Bambu Lab PF002-A Mini 3D Printer User Guide

June 1, 2024
Bambu Lab

Bambu Lab A1 with AMS lite
Quick StartBambu Lab PF002 A Mini 3D Printer Please review the entire guide before operating the printer.

  • Safety Notice: Do not connect to power until assembly is complete.

PF002-A Mini 3D Printer

Bambu Studio & Bambu Handy

****https://bambulab.com/download

What’s In The Box

Bambu Lab PF002 A Mini 3D Printer - Box

Accessory Box

Bambu Lab PF002 A Mini 3D Printer - Accessory Box

Install Build Plate

Bambu Lab PF002 A Mini 3D Printer - Build Plate

① Install the build plate with correct orientation, aligning the edge with the heated.

Unlock Heatbed

Bambu Lab PF002 A Mini 3D Printer - Unlock Heatbed

  1. Flip the base housing 90 degree to the side opposite to the screen.
  2. Use Allen Key H2 to remove the 4 highlighted screws at the bottom of the Base Housing to unlock the heatbed (Be careful when fully releasing the heatbed; use foam padding in the package to protect the heatbed from swinging).

Mate Base Housing & Printer Frame

Bambu Lab PF002 A Mini 3D Printer - Printer Frame

  1. Put the Printer Frame on the table as shown above.
  2. Tilt the Base Housing about 45 degree to pass through the Printer Frame. (Use the screen as indicator for orientation)
  3. Align the slot with the Printer Frame as shown in the diagram.
  4. Slowly lower the Base Housing until it is fully flush with the Printer Frame on the table.

Unlock Toolhead

Bambu Lab PF002 A Mini 3D Printer - Unlock Toolhead

  1. Cut the ziptie and cardboard wrapped around the toolhead and X-axis.
  2. Remove the zipties and foam paddings on the printer frame.

Remove Y-Axis Cover

Bambu Lab PF002 A Mini 3D Printer - Axis Cover

  1. Push the heatbed fully to the front end, where the screen is located.
  2.  Open the Y-axis cover.
  3. Pull out the Y-axis cover gently.

Lock Base Housing

Bambu Lab PF002 A Mini 3D Printer - Base Housing

  1. Install 1 O*ST3-23 Screws (For Base Housing) n the holes highlighted in green.
  2. Push the heatbed to the other end.

Lock Base Housing

  1.  Install 2*ST3-23 Screws (For Base Housing) in the holes highlighted n green.

Put Cover Back

Bambu Lab PF002 A Mini 3D Printer - Cover Back

  1. Push the heatbed fully to the front end, where the screen is located.
  2. Gently slide the Y-axis cover back into place.
  3. Make sure to align the clip.

Place On Table

Bambu Lab PF002 A Mini 3D Printer - On Table

① Turn the A1 90 degree onto its rear, laying it on the edge of a table.
(It is recommended to cover the table with cardboard for protection.)
Please make sure the printer is secure on the table while following the steps.

Plug In Cable Box

Bambu Lab PF002 A Mini 3D Printer - Cable Box

  1. Align the 2 clips on the cable box with the holes on the Base Housing.
  2. Slide up the cable box until the Type-C cable clicks in place. (DO NOT force the insert.)
  3. Make sure the cable box is nice and flush in the slot, then screw in the pre-installed screw highlighted in green.

Plug In Connectors

Bambu Lab PF002 A Mini 3D Printer - Plug

① Plug in the 3 harnesses according to color.
② Tuck the harness into the cable slot and then close the cover.

Fold Out Touch Screen

Bambu Lab PF002 A Mini 3D Printer - Touch Screen

① Fold out the touch screen. Make sure the touch screen is in place as shown in the graph.

Install Purge Wiper

Bambu Lab PF002 A Mini 3D Printer - Purge Wiper

① Slide in Purge Wiper unit into the slot at the end of the X-axis.
② Install the 1*M3-12 screw from the accessory box to fix the Purge Wiper in place.
AMS lite AssemblyBambu Lab PF002 A Mini 3D Printer - lite
Assembly

① Put the AMS lite body on the stand (cable on the upward end).
② Secure the AMS lite with the 4*BT3-8 screws (For AMS Stand) from the accessory box.

AMS lite Assembly

Bambu Lab PF002 A Mini 3D Printer - lite Assembly1① Slide the rotary spool holders on (all the way in), being careful to match colors to avoid damaging any parts.
AMS lite AssemblyBambu Lab PF002 A Mini 3D Printer - lite
Assembly2

  1. Put AMS lite to the right side of the A1.
  2. Insert all four PTFE tubes into the toolhead filament hub.
  3. Insert short PTFE tubes into ports 1 and 2.
  4. Insert long PTFE tubes into ports 3 and 4.
  5. Clip the black data cable into the organizer.

(The recommended distance between A1 and AMS lite is 50mm as shown in the diagram.)

Powering On

  1. Plug the AMS lite 4pin connector into the port on the back of the A1 (either one).
  2. Plug in the power cable and turn on the A1 using the power switch on the back. Please leave a safe amount of space for heatbed movement. (as shown in the diagram)

Network Setting

  1. Follow the instructions untill you see this screen. Press “Select Wi-Fi” to search for available network.
  2. Select your preferred network.
  3. Input the passcode, and then press “OK”.

Printer Binding

  1. Download the Bambu Handy App. Register and log in to your Bambu Lab account.
  2. Use Bambu Handy to scan the QR code on the screen, and bind your printer to your Bambu Lab account.
  3. Follow the instructions on the screen to complete the initial calibration. It is normal to have vibration and noise during the calibration process.

Bambu Lab PF002 A Mini 3D Printer - Printer Binding1

Spool Loading

Bambu Lab PF002 A Mini 3D Printer - Spool Loading

① Orient spool installation according to the filament winding direction (as shown in the diagram).

*Warning

  1. The AMS lite supports spools with a width of 40-68 mm and an inner diameter of 53-58 mm.
  2. Avoid using AMS lite to print flexible materials, including TPU, TPE, or absorbent PVA. Avoid using materials that are too hard (too high modulus) or too brittle (not enough toughness), including third-party fiber reinforcement  materials (PA-CF/GF, PET-CF/GF, PLA-CF/GF, etc.). Please use external spool placement to print these filament.

Bambu Lab PF002 A Mini 3D Printer - Spool Loading1Bambu Lab PF002 A Mini 3D Printer - Spool
Loading2

  1. Push the spool all the way onto the spool retractor. Make sure it fully click into place.
  2. Feed the filament into the filament inlet.

External Spool (for non-AMS use case)![Bambu Lab PF002 A Mini 3D Printer

  • Spool Loading3](https://manuals.plus/wp-content/uploads/2024/05/Bambu-Lab- PF002-A-Mini-3D-Printer-Spool-Loading3.png)

    1. Assemble the spool holder.
    2. Connect the toolhead filament inlet (either one of four) and the filament guide with the 600mm PTFE tube as shown in the diagram.
    3. Install the cable organizer as shown in the graph.
    4. Hang filament spool on spool holder then feed the filament line into the PTFE tube as shown in the diagram.

First Print

  1. Press “Print Files” to access the preloaded models on the SD card.
  2. Select the model you want to print.
  3. Turn on “Use AMS” if you are using filaments on AMS.
    Turning on “Bed leveling” is recommended.
    Turn on “Timelapse” for timelapse video recording.

AMS Mapping

Bambu Lab PF002 A Mini 3D Printer - AMS Mapping Note: We recommend using similar colors to match the preset. Otherwise the flush setting might be inaccurate.

Specification

Item Specification
Printing Technology Fused Deposition Modeling
Body Build Volume (W×D×H)
Chassis Steel + Extruded Aluminum

Toolhead

| Hot End| All-Metal
Extruder Gears| Steel
Nozzle| Stainless Steel
Max Hot End Temperature| 300 ℃
Nozzle Diameter (Included)| 0.4 mm
Nozzle Diameter (Optional)| 0.2 mm, 0.6 mm, 0.8 mm
Filament Cutter| Yes
Filament Diameter| 1.75 mm

Heatbed

| Compatible Build Plate| Bambu Textured PEI Plate Bambu Smooth PEI Plate Bambu Cool Plate
Max Build Plate Temperature| 100 ℃

Speed

| Max Speed of Tool Head| 500 mm/s
Max Acceleration of Tool Head| 10000 mm/s²
Max Hot End Flow| 28 mm³/s @ABS (Model: 150150 mm single wall;
Material: Bambu ABS; Temperature: 280 ℃)
Cooling| Pak Cooling Fan| Closed Loop Control
Hot End Fan| Closed Loop Control
Suppoked Filament| PLA, PETG, TPU, PVA| Ideal
ABS, ASA, PC, PA, PET, Carbon/Glass Fiber Reinforced Polymer| Not Recommended
Sensors| Monitoring Camera| Low Rate Camera (up to1080P) Timelapse Suppoked
Filament Run Out Sensor| Yes
Filament Odometry| Yes
Power Loss Recover| Yes
Filament Tangle Sensor| Yes
Physical Dimensions| Dimensions (W×D×H)| 465
410430 mm³
Net Weight| 8.3 kg
Electrical Parameters| Input Voltage| 100-240 VAC, 50/60 Hz
---|---|---
Max Power| 1300W@220V, 350W@110V
Electronics| Display| 3.5 inches 320
240 IPS Touch Screen
Connectivity| Wi-Fi, Bambu-Bus
Storage| Micro SD Card
Control Interface| Touch Screen, APP, PC Application
Motion Controller| Dual-Core Cokex M4
Software|

Slicer

| Bambu Studio
Suppok third poky slicers which expok standard Gcode such as Superslicer, Prusaslicer and Cura, but cekain advanced features may not be Suppoked.
Slicer Suppoked OS| macOS, Windows
Wi-Fi| Frequency Range| 2412 MHz – 2472 MHz (CE)
2412 MHz – 2462 MHz (FCC)
2400 MHz – 2483.5 MHz (SRRC)
Transmitter Power (EIRP)| ≤ 21.5 dBm (FCC)
≤ 20 dBm (CE/SRRC)
Protocol| IEEE 802.11 b/g/n

Bambu Studio Bambu Handy

https://bambulab.com/download Enjoy!
www.bambulab.com

References

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