In South Korea, shared power banks have become a very popular basic infrastructure in daily life, whether in coffee shops, convenience stores, airport subways, or large shopping malls. As smartphones are high-frequency, essential, and indispensable everyday devices, the need for “charging on the go” has become a necessity.
The reason why shared power banks have a natural compatibility with Web3 is that their usage frequency is high, real and verifiable, and their coverage density is large, fully meeting the requirements of DePIN (Decentralized Physical Infrastructure Network) for “recording real off-chain behaviors on-chain.” This allows the simple action of charging to also become part of the on-chain incentive network.
Piggycell does not start from a cryptocurrency project, but from real business deployment. After years of operation, it has accumulated a vast offline network. Its business foundation is reflected in three key points:
First, the scale of the number of devices.
Portable charging devices and charging stations have formed a coverage in the city, and they really exist when you need them.
Second, the user usage frequency is stable.
The action of charging will not decrease due to changes in the market cycle; the demand remains stable in the long term.
Third, cash flow can be sustainably generated.
Shared power banks themselves can generate rental income, which gives the tokens and rights distribution a real source, rather than just a hollow game.
This is very important: Piggycell is not introducing the concept of “launching a coin first and then finding applications,” but rather incorporating existing businesses into an open network structure to allow more participants to share in the expansion benefits.
1.Charge-to-Earn
Users renting power banks, returning devices, and completing a charging action will all be recorded and can earn tokens or incentives based on their contributions. This means that ordinary consumers themselves are contributors to the network.
2.Dominate-to-Earn (PI)
For deeper participants, such as merchants deploying charging stations or users holding relevant equity NFTs, they can receive profit distribution based on the actual usage of the region or device. In other words:
This is a typical integration of Web2 business + Web3 revenue sharing model.
Piggycell has recently gained popularity in the global Web3 space, mainly due to:
Especially in the DePIN track, whoever can bring “real world resources” on-chain will possess scarcity. The advantage of Piggycell is that it already has real usage, rather than starting from scratch with experiments.
Many DePIN projects, although conceptually innovative, face challenges in implementation, have limited equipment, and are not commonly used, making it difficult for newcomers to truly understand. However, Piggycell is different, its advantages are:
In other words, if you want to start studying DePIN but don’t know where to begin, Piggycell is a very good first learning example.
Piggycell operates a mature shared power bank business in the real world, while DePIN provides it with a new model that allows for shared profits from usage, construction, and network growth. This not only enables ordinary users to “participate immediately,” but also allows infrastructure providers to share long-term value.
If Piggycell successfully expands beyond South Korea in the future and replicates its model in more cities and countries, it could become one of the projects with the most practical advantages in the DePIN category.
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