Category: ABB

ADVAC 38KV 3000A 40KA

Complete portfolio and rating extension

ABB offers its new 38 kV class medium voltage vacuum circuit breaker with 

spring mechanism type EL (used in products like Emax 2 and VD4) and new vacuum 

interrupter technology up to 40.5 kV, 3000A,  40 kA, 190 kV BIL with 1000 A C2 back to back capacitive switching available.

Help keep personnel safe

•ADVAC38 is the lightest weight 38 kV circuit breaker in the industry, helping increase personnel safety

•Roll-on-floor (ROF) caster design offers ease of use

•Remote motorized racking options are available

Save floor space

•Space-saving compact design

•Two-high stacking compatible

Protect assets: Type tested according to:

•C37.09-2018

•C37.54-2002

•C37.55-2020

•C37.20.2-2015 Annex C for partial discharge testing

Optimize investment

•Optimized design with compact, single-sized compartment for all ratings

•Lowest power consumption accessories for reduced battery bank systems

Reduce maintenance costs

•Class M2. 10.000 mechanical operations

•Globally proven EL operating mechanism and racking truck are shared for all ADVAC circuit breakers, requiring no adjustment or measurement

•Reduced vacuum interrupter wear design requires no visible or mechanical measurements

•Maintenance-free embedded pole design helps protect vacuum interrupters from contamination, moisture, and damage and helps improve tracking resistance

Applications

•Utilities

•Renewables

•Data Centers

•Industrial

Segments/Channels

•Panel builders

•OEMs

•End users

A unique modular design allows for quick and safe service for motors, coils and key components

The ADVAC series is a complete line of ANSI-rated vacuum circuit breakers 

with a spring-charged mechanism offering power distribution system customers 

the advantages of the latest technology with a modular design that is easily maintainable.

Key benefits

ABB EL spring mechanism used on various ANSI and IEC breakers to provide up to 20.000 

mechanical operations in a compact, modular design that is readily accessible and easily maintained to reduce downtime

Modular Smart Coil assembly used in multiple ABB breakers provides close, 

open and undervoltage actuation in one simple assembly

The motor assembly can be replaced by removing a single screw, thereby reducing downtime

Vacuum interrupters completely embedded in a solid insulation material provide superior protection against dust, 

dirt and condensation, and are less susceptible to failure due to contamination, tracking or partial discharge

Key features

5kV, 8kV, 15 kV, and 38kV heavy duty breaker rated at 1200A, 2000A, 3000A 

and 4000A FAC continuous current and 25 kA thru 63 kA interrupting current

Safety features include standard built-in mechanical anti-pumping device, KIRK key, 

padlocking, push-button cover provisions and closed-door racking

The racking mechanism (truck) is integrated into the breaker and designed to 180 ft2lb torque 

rating to provide increased reliability and reduced maintenance costs

Benefits

ABB EL spring mechanism used on various ANSI and IEC breakers to 

provide up to 20.000 mechanical operations in a compact,

modular design that is readily accessible and easily maintained to reduce downtime

Modular Smart Coil assembly used in multiple ABB breakers provides close,

open and undervoltage actuation in one simple assembly

The motor assembly can be replaced by removing a single screw, thereby reducing downtime

Vacuum interrupters completely embedded in a solid insulation material provide

superior protection against dust, dirt and condensation,

and are less susceptible to failure due to contamination, tracking or partial.

Features

5 to 15 kV heavy duty breaker rated at 1200 A to 3000 A continuous current and 25 kA to 63 kA interrupting current

Safety features include standard built-in mechanical anti-pumping device, 

KIRK key, padlocking, push-button cover provisions and closed-door racking

The racking mechanism (truck) is integrated into the breaker and designed to 

180 ft2lb torque rating to provide increased reliability and reduced maintenance costs

Remote motorized racking options are available.

Preparing for Installation

Lifting the inverter

Lift the inverter by holding the base of the inverter only.

Opening the packing box

1. Open the packing box.

2. Check for damage. If any damage is found, notify the carrier immediately. 3.

3. Check that the contents of the box correspond to the order and the waybill.

Identification of the inverter

To find out which inverter you are installing, refer to the following

– The label on the top of the bar code between the mounting holes.

– Model code on the heat sink – located on the right side of the inverter cover:

Motor Compatibility The motor, inverter and power supply must be compatible:

Tool Requirements The following tools are required to install the ACS510:

– Screwdriver ( to match the fasteners used)

– Wire stripper

– Tape measure

– Drill

New third-generation technology – Emax 2 Harness dual power conversion system

– Embedded control system for more efficient power switching

– Intuitive user interface and user-friendly human-machine interaction

– Comprehensive safety features

The Emax 2 Harness dual power conversion system is designed for ‘two inlets and one busbar’ power supply lines.

Using ABB’s latest third-generation circuit-breaker power conversion solution, the Emax 2 Harness eliminates the need for a traditional external stand-alone controller.

Emax 2 Harness can be directly through the intelligent off-trigger embedded logic to achieve efficient cooperation between the circuit breaker control, while supporting a variety of control modes, wiring, and so on.

The Emax 2 Harness supports multiple control modes, simple wiring, high reliability, shorter changeover times and intuitive control.

Emax 2 Harness is a high-performance automated power conversion system on the Emax 2 Ekip intelligent protective circuit breakers.

It provides safer and more reliable power switching without the need for additional control equipment, whilst providing circuit protection.

In industrial and power applications where efficiency and performance are delivered through digital communications, ABB is reinventing the way digital systems are embedded to help users achieve more efficient, safe and reliable power conversion.

Function Modules

Ekip Power Modules

The Ekip Power Module supplies power to all Ekip striker and modules present on the terminal box and circuit breakers from multiple auxiliary power sources (AC or DC) available in the switchgear.

The Ekip Power Module supplies power to all Ekip strippers and modules present on the terminal box and circuit breakers.

The module is mounted in the terminal box to allow installation of other advanced modules.

It can be installed in the field at any time.

Two versions are available depending on the control voltage:

– Ekip Power Module (110-240V AC/DC)

– Ekip power modules (24-48V DC)

Ekip 2K Signalling Module

The Ekip 2K signalling module is supplied with 2 input and 2 output contacts and can be used to remotely control and indicate alarm messages and circuit breaker tripping.

It can be programmed via the tripper’s display or via the Ekip Connect software.

In addition, the combination of events can be freely configured when using Ekip Connect.

The module is suitable for all Ekip Touch and Hi-Touch circuit breakers for distribution and generator protection.

Three versions of the Ekip 2K signalling module are available: Ekip 2K-1. Ekip 2K-2 and Ekip 2K-3.

E2.2. E4.2 and E6.2 can be fitted with up to 3 modules simultaneously; E1.2 can be fitted with up to 2 modules simultaneously.

Conversion Function

Automatic Operating Mode

The Harness system can be put into automatic conversion mode by using the operating mode selection button on the operation panel.

In the automatic conversion mode, the system will automatically detect the two power sources and judge whether the two power sources are normal or not.

When one of the power supply fails, the system will carry out automatic power conversion; at the same time, in order to adapt to the fluctuation of the power grid, the conversion process can support the action delay setting.

Self-input and self-recovery

When one of the two power sources fails, the system will automatically disconnect and switch to the other one to supply power to the load.

When the faulty power supply returns to normal, it will automatically return to the state where the two power supplies are powered separately.

Self-throw without self-recovery

When one of the two power supplies fails, it will automatically disconnect and switch to the other one to supply power to the load.

When the faulted power supply returns to normal, it is necessary to select the self-recovery button or operate manually to return to the state of ‘CB1 closing/CB3 opening/CB2 closing’.

Manual switching of operating modes (non-parallel)

The Harness system can also be operated manually via the control panel, which allows manual control of the CB1 closing/ CB3 opening/ CB2 closing by means of the closing and splitting buttons.

The manual mode of operation is a ‘non-parallel’ mode, which supports electrical interlocking to prevent manual operation. At the same time, it supports the function of disconnection blocking, which guarantees the safety of the power supply system.

The power supply system is safe and secure. The parallel switching mode is used for planned maintenance or power failure of the incoming power supply line.

The CB1/CB2 is operated in the form of a ‘close first, split second’ mode to ensure that there is no interruption of power supply during the conversion process.

(The parallel connection time of power supply 1/2 is not more than 200ms.) At the same time of parallel connection operation, the synchronisation verification module detects the synchronisation condition of the two power supplies.

If the two power supplies are in the synchronous state, the synchronous indicator will light up automatically, and you can enter the manual parallel conversion operation;

If the conditions for parallel connection are not sufficient, the synchronisation indicator goes out, the circuit breaker automatically locks the closing function of the mother switch, and the parallel conversion operation cannot be completed.

Symphony Plus controllers seamlessly integrate field devices via the PDP800 PROFIBUS interface module.

This allows access to a wide range of intelligent field devices, including transmitters, actuators, motor control centres (MCCs), flame scanners, intelligent electronics and more.

These devices come from ABB and other third-party vendors.

PROFIBUS I/O and associated control strategies are configured using ABB’s extensive field-proven standard function code algorithms and S+ Engineering’s graphical design tools.

In addition, these data are made available to other S+ system nodes (i.e. Control, Operations, Engineering and Information) via a redundant plant network (PN800).

PDP800 PROFIBUS interface features include

– Support for PROFIBUS DP V0. V1. V2

– Support for PROFIBUS PA devices via DP/PA linked devices

– Support for 1 ms device timestamps via PROFIBUS DP V2

– Support for electrical and fibre optic media for PROFIBUS DP links

– PROFIBUS DP link rate up to 12 Mbps

– PROFIBUS DP connections over fibre optics up to 15 km

Comprehensive I/O Support

The PDP800 module connects Symphony Plus controllers to the S800 I/O via PROFIBUS DP V2. The S800 I/O offers options for all signal types.

The S800 I/O offers options for all signal types, from basic analogue and digital inputs and outputs to pulse counters and intrinsically safe applications.

PROFIBUS DP V2 supports the S800 I/O Event Sequence function, which time stamps events at the source with a 1 ms accuracy.

In addition, the PDP800 supports the connection of Symphony Plus controllers to S+ Turbine dedicated modules.

Specifically, via PROFIBUS DP V2. the HPC800 supports powerful turbine control solutions.

such as turbine protection (TP800), valve positioning (VP800), automatic synchronisation of generators (AS800) and condition monitoring (MCM800).

With fibre-optic extension, PROFIBUS I/O modules and devices can be placed up to 15 km away from the PDP800.

In addition, the PDP800 modules can be located up to 3 km away from the controller via redundant HN800 fibre optic communication.

Overview

RET615 is a dedicated transformer protection and control relay for power transformers,

unit and step-up transformers including power generator-transformer blocks in utility and

industry power distribution systems.

RET615 is a member of ABB’s Relion® product

family and part of its 615 protection and control product series. 

The 615 series relays are characterized by their compactness and withdrawable-unit design.

Re-engineered from the ground up, the 615 series has been designed to unleash the full

potential of the IEC 61850 standard for communication and interoperability between

substation automation devices.

Once the standard configuration relay has been given the

application-specific settings, it can directly be put into service.

The 615 series relays support a range of communication protocols including IEC 61850

with Edition 2 support, process bus according to IEC 61850-9-2 LE, Modbus® and DNP3.

PCM600 and relay connectivity package version

• Protection and Control IED Manager PCM600 2.8 or later

• RET615 Connectivity Package Ver.5.1 or later

• Parameter Setting

• Signal Monitoring

• Event Viewer

• Disturbance Handling

• Application Configuration

• Signal Matrix

• Graphical Display Editor

• Communication Management

• IED User Management

• IED Compare

• Firmware Update

• Fault Record tool

• Load Record Profile

• Lifecycle Traceability

• Configuration Wizard

• AR Sequence Visualizer

• Label Printing

• IEC 61850 Configuration

• IED Configuration Migration

• Differential Characteristics Tool

Description

REU610 is a voltage protection relay for system voltage

protection, measuring and supervising in utility and industrial

power systems. REU610 is a member of ABB’s Relion®

protection and control product family and part of its 610

product series. The 610 series includes protection relays for

feeder protection, motor protection and general system voltage

supervision. The plug-in design of the 610 series protection

relays facilitates the commissioning of the switchgear and

enables fast and safe insertion and withdrawal of relay plug-in units.

The protection relay is primarily designed for the overvoltage

protection of power system components, such as busbars,

feeders, power transformers and capacitor batteries. It is also

used for the general power system earth-fault supervision.

Further, the protection relay can be used for undervoltage

protection of motors and overvoltage protection of capacitor

batteries, for initialization of automatic busbar changeover and

disconnecting small power units from the network in case of a

major network disturbance. The 610 series protection relays

are suitable for employment in marine and offshore environments.

The numerical voltage protection relays of the 610 series

support a wide range of standard communication protocols,

among them the IEC 61850, IEC 60870-5-103, DNP3, Modbus,

Profibus, LON and SPA communication protocols.