The tech that
makes energy
on-chain.
Solarc's infrastructure connects physical solar installations to the Solana blockchain through a purpose-built IoT oracle bridge — automatically converting real energy into verified digital tokens.
A four-layer
tech stack.
Solarc's infrastructure connects physical power plants to the Solana blockchain through a purpose-built oracle and smart contract layer, ensuring every watt is accounted for on-chain.
Application Layer
Dashboard · Exchange · Wallet · API
Blockchain Layer
SOLR token · Smart contracts · On-chain settlement
Oracle Bridge Layer
IoT smart meters · Data verification · Minting triggers
Physical Layer
Solar panels · Inverters · Grid connection · Sensors
Every kWh recorded
on-chain.
The Solarc blockchain layer sits between the IoT oracle and the end user's wallet. Every energy event — from generation to token transfer — is recorded immutably on the Solana ledger.
Unlike traditional energy certificates which are issued manually and stored in centralised registries, SOLR tokens are minted automatically and in real time — one token per verified kilowatt-hour, with no human intervention in the minting process.
Immutable ledger
Every token mint, transfer, and trade is permanently recorded. No data can be altered or deleted after confirmation.
Sub-second finality
Solana's 400ms block time means tokens appear in wallets within seconds of energy being generated and verified.
Energy-efficient consensus
Solana's Proof-of-History + Proof-of-Stake uses a fraction of the energy of proof-of-work chains — appropriate for a green energy platform.
Non-custodial by design
Tokens mint directly to the user's own wallet. Solarc never holds, controls, or has access to user assets at any point.
Bridging the physical
and the digital.
The oracle bridge is the critical link between the real world and the blockchain. It solves the fundamental challenge of all energy tokens: how do you prove that a real kilowatt-hour was generated?
Solarc's answer is a purpose-built oracle layer — certified IoT meters that cryptographically sign every energy reading before transmitting it on-chain. The smart contract will only mint tokens for signed, verified, and cross-referenced data.
Solar panel array
Photovoltaic panels generate DC electricity from sunlight. Output varies with irradiance, temperature, and panel angle.
IoT smart meter oracle
Certified smart meters measure AC output after the inverter. Readings are cryptographically signed and transmitted via MQTT every 60 seconds.
On-chain verification
The oracle program on Solana validates the signed meter reading against the registered installation. Tampered or unsigned data is rejected.
Automatic token mint
The mint contract issues exactly one SOLR token per verified kWh. Tokens appear in the installation owner's wallet within one Solana block (~400ms).
Technical Specifications
The Proof-of-Generation
consensus engine.
By combining certified hardware with on-chain cryptographic validation, we eliminate the need for third-party auditing and manual verification cycles. The result is a trustworthy, high-speed ecosystem where energy becomes value in milliseconds.
Explore the
protocol.
The Solarc smart contracts, oracle bridge architecture, and technical documentation are available for review. We welcome technical due diligence from institutional partners and developers.