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Month: June 2025

Home / 2025 / June (Page 13)
June 24, 2025 BY
IN ABB

ABB REF620 IEC Feeder Protection


REF620 as a dedicated feeder protection device for the protection, control, measurement and monitoring of public and industrial power distribution systems.

REF620 IEC feeder protection and measurement and control device, as a dedicated feeder protection device, is specially designed for the protection, control, measurement and monitoring of public and industrial grids, including radial, ring and mesh grids.

The REF620 provides feeder overcurrent and earth fault protection that can be applied to both ungrounded neutral networks and resistance or impedance neutral grounded networks.

In addition, utilizing the unit’s advanced station-to-station communication capabilities, the REF620 can also be used for ring mesh distribution network or radial network protection.

The REF620 IEC Feeder Protection and Measurement Control Unit is available in single and dual busbar configurations, with one or two circuit breakers and multiple switchgear configurations for each busbar configuration.

The unit supports a large number of manual and motorized disconnect and ground switches. The number of available I/Os can be increased as required by ABB’s RIO600 remote I/O unit.

The REF620 IEC Feeder Protection and Control Unit features support for the IEC61850 communication standard for substations, covering both vertical and horizontal communications.
June 24, 2025 BY
IN ABB

ABB REF620 IEC Feeder Protection and Measurement Control Unit

Relay protection for overhead lines and cable feeders in distribution networks for different application areas

Feeder protection, precisely the protection of overhead lines and cables, is the most commonly used type of protection.

The protection must ensure that the grid continues to supply power. In the event of a fault, it must be prevented from propagating to the normal part of the network.

Relay protection must also minimize damage to cables and other connected equipment from faults and ensure the safety of everyone involved.

ABB offers a wide range of feeder protection. There is a wide range of multifunctional relays for different application areas.

There are some for general feeder protection (overcurrent protection) and backup protection, and some more specialized ones, for example for line differential protection.

Main advantages

Devices can be used for a wide range of applications

Ranging from simple protection devices as backup protection to specialized protection devices

Well-established and modernized technology

Arc detection as an option
June 24, 2025 BY
IN Honeywell

Honeywell FC-SAI-1620M Safety High Density Analog Input Module

Introducing:

Honeywell Safety Manager™ is a reliable and highly complete safety system tailored for critical control applications.

It is an integral part of Honeywell Experion™ PKS and integrates seamlessly into PlantScape and can also operate autonomously.

Safety Manager is the foundation of functional safety, ensuring the well-being of individuals, plant assets and the environment while optimizing plant continuity.

Safety Manager is a user-programmable, modular, microprocessor-based safety system capable of performing a wide range of high integrity process control and safety instrumentation functions, including:

High integrity process control

Burner/boiler management systems

Process protection and emergency shutdown

Turbine and compressor safety protection

Fire and gas detection systems

Pipeline monitoring

Enhanced business results:

Safety Manager™ is an evolution of the proven Fail Safe Controller (FSC®) safety system platform that has been globally recognized for more than 15 years.

It embodies proven technology backed by Honeywell’s two decades of expertise in process safety management. This includes the integration of process safety data, applications, system diagnostics and critical control strategies.

Safety Manager is designed to enhance business performance, improve process safety and protect plant assets and people.
June 24, 2025 BY
IN Triconex

Triconex 4351B Tricon Communication Module

Tricon Communication Module

The Tricon Communication Module (TCM) is compatible with Tricon v10.0 and later systems only.

Allows Tricon to communicate via Ethernet with TriStation, other Tricon or Trident controllers, Modbus master and slave devices, and external hosts.

Each TCM contains 4 serial ports, 2 network ports, and 1 debug port (for Triconex).

Each serial port is uniquely addressed and can be configured as a Modbus master or slave.

Serial port #1 supports Modbus or Trimble GPS interface. Serial port #4 supports Modbus or TriStation interface.

Each TCM supports an aggregated data rate of 460.8 Kb/s for all four serial ports.

Tricon programs use variable names as identifiers, while Modbus devices use numeric addresses called aliases.

Therefore, each Tricon variable name must be assigned an alias that will be read by or written to the Modbus device.

An alias is a five-digit number that represents the Modbus message type and the address of the variable in the Ticon. An alias number is assigned in the TriStation.

Any standard Modbus device can communicate with Tricon via TCM, provided an alias is assigned to the Tricon variable.

The alias number must also be used when the host accesses the Tricon through other communication modules.
June 24, 2025 BY
IN GE

VMIVME-2510B 64-bit TTL Digital Input/Output Features

Functional Features

Compatibility VMEbus-compliant dual high-profile I/O connector type: Dual 64-pin connector, DIN 41612

I/O Organization: Eight I/O ports; eight bits wide.

Addressable to any address within the short supervisory or short unprivileged I/O mapping.

Addressing scheme:

Eight ports can be individually addressed on 8-bit or 16-bit boundaries.

Address DIP switches provide unlimited selection of short data I/O address mappings.

Built-in Tests

Output data can be read back in real-time or off-line mode.

Offline mode can be enabled by writing to the Control and Status Register (CSR) to set the test mode bit.

When test mode is enabled, all outputs are tri-stated (TRI-STATE).

Two test mode bits are provided so that each connector I/O (32-bit) can be tested independently if necessary.

Fault LED:

The Fault LED illuminates at power-up and system reset.

It can be extinguished under program control after successfully performing diagnostics.
June 24, 2025 BY
IN Honeywell

Honeywell 05701-A-0511 5701 Series Control System

Key Features

The 5701 Series Control System is part of the 57 System family and is designed to monitor and control field installed industrial gas detectors.

The key features of the system are as follows.

Provides up to 16 gas detection channels in a standard 19” subrack using a 3U card format.

Provides up to 8 gas detection channels in a 3U card format in a half 19” subrack.

Racks are available for both front and rear wiring.

Simple field connection for wires up to 2.5mm2.

Single channel operation mode for high integrity systems.

Channel control cards are removable and do not interfere with other wiring.

Catalytic bridge or 4 – 20mA input.

Optional alarm switching relay output.

Multi-alarm modes for master, zone and voting alarms.

UP, DOWN, STEL and LTEL / RATE alarm outputs.

Update alarms for single or multi-channel alarms.

Remote inhibit and reset inputs.

Relay output on and/or off delay.

Selectable 0 – 20mA or 4 – 20mA isolated monitor outputs.

Easy calibration and operation with dedicated engineering card.

EMC compliant.
June 24, 2025 BY
IN IBA

IBA ibaLink-SM-128V-i-2o VMEbus Interface Card

Introduction

The ibaLink-SM-128V-i-2o VMEbus Interface Card is a multi-purpose, bi-directional interface card designed for use in VMEbus-compatible PLCs and computer systems.

It can be used for both data acquisition and process monitoring as well as for control system applications such as the ibaLogic SoftPLC.

In the following, the board will be named SM128V to simplify the description.

Key features of the SM128V include :

 1 bi-directional fiber optic link with 64A+64D inputs/outputs per link (channel 1)

 1 unidirectional fiber optic link with 64A+64D outputs per link (channel 2)

 Synchronized transmission of all channels on both links at a rate of 1ms

 Address switch for cascading up to 8 SM128V interface cards on a link

Channel 1

 Compatible interface for ibaFOB-io, ibaFOB -4i (-S), ibaFOB-4o

 Compatible process i/o interface for ibaPADU-8-IO series and ibaNet750-BM series

 5 V power supply from VMEbus

The SM128V is available for VME32 and VME64 systems. The card requires a 5 V power supply.
June 24, 2025 BY
IN GE

Multilin 169PLUS-120N-125VDC Motor Management Relay

The 169PLUS-120N-125VDC is a highly configurable motor protection system manufactured by General Electric Multilin.

The relay comes with basic setpoints programmed for large motor systems, which can be further adjusted by the user upon receipt of the relay or as they become more familiar with the data generated by the relay.

While users can manage their motor systems with fairly minimal connection to GE Multilin’s 169PLUS-120N-125VDC.

However, the unit does offer a wide range of ports to diversify and customize the function of the relays.

Some of these connections include:

. Auxiliary Relay Contacts: these two contacts provide an additional NO/NC connection and operate independently of the other contacts.

The relays can be configured as non-fail-safe or fail-safe, and latching or non-latching.

They can be used for active alarm or trip functions and can trigger devices that are not just motors.

RTD Sensor Connections: The user can connect up to 6 resistance temperature detectors.

This is used to monitor values such as stator motor temperature, historical hottest temperature and ambient air temperature.

The relay then uses the data obtained from these connections to schedule the optimal cooling process.

. Analog output terminals: These two terminals can be configured using the relay’s setpoint system.

It can be connected to chart recorders, remote meters, programmable recorders and/or computer loads.

. Emergency Restart Terminal: This connection type overrides trips within the system and forces a restart of the motor.

These connections add to the overall versatility of the system and can further protect motor components from damage during operation.
June 24, 2025 BY
IN Vibro-Meter

Vibro-Meter VM600Mk2/VM600 ABE056 Slimline Racks OVERVIEW


SPECIFICATIONS

OVERVIEW

Housing: Painted galvanized steel sheet

Color: Off-white (RAL 9002)

Power supply: Integrated RPS1U power supply for VM600Mk2/VM600

The integrated RPS1U power supply provides +5 VDC and ±12 VDC for the VM600Mk2/VM600 and all installed modules (cards).

See also AC Input Power on page 3 and DC Input Power on page 3.

Power Input: The power input has an AC or DC connector (with RFI filter) and an on/off switch.

See Ordering Information on page 6 for information on the main power cord (power strip).

Backplane: Proprietary VM600Mk2/VM600 rack bus (open collector (OC) bus) for data/signal sharing between modules (cards)

Rack Slots (module (card) locations):

Front of rack:

– 1 × slot – module (card) position 01 – for handling modules (cards) such as MPC4Mk2. XMx16. MPC4. or AMC8.

Rear of rack:

– 1 × Slot – Module (Card) Position 01 – For associated input/output modules (cards) such as IOC4Mk2. XIO16T, IOC4T or IOC8T.

– 1 × slot – module (card) position 00 – for the relevant relay module (card), e.g. RLC16Mk2 or RLC16.
June 24, 2025 BY
IN Vibro-Meter

Vibro-Meter VM600Mk2/VM600 ABE056 Slimline Racks Applications


The rack has an integrated backplane that provides electrical interconnection between the integrated

power supply (RPS1U) and the installed VM600Mk2/VM600 modules (cards).

The rack also has a power check relay on the rear of the rack to indicate if the integrated power supply is functioning properly.

The VM600Mk2/VM600 Processing Module (Card) is mounted at the front of the rack and the

associated Input/Output Module (Card) is mounted at the rear of the rack.

The input/output modules (cards) provide connectors for connecting sensors/measurement

chains and for sharing various signals with external systems such as DCS or PLC.

In general, the VM600Mk2/VM600 ABE056 Ultra Slim Racks are factory-configured before shipment and are therefore ready for use.

Optionally, each module (card) can be reconfigured to meet the needs of a specific machinery monitoring application.

Each module (card) can be reconfigured to meet the needs of a specific machinery

monitoring application using the appropriate software package from Meggitt Vibro-Meter: VibroSight® or VM600 MPSx.

SPECIFICATIONS

OVERVIEW

Housing: Painted galvanized steel sheet

Color: Off-white (RAL 9002)

Power supply: Integrated RPS1U power supply for VM600Mk2/VM600

The integrated RPS1U power supply provides +5 VDC and ±12 VDC for the VM600Mk2/VM600 and all installed modules (cards).

See also AC Input Power on page 3 and DC Input Power on page 3.

Power Input: The power input has an AC or DC connector (with RFI filter) and an on/off switch.

See Ordering Information on page 6 for information on the main power cord (power strip).

Backplane: Proprietary VM600Mk2/VM600 rack bus (open collector (OC) bus) for data/signal sharing between modules (cards)

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