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Emerson VersaPoint I/O Input/Output Modules

VersaPoint I/O

The VersaPoint™ Distributed I/O System offers optimal compactness and flexibility while allowing users to install the right amount of I/O for each application.

Allows users to install the right amount of I/O for each application.

VersaPoint adheres to open communication standards, including Ethernet, Profibus-DP™, and DeviceNet™, for easy connection to a wide range of PLCs, DCSs, and PC-based control systems.

It is suitable for packaging and material handling applications as well as monitoring and data acquisition.

Superior Flexibility

VersaPoint’s modular structure allows it to be easily adapted to a wide range of applications. It accommodates a range of discrete and analog I/O modules, from 1-point to 16-point densities.

VersaPoint also supports a wide range of specialized modules, from RTD and www.abb-drive.com thermocouple inputs to positioning and counting modules, virtually combining intelligent automation with the simplicity of endpoint technology.

Compact size

VersaPoint saves valuable control panel space by eliminating the need to plug in terminals.

Its compact and versatile design saves up to 50% of space compared to conventional systems.

Reduced Installation Time

Installing VersaPoint couldn’t be quicker: I/O modules can be quickly and securely fastened to the DIN rail.

Thanks to the integrated I/O terminals and internal power bus, VersaPoint reduces wiring by up to 80%.

Cost-effective solution

Fast installation, reduced cabling, and more efficient use of cabinet space all make VersaPoint a great value.

Cost savings continue during operation. Extensive built-in diagnostics make identifying faults routine, maximizing uptime.

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Emerson 1066 Liquid Analysis Fieldbus pH/ORP Transmitter

Features and Applications

The Model 1066 Fieldbus Transmitter supports continuous measurement of one liquid analysis input.

It is designed for easy internal access and wiring connections.

Analytical inputs: pH and ORP sensors with or without Rosemount Analytical preamplifiers, and Rosemount Analytical smart pH sensors.

Large Display: High-contrast LCD displays real-time measurement readings in large numbers and up to four additional variables or diagnostic parameters.

Digital Communications: Fieldbus ITK 6 Menus: Menu screens for calibration and programming are simple and intuitive. Plain language prompts and “help” screens guide the user through the steps.

All menu screens are available in eight languages. Real-time process values are displayed during programming and calibration.

Troubleshooting and Warning Help Screens: Troubleshooting and warning information is included in the Help screens to provide the user with helpful troubleshooting tips. These screen instructions are intuitive and easy to use.

Diagnostics: The transmitter continuously monitors itself and the sensors for problems. On-screen display banners alert technicians to faults and/or warning conditions.

Languages: Emerson extends its global reach by offering eight languages: English, French, German, Italian, Spanish, Portuguese, Chinese, and Russian.

Input Damping: Automatically enabled to suppress noisy process readings.

Smart Enable pH: Rosemount Analytical SMART pH feature eliminates the need for field calibration of pH probes by automatically uploading calibration data and history.

Automatic Temperature Compensation: pH measurements require temperature compensation. the 1066 will automatically recognize the sensor’s built-in Pt100 or Pt1000 RTD, or the temperature of an on-bus temperature measurement can be linked to the 1066 and used for temperature compensation.

Sensor Wiring

Overview

Connect the correct sensor leads to the main board according to the lead locations labeled directly on the main board.

Rosemount Analytical SMART pH sensors can be connected to the 1066 using either the integrated cable SMART sensor or a compatible VP8 pH cable.

After completing the wiring of the sensor leads, carefully route the excess sensor cable through the cable gland.

Separate the sensor and output signal wiring from the loop power wiring. Do not place the sensor and power wires in the same conduit or near a cable bridge.

Sensor Wiring Details

Sensor wiring should be done in the order shown above. The terminals are listed below:

TB3 RTD INPUT TERMINALS: The leads of the 3-wire RTD should be wired as shown. If a 2-wire RTD is used, the RTD return and RTD sense terminals must be jumpered to avoid an open RTD sense wire warning.

TB2 Reference Electrode and Solution Ground: The reference electrode lead and its shield and the solution ground lead should be grounded as shown. If the sensor does not have a solution ground, there are two options:

1. The reference voltage input and solution ground can be jumpered. If this is done, the reference impedance will read a constant value of 0 kilohms.

2. The second method is to turn on the solution ground terminal and set the Reference Impedance parameter (Reference Z) in the program menu (see Section 7.3.7) to High,

thus turning off the reference impedance measurement. If the solution ground terminal is left open without doing so, a high reference impedance fault alarm will continue to sound.

TB4 Preamplifier Power: The power wire from the pH sensor or preamplifier in the junction box is connected to this terminal to supply power to the preamplifier.

TB1 pH Electrode Input: The pH electrode lead and its shield are located on this terminal as shown.

Smart pH Sensor: The smart pH sensor has a ground wire (not to be confused with the solution ground wire) that should be connected to the enclosure ground as shown in the power wiring diagram.

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Emerson Ovation™ Power System (5X00785G09)

Features

Redundant power configurations, each with separate external wide range AC or DC feeds

Separate primary and auxiliary power supplies in both primary and auxiliary configurations

Dual wide-range input capability

Diode auction feed

High efficiency power supplies

Modular fanless system

Redundant feeds to each controller chassis and I/O module

Continuous system monitoring

OVERVIEW

Emerson has developed a DIN-rail mounted power supply that includes four modular fanless power systems to provide reliable and stable power to Ovation™ controllers and I/O modules.

The Ovation controller power supply systems are configured in redundant configurations, each with a separate external wide-range AC and/or DC input feed.

Dual diode auction 24 VDC outputs are used to power each controller chassis and associated I/O modules, as well as to power loop and contact wetting for the I/O modules.

A 48 VDC auxiliary power supply is available for loop and contact wetting if required.

Two separate output schemes are available:

24 VDC / 10 A / 240 W main power and 24 VDC / 10 A / 240 W auxiliary power.

24 VDC / 20 A / 480 W main power supply and 24 VDC / 20 A / 480 W auxiliary power supply.

Benefits

Benefits of Ovation power solutions include

Separate primary and auxiliary power supplies are easy to replace

No cooling fan required, greatly reducing the risk of failure

Diode auction feed ensures continuous power

New design improves efficiency, reduces heat generation and extends equipment life expectancy

Dual input (AC and DC) capability reduces spare parts

Hot-swappable power supplies enable in-line replacement

Quick installation of power supplies minimizes downtime and lost production

Power factor correction reduces power consumption

10 Amp Power Solutions

10 Amp power supply options include

Redundant Power Configuration (Primary and Auxiliary) includes separate 10 Amp Primary and Auxiliary power supplies supporting multiple input voltages (85-264 VAC @ 43-67 Hz or 90-375 VDC) with 240 W output power.

A power distribution module distributes the diode auction output to the controller and I/O bus.

The 10 Amp solution includes a backplane with pre-installed DIN rails on which the power distribution module, circuit breakers, and four 10 Amp power supplies are mounted.

The 10 Amp power supplies have a life expectancy of 8 years (40°C).

20 Amp Power Supply Solution

The 20 Amp power supply solution includes

Redundant power configurations (primary and auxiliary) containing www.abb-drive.com independent 20 A primary and auxiliary power supplies supporting a wide range of input voltages (85-264 VAC @ 43-67 Hz or 90-375 VDC) with 480 W output power.

Auction diodes to ensure continuous power

Power Distribution Terminal Block

The 20 Amp Power Solution consists of a backplane with pre-installed DIN rails on which the distribution terminal block, auction diodes, circuit breakers, and four 20 Amp power supplies are mounted.

The 20 Amp Power Solution increases the power of Ovation controllers and input/output devices to 480 Watts.

The 20 Amp power supplies have a life expectancy of 15 years at 40°C and a 10 Amp load.

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Emerson A6370 Overspeed Protection Monitor

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, www.abb-drive.com galvanically isolated

Maximum Voltage Voltage 31.2 V

Maximum Current Current 16 mA @ 24 V

Frequency range 0 to 20 kHz

Pulse outputs (front panel)

Number of outputs 1 (short-circuit proof)

Voltage 0 to 5 V TTL- signal

Frequency range 0 to 20 kHz

Typical output impedance 10 kΩ

Sensor output (front panel)

Number of outputs 1 (short-circuit proof)

Voltage 0 to 3.9 V Factor 0.15 ± 3

Frequency range 0 to 20 kHz

Typical output impedance 10 kΩ

Emerson CSI 6500 ATG Protection System

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

The CSI 6500 ATG enables protection and predictive capabilities via a system communications card, in addition to Emerson’s unique PeakVue™ technology.

technology, which breaks through the complexity of mechanical analysis to provide a simple, reliable indication of equipment health.

PeakVue filters traditional vibration signals through a single trend, focusing only on shock.

This focus provides a better indicator of the overall asset health of pumps, fans, motors, or any other type of rolling bearing machine.

Familiar Features

System setup is accomplished through Machine Studio configuration software. The user interface has a similar look and feel to other Emerson software modules, making it familiar and easy to use.

Familiar and easy to use. While connected, users can access integrated predictive features.

View Problems in Real Time

The system comes with ATG View, a mobile application that receives data from the CSI 6500 ATG via Ethernet and/or a wireless router.

Authorized users can view protection status and health data from anywhere on the plant’s Wi-Fi network, either from a PC or a device of their choice.

Supported devices include Apple iOS and Android phones and tablets.

The ATG view allows reliability professionals to see the overall health of the system, alarm status, external inputs such as bypasses and outputs such as trips and whether they are active.

The CSI 6500 ATG displays all available information for critical devices, such as primary values, trending data, status data, and predictive data (e.g., PeakVue values).

OPC server helps you integrate with third-party systems

For easy integration with third-party systems, the CSI 6500 ATG is the first protection system to include a secure embedded OPC UA server.

The CSI 6500 ATG system meets traditional API 670 certification and is certified for installation in demanding environments that require Class 1 Div2/ATEX Zone 2 certification.

Studies have shown that repairing a machine after it has failed is 50% more www.abb-drive.com costly than predicting failure and planning for the cost of repair.

For users whose budgets are not large enough to purchase both a protection system and a predictive system, obtaining predictive data from the protection system is an incremental step toward improving insight into the health of assets.

ATG View provides asset health information to users anywhere in the plant network.

Emerson CSI 6500 Machinery Health Monitor

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 www.abb-drive.com 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.

Additional ModBus outputs for forecast parameters

n 16 or 32 trip relay output slots

n Dual channel speed/keypad

n 12 slots for 3 U dual-channel vibration or position monitoring modules with a total of 24 inputs

n 4-20 mA outputs and buffered signal outputs on front and rear panels

n Configurable external alarm output disable and limit increase for each channel

n External power supply unit, no slots required

In every factory, 5% of rotating machines cause production to stop.

Although your critical machines are fitted with vibration shutdown protection systems to prevent catastrophic failure, is your plant really protected?

What about the shocking repair costs, missed production targets and unfulfilled customer promises associated with tripped or missed trips?

As much as 50% of mechanical failures that lead to downtime are caused by the process, while 90% are predictable or even controllable.

Real-time machine health feedback integrated with process automation allows you to run your plant with confidence.

The CSI 6500 Machinery Health Monitor is designed for process automation and protection system upgrade projects.

Housed in a single chassis, the CSI 6500 combines proven predictive and protective features to provide a complete online machinery monitoring solution.

Emerson is a global leader in integrated process automation technologies and predictive technologies for plant-wide fixed and rotating asset management.

Fully compliant with API 670 standards, the CSI 6500 integrates protection, prediction, real-time performance monitoring, and process automation.

The CSI 6500 is part of Emerson’s PlantWeb digital architecture, which provides enterprise-wide information for real-time decision making.

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Emerson A6500-RC 16-Channel Output Relay Module

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 www.abb-drive.com 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.

Emerson PACSystemsTM RX3i I/O Provides High Performance and Advanced Diagnostics

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 www.abb-drive.com 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!

High Availability

Eliminate process disruption with RX3i I/O. In addition to providing high performance in simplex configurations, the RX3i is available in high-availability configurations for maximum reliability.

It supports Ethernet Global Data (EGD) and PROFINET System Redundancy (PNSR).

With gigabit speeds and bufferless switching, choose RX3i High Availability to avoid unexpected failures and costly downtime.

Ruggedized connector terminals

In the RX3i series, all I/O modules are equipped with removable terminal blocks for easy commissioning and maintenance.

This emphasis on ease of use is also reflected in the range of wire gauges supported.

Depending on the terminal type selected, the wire gauge range is 0.081mm2 – 1.5mm2 (28 – 14AWG) solid or stranded wire.

Both spring-loaded and cassette modules are available for your preferred connection method.

Both low and high density terminals support Terminal Block Quick Connect (TBQC) and positive retention to ensure wiring stability and a consistent commissioning experience.

Emerson DeltaV™ Smart Switches Plug and Play Industrial Switches

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 www.abb-drive.com 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.

Benefits

Enhanced security. The new generation of DeltaV Smart Switches is based on a more powerful hardware and software platform with an increased focus on security.

The new hardware features powerful CPUs for control plane and management operations.

The software has many new features such as role-based access, secure user and password management, brute force attack protection, audit trails and user-readable event logs.

There is also a new HTML5 web interface that can be accessed through the Network Device Command Centre, making it easy to upgrade the switch software.

The next-generation switch also offers more flexible configuration options.

Improved performance. The switching ASICs used in these new products offer new capabilities

such as increased network buffers, the ability to process/forward/filter packets based on more L2 address information such as IP addresses, UDP or TCP ports, and a non-blocking architecture.

and non-blocking architecture, in addition to more powerful CPUs for control plane and management operations.

Fully managed by DeltaV. The DeltaV Switch Commissioning application automatically discovers the switch in the Network Device Command Centre (formerly the Smart Switch Command Centre) when the switch is started.

Network addresses are automatically assigned by DeltaV DCS or by the user when installed in a DeltaV 2.5 network (new in DeltaV v13.3).

Simply provide the switch name and description and select a few setup parameters and the switch will begin reporting. A serial connection is no longer required to configure the switch.

Automatic reporting of network alarms and diagnostics to DeltaV workstations. Operators and maintenance stations will automatically receive device alerts that indicate abnormal network communications.

The DeltaV Network Device Command Centre application provides an interface for diagnosing and troubleshooting network problems. All of this is built-in, eliminating the need for third-party applications for network monitoring.

Plug and Play Installation. The new generation of DeltaV Smart Switches feature a DeltaV-compatible setup that installs out of the box into a compatible DeltaV network.

They require no user configuration to fully support DeltaV network communications.

NDCC ensures that the configuration of all Smart Switches on the network remains consistent, so you never have to worry about misconfigurations affecting network performance.

Plug and Play requires that any existing switch or network device be configured for 100/1000 full-duplex communication or auto-negotiation.

Auto-lock prevents unauthorised network connections. Disabling unused network connections is a security “best practice” that helps you comply with factory security policies.

With the switch’s built-in one-click lockout feature, you simply click a button in the DeltaV Network Appliance Command Centre application to

to automatically lock all unused network ports on your system. Easily protect your network from intrusion.

The port locking algorithm has been enhanced to allow locking of multiple daisy-chained DeltaV nodes, as well as detection of new nodes within dynamically determined uplink ports.

You can also configure the switch to ignore lockdown commands on specific switch ports if the application requires it.

For example, a port connected to a virtualised host server to allow DeltaV VMs to move between hosts.

Accessing the Console. Secure Shell (SSH) and serial connections are provided using a USB-C cable (except for the RM2040).

The Advanced Configuration menu includes a handful of settings that allow you to customise the switch for your specific use case while conforming to the requirements of the DeltaV Regional Control Network.

SSH communications provide a secure connection to the switch console.

Encryption in SSH communications provides additional security for switch operation and maintenance by protecting user credentials and preventing interception.

Full range of switch hardware configurations. The new generation of DeltaV network switches offers a wide range of hardware solutions.

From 30-port rackmount units to ffxed-port DIN-rail switches, DeltaV network switches meet a wide range of network requirements.

The extensive line of DeltaV Smart Switches is all you need to implement a complete DeltaV control network.

Emerson provides full support. As an Emerson product, these DeltaV network switches are fully supported by Emerson when used in a DeltaV network.

Emerson AMS 2140 Mechanical Health™ Analyser

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 www.abb-drive.com 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.

Take only one tool to the field

When you head out to the field on a collection mission, you don’t want to have to carry multiple tools.

The AMS 2140 provides you with a single platform that enables you to perform a wide range of machine health tests.

Balancing, temperature trending, and motor diagnostic functions coexist with vibration analysis tools.

Data from all of these tests is loaded into a database that allows you to trend the data from the various tests.

This gives you a more complete picture of the machine’s condition and predicts when corrective maintenance is required.

The AMS 2140 is suitable for a wide range of rotating equipment, including variable speed machines, complex gearboxes, low speed equipment, turbomachinery, sleeve bearings, gearboxes, and more.

equipment, turbomachinery, sleeve bearing machinery and reciprocating compressors.

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