Depinsim — a decentralized telecom infrastructure that combines eSIM technology, blockchain, and the data economy. The project allows users to earn rewards for using the network, exchange mined data for the stable asset PIN or eSIM packages, and spend them on daily payments. Built on the Free Mobile Internet Protocol (FMIP) standard, Depinsim creates an ecosystem where mobile connectivity itself becomes an asset. With $8 million in funding, the team plans to scale the protocol, expand partnerships, and launch a data marketplace as part of the DePIN sector.
Depinsim establishes a new category of digital infrastructure — “mobile internet as an economy.” In this model, each user is not merely a consumer of connectivity but a participant in its creation. The project is gradually forming a global network where every eSIM profile functions as a digital node. This opens opportunities for collaboration between telecom providers, Web3 companies, and end users.
- Depinsim and its concept
- FMIP architecture and technological layers
- Depinsim ecosystem products
- Data economy and reward model
- Funding, use cases, and risks

Depinsim and its concept
Depinsim positions itself as a first step toward building a decentralized mobile infrastructure where every user becomes part of the network. Traditional telecom operators centralize access and profits, while Depinsim transfers these functions into the Web3 space, allowing users to earn simply by being connected.
The main idea is to transform internet traffic and mobile data into a new type of digital asset. Each participant activates a virtual “miner” in the app and receives Mined Data, which can be exchanged for the PIN token or used to pay for eSIM packages. This model removes the barriers between connectivity, identity, and payments, turning network access into economic value.
The project integrates with the BNB Chain, ensuring scalability and low fees. Thus, Depinsim builds a new type of infrastructure where every byte of data becomes a part of the decentralized economy. In the long term, the team envisions a network with equal opportunities for all countries and users. Depinsim eliminates barriers in the telecom industry and proves that access to communication can be a source of income, not an expense. Such an approach may reshape how mobile networks are perceived in the future.
FMIP architecture and technological layers
The technological foundation of the project is the Free Mobile Internet Protocol (FMIP), which integrates three functional layers.
The table below illustrates the protocol’s structure and its purpose:
| Layer | Purpose | Result |
|---|---|---|
| Mining Layer | Rewards users for connecting to the network. | Generates Mined Data — digital data assets. |
| Network Layer | Provides global eSIM roaming and internet access without physical SIM cards. | Seamless mobile connectivity anywhere in the world. |
| Value Layer | Converts data into value (PIN or services). | Creates a closed economy — “connect, earn, use.” |
This structure forms a closed value cycle: connection → reward → usage. Each layer reinforces the previous one, creating a sustainable ecosystem. The Mining Layer stimulates user participation, the Network Layer ensures global accessibility, and the Value Layer transforms data into tangible utility.
FMIP also supports integration with other networks and devices, including IoT and enterprise platforms. This allows Depinsim to go beyond traditional telecom and become a foundation for smart contracts and payment solutions. Thanks to its modular design, the protocol can be easily scaled or embedded into existing operator systems. This combination of flexibility and transparency makes FMIP a technological foundation for the next generation of DePIN projects.
Depinsim ecosystem products
To implement its vision of “connectivity as an asset,” Depinsim develops a product suite that forms a complete user-network interaction ecosystem. Each component complements the other, creating a unified environment for managing identity, connectivity, and finances within one app. The project merges traditional telecom functionality with Web3 tools, ensuring seamless user experience. This approach turns a smartphone into a universal node of the decentralized economy.
The Depinsim ecosystem includes several key services that form a single digital space:
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Crypto eSIM — a digital SIM card activated via the app, operating without physical hardware. It provides global internet access and serves as an identity element.
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Mobile DID — a decentralized identity tied to the eSIM. The phone number becomes a cryptographically verified identifier for Web3 logins and transactions.
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Built-in wallet — supports TON, Solana, EVM networks, and Bitcoin, enabling storage, transfers, and conversion of assets, including Mined Data and PIN.
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Crypto Card — a payment card linked to the wallet, allowing users to pay for goods and services directly from their on-chain balance.
These products operate as a single instrument: users access the Web3 world through their own connectivity. The main advantage of Depinsim is its simplicity — no blockchain knowledge is required to earn rewards or make payments. This lowers the entry barrier and turns Web3 into part of everyday mobile use.
Furthermore, DID integration enables new passwordless authentication and KYC verification models via eSIM numbers. Depinsim plans to launch APIs for developers, allowing eSIMs to act as universal Web3 IDs. This ecosystem transforms the phone into a gateway to the entire digital economy — from transactions to access to decentralized applications.
Data economy and reward model
The economic model of Depinsim focuses on creating a self-sustaining value chain where users are both consumers and producers of data.
The main components of this model include:
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Mined Data — units of “mined” data accrued for online activity.
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PIN Token — a stable asset used to exchange Mined Data or pay for eSIM services.
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Task-to-Earn — a task system where users complete marketing or social actions and receive rewards.
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Deflationary mechanisms — token burning, supply limits, and data expiration to maintain value balance.
With these mechanisms, the project has achieved an internal economy where real service demand (internet, payments, identity) creates natural value for Mined Data. Deflationary controls preserve token stability, while Task-to-Earn drives user engagement: brands post activities, and users complete them to earn access or data. This circular system ensures sustainable participation and economic equilibrium. In the future, the team plans to add staking for the PIN token and a “Data Marketplace,” where users can trade or share their data assets. Such adaptability supports liquidity and long-term user retention, turning simple connectivity into a multi-layered economic ecosystem.
Funding, use cases, and risks
In October 2025, Depinsim announced $8 million in strategic funding to accelerate growth and expand globally. Investors see the project as a major player in the DePIN sector — decentralized physical infrastructure networks powered by blockchain.
Key use cases include global eSIM roaming, private enterprise networks, IoT integration, and a data marketplace where users can sell or lease connectivity. However, the team faces challenges such as regulatory compliance: eSIM technologies and user data storage are tightly controlled in many countries. There is also a risk of reward inflation and declining yield if user growth outpaces real data demand.
Despite these challenges, Depinsim remains one of the few projects redefining mobile connectivity and building a new interaction model between humans and networks. If successfully scaled, it could become a benchmark for decentralized mobile ecosystems. Moreover, attracting capital from technology funds increases trust and opens opportunities for collaboration with major telecoms. By aligning with international standards and ensuring transparency, Depinsim strengthens its position for long-term success.





