Bambu P1S vs X1C – Check Which One Is Best & Why?

Why Do I Recommend The Bambu Lab X1C?

• The Bambu Lab X1C comes with LIDAR scanning for automatic first-layer inspection and real-time extrusion accuracy correction, while the Bambu Lab P1S does not include LIDAR scanning.
• Bambu Lab X1C supports spaghetti failure detection to automatically pause prints and reduce wasted filament during failed jobs, whereas the Bambu Lab P1S lacks spaghetti detection capabilities.
• It features automatic flow calibration to precisely tune extrusion for each filament without manual testing, while the Bambu Lab P1S uses fixed flow settings without auto calibration.
• The Bambu Lab X1C includes a high-resolution color touchscreen for faster on-printer control, job management, and calibration adjustments, compared to the Bambu Lab P1S using a basic monochrome LCD with limited controls.
• Bambu Lab X1C comes with a hardened steel nozzle for long-term printing of abrasive materials like carbon-fiber composites, whereas the Bambu Lab P1S uses a stainless steel nozzle more suited to standard filaments.
• It has a higher maximum heated bed temperature for improved adhesion and stability when printing demanding engineering materials, while the Bambu Lab P1S operates with a lower maximum bed temperature.
• The Bambu Lab X1C includes a higher-resolution, higher-frame-rate chamber camera for clearer real-time print monitoring and failure detection, whereas the Bambu Lab P1S uses a lower-frame-rate camera mainly for basic monitoring.
• Bambu Lab X1C features a more advanced processor and control board to handle complex automation, sensor data, and faster UI responsiveness, while the Bambu Lab P1S uses a simpler control board focused on core printing functions.

Maybe the Bambu Lab P1S can make you comfortable because it’s a little bit cheaper than the Bambu Lab X1C. But you have to compromise all the above-mentioned features. Now the Decision is Yours. I hope it was helpful to choose the right one.

What Common Both Can Do?

• Build volume: Both printers share the same 256 × 256 × 256 mm build volume, allowing identical maximum part sizes. This makes project scalability and print planning consistent between the two models.
• Enclosed chamber: Both models feature a fully enclosed build chamber, helping maintain stable internal temperatures. This is important for reducing warping and improving print quality with materials like ABS and ASA.
• CoreXY motion system: Both printers use a CoreXY kinematic design for the motion system. This enables high-speed movement with improved accuracy and reduced moving mass.
• Maximum print speed: Each printer supports print speeds up to 500 mm/s. This allows users to complete large or complex prints significantly faster than traditional desktop printers.
• Maximum acceleration: Both models support up to 20,000 mm/s² acceleration. High acceleration improves print efficiency without sacrificing dimensional accuracy.
• All-metal hotend: Both printers use an all-metal hotend capable of handling high temperatures. This expands material compatibility and ensures durability during long print sessions.
• Direct drive extruder: Each model features a direct drive extruder for precise filament control. This improves extrusion accuracy, especially with flexible and specialty filaments.
• Automatic bed leveling: Both printers include automatic bed leveling systems. This reduces manual setup time and improves first-layer consistency.
• AMS compatibility: Both the Bambu Lab X1C and P1S support the Automatic Material System. This enables multi-color and multi-material printing with seamless filament switching.
• Multi-material support: Both printers can print with multiple filament types when paired with AMS. This allows more complex prints with different colors or materials in a single job.
• Heated bed: Each printer includes a heated build plate. A heated bed improves adhesion and reduces print failures, especially with engineering-grade materials.
• Wi-Fi connectivity: Both models support Wi-Fi for wireless printing and monitoring. This enables remote control and easier printer management.
• LAN printing: Both printers support local network printing. This ensures reliable connectivity even without cloud-based services.
• Bambu Studio support: Both models are fully compatible with Bambu Studio slicer software. This provides identical slicing features and optimization tools for both printers.
• Bambu Handy app support: Each printer works with the Bambu Handy mobile app. This allows users to monitor prints, manage jobs, and receive notifications remotely.
• Firmware ecosystem: Both printers run on Bambu OS firmware. This ensures consistent updates, features, and long-term software support across models.
• Power-loss recovery: Both printers include power-loss recovery functionality. This helps resume prints after unexpected power interruptions, reducing wasted material and time.
• Filament run-out detection: Each model includes filament run-out sensors. This prevents failed prints by pausing the job when filament runs out.
• Input shaping: Both printers support input shaping to reduce vibrations. This improves surface quality at high print speeds.
• Pressure advance: Both models use pressure advance tuning. This improves corner sharpness and extrusion consistency across varying speeds.