Typhoon HIL is a technology and market leader in ultra-high fidelity Hardware in the Loop (HIL) solutions for design, testing, and validation of power electronics, microgrids, e-Mobility, EV powertrain software testing, and distribution control and protection systems. Typhoon HIL platform ushered a new era of model-based testing and validation of control software and hardware with its embedded, ultra-high fidelity real-time Hardware in the Loop (HIL) platform. The core technology is based on proprietary numerical algorithms, ultra-low latency application-specific processors, and optimized software architecture. Our HIL systems are widely used by engineers in microgrids, solar PV inverters, wind turbine converters, battery storage, marine power systems, motor drives, automotive, and traction industries to speed up time to market, reduce the cost of testing, and improve quality and reliability. | Typhoon HIL is proud to be the technology and market leader in ultra-high fidelity Hardware-in-the-Loop (HIL) solutions for design, testing, verifying and validation of power electronics, energy storage systems and microgrids, e-Mobility, and distribution control and protection systems. We partner closely with our customers to provide personalized approaches to address their biggest validation and testing challenges—helping them achieve optimum safety and performance in the most efficient way. As our company grows, we remain committed to maintaining the exceptional service and tailored approach that companies have come to count on. Explore our solutions for BESS, microgrids, residential energy, distribution automation, digital substation testing, and marine power systems and integrate your new technologies with confidence. | Typhoon HIL solutions are based on ultra-high-fidelity controller-Hardware-in-the-Loop simulation for testing control for power electronics, microgrids, distribution networks, and e-Mobility. We provide industry-proven, vertically integrated test solutions and automation tools. Our Expo focus is on solutions for development and testing of Battery Management Systems, Electric Vehicle Powertrains, and On-Board Chargers. | Typhoon HIL solutions are based on ultra-high-fidelity Controller Hardware-in-the-Loop (HIL) simulation for testing control for power electronics, microgrids, distribution networks, and e-Mobility. We provide industry-proven, vertically integrated test solutions and automation tools. Our Expo focus is on solutions for development and testing of Battery Management Systems, Electric Vehicle Powertrains, e-Drive, and On-Board Chargers.
Molecule Systems
Molecule Systems provides the execution infrastructure required to turn distributed energy resources (DERs) into reliable, grid-ready assets. As DERs scale rapidly across the grid, utilities are discovering that participation alone does not equal performance. Traditional Virtual Power Plants (VPPs have largely focused on enrollment, scheduling, and market access—issuing signals and hoping assets respond. That approach works for participation, but it breaks down when reliability, verification, and operational trust become the bar. Molecule was built to address the missing layer: deterministic, on-site execution. Molecule is an edge-based Infrastructure-as-a-Service platform that operates behind the meter, where devices physically live and where control can actually be enforced. Rather than acting as a centralized scheduler in the cloud, Molecule functions as the local execution environment that translates grid intent into real, verifiable behavior across batteries, EV chargers, solar, and other flexible loads. This distinction matters. Cloud-based VPP platforms and aggregators can coordinate schedules, but they rely on APIs, OEM logic, and best-effort connectivity for execution. Molecule embeds directly at the site or gateway level, enabling real-time orchestration, fallback logic, and device-level authority even under stressed grid conditions. The result is predictable response, five-minute telemetry, and performance verification during events—not hours later. Think of the difference as the gap between planning and operations. Many VPPs act as planners, deciding what should happen. Molecule acts as the on-site operator, ensuring it actually does happen. Molecule’s platform is designed as long-lived infrastructure, not fixed-function software. Utilities invest over 15–20 year horizons, while markets, programs, and operating requirements change far faster. Molecule’s execution layer is continuously updatable, allowing utilities and partners to adapt dispatch logic, orchestration strategies, and control policies over time without stranding physical assets. For utilities, Molecule enables DERs to behave less like probabilistic resources and more like dispatchable infrastructure—supporting higher control maturity, reduced operational risk, and confidence in real-world performance. For OEMs, Molecule provides a way to make hardware grid-ready without building and maintaining complex control software in-house. For investors, Molecule represents the foundational execution layer that the distributed grid has been missing—turning intelligence and forecasts into measurable, reliable outcomes. Molecule’s mission is simple: close the execution gap so VPPs can earn the same operational trust as traditional grid resources.
DLMS User Association
The DLMS User Association is a not-for-profit organization dedicated to standardizing data models and formats for telecommunication-agnostic data exchange in energy and water sectors. DLMS UA develops and maintains the DLMS specifications – a globally recognized suite that defines the DLMS/COSEM data model, format and application layer, enabling secure and interoperable data exchange across energy and water metering and management systems. DLMS/COSEM is the only standardized, interoperable, evolutive, legally relevant data model, used in over 300 milion devices worldwide and supported by a robust certification program.