Smart rings are rapidly evolving as wearable technology becomes more sophisticated, and Samsung appears poised to make a significant leap forward with its next-generation Galaxy Ring. Recent reports suggest the company is working on incorporating breakthrough battery technology that could address one of the most critical limitations of compact wearables.
The Solid-State Revolution
According to a report from South Korean publication Money Today, Samsung is developing all-solid-state batteries for the Galaxy Ring 2, which is expected to launch in the fourth quarter of 2025. This technology represents a fundamental shift from traditional lithium-ion batteries by replacing liquid electrolytes with solid ones. The innovation could dramatically improve energy density while enhancing safety by eliminating flammable components – a particularly important consideration for a device worn on the finger.
Technical Specifications and Improvements
Samsung Electro-Mechanics, a subsidiary of the tech giant, has reportedly already developed mini solid-state batteries for smartwatches with an energy density of 200Wh/L (Watt-hours per liter). For the Galaxy Ring 2, the company aims to increase this to an impressive 360Wh/L. This substantial improvement could extend battery life well beyond the seven days quoted for the current Galaxy Ring, which features battery capacities ranging from 18 to 23.5 mAh depending on size.
Galaxy Ring 2 Battery Technology
- Technology: All-solid-state batteries
- Current energy density: 200Wh/L
- Target energy density: 360Wh/L
- Expected release: Q4 2025
- Advantages: Higher energy density, faster charging, improved safety
Samsung's Solid-State Battery Roadmap
- Galaxy Ring: Q4 2025
- Galaxy Buds: Q4 2026 (target 400Wh/L)
- Galaxy Watch: Q4 2027
Broader Application in Samsung's Ecosystem
Samsung's ambitions for solid-state battery technology extend beyond just the Galaxy Ring. The company has reportedly filed over 40 patent applications related to oxide-based, solid-state batteries. According to industry insiders, Samsung plans to gradually integrate this technology across its wearable lineup, with Galaxy Buds potentially adopting solid-state batteries by late 2026, followed by Galaxy Watch models in late 2027. This progressive rollout suggests a long-term strategy to revolutionize power management across Samsung's entire wearable ecosystem.
Competitive Advantage
The current Galaxy Ring already offers one significant advantage over competitors like the Oura Ring – the absence of a monthly subscription requirement. However, this benefit is primarily realized by users who are already invested in Samsung's ecosystem with Galaxy phones and Samsung Health. If the Galaxy Ring 2 can deliver substantially improved battery life while maintaining or enhancing its tracking capabilities without subscription fees, it could pose a serious challenge to market leaders.
Production Challenges
Despite the promising technology, analysts warn that manufacturing solid-state batteries remains an expensive proposition. The high cost of materials like lithium sulfide, which is essential for sulfide-based electrolytes in these batteries, far exceeds that of liquid electrolytes used in conventional batteries. This could potentially drive up the price of the Galaxy Ring 2 beyond the approximately USD $370 price point of the original model, potentially limiting its market appeal.
Samsung's Investment in the Future
At CES earlier this year, Jang Deok-hyun, President of Samsung Electro-Mechanics, announced plans to invest in mass production facilities for all-solid-state batteries starting in 2025. The company's roadmap includes increasing energy density to 400Wh/L by late 2026, coinciding with the planned integration of this technology into Galaxy Buds. This significant investment signals Samsung's commitment to advancing battery technology as a cornerstone of its future product strategy.
Market Implications
If Samsung successfully implements solid-state battery technology in the Galaxy Ring 2, it could set a new standard for wearable devices. The combination of extended battery life, enhanced safety, and faster charging could address key consumer pain points with current wearable technology. For competitors like Oura, this would raise the bar considerably, potentially triggering a new wave of innovation in the smart ring market.