Category: ABB

Functional Features

– Modular hardware

– Selectable protection functions

– Multiple applications

– Computerized menu-assisted setup

– All-digital signal processing

– Continuous hardware self-monitoring

– Cyclic test program mainly performed by software

– Parameterization and recording of set values via PC

– Display of measured values

– Event display, acknowledgement and printing

– Interference logging

– Self-logging

– Long-term stability

– Communication and coordination with control stations

– Available in two design versions: REG216 / REG216 Classic

Areas of application

The REG216 is used to protect generators and transformers.

The modular hardware and software design allows extremely flexible installation.

The combination of software libraries and hardware allows www.cniacs.com simple adaptation to the size of the primary system and the required protection scheme.

The combination of software libraries and hardware modules allows easy adaptation to the size of the primary system and the required protection scheme.

Modules. As a result, economical solutions can be realized in a wide range of applications.

Economical solution.

The REG216 software system provides a library of protection functions. The following table lists the functions applicable to generator and transformer protection.

Different levels of redundancy can be selected.

The availability and reliability of the protection can be selected according to the application in the following ways

For example, the auxiliary power supply unit for the entire system can be replicated.

Standard interfaces make the REG216 compatible with different process control systems.

All hardware can be housed in a single compartment, which provides further shielding against inductive interference and physical protection against dust, etc.

All hardware can be accommodated in a single compartment, which provides further shielding from inductive interference and physical protection from dust.

The REG216 is available in 17 predefined rack configurations with a limited number of I/Os, but is equipped with the same SW library as the classic system.

Protective relays for other functions are not part of the EG216 and can be installed in compartments and interconnected with the REG216 accordingly.

Interfaces to the main system

The following modular components provide the interface between the REG216 and the power system.

Input transformer assembly

216GW62 This assembly is used to adjust the signal level and to isolate the primary system CT and PT circuits from the electronic circuits of the protective devices.

One PT and two CTs are available to meet different accuracy and dynamic performance requirements.

Up to 12 transformers can be accommodated, selected according to application requirements. Up to four components, i.e. 48 inputs, can be used.

Auxiliary relay and optocoupler assembly 216GD61a

This assembly is for use with the REG216 version. It provides eight trip relays,

Each relay has powerful potential-free trip contacts (with surge circuit), 16 auxiliary relays and 16 optocouplers.

relays and 16 optocoupler input circuits. Up to four assemblies are available.

Input Auxiliary Relay Assembly 216GE61

Up to 16 auxiliary relays to provide full potential isolation for digital input signals.

Output Auxiliary Relay Assembly 216GA61

Up to 16 auxiliary relays providing full potential separation for digital output signals (two contacts per signal).

Trip Auxiliary Relay Assembly 216GA62

Provides up to 8 powerful potential-free trip contacts and circuits that provide high-speed operation (surge circuits) and reduced consumption after operation (economy circuits).

The Trip Auxiliary Relay Assembly is available with an optional trip logic diode matrix for direct coupling of external signals.

Matrix for direct coupling of external signals The REG216 can also read and process external signals via digital inputs.

Different trip circuit monitoring arrangements for use with output unit 216DB61 and input auxiliary relay assembly 216GE61 are available.

Product overview

3.1 Purpose of the relay

The feeder protection relay REF610 is a multifunctional protection relay primarily used to protect incoming and outgoing lines in various feeder applications.

The relay is based on a microprocessor environment. A self-monitoring system continuously monitors the operation of the relay.

The human-machine interface includes a liquid crystal display (LCD) that makes local use of the relay safe and easy.

The relays can be controlled locally via serial communications from a computer connected to the front communication port.

Remote control is available through a serial communications bus connected to the rear connector of the control and monitoring system.

3.2. Features

* Three-phase non-directional overcurrent protection with timing or IDMT characteristics and low rectification phase.

* Three-phase non-directional overcurrent protection, high rectification phase

* Three-phase non-directional overcurrent protection, instantaneous stage

* Non-directional ground fault protection with timing or IDMT characteristics, low setting stage

* Non-directional ground-fault protection, high-calibration phase.

* Phase discontinuity protection

* Three-phase cable thermal overload protection

* Arc protection

* Two lens sensors for arc detection (optional)

* Automatic adjustment of reference level according to backlight intensity

* Arc detection by remote light signal

* Automatic reclosing 1…. .3 times

* Circuit breaker fault protection

* Trip counter for circuit breaker status monitoring

* Trip circuit monitoring with routing of warning signals to signal outputs

* Trip lockout function

* Four accurate current inputs

* User selectable rated frequency 50/60 Hz

* Three normally open power output contacts

* Two change-over signaling output contacts and three additional change-over signaling output contacts on optional I/O module

* Output contact functions can be freely configured according to requirements.

Self-Monitoring

The relay’s self-monitoring system manages fault conditions during operation and notifies the user of existing faults.

There are two types of fault indications

Internal Relay Fault (IRF) indication and warning.

When the self-monitoring system detects a permanent internal relay fault and prevents the relay from operating, the green LED (Ready) will flash.

At the same time, the normally open IRF contact (also known as the IRF relay) will open and a fault code will be displayed on the LCD. The fault code is numeric and identifies the type of fault.

Time Synchronization

Time synchronization of the relay real-time clock can be achieved in two different ways

Serial communication via communication protocol or via digital input.

When time synchronization is achieved via serial communication, the time is written directly to the relay’s real-time clock.

Any digital input can be configured for time synchronization and used for minute pulse or second pulse synchronization.

The synchronization pulse is automatically selected, depending on the time range in which the pulse occurs.

Two pulses need to be detected within an acceptable time range before the relay activates pulse synchronization.

Conversely, if the synchronization pulse disappears, the relay requires the equivalent of four pulse time ranges to de-synchronize the pulse.

The time must be set manually once via serial communication or the HMI.

When setting the time via serial communication and using minute pulse synchronization, only the year-month-day-hour-minute is written to the relay’s real-time clock;

When using seconds pulse synchronization, only year-month-day-hour-minute-second is written. The relay’s real-time clock will round to the nearest whole second or whole minute.

depending on whether seconds pulse synchronization or minutes pulse synchronization is used. When setting the time via the HMI, the entire time will be written to the relay’s real-time clock.

If the difference between the synchronization pulse and the relay’s real-time clock for seconds pulses exceeds ±0.05 seconds, or for minutes pulses exceeds ±2 seconds, the synchronization pulse will be rejected.

Time synchronization is always triggered on the rising edge of the digital input signal. The time is adjusted by accelerating or decelerating the relay clock.

In this way, the clock neither stops nor jumps suddenly during time adjustment.

Typical accuracy of time synchronization via digital inputs is ± 2.5 ms for second pulse synchronization and ± 5 ms for minute pulse synchronization.

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

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.

It includes GOOSE telegrams with switching and analog signals, and constant value adjustment based on IEC 61850-8-1.

The REF620 also supports DNP3. IEC 60870-5-103 and Modbus® protocols.

The REF620 provides an optional Ethernet port for non-delayed redundant Ethernet or a ring self-healing RSTP communication in the event of a communication failure via PRP or HSR protocols.

This solution eliminates the effects of a single point of failure and improves communication reliability. The solution can be applied to Ethernet based IEC 61850. Modbus® and DNP3 protocols.

Rail-Mounted Control Room Enclosure Units

The rail-mounted control room enclosure is the simplest and least expensive version of the I/P signal converter.

It is mounted using a mounting base that is compatible with all commercially available EN rails.

The enclosure with plastic cover is IP 20 rated.

Block-mounted control room housing units

The block-mounted control room housing unit allows the installation of several converters in a small space.

This design enables a central air supply via connection blocks and shut-off valves in the air connectors of the integrated signal converters.

Up to 4 signal converters can be mounted on the connection blocks required for modular installation.

If necessary, 2 or 3 (or up to 4) connection blocks can be interconnected to form a block unit with 4-8-12-16 signal converters.

Individual transducers can be mounted or dismounted during operation by means of shut-off valves.

Field mountable housings

The field mounting housings are suitable for installation on site or in the open air.

The housings can be made of plastic (IP class IP 54), aluminum (IP class IP 65) or stainless steel (IP class IP 65).

The housings are suitable for wall and pipe mounting.

The specially designed signal converters in the plastic housing units can be powered by flammable gas instead of the standard compressed air.

The converter can withstand loads of up to 10 g with less than 1% impact on functionality.

The housing units are available in a variety of versions to suit your installation requirements.

For potentially explosive environments, units are available in intrinsically safe operation or in pressure-resistant packages with international approvals for worldwide use.

Both inputs and outputs are available with different ranges of signal conversion.

The devices require only 1.4 to 10 bar (20 to 145 psi) of compressed air for power.

To ensure smaller dimensions and lower costs, the pneumatic unit does not include an aerodynamic stage.

This reduces air capacity and means that the I/P signaling converter can only be used to control low-flow air systems.

Rail Mounted Control Room Enclosure Units

The rail-mounted control room enclosure is the simplest and least expensive version of the I/P signaling converter.

It is mounted using a mounting base that is compatible with all commercially available EN rails.

The enclosure with plastic cover has a protection rating of IP 20.

Field mountable housings

The field mounting housings are suitable for installation on site or in open areas. The housing can be made of plastic with protection class IP 54;

It can also be made of aluminum with protection class IP 65 or stainless steel with protection class IP 65.

The housings are suitable for wall and pipe mounting.

Special conditions

The I/P signal converters are suitable for an ambient temperature range from -40 °C to a maximum of 85 °C.

If the I/P signal converter is to be used at ambient temperatures above 60 °C or below -20 °C, use cable entries and cables suitable for the maximum ambient temperature plus 10 K or the minimum ambient temperature.

Models with intrinsically safe control heads can no longer be operated as intrinsically safe if the “Ex (enclosure)” protection type and a non-intrinsically safe power supply were previously used.

I/P signaling converter TEIP11-PS Doc. 901068 or TEIP11-PS Doc. when used with flammable gases.

When used with flammable gases, the I/P signaling converter TEIP11-PS 901068 or TEIP11-PS 901069 must be installed outdoors as a pneumatic power supply.

The supplied gas must be kept sufficiently air and oxygen free to prevent the formation of potentially explosive atmospheres.

The gas must always be vented to the outdoors.

The main features of the relay are

Self-powered three-phase non-directional overcurrent and earth fault protection with DMT and IDMT characteristics

Dual earth fault measurement modes – internal vector summing or external CBCT inputs

Integration of IDMT curves (IEC and special) in a single product to meet the time-coordinated requirements of secondary distribution protection

Protection blocking via second harmonic measurement to ensure stability during transformer magnetic surges

Capacitive discharge pulse output for low-energy trip coils

Built-in manual reset electromechanical sign for trip indication

Easy setup via DIP switches, protected by transparent cover

Compact design and mounting for ring main unit (RMU) applications

Test equipment for testing the entire program, including primary CTs, relays and trip coils

Operating instructions

The combined overcurrent and earth fault relay is a secondary relay that is connected to the current transformer of the protected object.

In addition to the measurements (inputs), the relay receives from the current transformer the energy required for its own operation and for tripping the circuit breakers.

There are two LEDs on the front panel. The green “Ready” indicator lights up when the minimum current required for operation is available, indicating that the relay is operating.

When a fault is detected, the relay will trip the circuit breaker according to the setting.

The relay will also perform periodic internal health checks and notify the user of any faults within the relay.

Internal relay faults are indicated by the red LED “IRF” indicator.

The overcurrent device will operate when the phase current exceeds the set run time for timed operation or the calculated run time for inverse time limit operation.

Operation. Similarly, the high level I>> of the overcurrent device will actuate when the set operation time has expired.

The ground fault unit operates when the ground fault current exceeds the set operation time for timed operation or the calculated operation time for inverse time limit operation.

Similarly, the high level I0>> of the ground-fault unit operates when the set operation time expires.

The low-level rectification stage of the overcurrent unit and the low-level rectification stage of the ground-fault unit can have a deterministic time or inverse deterministic minimum time (IDMT) characteristic.

When the IDMT characteristic is selected, four standard www.cniacs.com time/current curves and three special time/current curves are available.

The standard curves conform to BS142 and IEC 60255 and are referred to as normal inverse time, extreme inverse time, extreme inverse time and long time inverse time.

In addition, three special curves are available, namely the RI curve, the HR fuse curve and the FR fuse curve.

Product Features

Capacitor bank overload and unbalance protection, non-directional overcurrent and directional ground fault protection, voltage and frequency based protection and measurement functions

Current-based unbalance protection, compensation for natural unbalance, and current-based capacitor bank switching resonance protection

Optional arc protection and high-speed output

Supports IEC 61850 version 1 and 2. including HSR and PRP, GOOSE messaging, and IEC 61850-9-2 LE to minimize wiring and supervised communications

IEEE 1588 V2 for high-precision time synchronization and maximum benefits of Ethernet communications at the substation level

Supports Modbus, DNP3 and IEC 60870-5-103 communication protocols

Applications

The REV615 is designed for primary protection of H-bridge, double Y-type and single Y-type connected capacitor banks and feeder cables.

In addition, the REV615 can be used to protect harmonic filter circuits when the harmonic component is not higher than the 11th.

The REV615 is available in two standard configurations, both of which provide three-phase overload protection, current-based unbalance protection (natural unbalance compensation), and current-based capacitor bank switching resonance protection.

The overload protection includes an integrated undercurrent function that detects the disconnection of the capacitor bank and inhibits the closing of the circuit breaker when the capacitor bank is partially charged.

Three-phase thermal overload protection is available www.cniacs.com for reactors and resistors in harmonic filter circuits.

The REV615 also provides non-directional overcurrent and ground fault protection for capacitor banks and their feeder cables.

Standard configuration B also provides directional ground fault, residual voltage, voltage unbalance, and over- and under-voltage protection.

Standard configuration A is pre-configured for H-bridge connected capacitor banks with three-phase unbalance protection.

Standard configuration B is pre-configured for capacitor banks with double Y-bridge connection and has single current unbalance protection.

The standard configurations can be customized to meet the requirements of the application with the IEC 61850-compliant protection and control IED manager PCM600.

Range

Busbar and ideal multi-purpose back-up protection relays

Product Benefits

Pre-configured features for busbar protection applications

Relays are delivered pre-configured and factory tested to reduce engineering and commissioning time

Self-healing communication based on HSR/PRP using an optional second Ethernet bus

Compact design makes it suitable for both new and retrofit installations

Pull-out plug-in design for quick installation and testing

Product Features

Bus and ideal multi-purpose backup protection

Powerful and user-friendly web browser-based human machine interface (HMI), including input/output (I/O) matrix with visualization options

Application-specific standard configurations reduce relay setup and commissioning time

Supports IEC 61850 version 1 and 2. including www.cniacs.com binary GOOSE messages

Pre-configured solutions for utility distribution and industrial applications