a6740.a6740-10. a6824. a6824r

Basic Predictive Features

The AMS 6500 Configuration Software has a number of built-in trending functions that allow basic troubleshooting and prediction of the machine.

Master value trends are graphically represented, showing both card health and alarm values. The software can display vibration signals as a function of time,

The software displays the vibration signal as a function of time, the date of the FFT analysis with a resolution of up to 400 lines, and the FFT phase data. The software also displays the last time the machine was started or stopped.

The configuration software visualises the data and displays velocity over time and vibration over velocity for each channel.

Vibration analyser offers powerful user experience

AMS 2140 Machinery Health™ Analyser The AMS 2140 is the most comprehensive tool for assessing and predicting machinery health

The AMS 2140 builds on Emerson’s industry-leading CSI 2130 to make path-based maintenance more efficient and predictive diagnostics more practical.

predictive diagnostics more practical. the AMS 2140 is guided by human-centred design principles.

The AMS 2140 follows human-centred design principles and is user-focused to meet the availability and advanced diagnostic requirements of reliability engineers.

With more than 25 years of expertise in vibration analysis, Emerson’s portable analysers provide the most powerful user experience for predicting equipment problems.

Routes can be executed more efficiently with faster data acquisition and four-channel acquisition capabilities.

The extra time is then used for higher value tasks such as data analysis, root cause analysis and maintenance planning.

Use a wireless hotspot in the device to send data directly from ffeld back to the maintenance shop.

When you start another route, analysts in the maintenance shop can start analysing the data, so you can collect and analyse data at the same time.

Or send data back to a central database from a remote plant location so that it can be viewed by key stakeholders within your organisation.

Designed for you

Four-channel data collection makes bearing analysis easier and faster

Better understanding of shaft motion and machine transients with four-channel diagnostics

Longer battery life for a full shift (or more) without recharging

Full-colour touchscreen for easy navigation and detailed fault analysis, even when wearing gloves

Large screen automatically adjusts to ambient light so you can see what you need to see, wherever you are

Slim housing for comfortable one-handed operation

Fastest data acquisition speed on the market, so you spend less time in harsh environments

Advanced analysis tools, including cross-channel and transient analysis, help identify root causes

Comfortable shoulder strap and built-in stand make the analyser easy to use

Bluetooth wireless communication with headset for ease of use

Predictive diagnostics help you determine the root cause of equipment problems

Versatile advanced diagnostics improve machine health

The AMS 2140 offers the industry’s most complete set of features to quickly and accurately assess the health of rotating machinery.

Even the most complex machinery in your facility. With the AMS 2140

You can perform single-, dual-, or quad-channel vibration analysis, cross-channel analysis, transient analysis, structural analysis, balancing, and motor monitoring.

The analyser’s embedded intelligence guides you through advanced diagnostic tools, providing pre-configured menus and preset technology settings.

Troubleshooting documentation in the AMS 2140 helps with initial analysis, and AMS Suite integrates with the analyser for more in-depth analysis of data.

DeltaV™ switches are plug-and-play industrial switches with enhanced security features

New and improved hardware and software platforms with increased focus on security and improved performance

Fully managed by the DeltaV™ system

Automatically reports network alarms and diagnostic information to DeltaV workstations

Can be installed on the network between DeltaV workstations and Emerson’s Intelligent Firewall (DeltaV 2.5 network)

Plug-and-play installation

Automatic security lockout

Full range of industrial-grade fanless switches

Fully supported by Emerson

Introduction

The new DeltaV™ network “smart” switches are the next generation in the use of commercial off-the-shelf (COTS) components in control systems.

These switches combine the low cost of off-the-shelf components with DeltaV-specified software and features that

making it more integrated and plug-and-play in the DeltaV Area Control Network (ACN) and other DeltaV networks outside the ACN.

The DeltaV Smart Switch requires no configuration to operate in a DeltaV network.

Access to advanced features requires minimal configuration and is easily accomplished using the DeltaV Network Device Command Centre.

This ensures that all Smart Switches on the network are configured consistently and securely, and that the performance of the DeltaV system is not compromised by misconfiguring any switch function.

This dedicated switch allows the DeltaV system to provide an advanced security feature of automatic port lockout, which can be easily implemented by the control system user.

Control system users can easily implement this feature: an increasingly important product feature in today’s harsh environments.

The DeltaV Smart Switch is also pre-configured to utilise features in the latest software releases, such as ARP sniffing and enhanced security features.

(The DeltaV Smart Switch is also preconfigured to detect certain man-in-the-middle attacks using features in the latest version of the software, such as ARP sniffing and enhanced port locking algorithms: ARP spooffng detection and enhanced port locking algorithms.

The PACSystems RX3i series offers advanced diagnostics and high-performance I/O.

With its modular design and multiple expansion options, the RX3i is the perfect I/O solution for process, hybrid and discrete applications.

Modularity, High-Speed Performance

The RX3i is a rack-based system with a variety of modules covering digital, analog, and many other specialized I/O types.

These pluggable, hot-swappable modules allow you to customize the right combination of I/O to support a wide range of voltages and current capacities to meet all your application needs.

to meet all your application needs. Regardless of the I/O combination you choose, the RX3i is built on high-speed interfaces that provide fast, stable data transfer.

Highly Scalable

The RX3i’s ability to pair I/Os makes it easy to expand your system. In addition to the inputs/outputs on the mainframe, you can expand locally or remotely by

connect to additional input/output racks. In fact, the RX3i can support as few as 8 I/O points and as many as 32.000 I/O points.

In fact, the RX3i can support as few as 8 I/O points and as many as 32.000 I/O points in a single system.

With 7- to 16-slot backplanes and 1-slot expansion options, you can create the perfect system for your needs.

The Perfect Upgrade Path

Emerson’s RX3i gives you a simple migration path from the 90-30 Series,

90-70 Series, and RX7i Series legacy systems in a fast, hassle-free upgrade program.

RX3i allows you to reuse 90-30 series modules on RX3i backplanes, so you can upgrade your I/O system without having to mess with wiring or buy I/O modules.

As a result, you can upgrade your I/O system without messing with wiring or buying new I/O.

Upgrading to the RX3i improves integrated Ethernet and modern USB communications for serial or memory stick.

With a smaller form factor, greater capacity, and speeds more than 100 times faster than traditional control devices, the RX3i is an easy, cost-effective way to upgrade.

Protect your investment without disruption. Upgrades take hours, not days!

The 16-channel output relay module is designed to provide high reliability for the plant’s most critical rotating machinery.

This monitor is used in conjunction with the AMS 6500 ATG to form a complete API 670 machinery protection monitor.

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

Any channel of clear, alarm or warning signal can be selected as an input to the 16-channel output relay module.

Configuration is accomplished using Boolean logic, applying time delays and selecting output relays.

Easy-to-use software provides a graphical logic display that graphically guides the user through the configuration.

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

PlantWeb provides operation in conjunction with Ovation® and DeltaV™ process control systems – integrating machinery health.

AMS software provides maintenance personnel with advanced predictive and performance diagnostic tools that enable them to identify machine failures early with confidence and accuracy.

3U-sized, 2-slot plug-in modules cut cabinet space requirements in half compared to traditional 6U cards.

API 670-compliant, hot-swappable modules.

66 inputs, 16 logic networks, 16 relay outputs.

The A6500-RC is a 10TE wide module for use in the A6500-SR rack.

The CSI 6500 Equipment Condition Monitoring System is fully compliant with API 670 and is designed to protect and monitor critical rotating machinery.

Special features of the system include the ability to integrate data from protection functions into DeltaV and Ovation process automation systems in three simple steps;

Transient analysis with real-time display, logging, pause and playback; and superior PeakVue processing for early detection of bearing and gear damage.

Subrack Configuration:

– The 19″ subrack is used only for the 6 U version of the protection function and the standard 3 U version of the protection function.

– The 19″ subrack is used only for the forecasting function and has a mounting height of 6 U with front or rear sensor connection terminals.

A compact version with a mounting width of 7.5″ is also available.

– Only the 19″/6 U subrack is available for combined protection and forecasting functions.

n The machine monitoring function is fully compliant with API 670.

n Standard 19″/6 U subrack for cabinet mounting

n System design ensures that no more than two channels are affected in the event of a card failure; cards can be replaced during operation

n Internal clock synchronized to the system master clock

n Redundant ModBus connections, TCP or serial connections for integrating the Protection Monitor into third-party control systems.

Does your budget need more bang for your buck?

What if you could get the benefits of prediction at the cost of protecting your systems? Predictive Intelligence is a key component in improving the availability and reliability of plant assets.

So getting predictive data from your protection system is an important step in understanding and improving the health of your assets.

Emerson’s CSI 6500 ATG protection system features a multifunction card that can be easily reconfigured to take a variety of measurements, including the data needed to provide predictive intelligence.

Predictive Capabilities

Emerson’s CSI 6500 ATG is a standalone machinery protection solution that also allows users to cost-effectively and predictively monitor critical assets with the same system.

Predictive intelligence is key to improving availability and reliability.

The CSI 6500 ATG comes with four reconfigurable cards that capture all required TSI measurements, including predictive data measurements such as the following:

Relative shaft vibration

Absolute shaft vibration

Shell vibration electrodynamic

Shell vibration piezoelectric

Relative displacement

Thrust position

Shell expansion/valve position

Average rod drop

Relative Vibration Hydrodynamic

Hydraulic absolute vibration

Eccentricity

Rotation speed

Key

Temperature

Process Parameters

Emerson A6370 Монитор защиты от превышения скорости

A6370 Overspeed Protection Monitor

The A6370 monitor is part of the AMS 6300 SIS overspeed protection system and is mounted in a 19-inch rack (84HP wide, 3RU high) with the A6371 system backplane.

An AMS 6300 SIS consists of three protection monitors (A6370) and one backplane (A6371).

The system is designed for eddy current sensors, Hall element sensors, and magnetic (VR) sensors.

Sensor Supply Voltage

Nominal Supply Voltage -24.5 V ±1.5 V DC Short-Circuit Proof, Galvanic Isolation

Maximum Current Current 35 mA

Signal Inputs, Eddy Current and Hall Element Sensors

Input signal voltage range 0 V to 26 V (+/-) Reverse polarity protection

Limit range ± 48 V

Frequency range 0 to 20 kHz

Typical input resistance 100 kΩ

Signal input, magnetic (VR) sensors

Input signal voltage range min. 1 Vpp, max. 30 V RMS

Frequency range 0 to 20 kHz

Typical input resistance 18 kΩ

Digital inputs (backplane)

Number of inputs 4 (galvanically isolated All digital inputs All digital inputs)

(test value 1. test value 2. enable test value, reset latch)

Logic low 0 V to 5 V

Logic high 13 V to 31 V, open circuit

Typical Input Resistance 6.8 kΩ

Current Outputs (Backplane)

Number of Outputs 2 Galvanically isolated, common ground

Range 0/4 to 20 mA or 20 to 4/0 mA

Accuracy ±1% of full scale

Maximum load <500 Ω

Maximum output current Output current 20 mA

Digital outputs (backplane)

Number of outputs 7 (short-circuit proof) Outputs 1 to 6. channel Ok (COK)

Logic low < 100 mV

Logic high -2 V System supply voltage

Maximum current Current 25 mA

Pulse outputs (backplane)

Number of outputs 3 Open collector-emitter, current limited, galvanically isolated