As anticipation builds for Samsung's next-generation flagship, a key hardware detail has moved from rumor to near-certainty. The official appearance of a new, more powerful charger on Samsung's website strongly suggests the upcoming Galaxy S26 Ultra will mark a significant step forward in charging technology for the company's smartphone lineup.
A 60W Charger Appears on Samsung's Official Site
The clearest signal yet of the Galaxy S26 Ultra's charging capabilities emerged not from a leak, but from Samsung itself. A 60W USB-C power adapter, bearing the model number EP-T6010NBEGWW, was recently listed on the company's official website. While the listing generically states it is "designed to seamlessly integrate with your Samsung Galaxy devices," its timing and specifications align perfectly with persistent rumors about the S26 Ultra's charging upgrade. This model represents Samsung's first-ever 60W fast charger, moving beyond the 45W super-fast charging that has been the peak for its phones for several years.
Charger Specification Comparison:
| Feature | New 60W Charger (EP-T6010NBEGWW) | Current 45W Charger |
|---|---|---|
| Max Output | 60W | 45W |
| Charging Standard | USB Power Delivery (PD) 3.1 | USB Power Delivery (PD) 3.0 |
| Status | Listed on Samsung's site (Not for sale) | Shipped with current flagships |
| Notable Tech | Smart IC for reduced standby power | Standard fast charging |
Technical Specifications and Charging Standard Upgrade
The new adapter is not just about higher wattage; it also brings a newer, more efficient charging protocol. The listed 60W charger supports the USB Power Delivery (PD) 3.1 standard. This is an upgrade from the PD 3.0 standard used by the current 45W chargers. The PD 3.1 standard allows for more sophisticated communication between the device and charger, enabling faster and more optimized power delivery, which can lead to improved efficiency and potentially better battery health management over time. The charger also incorporates Smart IC technology, designed to reduce phantom power consumption when the adapter is plugged in but not actively charging a device.
Corroborating Earlier Rumors and Launch Timing
The website listing acts as a powerful corroboration for leaks that have circulated in recent weeks. Earlier this month, a rumor specifically suggested the Galaxy S26 Ultra would ship with a 60W USB-C adapter. The official appearance of such a product makes that rumor highly credible. Furthermore, this development adds weight to more recent speculation about the phone's launch schedule. While some reports had hinted at a delay, the charger's listing supports the possibility of a late January unveiling, as it suggests final accessory specifications are being locked in.
Context and Competitive Landscape
For Samsung enthusiasts, this upgrade has been long-awaited. While competitors have offered wired charging speeds of 80W, 100W, or even higher for some time, Samsung has cautiously held at 45W. The jump to 60W, while not class-leading, represents a meaningful 33% increase in peak charging power. This could significantly reduce the time needed to top up the device's expected 5,000mAh battery. Another rumored upgrade—support for 25W wireless charging—would complement this wired speed boost, offering users fast charging flexibility regardless of their method.
Key Rumored Galaxy S26 Ultra Specs Related to Power:
- Wired Charging: 60W (Up from 45W on S25 Ultra)
- Wireless Charging: 25W (Rumored upgrade)
- Battery Capacity: 5,000mAh (Expected to remain unchanged)
- Efficiency Contributors: Qualcomm Snapdragon 8 Elite Gen 5 chipset, new M14 display material.
Conclusion: A Confirmed Piece of the Puzzle
With the charger now publicly listed by Samsung, the faster charging capability for the Galaxy S26 Ultra is all but confirmed. It stands as one of the few tangible hardware upgrades rumored for the device, alongside the expected Qualcomm Snapdragon 8 Elite Gen 5 chipset and a new M14 display material. For potential buyers, this signals a phone that will not only process tasks quicker but also spend less time tethered to an outlet, addressing a key aspect of modern smartphone usability.