Elegoo Neptune 4 Plus vs OrangeStorm Giga
Technical comparison · Fused filament fabrication (FFF/FDM)
Elegoo Neptune 4 Plus and OrangeStorm Giga are not direct competitors: very different prices (~9×). Elegoo Neptune 4 Plus costs less (~€350) and is the entry-level choice; OrangeStorm Giga offers more capability at a higher price (~€3150). Judge them by budget, not head-to-head.
| Parameter |
Elegoo Neptune 4 Plus
Elegoo
F2 · Intermediate
|
OrangeStorm Giga
Elegoo
F3 · Advanced
|
|---|---|---|
| Identity | ||
| Launch year | 2023 | 2024 |
| Use tier | F2 — Intermediate | F3 — Advanced |
| Price | ||
| Price (€) | ~300–400 € | ~2800–3500 € |
| Universal specs | ||
| Dimensions (W×D×H) (cm) | 53.3 × 51.7 × 63.8 cm | 122.4 × 120.4 × 142.5 cm |
| Weight (kg) | 14.4 kg | 104 kg |
| Work area (mm) | 320 × 320 mm | 800 × 800 mm |
| Z-axis height (mm) | 385 mm | 1000 mm |
| Power (W) | — | 1530 W |
| Voltage (V) | — | 230 V |
| Maximum speed | 500 mm/s | 300 mm/s |
| Declared precision | 0.1 mm | 0.1 mm |
| Category specs | ||
| XY print surface (mm) | 320 mm | 800 mm |
| Maximum Z height (mm) | 385 mm | 1000 mm |
| Kinematics | cartesian | cartesian |
| Max nozzle temperature (°C) | 300 °C | 300 °C |
| Max bed temperature (°C) | 110 °C | 100 °C |
| Max print speed (mm/s) | 500 mm/s | 300 mm/s |
| Closed chamber | False | False |
| Filament sensor | True | True |
| Auto leveling | mesh | mesh |
| Standard nozzle diameter (mm) | 0.4 mm | 0.6 mm |
| Multi-extruder | False | False |
| Native Klipper | True | True |
| Input shaper | True | True |
| Multicolor printing | False | False |
| Requires external accessory | False | True |
| Maximum colors | 1 | 4 |
| Ecosystem | ||
| Cloud dependency | No | No |
| Software notes | The printer operates with Klipper firmware pre-installed on a 64-bit ARM processor, enabling advanced standard features like input shaping and pressure advance. The user interface is managed via a removable capacitive touchscreen and a dedicated web interface (Fluidd or Mainsail) for remote control and monitoring via Wi-Fi or LAN connection. For file preparation, the machine is compatible with major slicers on the market, including Elegoo Cura (bundled by the manufacturer), UltiMaker Cura, PrusaSlicer, and OrcaSlicer. | The system is powered by Klipper-based firmware, processed by a 64-bit quad-core SoC, enabling speeds up to 300 mm/s. Connectivity is comprehensive, offering USB, Ethernet, and Wi-Fi ports for the remote management of massive G-code files. The user interface is accessible via a generous 10.1-inch capacitive touchscreen, which is detachable from the chassis for comfortable positioning. The machine is best managed using the Elegoo Cura slicer but supports standard STL and OBJ formats, allowing broad workflow flexibility without any dependence on cloud platforms. |
The differences that matter
- Price: Elegoo Neptune 4 Plus 350 € vs OrangeStorm Giga 3150 € — Elegoo Neptune 4 Plus wins (+800%)
- Work area: Elegoo Neptune 4 Plus 320×320 mm vs OrangeStorm Giga 800×800 mm — OrangeStorm Giga wins (+525%)
- Maximum Z height: Elegoo Neptune 4 Plus 385 mm vs OrangeStorm Giga 1000 mm — OrangeStorm Giga wins (+160%)
- Maximum colors: Elegoo Neptune 4 Plus 1 vs OrangeStorm Giga 4 — OrangeStorm Giga wins (+300%)
- Max print speed: Elegoo Neptune 4 Plus 500 mm/s vs OrangeStorm Giga 300 mm/s — Elegoo Neptune 4 Plus wins (+67%)
Which one to choose
Choose Elegoo Neptune 4 Plus if…
you value price, max print speed and max bed temperature. «The rated maximum speed indicates the theoretical hardware limit, not the everyday working speed. Faster machines reduce print times on simple geometries, but real-world speed depends on material, geometry, required surface finish, and slicer settings. Values above 200–300 mm/s are meaningful only on machines with CoreXY kinematics, active input shaping, and a stiffened mechanical frame.»
Choose OrangeStorm Giga if…
you value work area, maximum z height and maximum colors. It is the one with the largest build area in its class. «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.»
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