Category: ABB

1 LCD SCREEN

Pressing any push button will wake up the LCD and display the heading corresponding to the “Hot Button” label

inside the push button – WAKE, MNTR, SETP, CNFG, COMM, UTIL, or VR.

2 EXIT/WAKE Push button

The EXIT WAKE Push button wakes the LCD from sleep mode and begins scrolling through a list of user pro

grammed metered/calculated values.

3 VR Pushbutton

Activates the user defined Voltage Reduction Steps

Shortcuts/arrows

4 SETP

Access to the Setpoints screens

5 MNTR

Access to the Monitoring screens

6 ENT/UTL Push button

Access to the Utilities screens and enter button

7 CNFG

Access to the Configuration screens

8 COMM

Access to the Communication screens

9 LEDS

See page 2

10 USB Port

Out of Band High Voltage

11 Smart FlashCard Slot

Used for loading and saving setpoints, DNP files and IEC 61850 CID files, saving datalog, SOE and OSC files, clone

saving and uploading, updating firmware, saving Wakeup screen parameters and all metering parameters,  and can

be used as an Access Code Key.

Features

− Front‑Panel Voltage Reduction 1 & 2 Inputs as well as (Bi nary) inputs (3 Steps Total)

− Neutral Position Detect (Binary) and Counter

− Counter Input (Binary) for Regulator applications/Complete

Sequence Input for Transformer applications

− Seal‑in/Switch Status Input (Binary)

−Motor Seal‑In Block/Alarm

− Non‑Sequential/SCADA Block Input (Binary)

− Seal‑in Output (Cooper Applications)

− COM1 (top), RS‑485 and Fiber Optic Port (ST and V‑pin con

nectors available with 62.5 and 200 micro fiber supported)

− COM2 (top), RS‑232 and optional Bluetooth® (user select

able if Bluetooth is installed)

− Communication Protocols include DNP3.0. MODBUS® and

IEC 61850 (IEC 61850 only available with optional ethernet port)

− Key Smart Flash SD Card Slot supporting SD and SDHC SD cards

− Smart Flash SD Card can be linked to one or multiple con

trols providing a physical security “Key” which provides Level

2 User Access to the control when the SD Card is inserted

for settings manipulation

− Supports Station and Feeder Level DNP addressing in addi

tion to individual addressing for Smart Grid applications

−One pushbutton access to user configurable Wakeup screen

for manual data recording with Smart Flash SD Card saving feature

− Power Quality which consists of:

− Sequence of Events Recorder (132 events)

− Data Logging

− Harmonic Analysis

−Oscillography

− CBEMA monitoring to detect sags and swells and trigger

data collection and alarming functions

− TapPlot® Oscillograph Data Analysis Software

− Individual Tap Wear Alarm

− Run Through Neutral, Automatic reversing switch swiping

− Remote Voltage Bias

Note: All brand or product names appearing in this document

are the trademark or registered trademark of their respective holders.

− Tap Position Knowledge by:

− Contact KeepTrack™

− Shaft Coupled KeepTrack™

− Resistor Divider KeepTrack™

−Motor Direct Drive KeepTrack™

−Operations Counter

− Resettable Operations Counter

− Tap Position Record

− Auto/Off/Manual Switch Status via SCADA

− A or B Regulator Type Selection

− Control Voltage Input

−Motor Power Input

− Source Voltage Input

− Line Current Input

− Raise Output

− Lower Output

−Motor Current Profiling

− Up to 30 unique 15 character User Access Codes (Level 1 or Level 2)

− 20 Character by 2 Row LCD or optional Vacuum Fluorescent Display

− “Hot Buttons” provide quick access to setpoints, configura tion and communications

− TCC600 Communications Software

− Adapter Panel Auto/Manual Switch Manual control outside of microprocessor

− Front USB 1.1 Communications Port

− External Inhibit of Auto Tapchange

− Circulating Current Input with Circulating Current, optional

∆VAR® Paralleling Methods including Peer to Peer ∆VAR

− Paralleling, and optional Master/Follower (peer to peer) Paral leling (requires Ethernet)

− Front Panel LEDs for Out‑of‑Band Raise, Out‑of‑Band Lower,

Reverse Power Flow Rev Pwr Detected, ALARM in effect,

Voltage Reduction V/RED in Effect, CPU OK, Auto Operation

Block MANUAL, SCADA Control blocked LOCAL and Com1 TX and RX

Features

The TCC300 includes the following features and can be used for

LTCs or regulators where SCADA communications are desired.

− Adjustable Bandcenter

− Adjustable Bandwidth

− Adjustable VAr Bias (Step and Linear Methods)

− Line Drop Compensation, R, X and Z Compensation with ±72 Volt range

− Time Delay, Definite and Inverse

− Intertap Time Delay

− Four Settings Profiles

− Selectable Outputs, Continuous or Pulsed

− Reverse Power Operation with eight control selections includ

ing a distributed generation mode and Smart Reverse Power

Operation with two Auto Determination modes

− CT to VT Phasing Correction

− Real‑Time Metering of measured and calculated parameters (Single/Three‑Phase)

− Demand Metering with selectable time interval

− Drag Hands Operation

− Adjustable Line Overcurrent Tapchange Inhibit

− Voltage Limits

− Tap Position Limits

− Auto Runback (due to overvoltage)

− Auto Runup (due to undervoltage)

− Three independent Voltage Reduction Steps

− Smart Voltage Reduction

− Fast Voltage Recovery

− Sequential and Non‑Sequential Operation

− VT Ratio Correction

− Self‑Test Alarm Output Contacts

− User Programmable Alarm Contacts

Benefits

− Adapter panels to retrofit popular industry tapchanger controls

− USB 1.1 Communications Port for quick field‑updatable programming

− Smart Reverse Power detection/operation with VT configura

tion for source and load sides

− Demand metering/Data Logging with Date/Time Stamp (Single/Three‑Phase)

− Harmonic Analysis

− LDC with R & X or Z‑compensation

− SCAMP (SCADA Controllable Auto/Manual Pushbutton)

Adapter Panel Auto/Manual Switch State can be changed by

a SCADA command

− Sequence of Events Recording

− SCADA HeartBeat

− Smart Flash SD Card

− Source PT Voltage Input

− CBEMA Monitoring

− VAr Bias for downstream coordination with capacitor controls

− Tap position knowledge by four KeepTrack™ methods

− Transformer paralleling by circulating current, Master/Follower

(peer to peer) circuitry, or ∆VAR® methods

− LCD display (rated –20 to +70 degrees Celsius) or Vacuum

Fluorescent display optionally available (rated ‑40 to +80

degrees Celsius)

− Optional Control Power Backup Input for Fiber Optic commu

nication loop‑through

− DNP3.0. MODBUS® and IEC 61850 Communications Protocols available

− Optional Ethernet RJ45 or Fiber Optic Ethernet

Digital Tapchanger Control for transformers and regulators

The TCC300 is a dedicated controller for metering,

monitoring, and operational control of step-voltage load tap

changers. The TCC300 is a microprocessor-based package

suitable for substation transformers with on-load tap

changers. The TCC300 can be easily integrated to replace

electromechanical on-load tap changer controllers or for

new installations requiring state-of-the-art controllers.

The TCC300 provides reliable operation with expanding

capabilities such as means to address distributed

generation and cyber security requirements.

− LCD display (rated –20 to +70 degrees Celsius) or Vacuum

Fluorescent display optionally available (rated ‑40 to +80

degrees Celsius)

− Optional Control Power Backup Input for Fiber Optic commu

nication loop‑through

− DNP3.0. MODBUS® and IEC 61850 Communications Protocols available

− Optional Ethernet RJ45 or Fiber Optic Ethernet

Application

REG630 has been designed to be the main

protection for synchronous generators, offering

full protection during start-up and normal run

for both the generator and the prime mover.

The comprehensive generator management relay

is typically used in small and medium-sized diesel,

hydroelectric, combined heat and power (CHP),

and steam power plants. REG630 offers one

predefined configuration, intended for directly

connected generator sets. REG630 has been extended with low-voltage

ride-through, reactive power undervoltage and

voltage vector shift protection to further ensure

grid stability and reliability, and thus avoid grid

collapse. The low-voltage ride-through protection

allows monitoring of distributed generation

during low-voltage fault ride-through, in order

to determine whether and when to disconnect,

for instance, a solar or wind farm from the grid.

Also the reactive power undervoltage protection

does the same but specifically at the grid

connection point, whereas the voltage vector

shift protection detects islanding from the grid.

An optional RTD/mA module offers eight

analog RTD or mA measuring inputs and four

mA outputs. The RTD and mA inputs can be

used for temperature measurement of generator

bearings and stator windings, thus extending the

functionality of the thermal overload protection

and preventing premature aging of the generator

windings. They can also be used for measuring

the ambient air or coolant temperature. The four

mA outputs can be used for transferring freely

selectable measured or calculated analog values

to devices provided with mA inputs.

Generator protection and control REG630

REG630 has been designed to protect small and medium-sized power generators

and power generator-transformer blocks in utility and power distribution systems.

Product highlights

• Extensive range of protection functionality

for both synchronous generators and

interconnection points of distributed

generation units

• Extensive generator protection with 100%

stator earth-fault, generator differential

and underexcitation protection

• Advanced interconnection protection fulfilling

the latest grid codes for higher grid stability and reliability

The RTD and mA inputs can be

used for temperature measurement of generator

bearings and stator windings, thus extending the

functionality of the thermal overload protection

and preventing premature aging of the generator

windings. They can also be used for measuring

the ambient air or coolant temperature. The four

mA outputs can be used for transferring freely

selectable measured or calculated analog values

to devices provided with mA inputs.

Application

REM630 has been designed to be the main

protection for both asynchronous and

synchronous motors and their drives, offering

full protection during motor start-up and normal

drive operation. The comprehensive motor

management relay is typically used with circuit

breaker and contactor-controlled, medium-sized

and large motors with varying load in drives such

as pumps, fans, compressors, mills and crushers.

REM630 offers two predefined configurations,

of which one is intended for medium-voltage

asynchronous motor applications and the other

for asynchronous and synchronous motor

applications requiring differential protection.

An optional RTD/mA module offers eight

analog RTD or mA measuring inputs and four

mA outputs. The RTD and mA inputs can be

used for temperature measurement of motor

bearings and stator windings, thus extending

the functionality of the thermal overload

protection and preventing premature aging

of the motor windings. They can also be used

for measuring the ambient air or coolant

temperature. The four mA outputs can be used

for transferring freely selectable measured

or calculated analog values to devices provided

with mA inputs.

Motor protection and control REM630

REM630 has been designed to protect medium-sized and large asynchronous

and synchronous motors in the manufacturing and process industry.

Product highlights

• Motor protection both during motor start-up

and normal run, with protection and fault

clearance also in abnormal situations

• Extensive motor protection for medium-sized

and large asynchronous and synchronous

motors requiring differential protection

• Extensive motor supervision capabilities via

RTD and mA measurements