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Year: 2026

Home / 2026 (Page 12)
April 7, 2026 BY
IN Honeywell

Honeywell Analytics’ one system solution

Unique User Experience

Taking the user experience to a whole new level

One System Solution

Honeywell Analytics’ one system solution to meet your safety requirements

Touchpoint  Plus provides a reliable safety solution for small-scale gas detection systems

across a wide range of applications and industries.

If you need to integrate your gas detection with a higher level management system,

the Modbus output option makes this straightforward.

As the heart of your gas detection system, Touchpoint Plus is designed to work with

Honeywell’s industry-leading gas detectors and drive actuators,

and audible and visual alarms to provide a complete end-to-end solution that you can configure as your

own.

Designed for Speed and Reliability

TouchpointTM Made of high-impact polymer plastic, Plus is versatile and durable.

It is dustproof and waterproof, and has been tested to withstand the toughest operating environments,

both indoors and out. So you can count on the Touchpoint Plus to stand up to

the challenges of industrial environments, from mechanical rooms to chemical plants.

Touchpoint Plus is supplied with pre-drilled and sealed cable entries and a unique tiered

internal arrangement providing ease of access to save installers time and money.
April 7, 2026 BY
IN ABB

ABB ACS800-07 (+V992) Main disconnecting device

Main disconnecting device

The drive is always equipped with a main disconnecting device.

The device is either the main switch-disconnector inside the module (no option +F253 or +F255),

the main switch-disconnector outside the module (option +F253),

or the main breaker outside the module (option +F255). 

The user operates the main switch-disconnector(s) with a handle on the cabinet door.

The breaker is withdrawable; its must be racked out when disconnection is needed.The supply unit control

program runs in the RDCU control unit located in the swing out frame. 

The RDCU is connected to the supply modules by a fibre optic link, and a separate wire set.

If there are parallel supply modules, the controls from the RDCU are distributed

to the modules with an optical branching unit (APBU board).

The RDCU is also connected to the inverter unit with a fibre optic link and to the panel through the panel

link.

Typically, the user controls the supply unit with the control devices mounted on the cabinet door.

The use of these control devices is described in the following subsections.

No additional control devices or connections are needed.

However, it is also possible to control the unit with the control panel and through the fieldbus.
April 7, 2026 BY
IN ABB

ABB ACS800-07 Controls of the supply unit

Cabinet line-up

The drive consists of several cubicles that contain the supply and motor terminals,

1 to 4 diode supply module(s), 2 to 6 inverter modules, and optional equipment.

The actual arrangement of the cubicles vary from type to type and the selected options.

Controls of the supply unit

The supply unit control program runs in the RDCU control unit located in the swing out frame. 

The RDCU is connected to the supply modules by a fibre optic link, and a separate wire set.

If there are parallel supply modules, the controls from the RDCU are distributed

to the modules with an optical branching unit (APBU board).

The RDCU is also connected to the inverter unit with a fibre optic link and to the panel through the panel

link.

Typically, the user controls the supply unit with the control devices mounted on the cabinet door.

The use of these control devices is described in the following subsections.

No additional control devices or connections are needed.

However, it is also possible to control the unit with the control panel and through the fieldbus.
April 7, 2026 BY
IN Emerson

Emerson A6110 Shaft Relative Vibration Monitor

Absolute shaft vibration is sometimes selected when the bearing housing and

rotor are relatively close in mass, when the bearing housing is more likely to vibrate and affect the relative

shaft reading.

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

PlantWeb provides a comprehensive view of machine health in conjunction

with the Ovation® and DeltaV™ process control systems.

AMS software provides maintenance personnel with advanced predictive

and performance diagnostic tools that enable them to confidently and accurately determine machine failures early.

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

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

Hardware temperature, sensors and cables

For use with displacement sensors PR6422. PR6423. PR6424. PR6425 and drivers CON 011/91. 021/91. 041/91

Sensor inputs

Number of inputs: two, independent or combined

Monitoring mode

Input types: eddy current, differential

Emerson sensor inputs: Part numbers: 6422. 6423. 6424. 6425

Isolation: Galvanically isolated from power supply

Input resistance: >100 kΩ

Input Voltage Range: 0 to -22 VDC

Input Frequency Range

Lower cut-off frequency 1 or 5 Hz

Upper cut-off frequency 50 – 2000 Hz adjustable
April 2, 2026 BY
IN GE

GE Multilin 489 Sensitive Directional Power

Alternate Phase Distance

Two independent phase distance elements provide time-delayed backup protection

for generator faults that are not cleared by the main system and generator protection.

This distance characteristic compensates for unit delta/shunt power transformers

located between the generator and the end of the protection zone.

Sensitive Directional Power

The 489 provides low forward and reverse power elements to prevent generator

movement from damaging the prime mover.

Each element has separate power pickup level and operating delay settings for alarms and trips.

Circuit Breaker Faults

The embedded circuit breaker fault feature in the 489 improves system reliability

without the additional cost of providing a separate circuit breaker fault relay.

When a circuit breaker fault is detected, the 489 can be configured to operate

one of its four available digital outputs to signal upstream equipment to quickly isolate the fault.
April 2, 2026 BY
IN GE

GE The 489’s protection features include

The 489’s protection features include:

Generator stator differential

The 489 uses high speed dual slope differential protection to detect and clear stator phase faults.

Stator phase faults. Advanced CT saturation detection algorithms provide

additional supervision through the use of directional checks that

ensures that the fault occurs inside the generator before triggering a trip,

thus maintaining immunity to saturation that may be caused by external disturbances.

100% Stator Ground

100% stator ground fault protection is provided by an overvoltage element and an

adaptive differential voltage function that responds to third harmonic imbalances at the machine

terminals and neutral.

The 489 will compare the machine neutral voltage with the grounding

current to determine if the ground fault is internal or external to the generator.

Alternate Phase Distance

Two independent phase distance elements provide time-delayed backup protection

for generator faults that are not cleared by the main system and generator protection.

This distance characteristic compensates for unit delta/shunt power transformers

located between the generator and the end of the protection zone.
April 2, 2026 BY
IN GE

Multilin 489 Generator Protection System

Applications

– Synchronous or induction generators operating at 25Hz, 50Hz or 60Hz

– Primary or backup protection in cogeneration applications

Protection and control

The 489 generator protection system provides comprehensive protection,

metering and monitoring functions for small and medium-sized synchronous or

induction generators operating at 25. 50 or 60 Hz.

The 489 is ideal for primary or standby generator protection as well as cogeneration applications.

The 489’s protection features include:

Generator stator differential

The 489 uses high speed dual slope differential protection to detect and clear stator phase faults.

Stator phase faults. Advanced CT saturation detection algorithms provide

additional supervision through the use of directional checks that

ensures that the fault occurs inside the generator before triggering a trip,

thus maintaining immunity to saturation that may be caused by external disturbances.

100% Stator Ground

100% stator ground fault protection is provided by an overvoltage element and an

adaptive differential voltage function that responds to third harmonic imbalances at the machine

terminals and neutral.

The 489 will compare the machine neutral voltage with the grounding

current to determine if the ground fault is internal or external to the generator.
April 2, 2026 BY
IN ABB

ABB REM610 Records four analogue channels

* Output contact functions can be freely configured according to requirements

* Two galvanically isolated digital inputs, three additional galvanically isolated digital inputs on the

optional RTD module

* Interference recorder:

* Recording time up to 80 seconds.

* Triggered by one or more internal or digital input signals

* Records four analogue channels and up to eight user-selectable digital channels

* Adjustable sampling rate

* Non-volatile memory for

* Up to 100 time-stamped event codes

* Set values

* Interference logger data

* Time-stamped logged data for the last five events

* Operating indication messages and LEDs showing status in case of power failure

* HMI with alphanumeric LCD and navigation buttons

* Eight programmable LEDs

* Multiple language support

* User-selectable password protection for the HMI

* Display of primary current value

* Demand value

* All settings can be modified via PC

* Optical front communication connection: wireless or cable

* Optional rear communication module with plastic fibre, combined fibre (plastic and glass) or RS-485

connection.

for system communication using SPA bus, IEC 60870-5-103 or Modbus (RTU and ASCII) communication

protocols.

* Battery backup for real-time clock

* Battery charge monitoring

* Continuous self-monitoring of electronics and software

* Removable plug-in unit
April 2, 2026 BY
IN ABB

ABB REM610 Motor Protection Relay Features

Features

* Three-phase motor start monitoring based on thermal stress calculation with speed switch blocking

function

* Three-phase overcurrent protection with timing characteristics and speed switch latching function

* Three-phase short circuit protection with instantaneous or timed characteristic

* Three-phase undercurrent (loss of load) protection with timed characteristic

* Non-directional earth fault protection with timing characteristics.

* Three-phase thermal overload protection

* Three-phase unbalance protection based on negative phase sequence currents with inverse definite

minimum time characteristic

* Inverted phase protection based on negative phase sequence current

* Accumulated start-up time counter with restart inhibit function

* Circuit breaker fault protection

* Temperature protection stage with timing characteristics

* Emergency start function

* Optional RTD module

* With six measurement inputs

* Supports PTC thermistors and various RTD sensors

* Three additional galvanically isolated digital inputs

* Four precise current inputs

* Time synchronisation via digital inputs

* Trip circuit monitoring

* User selectable rated frequency 50/60 Hz
April 2, 2026 BY
IN Foxboro

FOXBORO The FBM is a general purpose Ethernet hardware module

I/O Driver

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

drivers.

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

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

specific needs.

These drivers are dynamically downloaded to the FBM233 with software code

specifically designed to interface with the protocols of third party devices.

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

into the system.

Ethernet Link Setup

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

front of the FBM233 module.

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

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

external devices.

Configurator

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

The Port Configurator makes it easy to set communication parameters

(e.g., Dynamic Host Configuration Protocol (DHCP), IP address) for each port.

The Device Configurator is not required for all devices, but when it is,

it can configure device-specific and point-specific considerations

(e.g., scan rate, address to which data is to be transferred,

and amount of data to be transferred in a single transaction).

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