ABB REF542plus multifunctional protection and switchgear control unit



ABB REF542plus multifunctional protection and switchgear control unit

Product positioning and system architecture

REF542plus is a new generation of intelligent electronic device (IED) for medium voltage distribution systems launched by ABB, designed specifically for scenarios such as gas insulated switchgear (GIS) and air insulated switchgear (AIS), integrating protection, measurement, control, monitoring, and power quality analysis functions. Its core architecture adopts a three processor separation design:

DSP (Digital Signal Processor): Independently executes protection algorithms and high-precision measurements to ensure that fault response is not affected by control tasks.

MC (microcontroller): handles switch control, logic interlocking, and automation sequences, supporting FUPLA graphical programming.

CP (Communication Processor): Supports protocols such as IEC 61850, Modbus, DNP3, etc., to achieve high-speed data exchange with substation automation systems.

Hardware is divided into central unit and HMI control unit:

Central unit: including power module, I/O interface (analog/binary) and optional communication board, supporting standard chassis (2I/O board+1 communication board) or wide chassis (3I/O board+1 analog output board).

HMI control unit: independently installed on the switchgear door panel, equipped with backlit LCD, 8 operation buttons, 3 sets of LED light columns, and electronic key interface, supporting RS485 communication with the central unit.

Core Function Analysis

1. Protection function system

REF542plus supports over 20 protection algorithms, covering all fault types in the entire distribution network scenario:

Overcurrent protection: three-stage non directional overcurrent (50/51), two-stage directional overcurrent (67), supporting ANSI/IEC inverse time characteristics (Normal/Very/Extreme inverse), starting accuracy ± 1.5%, instantaneous response time<16ms.

Ground fault protection: Directional grounding (67N) is based on the Io UO phase criterion, while non directional grounding (51N) supports admittance type protection (Yo criterion), suitable for ungrounded/resonant grounding systems, with a sensitivity of 0.01mS.

Voltage and frequency protection: three-phase overvoltage/undervoltage (59/27), residual overvoltage (59N), frequency anomaly (81), supports df/dt change rate monitoring to prevent system oscillation.

Equipment specific protection: Transformer differential (87), motor stalling (51LR), thermal overload (49), supporting thermal memory function and environmental temperature compensation.

Arc protection: 3-channel optical sensor input, combined with current criterion, can quickly trip within 9ms, reducing the risk of damage caused by switchgear faults.

2. Measurement and monitoring capabilities

Direct measurement: 8-channel analog input (3 sets of current/voltage), supporting traditional CT/PT or Roche coil/resistive voltage divider sensors, with accuracy up to Class 1 (measurement)/Class 3 (protection).

Calculation parameters: line voltage, positive and negative sequence components, active/reactive power, power factor, electrical energy, supporting maximum demand recording and historical data storage.

Equipment status monitoring: mechanical life counting of circuit breakers, spring energy storage status, SF6 gas pressure monitoring, assisted by event recording (30 recent events) and fault waveform recording (5 x 5s, 1.2kHz sampling) for fault analysis.

3. Control and Automation

Local/remote control: Circuit breaker opening and closing can be achieved through HMI buttons or station control system, supporting electronic key permission management (protection parameter setting/control mode switching).

Interlocking and Automation Sequence: Based on FUPLA programming, cross interval interlocking (such as interlocking between bus tie switch and incoming switch), automatic reclosing (three-phase primary/secondary reclosing), and synchronous inspection (25) are implemented to meet the requirements of power grid interconnection.

Technical parameters and interface characteristics

Electrical parameters

Analog input:

CT input: 1A/5A, dynamic range 0.5-200In, supports Roche coil（ 150mVrms@In ）.

PT input: 100V (compatible with 110V), supports resistive voltage divider（ 2Vrms@Un ）.

Binary I/O:

Mechanical relay output: 8A/250VAC, supports coil breakage monitoring.

Static output: 12A/265VDC (short-term), suitable for motor drive.