Revopoint POP4 Hybrid Light Source 3D Scanner Series
The POP4 Hybrid introduces AI-powered realistic dynamic modeling.
It integrates four practical light sources: blue light laser, single-line laser, infrared structured light, and VCSEL dot matrix. This not only completely conquers black and metallic objects without the need for scanning spray but also boasts industrial-grade accuracy of 0.03mm and a 50% faster scanning speed of 105 fps.
From deep holes and blind spots to strong outdoor light, this truly offers an all-domain modeling experience!
▪︎ AI one-click target object identification:
Automatically locks and tracks throughout the scanning process without losing track.
▪︎ AI real-time zero-noise capture:
Real-time background removal, scans with "zero noise" built-in. AI instantly identifies and extracts the target object, automatically filtering out desks, backgrounds, and surrounding noise, eliminating tedious manual background removal in post-processing.
▪︎ Sticker-free freehand scanning:
Blind scanning without hiding fingers. Did you always have to be careful not to scan your hands before? You can directly rotate components with your hand, and AI will automatically recognize and perfectly mask out finger parts, achieving truly blind-spot-free scanning.
▪︎ Color and texture tracking and stitching without stickers:
Directly captures the color and high-resolution texture of the object's surface for precise alignment (aligns by recognizing the object's surface color and pattern). This technology is especially suitable for objects lacking geometric features such as paintings, posters, smooth cultural artifacts, and porcelain; it completely eliminates the need for attaching markers and the hassle of placing auxiliary features.
Most scanners in the tens-of-thousands price range on the market use only a single infrared structured light, which often struggles to capture data for deep black or highly reflective metallic materials due to light absorption or reflection. The POP 4, however, introduces "industrial-grade 30-beam cross blue laser technology" into the consumer market. This advancement gives it a strong advantage when dealing with scenes requiring extremely high detail and strong industrial properties.
With the characteristics of multi-line blue lasers, the POP 4 completely breaks the deadlock. It can perfectly achieve the highest single-frame accuracy of 0.03 mm and possesses extreme volumetric accuracy of 0.03 mm + 0.05 mm × L(m), precisely capturing the volumetric details of complex objects. For highly reflective or black surfaces, it significantly reduces reliance on matte spray, eliminating the need for spraying and the risk of cleaning precision parts afterward, directly providing a smooth experience previously only available with hundreds of thousands of Taiwanese dollars' worth of industrial equipment.
Revolutionary evolution for car and motorcycle modification professionals: Whether it's a freshly removed exhaust pipe, electroplated aluminum wheels, or a black painted car shell, you can scan directly in the garage and perform reverse engineering, eliminating the hassle of spraying and subsequent cleaning, and accurately restoring the most authentic original texture of the object.
When traditional consumer-grade scanners encounter deep holes or narrow slits, multi-line beams often undergo multiple reflections in confined spaces, leading to severe "data interference and noise," resulting in fuzzy edges or blurred contours around holes. This highly challenging "internal diameter scanning" and "deep groove data acquisition" were previously exclusive technologies of industrial scanners costing hundreds of thousands, or even millions, of dollars. Now, the POP 4, through technological diffusion, has developed "single-line laser mode" — concentrating energy along a single laser axis to completely eliminate noise caused by beam scattering, penetrating narrow blind spots with extreme power.
For engineers, this feature solves the most intractable problem in reverse engineering; in the past, to obtain deep data, expensive samples were often forced to be "cut in half" for destructive scanning, or segmented sampling followed by laborious manual stitching. Now, the POP 4 allows you to access complete data from blind holes directly without damaging the object. Whether it's the bolt holes of a precise engine cylinder block or the deep grooves of a complex injection mold, the single-line laser can clearly outline the deep edges and feature points. This not only frees you from the risk of errors from "guessing and filling holes" based on experience but also ensures a 1:1 physical alignment between the reverse-engineered model and the original part.
Most small scanners on the market, to maintain high resolution, often have a very limited single-scan coverage area; when encountering large objects, they have to scan in segments and then manually stitch them, leading to accumulating errors. The POP 4 adopts new infrared full-field structured light technology, allowing it to easily capture human bodies and faces, as well as various distinctive objects, without markers. With an astonishing speed of up to 5 million points per second, even the most subtle details can be rendered with amazing clarity. This means you can obtain highly complete and detailed digital models with extremely rich surface data in a very short time, completely solving the dilemma of balancing efficiency and accuracy that was difficult to achieve in the past.
When you need efficient sampling or face diverse environments, switch to VCSEL infrared structured light mode, and the POP 4 instantly demonstrates excellent environmental tolerance. With a high-speed scanning frame rate of 30 fps, whether it's dynamic human capture or large workpiece acquisition, the process remains smooth and uninterrupted. Even more impressive is its strong light resistance of 100,000 Lux, allowing it to accurately lock features and remain unaffected by ambient light even outdoors.
Equipped with both infrared structured light and VCSEL infrared structured light technology, the POP 4, with its wide field of view and excellent computing performance, can easily capture complex human curves, delicate facial features, and even entire motorcycle bodies without the need for attaching markers. From small 10mm parts to large 2,000mm objects, the POP 4 can complete the scan in minutes, significantly reducing the number of stitches and minimizing cumulative errors. From miniature models to vehicle development, you no longer need to segment and join; one piece of equipment can achieve complete workflow integration.
By deeply integrating full-field infrared structured light mode with VCSEL mode, and activating the new "Hybrid HD Scanning," the POP 4 officially ushers in a new era of portable, efficient scanning that balances speed and accuracy. This technology completely solves the traditional scanner's dilemma of "fast but imprecise, precise but too slow" by projecting extremely high-density infrared dot matrices, maintaining a sampling density of 5 million points/second while achieving pixel-level geometric feature restoration. This leap in productivity allows you to obtain file quality suitable for commercial development and precision mold prototyping within your budget. Compared to similar products on the market that can only achieve 0.1mm, the POP 4 achieves 1:1 native restoration of even microscopic metal scratches, wood carving fibers, and even skin textures, creating digital twins.
Previously, anti-glare capabilities were a selling point only claimed by "industrial laser instruments" costing hundreds of thousands of dollars; ordinary consumer-grade machines would go completely blind in outdoor sunlight. From now on, you don't need to buy industrial-grade equipment to work outdoors! The POP 4 has specially developed a dedicated optical filter, boosting its ambient light resistance to 100,000 Lux. This technological innovation frees creators from being confined to dark studios, allowing them to work directly in the sun, providing everyone with a "full-field pass" for operation.
You might wonder when you'd need to scan in sunlight. In fact, this is very practical for cultural and creative workers or car detailing professionals who need outdoor sampling. You can directly scan car body data in the parking lot sunlight, collect stone carving materials on-site in parks/archaeological sites, and no longer need to set up shading tents for scanning or wait until dusk or late night. The creative scene officially breaks free from geographical and lighting restrictions.
The POP 4 is currently the first consumer-grade scanner to natively support 3DGS (3D Gaussian Splatting) technology. 3DGS technology not only captures geometric shapes but also perfectly captures "light and shadow interactions," allowing you to scan "light" itself, which UV maps cannot render, with 3DGS! Traditional mesh scanning often struggles to effectively compute translucent materials, mirror reflections, and volumetric details such as hair and fabric.
The POP 4 fully integrates 3DGS (3D Gaussian Splatting) technology, not only scanning shapes but also capturing "changes in light" to directly encode the true physical representation of light and material interaction. It completely breaks through the limitations of traditional "UV unwrapping and texture mapping," digitizing visual essences such as gloss and translucency, achieving ultra-realistic next-generation dynamic rendering.
▪ ) Supports direct output of .splat format for seamless integration into workflows
Supports direct export to the standard .splat format, seamlessly integrating into your existing 3DGS dynamic visual and multimedia creation workflows without complicated conversions.
▪ ) Industrial-grade geometric accuracy, completely solving 3DGS spatial distortion issues
Unlike Splatting technology on the market that uses smartphones, often leading to spatial deformation and size distortion, the POP 4 features a high-precision geometric skeleton of 0.03mm. This allows you to have stunning, extremely realistic visual rendering layers of 3DGS while precisely adhering to 3D models with absolutely accurate dimensions. Good-looking, and "absolutely dimensionally accurate" – this is what a professional digital twin should be!
For game developers, VR exhibition designers, or digital media creators, this means that scan results can be directly imported into mainstream game engines or web-based displays without complex post-processing conversions. From the subtle nuances of material color to the natural transitions of ambient light and shadow, the POP 4 can achieve almost 1:1 realistic reproduction. This market-leading reproduction capability, at least one generation ahead, allows you to create more detailed and visually impactful VR scenes or digital twins with fewer resources.
To save costs, most scanners usually have a frame rate of 10-15 fps, and the model will "break" and lose tracking if moved slightly too fast. The POP 4, however, is equipped with an astonishingly powerful processing chip, boosting the point capture rate to 5 million points per second and the frame rate to 105 fps, making your scanning process feel less like "stop-motion animation" and more like smooth video recording.
Most impressively, this extreme computing power perfectly supports "color and texture tracking and stitching" technology — it can instantly identify subtle colors and texture features on the object's surface. Even when scanning objects with fewer geometric features like oil paintings or stone carvings, you no longer need to painstakingly attach markers; the machine can directly piece together accurately using rich color information. This efficient "scan-while-auto-aligning" approach not only eliminates the pain point of stitching delays but also grants unprecedented freedom to the modeling process. It handles objects with fewer geometric features, such as oil paintings and stone carvings, with ease.
Scanners on the market are often jokingly called "cable puppets" because heavy data cables always limit operational flexibility. But the POP 4 is different. With the latest Wi-Fi 6 technology and a featherlight design of only 286g, it completely breaks free from messy cables, achieving a truly "seamless mobile workflow." Whether connecting directly via Wi-Fi (iOS/Android) or USB-C (Android exclusive), it operates smoothly on smartphones with a "truly wireless" design. This means that whether you're circling a car 360 degrees or crouching and climbing to capture sculpture details, you no longer need to carry a heavy laptop or worry about tripping over cables. Professional performance is perfectly condensed into a pocket-sized portable experience.
Even more powerful, the POP 4 deeply integrates the Revo Mirror function, breaking down operational barriers between hardware. It directly transmits high-precision blue laser scan data processed on a PC to your mobile devices such as phones or tablets, and is perfectly compatible with Windows, macOS, iOS, and Android systems. This cross-device connectivity flexibility, combined with the extreme portability of infrared light and the precision of blue light laser, makes the POP 4 not just a scanner, but the most efficient mobile productivity tool on the market capable of tackling challenging angles.
| REVOPOINT POP 4 Product Technical Specifications | |
|---|---|
| Product Name | REVOPOINT POP 4 Multi-Light Full-Scene High-Precision 3D Scanner |
| Weight | 286g |
| Scan Type | Handheld / Turntable |
| Light Source Technology | Blue Multi-Line Laser, Infrared Full-Field Structured Light, VCSEL Structured Light |
| Scannable Object Size | Small to Medium |
| Single Frame Accuracy (Max) | Line Laser Accuracy: 0.03 mm Full-Field Structured Light Accuracy: 0.08 mm VCSEL Structured Light Accuracy: 0.10 mm @ 300-500 mm, 0.20 mm @ 500-800 mm |
| Volumetric Accuracy | 0.03mm + 0.05mm × L(m), where L is the object length (Note: Using multi-line laser mode) |
| Point Cloud Stitching Distance | Up to 0.05mm |
| Working Distance | 200-400mm (Multi-line Laser) 250-500mm (Full-Field HD / Hybrid HD) 300-800mm (VCSEL Mode) |
