SwitchDin for 

Microgrids & embedded networks

Simplify microgrid development & operation

with SwitchDin’s vendor-neutral platform

SwitchDin's edge computing technology provides a secure, simple and reliable platform for 'device to control room' management of distributed energy resources (DERs). SwitchDin's technology integrates with most PV inverter & battery storage products, solving inter-device communication hurdles and creating a uniform interface for smart control of microgrids and embedded networks. It also enables virtual control of demand response enabled devices (DREDs) - providing more options for ‘big picture’ microgrid management.

SwitchDin works for both grid-connected and off-grid microgrids.

How it works

Droplets create a common language - no matter the vendor

SwitchDin-powered microgrids start with Droplets, the hardware component of our technology. Droplets may be installed at the site of an individual solar/battery system, or integrated directly into a battery or inverter product. They communicate directly with the devices they manage across a range of protocols and standards, acting as a ‘babel fish’ across different venders and communication protocols.

On its own, a Droplet is an energy management system (EMS) for the site, with smart control profiles for solar self-consumption, off-grid resource optimisation, and tariff arbitrage. Each Droplet-equipped site can operate autonomously, with its own set of capabilities, goals and priorities.

Stormcloud provides the interface for ‘big picture’ microgrid management

Each droplet is a gateway into Stormcloud, SwitchDin's cloud platform. Microgrid developers can use Stormcloud to tap into and control resources on the microgrid, including solar inverters, battery storage systems and DREDs.

Stormcloud provides a single interface for management of microgrid resources via secure communication channels, making microgrid operation simple, low-risk and vendor-agnostic. SwitchDin smart control algorithms help the microgrid operator to balance energy supply & demand within capacity limitations and network constraints.