Elegoo Centauri Carbon vs Original Prusa XL 2-toolhead 3D Printer
Technical comparison · Fused filament fabrication (FFF/FDM)
Elegoo Centauri Carbon and Original Prusa XL 2-toolhead 3D Printer are not direct competitors: very different prices (~8×). Elegoo Centauri Carbon costs less (~€375) and is the entry-level choice; Original Prusa XL 2-toolhead 3D Printer offers more capability at a higher price (~€2999). Judge them by budget, not head-to-head.
| Parameter |
Elegoo Centauri Carbon
Elegoo
F2 · Intermediate
|
Original Prusa XL 2-toolhead 3D Printer
Prusa Research
F2 · Intermediate
|
|---|---|---|
| Identity | ||
| Launch year | 2025 | 2023 |
| Use tier | F2 — Intermediate | F2 — Intermediate |
| Price | ||
| Price (€) | ~300–450 € | 2999 € |
| Universal specs | ||
| Dimensions (W×D×H) (cm) | 39.8 × 40.4 × 49 cm | 70 × 90 × 72 cm |
| Weight (kg) | 17.5 kg | — |
| Work area (mm) | 256 × 256 mm | 360 × 360 mm |
| Z-axis height (mm) | 256 mm | 360 mm |
| Power (W) | 1100 W | — |
| Voltage (V) | — | 230 V |
| Maximum speed | 500 mm/s | — |
| Declared precision | 0.1 ±mm | 0.2 mm |
| Category specs | ||
| XY print surface (mm) | 256 mm | 360 mm |
| Maximum Z height (mm) | 256 mm | 360 mm |
| Kinematics | corexy | corexy |
| Max nozzle temperature (°C) | 320 °C | 290 °C |
| Max bed temperature (°C) | 110 °C | 120 °C |
| Max print speed (mm/s) | 500 mm/s | — |
| Closed chamber | True | False |
| Filament sensor | True | True |
| Auto leveling | mesh | mesh |
| Standard nozzle diameter (mm) | 0.4 mm | 0.4 mm |
| Multi-extruder | False | True |
| Native Klipper | — | False |
| Input shaper | True | True |
| Multicolor printing | True | True |
| Requires external accessory | True | False |
| Maximum colors | 4 | 5 |
| Ecosystem | ||
| Cloud dependency | No | No |
| Software notes | This printer is natively supported by Elegoo Slicer, a slicing software based on Orca Slicer that provides users with pre-configured, carefully optimized profiles designed to maximize both part detail and overall printing speed. Additionally, the machine's operating system is fully compatible with the most popular and community-endorsed third-party slicing software, such as Orca Slicer and Ultimaker Cura. The versatile onboard connectivity options include standard USB ports and a reliable dual-band Wi-Fi module (operating at 2.4 GHz and 5 GHz). This infrastructure enables effortless remote monitoring and comprehensive control of the printing process via its network interface and the built-in chamber camera, greatly streamlining daily workflow management. | Compatible with PrusaSlicer (open-source), PrusaConnect, and any host supporting serial/Ethernet connectivity such as OctoPrint and Pronterface. Firmware is based on open Marlin, with no proprietary cloud lock-in. The ESP Wi-Fi module is optional and can be physically removed for sensitive environments. |
The differences that matter
- Price: Elegoo Centauri Carbon 375 € vs Original Prusa XL 2-toolhead 3D Printer 2999 € — Elegoo Centauri Carbon wins (+700%)
- Work area: Elegoo Centauri Carbon 256×256 mm vs Original Prusa XL 2-toolhead 3D Printer 360×360 mm — Original Prusa XL 2-toolhead 3D Printer wins (+98%)
- Closed chamber: Elegoo Centauri Carbon yes, Original Prusa XL 2-toolhead 3D Printer no
- Maximum Z height: Elegoo Centauri Carbon 256 mm vs Original Prusa XL 2-toolhead 3D Printer 360 mm — Original Prusa XL 2-toolhead 3D Printer wins (+41%)
- Multi-extruder: Original Prusa XL 2-toolhead 3D Printer yes, Elegoo Centauri Carbon no
Which one to choose
Choose Elegoo Centauri Carbon if…
you value price, closed chamber and max nozzle temperature. «A closed chamber reduces thermal gradients around the part being built, limiting warping and cracking caused by rapid cooling in high-shrinkage materials such as ABS, ASA, and PC. It also shields the mechanism from drafts and airborne particles. A closed chamber is effectively necessary for technical materials; for PLA and PETG it is an advantage, not a requirement.»
Choose Original Prusa XL 2-toolhead 3D Printer if…
you value work area, maximum z height and multi-extruder. «The Z height determines how tall a part the machine can produce in one print. Vertical objects such as vases, load-bearing structures, or casting patterns require a high Z travel. A lower value does not affect quality but forces the user to split or reorient the model. Z height should be considered alongside the XY surface to assess total usable build volume.»
MakerSpecs is an independent atlas. We don't sell products: this comparison links to both sheets, where you'll find complete data and official links.