Reliable power systems engineering customized for specific utility, generation, and industrial requirements.
Synchronous generator protection, automatic voltage regulators (AVR) control interfaces, excitation panel logic, and main transformer protection schemes for thermal, hydro, and nuclear plants.
High-voltage switchyard automation (up to 765kV), distance protection schemes, line differential protection coordinates, synchrocheck logic, and dual redundant SAS architectures.
Ring main units (RMU) controls, auto-recloser configurations, load-flow analysis, feeder protection settings coordination, and medium-voltage substation modernization drawings.
Coordinating microgrids, fast load shedding schemes (FLS) to avoid blackouts in critical manufacturing processes, captive power control loops, and motor control centers (MCC) protection.
Power pooling substation design, grid-code compliance studies, harmonic filters layout, solar PV SCADA monitoring, and STATCOM voltage stability systems integration.
A summary of engineering frameworks we successfully execute across greenfield and brownfield installations.
Complete basic and detailed engineering design for new substations. We generate the entire drawing package including layout coordinates, single line diagrams, cable schedules, schematic details, SAS architecture drawings, and testing guidelines.
Retrofitting existing operational panels. We specialize in mapping out legacy panel wirings, designing boundary interface terminals, and upgrading devices without requiring replacement of structural panels.
Database engineering and graphical interface creation for centralized load dispatch centers. We configure remote gateway devices, mapping telemetry registers, and establishing safe telemetry control protocols.
Comprehensive relay setting coordination studies. We transition static protection devices to multifunctional numerical relays, performing setting calculations in ETAP or DigSilent and uploading parameters.
From the initial engineering drawings to final field verification, we stay involved through every project phase. Click on the timeline dots to highlight steps.
Analyzing customer load requirements, network single line diagrams, utility specifications, and defining the protection & automation architecture.
Generating wiring schematics, panel designs, terminal plans, relay setting calculations, and SAS configuration databases (SCD/ICD).
Providing supervision to panel builders, verifying loop wirings, performing panel factory acceptance tests (FAT) before site shipment.
Secondary current/voltage injection testing, checking CT/VT ratios, executing trip matrix checks, and verifying SCADA communication signals.
Executing primary checks, verifying inter-trippings, supervising site energization, redlining drawing packages for final As-Built documents.
We collaborate with EPC firms, switchgear manufacturers, and utilities to handle design, engineering, and testing phases.
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