On 5 September 2025, CAD-based renders shared by @OnLeaks via Android Headlines and reported by 9to5Google show the Galaxy S26 Edge adopting an iPhone 17-like full-width camera module and indicate possible Qi2 magnet placement, with reported dimensions of 158.4 x 75.7 x 5.5mm and a camera bump that reaches 10.8mm.
Key Takeaways
- New renders attributed to @OnLeaks depict a full-width rear camera module with two cameras aligned at the far left.
- The Galaxy S26 Edge is reported to measure 158.4 x 75.7 x 5.5mm, thinner than the S25 Edge on paper.
- The camera bump is listed at 10.8mm, substantially thicker than the device body.
- CAD files used for accessory design reportedly reveal locations for Qi2-compatible magnets.
- There was a brief, now-revised file name claim suggesting the model might be called S26 Pro, but that naming remains unclear.
Verified Facts
Renders were created for accessory makers from CAD files shared by OnLeaks and posted on Android Headlines, then summarized in a 9to5Google writeup on 5 September 2025. The visual files show a single, wide camera housing crossing the top width of the rear panel, with two visible camera lenses positioned at the left edge of that housing.
Reported physical measurements for the device are 158.4 x 75.7 x 5.5mm. Those figures suggest Samsung aims for a notably thinner chassis compared with previous models. The same source lists the camera protrusion at 10.8mm, which makes the visible bump nearly as deep as the handset’s thin body.
| Specification | Reported Value |
|---|---|
| Overall dimensions | 158.4 x 75.7 x 5.5 mm |
| Camera bump depth | 10.8 mm |
Multiple references in the CAD files used for accessory creation appear to identify magnet locations, which accessory makers include so cases align correctly. Reporters interpret those markers as evidence Samsung may add Qi2-compatible magnets to the S26 series.
Context & Impact
A shift to a full-width camera module changes the visual identity of Samsung’s flagship line and narrows the aesthetic gap with recent iPhone designs. For consumers, the design may feel more familiar to iPhone users while signaling Samsung’s continued willingness to revise its flagship look.
From a product engineering standpoint, the combination of a thinner body and a deep camera bump points to tradeoffs between battery capacity, internal component layout, and camera hardware. Earlier leaks have suggested battery improvements for the S26 Edge despite the thinner chassis; how Samsung balances those elements will matter for real-world battery life.
If Qi2 magnets are included, Samsung would be aligning with a growing ecosystem of standardized magnetic wireless charging and accessory attachments, potentially improving compatibility with third-party chargers and mounts.
- Accessories: Case makers will need to match magnet placements and the wider camera housing.
- Repairability: A large camera module can affect rear panel and component access strategies.
- Market perception: A design echoing the iPhone may influence buyer comparisons ahead of launch.
Samsung has not issued a public statement confirming the renders, the measured specifications, or Qi2 magnet inclusion as of 5 September 2025.
Samsung (no public comment)
Unconfirmed
- The model name change implied by file names suggesting ‘S26 Pro’ was briefly visible but later removed; the final naming scheme remains unverified.
- Qi2 magnet presence is inferred from accessory CAD markers rather than an explicit hardware listing from Samsung.
- Battery size improvements mentioned in earlier leaks are reported elsewhere and are not directly confirmed by these renders.
Bottom Line
The latest CAD-based renders point to a notable visual redesign for the Galaxy S26 Edge, with measurements that promise a very thin body counterbalanced by a large camera bump. Evidence from accessory files hints at Qi2 magnet support, but official confirmation and final naming remain pending. Expect further leaks and an official Samsung announcement to clarify dimensions, battery capacity, magnet standards, and the final product name.