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GE Fanuc VMIVME-2120 64-bit High Voltage Digital Output Module

Features

– 64-bit high voltage output

– High current driver (600 mA sink current)

– Inrush current auto shutdown protection option

– Thermal shutdown protection option for driving incandescent lamps or inductive loads

– High breakdown voltage (55 V)

– Output clamp diode for inductive www.ge-drive.com flyback protection

– Compatible with intelligent I/O controllers

– Built-in test logic for fault isolation

– Highly reliable DIN-type I/O connectors

– 8-, 16-, or 32-bit transmission

– Dual Eurocard form factor

– Separate board address decoding for control and data registers

– Optional pull-up resistors for electronic switch outputs

– Optional TTL outputs

– Front Panel with Fault LED

Functional Features

Compatibility: Compatible with VMEbus specification.

Double height form factor.

Output Connector Type: Dual 64-pin connector DIN 41612.

Output Organisation Eight ports, eight bits wide.

Addressable to any address within the Short-Circuit Monitor or Short-Circuit Unprivileged I/O map. Control and Status Register (CSR) addresses are independently selectable.

Address Modifier Codes: Short-circuit supervisory or short-circuit unprivileged I/O access can be selected via jumpers.

Factory configured for short-supervised I/O access.

Addressing Scheme: Eight ports can be individually addressed on 8-bit, 16-bit, or 32-bit boundaries.

CSR’s separate board address decoder allows hardware control addresses to be grouped for software efficiency.

Data Transfer Bus: A16: D8. D16. D32

Built-in Test: This product supports offline and real-time fault detection and isolation. Offline mode can be enabled by writing the CSR Set Test Mode bit.

When test mode is enabled, all outputs are off. When test mode is enabled, all outputs are off.

Fault LED: The Fault LED is illuminated at power-up and extinguished under program control after a successful diagnostic.

Output Functions: High current driver (600 mA sink current) outputs designed to drive incandescent lamps and inductive loads.

No external current limiting or warm-up resistors are required. Due to the presence of cold filament inrush currents, it is recommended that the output driver drive only one lamp.

However, if a single wire must drive more than one lamp, another driver must be connected in parallel.

If a single output must drive more than one bulb, it is recommended that the VMIVME-2131 (current source/sink)

or VMIVME-2130 (current source only) if the application allows.

The output drivers of the VMIVME-2131 and VMIVME-2130 may not support all VMIVME-2120 current sink (open collector) applications.

In addition, the power supply requirements for the VMIVME-2120 and VMIVME-213x are different.

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Emerson A6500-UM Universal Measurement Card

The A6500-UM Universal Measurement Card is an integral part of the AMS 6500 ATG machine protection system.

The card is equipped with 2 sensor input channels (independent or combined, depending on the selected measurement mode).

The most common sensors can be used, such as eddy current, piezoelectric (accelerometers or velocimeters), seismic (electrodynamic),

LF (Low Frequency Bearing Vibration), Hall Effect and LVDT (in combination with A6500-LC) sensors.

In addition, the card contains five digital inputs and six digital outputs.

Measurement signals are transferred to the A6500-CC Com card via the internal RS 485 bus and converted to Modbus RTU and

The measurement signals are transferred to the A6500-CC Com Card via the internal RS 485 bus and converted to the Modbus RTU and Modbus TCP/IP protocols for further transmission to a host computer or analysis system.

​Additionally, the Com Card can communicate www.ge-drive.com with a PC/laptop connection via the USB interface on the panel, allowing the card to be configured and measurements to be displayed.

This allows the card to be configured and the measurement results to be displayed. Measurement results can also be output via 0/4 – 20 mA analogue outputs.

These outputs have a common ground and are electrically isolated from the system power supply.

The A6500-UM Universal Measurement Card operates in the A6500-SR system rack, which also provides the supply voltage and signal connections.

The A6500-UM Universal Measurement Card provides the following functions:

Absolute shaft vibration

Relative shaft vibration

Shaft eccentricity

Housing piezoelectric vibration

Thrust and rod position, differential and shell expansion, valve position

Velocity and keys

Dual-channel, 3U size, 1-slot plug-in modules that cut cabinet space requirements in half compared to traditional four-channel 6U cards.

API 670 compliant, hot-swappable modules.

Remotely selectable limit doubling and trip bypass.

Pre/post buffered and proportional outputs, 0/4 – 20mA output.

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

Hardware temperature, sensors and cables

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Honeywell FC-PSU-UNI2450U Safety Management System Power Supplies

Alarms for power supply systems

SMS power supplies include diagnostics and alarms that should confirm that they are working correctly, are being monitored and acted upon.

These are indicators that the power supply needs to be aware of before a fault occurs.

LEDs for.

– Internal air temperature too high > 90 degrees Celsius

– Fan speed too slow

– The output voltage is out of the following ranges:

If the output voltage is consistently out of range, contact www.ge-drive.com Honeywell for further information on recalibrating the power supply unit (PSU).

Cables

Cables must be properly secured so that they do not block the interior of the cabinet or get caught between moving parts such as doors or hinged panels.

Cables must also not be pulled too tightly to avoid mechanical stress on the connectors. Inspect the cables to ensure that there is no visible damage or cracks and that the terminals are making good contact.

Environmental factors

The overall life of any electronic device will vary depending on the environmental conditions in which it is installed.

The following factors are critical to the life cycle of the PSU and the continued health of the system.

Humidity

Humidity levels should be maintained between 40% and 60%, with a variation of less than 6% per hour.

If humidity levels are high, it may be necessary to condition the air inside the cabinet and monitor humidity.

During maintenance, look for signs of condensation inside the cabinet, which is a sign that the climate control is beginning to fail.

Corrosion

Look for visible signs of corrosion on paint and bare metal surfaces inside the cabinet.

Keep cabinet doors closed to prevent corrosive salts and chemicals from entering the cabinet. Watch for metal fragments, such as zinc in the air.

Watch for metal debris such as airborne zinc from the underside of raised floor tiles commonly used in computer rooms or from any nearby hardware assembly or construction activities.

If deterioration occurs that you can see, then even further damage can occur in components you can’t see, so steps should be taken to further minimise contaminants.

Dust

Check the surface of the PSU and the bottom of the cabinet for dust, if you find a high concentration of dust, remove the dust using a soft anti-static brush and vacuum inside the cabinet.

Replace the cabinet fan dust filter periodically. The specific filter varies depending on the cabinet installed.

Cabinet Fans and Seals

Ensure that the cabinet fans are working properly, filters are clean and free of obstructions, protective plates and covers are secure, and all cabinet penetrations are sealed.

This is critical to avoid premature PSU failure.

New fan assemblies can be ordered with Honeywell part number FC-FANWR-24R.

Honeywell recommends replacing the fan every 8 years of operation.

Replace Power Supplies Before Failure

Improve System Reliability

Even with proper maintenance and environment, power supplies should be replaced before they fail.

For redundant systems, a phased approach may be helpful, where one power supply in each pair is replaced early and then the other is replaced at the next maintenance cycle.

Reliability can vary greatly depending on the load and temperature of the power supply.

Normal temperatures are kept at 35 degrees Celsius and a fully loaded PSU may have a shorter life depending on the temperature, reflecting the importance of keeping the fans running.

Many security systems use redundant power supplies so that each unit can carry 50% of the load during normal operation.

It is also common to specify spare capacity for PSU loads.

For example, with at least 25% spare capacity, each PSU can only carry 40% of the load in a worst-case scenario.

In this configuration, temperature and load do not limit PSU reliability.

Other factors, such as dust and humidity, are limiting, although these environmental conditions vary widely, making the exact life expectancy unknown.

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GE Fanuc VME-3122A High Performance 16-bit Analogue to Digital Converter (ADC) Board

Features

– 64 different or single-ended inputs

– 16-bit analogue-to-digital conversion (A/D)

– Software selectable conversion rate (up to 100 kHz)

– Programmable selection of scanning 1. 8. 16. 32 or 64 channels

– Continuous digitisation of selected input channels and storage of results

– Three trigger modes

– Software triggered

– External trigger

– Interval timer trigger

Three scanning modes

-Automatic scanning

-Single scan

-Random access

– Programmed VME interrupts

– User programmable interval timer

– Software programmable gains of 1 and 10

– External trigger synchronises multiple boards simultaneously

– Jumper-selectable A/D ranges of 0 to +5V, 0 to +10V, ±2.5V, ±5V, and ±10V

– Optional low-pass filter

– Overvoltage protection input

– 1.024 word data buffer (16 word depth buffer x 64 channels)

– Optional output coding

– Power up in auto-scan mode with a gain of 1

APPLICATIONS

– Factory automation

– Process control

– Laboratory Instrumentation

– Machine monitoring

– Data Acquisition

Functional Characteristics

At +25°C and rated power supply conditions (unless otherwise noted)

Trigger Modes

Trigger Mode: Software Trigger: Initiate the selected scan mode by writing www.ge-drive.com the software trigger address.

External Trigger: Receives an external trigger via the P2 connector to initiate the selected scan mode.

Interval Timer Trigger: activates the selected scan mode each time the programmed interval expires.

Scan Mode: Auto Scan: This is the default scan mode. All active channels are scanned sequentially and continuously.

Single Scan: A single data burst (scanning all selected channels) is initiated by the selected trigger mode.

After scanning all selected channels, the scanning process stops and waits for another trigger.

Random Access: Selects, digitises and stores one channel each time the selected trigger mode is enabled.

Channel Auto Gain: A unique gain code for each channel is loaded from the VME into the gain buffer.

The assigned code is retrieved from the buffer in real time each time a channel is acquired.

Synchronisation: Single sweeps or bursts can be triggered by an external TTL flip-flop (external trigger) via the P2 connector or by a control and status register.

or initiated by a local trigger (software trigger) via the Control and Status Register (CSR).

In either case, a P2 flip-flop output is generated which can be used to synchronise up to 15 boards.

VME Access: The response to the address modifier is selectable via jumpers:

A32. A24 or A16 address space

Supervisory access or user access, or both

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Motorola MVME2300 Series VME Boards Processor Modules

High-performance extended VME boards with customizable application capabilities

The MVME2300 Series VME boards deliver the performance of Motorola’s PowerPlus architecture with the ability to fully customize your applications with two PCI mezzanine cards (PMCs).

Utilizing Motorola’s MPC60x class 32-bit microprocessor, Peripheral Component Interconnect (PCI) bus of the

on-board peripherals, a processor memory bus PCI www.ge-drive.com bus bridge, and a VME interface, the MVME2300 processor module packs an optimal level of flexibility and performance into a single VME slot.

MPC60x 32-bit class microprocessor

L1 Cache-16KB/16KB MPC603 or 32KB/32KB MPC604

128MB of onboard ECC DRAM

Up to 1MB of embedded Flash for on-board firmware or user-specified requirements

4MB on-board flash for user-specified requirements

On-board debug monitor with self-testing diagnostic features

Two 32/64-bit PMC expansion slots with front panel and P2V/0

64-bit PCI expansion mezzanine connector

8Kx8 NVRAM and full-time clock with replaceable battery backup

One asynchronous serial debug port

Four 32-bit timers, one 16-bit timer, one watchdog timer

10/100Mb/s Ethernet transceiver interface

4-level request program, 7-level interrupter, and 7-level interrupt handler for VMEbus

IEEE P1386.1-compliant PMC slot

The MVME2300 has dual PMC ports with front panel and P2 I/O support.

The P2 I/O-based PMC follows the PMC committee recommendations for PCI I/O when using the VME64 expansion connector, and its pin-outs are compatible with the MVME2300.

In addition to providing high-performance expansion I/O, the IEEE P1386.1-compliant PMC port provides a common architecture for future generations of products.

Simply replace the PMC to meet changing I/O needs while reusing the same base platform, reducing long-term cost of ownership.

VME64 Expansion Connector

To maximize the performance of the MVME2300. five rows of 160-pin DIN connectors replace the three rows of 96-pin connectors historically used on VME P1 and P2.

Two additional rows (Z and D) have been added to the VME P1/J1 and P2/J2 connectors to provide additional I/O for the user.

The VME64 expansion connector is fully backwards compatible with existing VME card systems.

PowerPlus Architecture

The PowerPlus Architecture is a processor and bus architecture fully optimized for use from the PowerPC architecture microprocessor family,

The PowerPlus Architecture is a processor and bus architecture that is fully optimized for maximum performance from the PowerPC architecture microprocessor family, PCI bus and VME bus. The outstanding performance of VME processor boards based on the PowerPlus architecture is not due to a single factor.

The processor memory subsystem, the high-speed local bus, the optimized decoupling architecture, the decoupling of the processor from PCI, and the advanced VME bus that reduces PCI latency.

A number of design factors, such as the processor memory subsystem, optimal decoupling architecture, decoupling of the processor from PCI, and advanced VME interfaces that reduce PCI latency, all contribute to the outstanding performance.

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A-B 2198-S086-ERS3 Single Axis Inverter Module

Product Description: Allen-Bradley 2198-S086-ERS3

The Allen-Bradley 2198-S086-ERS3 features 29.7 kW continuous output power, 22-40 lb*in (2.5-4.5 N*m) torque values, and 560 microfarads of internal capacitance.

About the 2198-S086-ERS3

Allen-Bradley’s 2198-S086-ERS3 Kinetix 5700 single-axis frequency converter is a single-axis frequency converter module that is

for controlling machines with high shaft counts and high power requirements. The inverter has current/speed loop bandwidths of 100Hz and 400Hz.

The inverter has a current/speed loop bandwidth of 100 Hz and 400 Hz, a pulse width modulation (PWM) frequency of 4000 Hz, and a continuous output current of 43 A and a 0-pk output current of 60.8 A.

The peak values of continuous and 0-pk output currents are 86A and 121.6A, respectively, www.ge-drive.com and the rated output power of the inverter is 29.7KW.

It requires a DC input current of 45.7ADC and has an internal capacitance of 560μF.

The 2198-S086-ERS3 is rated at 4.6A for non-braked servo motors.

The rated control power for a braked servomotor is 9.6A, and the inrush power at startup is 4A.

Rated power output percentage is 190 watts at 20%, 225 watts at 40%, 325 watts at 60%, 300 watts at 80%, 300 watts at 100

It has a maximum power dissipation of 190 watts at 20% of rated power output, 225 watts at 40%, 325 watts at 60%, 300 watts at 80%, and 475 watts at 100%.

The 2198-S086-ERS3 has an operating temperature range of 0 to 50 °C (32 to 122 °F) and a humidity limit of 5 to 95% non-condensing.

It can be stored over a temperature range of -40 to 70 °C (-40 to 158 °F). Even when installed at an altitude of 1.500 meters (4.921 feet), the

Even when installed at an altitude of 1500 meters (4921 feet), it will not be downgraded and will maintain optimal functioning under 2 G of operating vibration and 15 G of shock.

The 2198-S086-ERS3 provides motor and auxiliary feedback through feedback connections on the 2-pin Motor Feedback (MF) connector and 15-pin Universal Feedback (UFB) connector.

It also supports EtherNet network connectivity through the Ethernet port on the inverter and a 0.15-meter (6-inch) Ethernet cable.

The 2198-S086-ERS3 weighs an average of 5.21 kg (11.5 lbs.).

Measuring 252 mm (9.92 in.) x 358 mm (14.09 in.) x 55 mm (2.17 in.), it is CE, C-TICK, KC c-UL, ODVA, and OSHA certified.

Technical Description of the 2198-S086-ERS3

The Allen-Bradley 2198-S086-ERS3 features 29.7 kWatts continuous output power, 22-40 lb*in (2.5-4.5 N*m) torque values, and 560 Microfarads internal capacitance.

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Emerson A6140 Dual Channel Shaft Absolute Vibration Monitor

Functional Features:

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

API 670-compliant, hot-swappable modules

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

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

Used to connect a displacement sensor and a seismic or piezoelectric sensor

or piezoelectric sensor so that the combined output is an absolute value of the axis relative to free space

For use with displacement transducers 6422. 6423. 6424. and 6425 as well as actuators CON 011/91. 021/91. 041/91. and case-mounted piezoelectric velocity sensors

The Shaft Absolute Vibration Monitor is designed for high reliability in the plant’s www.ge-drive.com most critical rotating machinery.

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

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

The primary function of the absolute shaft vibration monitoring module is to accurately monitor absolute shaft vibration, to

The main function of the shaft absolute vibration monitoring module is to accurately monitor shaft absolute vibration and reliably protect the machinery by comparing the vibration parameters to alarm setpoints and actuating alarms and relays.

The shaft absolute sensor system consists of a relative displacement sensor and a vibration sensor mounted in the same housing.

The displacement sensor is a non-contact sensor that measures shaft position and movement relative to the housing, the

while the vibration sensor mounted in the housing is used to measure the absolute position of the housing relative to free space.

The two sensors are phase compensated for different units and mathematically subtracted to obtain the absolute displacement of the shaft relative to free space.

Absolute shaft vibration is an important measurement used for prediction and protection monitoring on all sleeve bearing machines.

Absolute shaft vibration should be selected when the bearing box and rotor masses are closely matched, as the bearing box may move significantly during machine operation.

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

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

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

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Emerson PR 6423 Non-Contact Eddy Current Sensor

The PR 6423 is a non-contact eddy current sensor of rugged construction designed for extremely critical turbomachinery applications, such as steam, gas, compressor and water turbomachinery, blowers and fans.

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 www.ge-drive.com 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

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GE 139-H-FLC Full Load Current Output Option Relay

The Full Current Output Option Relay 139-H-FLC is a horizontal mounting specialty model.

This model has an external reset switch that works in conjunction with the front panel reset switch.

This model also has an emergency restart option.

Product Description

Model 139-H-FLC is a full load current horizontal mount motor protection relay.

This model has a full load current of 4 to 20 milliamps. Associated protections listed for this relay include overheating, stall-mechanical blocking,

Rotor Lockout, Undercurrent, Ground Fault, Single Phase/Unbalance, Repeat Start, and Overload Protection with selectable curves.

This relay will protect three-phase AC motors from environmental influences that can cause damage.

The 139-H-FLC relay will be used in six applications; one of the applications is to ensure user safety.

This application will utilize the ground fault function to www.ge-drive.com find leakage currents caused by moisture or potential winding shorts in mines, thus preventing shock hazards.

As mentioned above, the relay will be mounted horizontally; it should be noted that a rectangular panel cutout is required for whichever mounting orientation is chosen for the relay.

Once the current breaker is available, the relay will be held in place by two U-clips and then prepared for wiring.

The 139-H-FLC relay can be supplied with ground fault current and it will accept all current carrying conductors through the ground fault current window.

Please note that it is highly recommended that at least two current leads need to be wound together to minimize noise pickup on the relay.

There is a specially designed current that can be used to help output lower level signals.

Frequently Asked Questions about the 139-H-FLC

What is the memory capability of the 139-H-FLC multi-wire general purpose motor protection relay?

This 139-H-FLC is designed to electronically record up to 30 minutes of memory to simulate heat buildup in a motor.

If no overload occurs during this 30 minute period, the memory will be refreshed.

However, if an overload occurs or the motor starts, the circuitry remembers these conditions and can reduce the amount of time available for future overload conditions.

If the motor enters a trip condition due to overheating, the relay will latch to restart for at least 30 minutes to allow the motor to cool.

Motor start trip conditions and overload conditions may cause the motor to heat up, hence the 30 minute lockout time.

Blocked-Rapid Trip, Short Circuit, Unbalance, or Ground Fault conditions do not cause heating and enable the turntable to perform an immediate system reset.

Can users customize the 139-H-FLC Multi-Wire Universal Motor Protection Relay for specific motors?

Users can select from 15 different operating profiles for the 139-H-FLC Multi-Wire Universal Motor Protection Relay.

Four switches are used to select the desired operating profile. The user can find the manufacturer’s data for the motor

Plot the data on the run curve to customize the 139-H-FLC to the motor that needs to be protected.

The full load current from terminals one and two on this model will be proportional to the percentage of full motor current.

Current levels will not be affected by any different wiring lengths.

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ABB Ability Symphony Plus Distributed Control System (DCS)

ABB’s new SDe Series improves plant reliability and efficiency with seamless automation system upgrade

ABB Ability Symphony Plus SDe Series continues to innovate and modernise legacy process control system installations with minimal risk and disruption to the plant

Control system upgrades are key to future-proofing, protecting and optimising plant operations across all industries

Plant managers can reuse existing cabinets, www.ge-drive.com field wiring, terminal equipment and cabling to plan progressive system upgrades

ABB has introduced the ABB Capability™ Symphony Plus SDe series is a portfolio of hardware products that

helps modernise existing process control system installations while minimising risk and disruption to plant operations.

The new series enables power, water, oil and gas, pharmaceutical and pulp and paper

plant operators in industries such as power, water, oil and gas, pharmaceuticals and pulp and paper to upgrade their installed control systems to the latest technology, thereby improving efficiency and productivity.

The new SDe series continues to innovate to address one of the biggest challenges facing control system owners: upgrading existing infrastructure without disrupting operations.

By preserving field wiring, terminal units and modular wiring, SDe solutions

Helping plant owners protect process controllers, I/O modules and automation technology as it evolves

their Symphony Harmony and INFI 90 investments while process controllers, I/O modules and automation technology evolve, enabling progressive growth with minimal impact.

The SDe I/O family includes a range of intelligent analogue, HART, digital and hybrid I/O modules with redundancy that

can communicate with higher-level controllers via the local bus.

Each module is supplied with an evolved mounting base for Harmony Rack systems and is fully compatible with HR BRC410 and SD controllers.

The SDe Series I/O product line includes digital and analogue modules for horizontal or vertical DIN rail mounting and integration with intelligent field devices and protocols.

Hardwired I/O and fieldbus I/O co-exist, using the same library of function blocks to build real-time control applications.

Legacy SDe series analogue input modules interface with field inputs.

such as pressure and flow transmitter signals, thermocouple inputs, and resistance temperature device (RTD) inputs.

Analogue output modules provide output signals to regulate final control elements such as control valves, positioners, actuators and more.

The input channels of the SDe Series digital input modules read the status of switches, relay contacts, solenoids, etc. The digital output modules are available in DC or DC output versions.

Digital output modules provide output channels for DC or AC switching applications.

The digital outputs can be used to drive alarms and bistatic final control elements such as actuators, relays, and solenoids.

For SDe Series digital I/O, each channel can be individually configured as an SOE (sequence of events) point.

This flexibility eliminates the cost and complexity of assigning additional digital inputs as SOEs in the field.

Whether the I/O is locally or remotely located, SOEs with 1 ms time stamps can be used throughout the system.

The SDe family of ruggedised control and I/O products provides seamless interconnectivity with intelligent field and electrical equipment and more advanced applications.

Extreme operating temperature ranges and scalable architectures are offered in a compact modular space.

In addition, the series features sustainability improvements, such as reduced power consumption and the use of standards-based technology, which reduces the total cost of ownership for plant owners.

The main principle behind the SDe range is to develop, enhance and extend ABB’s existing INFI 90. Harmony and Symphony DIN (SD) systems.

These systems are currently installed at more than 7.000 sites worldwide.

For Harmony rack mounting, the SDe Series offers increased modularity, enhanced functionality, one-to-one module replacement and space-appropriate mounting options to ensure seamless growth.

Fully compatible with the SD Series, it supports the expansion of SD systems with the latest technology and I/O hardware and software, delivering increased performance, reliability and capacity.

ABB’s Process Automation business automates, electrifies and digitises industrial operations that

meet a wide range of essential needs, from the supply of energy, water and materials to the production of goods and their transport to market.

With its approximately 20.000 employees, leading-edge technologies and service expertise.

ABB Process Automation helps customers in the process, mixing and marine industries to improve the performance and safety of their operations and achieve a more sustainable and resource-efficient future.

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