The H2D’s BirdsEye camera, combined with computer vision algorithms, delivers top-view alignment accuracy up to 0.3mm. This advanced spatial alignment allows users to place the tool path at the right position on the material – truly "what-you-see-is-what-you-get."*
An ultra-accurate vision encoder plate, combined with 5µm resolution optical measurements to track and correct toolhead motion, enables the H2D to achieve consistent and reliable distance-independent 50μm motion accuracy across the entire workspace, one order of magnitude better than its predecessor. (*Vision Encoder sold separately)
Bambu Lab's proprietary PMSM servo architecture establishes an intelligent extrusion governance system. It executes 20kHz Torque/Resistance and position sampling to dynamically modulate electromagnetic torque vectors. Stabilizing extrusion and detecting filament grinding and clogging.
The H2D features an AI-backed nozzle camera with macro lens. This intelligent monitoring system continuously tracks extrusion patterns, immediately detecting material accumulation, filament deviations, and extrusion failures.
Combine flexible and rigid materials in a single print to create impressive interlocking structures and innovative designs beyond traditional manufacturing. Pairing high-performance materials with standard ones further reduces costs and boosts material efficiency by using premium materials only where necessary.
Print with support is no longer a headache. With H2D’s dual-nozzle setup, one nozzle can be reserved for dedicated support material, allowing secured print and perfect support interface.
Dual-nozzle printing reduces purge cycles in multi-color prints. H2D's smart algorithms optimize filament use, maximizing dual-nozzle efficiency to save time and materials.
Leveraging real-time images from the BirdsEye camera, Bambu Suite can automatically arrange your project according to the shape of your material, i.e left over plywood from the previous project. This feature helps you to get the most out of every material.
Operate and monitor laser projects safely without the need for goggles, thanks to our safety windows.
A single tap initiates automated laser focus verification and material measurement, eliminating manual adjustments.
The H2D automatically scans the QR code on your material to load the perfect preset.*
Improve surface quality by directing high-speed air to cool the laser path, ensuring cleaner and more precise results.
Advanced optical height measurement creates a detailed 3D mesh without physical contact, enabling precise laser work on curved surfaces.
With a print volume up to 350mm×320mm×325mm*, creating large-scale projects has never been easier! From laser engraving on sizable objects to printing oversized models, the expanded capacity empowers you to bring even your most ambitious ideas to life.
Equipped with 65°C active chamber heating and a high-temperature hotend reaching up to 350°C, the H2D delivers precise closed-loop temperature control. This advanced system effectively eliminates warping and deformation in high-performance materials, ensuring superior layer bonding and maximizing their full potential.
The H2D’s purpose-built high-flow hotend ensures reliable, high-speed printing at 600mm/s. Designed for consistent performance, it eliminates mid-print flow rate restrictions, enabling uninterrupted high-speed printing regardless of the print size or complexity.*
Prior to each operational cycle, H2D's vision system initiates a comprehensive pre-flight checklist: Chamber Integrity Scan – Detects debris across the entire print surface. Hardware Configuration Audit – Instantly identifies nozzle dimensions and build plate properties. Digital-Physical Alignment – Automatically verifies consistency between detected hardware specifications and active slicer parameters.
Unlike legacy systems with single filament run-out detectors, the H2D features comprehensive material flow monitoring. Throughout the AMS-to-nozzle path, 15 strategic sensors form an intelligent network, continuously tracking five key parameters: feeding velocity, tension, filament tip location, extruder thermal environment, and dynamic extrusion pressure. This establishes an industry-leading filament behavior control system.
| Item | Specification | |
|---|---|---|
| Printing Technology | Fused Deposition Modeling | |
| Body | Build Volume (W*D*H) |
Single Nozzle Printing: 325*320*325 mm³
Dual Nozzle Printing: 300*320*325 mm³
Total Volume for Two Nozzles: 350*320*325 mm³
|
| Chassis & Shell | Aluminum, Steel, Plastic and Glass | |
| Laser Safety Windows | Equipped on Laser Edition, normal H2D can upgrade through Laser Upgrade Kit | |
| Air Assist Pump | Equipped on Laser Edition, normal H2D can upgrade through Laser Upgrade Kit | |
| Physical Dimensions | Physical Dimensions | 492*514*626 mm³ (Package size:620*620*755mm³) |
| Net Weight | 31 kg
(Gross weight:H2D: 38.5 kg; H2D AMS Combo: 42.3 kg;
H2D Laser Full Combo: 46.2 kg)
|
|
| Toolhead | Hotend | All Metal |
| Extruder Gear | Hardened Steel | |
| Nozzle | Hardened Steel | |
| Max Nozzle Temperature | 350 °C | |
| Included Nozzle Diameter | 0.4 mm | |
| Supported Nozzle Diameter | 0.2 mm, 0.4 mm, 0.6 mm, 0.8 mm | |
| Filament Diameter | 1.75 mm | |
| Extruder Motor | Bambu Lab High-precision Permanent Magnet Synchronous Motor | |
