VISAGAN Energy Solutions

Software Simulation

ETAP Power System Studies

Comprehensive power system analysis using ETAP — the industry standard for electrical power system design, simulation, and operation. We deliver bankable, compliant study reports for industrial and utility networks.

01

Load Flow

Voltage profile, power flow, and equipment loading analysis for network optimisation.

02

Short Circuit

Fault level calculation for breaker rating, protection grading, and equipment selection.

03

Arc Flash

Incident energy analysis and PPE categorisation per IEEE 1584 for personnel safety.

04

Protection

Relay coordination, overcurrent, differential, and distance protection settings and grading.

05

Transient

Transient stability analysis for generator and motor dynamic performance under fault conditions.

Detailed ETAP Studies

01

Motor Acceleration Study

Analysis of motor starting performance to ensure voltage stability and protection coordination during acceleration.

02

Harmonic Analysis Study

Identification and mitigation of harmonic distortion in power systems to meet IEEE 519 standards.

03

Reactive Power & Power Factor Correction

Assessment of reactive power sources and capacitor bank design to optimise power factor and voltage profile.

04

Voltage Drop Study

Detailed load flow studies to identify voltage drop issues across feeders and distribution networks.

05

Earthing Study

Design and verification of earthing systems to ensure personnel safety and equipment protection in accordance with IEC and IEEE standards.

Why ETAP?

ETAP is the world's most comprehensive power system analysis software, trusted by utilities, EPCs, and industrial clients globally. Our certified engineers deliver simulation-backed, audit-ready study reports.

IEEE and IEC compliant study reports
Certified ETAP professionals
Industrial, utility and O&G sectors
Fully documented deliverables
Fast turnaround on urgent studies
Peer-reviewed results

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EMT Simulation

PSCAD Transient Studies

Electromagnetic transient simulations using PSCAD for detailed power electronics modelling, HVDC systems, cable transients, and dynamic performance analysis of complex power networks.

EMTHVDCOvervoltageGrid CodeFerroresonance

01

Insulation Coordination Study

Simulation of overvoltage stresses and selection of surge arresters to protect equipment insulation levels.

02

TOV · SFO · FFO · VFFO · TRV · Ferroresonance

Comprehensive transient overvoltage studies — temporary, slow-front, fast-front and very fast-front overvoltages, transient recovery voltage and ferroresonance phenomena.

03

Power Quality Studies

Voltage flicker, harmonic injection, sag/swell analysis and mitigation for sensitive loads and grid-connected systems.

04

Grid Integration Study

EMT-level simulation of renewable energy plant interconnections — offshore wind, utility-scale solar, BESS integration.

05

Grid Code Compliance Study

Verification of plant performance against national and international grid code requirements including fault ride-through, reactive power, and frequency response.

Why PSCAD?

PSCAD is the gold standard for electromagnetic transient analysis, essential for HVDC, renewable integration, and protection coordination on modern grids.

Detailed cable and transformer modelling
HVDC and FACTS device studies
Offshore wind farm studies
IEC 60071 insulation coordination
Regulatory submission-ready reports
Grid code compliance certification

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Control & Modelling

MATLAB / Simulink

Advanced control system design, power converter modelling, and real-time hardware-in-loop simulation for research-grade and production-ready engineering solutions.

01

Control System Design

PID, state-space, nonlinear, and modern control techniques designed and validated in MATLAB/Simulink environments.

02

Power Converter Modelling

DC-DC, AC-DC, DC-AC converter simulation including buck, boost, flyback, inverter topologies with switching-level detail.

03

MPPT Algorithm Design

Maximum power point tracking for PV systems — P&O, INC, sliding mode and novel nonlinear MPPT approaches.

04

Battery Modelling & BMS Simulation

Electrochemical battery models, SoC/SoH estimation, charging/discharging control validated in Simulink.

05

HIL & Real-Time Simulation

Hardware-in-Loop testing using MATLAB/Simulink Real-Time Toolbox for controller validation before hardware deployment.

06

Custom Algorithm Development

Research-grade optimisation, metaheuristic algorithms, parameter estimation, and simulation for academic publications.

Power Systems

Modern Control Design

Cutting-edge nonlinear and modern control techniques applied to power electronics, renewable energy, and electrical network systems.

01

Sliding Mode Control

Robust nonlinear sliding mode controllers for PV systems, battery management, and DC-DC converters. Validated through simulation and experimental results.

02

Model Predictive Control (MPC)

Advanced MPC strategies for power converters enabling superior transient performance and constraint handling.

03

Adaptive & Intelligent Control

Fuzzy logic, neural network, and adaptive control techniques for uncertain and nonlinear energy systems.

04

Grid-Forming Inverter Control

Virtual synchronous machine and droop control strategies for grid-forming inverters in microgrids and islanded systems.

Key Applications

Grid-connected photovoltaic systems with unity power factor
Battery management & MPPT optimisation
Load regulation under nominal and robust conditions
Microgrid control & energy management
Motor drives for EV and industrial applications

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EV Engineering

Electric Vehicle Design & BMS

End-to-end electric vehicle engineering — from electric motor design and vehicle architecture to battery management systems and emerging EV technologies.

EV Vehicle Types

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Battery Electric Vehicle (BEV)

Fully electric powertrain design — motor sizing, battery pack, inverter, and charging system integration.

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Hybrid Electric Vehicle (HEV)

Parallel and series hybrid architectures balancing ICE and electric motor for optimal efficiency.

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Plug-in Hybrid (PHEV)

PHEV powertrain design with external charging capability and intelligent mode switching logic.

Battery Management System (BMS)

01

Battery Modelling & Parameter Estimation

Equivalent circuit modelling, parameter identification, and validation for lithium-ion and other chemistries.

02

State Estimation — SoC, SoH, SoP

Accurate state-of-charge, state-of-health, and state-of-power estimation using Kalman filtering and observer-based methods.

03

Charging & Discharging Control

Optimal charging strategies — CC-CV, pulse charging, and regenerative braking energy recovery.

04

Motor Control

FOC, DTC, and SVPWM-based electric motor drive design for PMSM, BLDC, and induction motors in EV applications.

05

Regenerative Braking Control

Energy recovery system design and control for maximising range efficiency during deceleration.

06

Power Flow in EV Systems

Bidirectional power flow management between battery, motor, solar, and grid using smart converters.

Emerging EV Trends

V2G — Vehicle-to-Grid

EV batteries as grid storage assets — bidirectional charging supporting peak shaving and grid stability.

Solar-Integrated EV Charging

PV-battery-EV systems for off-grid and grid-connected charging stations with smart energy management.

Solid-State Batteries

Design considerations and BMS adaptation for next-generation solid-state battery technology in EVs.

Infrastructure

Smart Energy & Grid Integration

Seamless integration of distributed energy resources, BESS, and renewable plants into transmission and distribution networks — grid code compliance, connection studies, and stability analysis.

01

Hybrid Grid Integration

Multi-source hybrid systems combining solar, wind, BESS, and diesel generation with intelligent dispatch and control.

02

Renewable Energy System Design

Feasibility, yield analysis, inverter sizing, and grid connection design for utility-scale solar and wind projects.

03

Smart Grid & IoT Monitoring

IoT-based energy monitoring platforms for real-time grid visibility, remote parameter control, and predictive analytics.

04

Energy Storage Integration

BESS design, grid-scale battery sizing, dispatch optimisation, and ancillary service provision.

05

Microgrid Design

Islanded and grid-connected microgrid design with advanced control for seamless mode switching and stable operation.

06

Grid Code Compliance

Technical assessments to ensure DER and renewable plant compliance with national and international grid codes.

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