EVO vHIL is a virtual Hardware-in-the-Loop framework for validating high-voltage EV powertrains, built to reduce dependence on physical benches and accelerate system-level testing.
A full-stack virtual hardware-in-the-loop framework for EV powertrain validation, spanning embedded firmware, Android Automotive, and deterministic fault injection systems.
EVO vHIL was built to explore how much of EV powertrain validation can be shifted into software before physical hardware becomes available. The project combines embedded C/RTOS firmware, Android Automotive OS integration, virtual CAN networking, and deterministic fault injection into a single, closed-loop system-level workflow.
The goal is straightforward: make early-stage validation faster, safer, and more repeatable while keeping the architecture close to production-intent behavior — including dual-pack battery topology, ISO 26262-inspired safety logic, and ISO 15118 DC fast charging handshake sequences.
EVO vHIL is developed and maintained by Vishal Bagade. For hardware build logs, contact information, and other engineering projects, visit the primary portfolio.
View Portfolio ↗This repository publishes architecture-level documentation and system intent. Implementation details, control logic, and hardware-specific tuning remain intentionally undisclosed.