Description
DIY Load Cell Handbrake – Key Features
Become the master of Monte Carlo
This handbrake was developed to replicate the ultra-stiff, instant-bite feel of a real rally or drift lever. Engineered to withstand heavy-handed inputs, every component has been stress-tested to ensure zero flex and maximum trail-braking or drift-initiation consistency.
It is also easy to assemble and was designed to be inexpensive; most of the parts are budget friendly and easy to find (see the Bill of Materials).
Drift like a pro
Engineered for brutal efficiency and granular control to help you rotation-hook every hairpin and hold every drift angle.
- Hydraulic Damper Integration: Built-in mounting points for hydraulic/gas dampers to simulate the “viscous” feel of real brake fluid compression.
Linear Precision: Utilizing a dedicated 20kg Load Cell, the handbrake offers a frictionless, butter-smooth stroke for millimetric input accuracy, mapping your physical pressure directly into the sim.
Ergonomics & Customization
Adapt the handbrake to your racing style or cockpit layout in seconds:
- Modular Grip System: Includes 5 different handle designs.
- Universal Compatibility: Built-in adaptors allow you to mount popular aftermarket real-world or sim-racing handles.
- Mechanical adjustments: Fully adjustable lever angle, hardness, and mechanical travel limits to switch between a stiff, short-throw rally bite or a longer, progressive drift pull.
This is our most asked question! Everything you need is listed in the BOM (Bill of Materials). You can find it in two places:
Directly within the BOM section of the product page.
Inside the comprehensive Assembly PDF included with your purchase. It includes exact quantities, dimensions, and even direct sourcing links to save you time.
- You can also find many parts on our DIY Tools page.
No! The Red Cover (“Fixed Part Cover”) is purely optional. It was designed to give the handbrake a “Pro-Racing” look. The handbrake are 100% structurally functional without it. You can choose not to install it for a more “industrial/raw” look or 3D print it in any color to match your rig.
Ease of Assembly: 9/10. If you have basic DIY skills (soldering, using a wrench, and basic 3D printing knowledge), you can build this. The assembly is straightforward thanks to our detailed exploded views and the fact that most parts are “bolt-on.” No complex machining or welding is required.
It depends on your electronics. If you use an Arduino with our recommended sketch, you can use Windows Joystick, DIVIEW or FreeJoy for calibration. If you choose a Leo Bodnar or AliExpress Plug & Play board, they are recognized as standard Windows Game Controllers and can be calibrated directly in-game or via Windows settings.
To calibrate your handbrake, feel free to follow our Youtube guide here.
First of all, we invite you to carefully check your soldering, as well as the installation of the Joystick and HX711 libraries.
Issue: I got an error message when compiling my sketch.
- Use another USB cable (a data transfer cable)
- Change the USB port
- Connect the USB board directly to the PC
- Make sure you have chosen the right PORT and the right Board in the Arduino software (“Tools” menu).
Issue: My load cell pressure is reversed
Edit a line of the Arduino sketch, you need to remove or add the – just before scale
Issue: I have a dead zone when pressing my load cell
Slightly adjust the tightness of the four M4 and M5 lock nuts which support the loadcell.
Issue: There is a lack of responsiveness on my load cell, a slight delay.
The HX711 sensor needs a slight modification; a connection needs to be cut and an image reconnected. Here’s an image to help you:
And a video: https://www.youtube.com/watch?v=0cxS-a837bY
A 20kg Load Cell is ideal. Since these pedals are travel-based, a 20kg sensor offers extreme precision and durability without requiring excessive force.
Standard dimensions:
Depth: 268mm
Height: 313mm
Width: 265mm
3D Printing Constraint: The longest single part measures 203mm. This ensures it fits on most standard 3D printer beds (like an Ender 3, Prusa MK3/MK4, or Bambu Lab).
Depending on your local sourcing for hardware/manufacturing and your choice of electronics, the total cost typically ranges between $75 and $300.
No, the handbrake work perfectly with the included spring and elastomer system. The Hydraulic Damper is an optional upgrade for those seeking a more “viscous” and realistic hydraulic feel.
The handbrake is designed to be compatible with two types of dampers:
Standard Gas Struts: Affordable and effective for consistent resistance.
Adjustable Hydraulic Dampers: For those who want to fine-tune the “viscous” damping effect to their exact preference.
To ensure the longevity of your dampers, please follow these three critical rules:
Perfect Alignment: Ensure the actuator rod is perfectly straight during the stroke. It should not deflect left or right when pressure is applied.
Structural Integrity: The “Hydraulic Damper Support” part must be printed with 100% infill to handle the mechanical load without flexing.
Mechanical Stops: This is the most important step. Your pedal’s physical travel must be limited by the “Fixed Part” stop (the M6x40 spacer) before the hydraulic damper reaches its internal end-of-stroke. Never use the gas damper as a mechanical stop. Forcing the handbrake against a fully compressed damper will lead to immediate failure.
Like most DIY hardware, this set is natively compatible with PC. To use it on a console, you would need a third-party adapter (like a DriveHub) and a compatible interface (like a Leo Bodnar board or Arduino).
Unlike potentiometers, Load Cells have no moving electrical parts that can wear out or get twitchy with dust. They provide a much higher resolution and rely on pressure, which is far more consistent for muscle memory.
You can build the handbrake either from CNC-machined aluminum or from 3D-printed plastic. If you own a 3D printer or a CNC milling machine, this will greatly reduce your manufacturing cost.
Yes! The pack includes a professional PDF documentation with exploded views, a full Bill of Materials (BOM) with purchase links, and technical drawings to ensure a smooth “no-headache” assembly process.
Our design is flexible to fit your budget and technical comfort:
Open Source Path: Use an Arduino Pro Micro + HX711
Plug & Play Path: Use a Leo Bodnar board or a specialized AliExpress Sim Racing controller for a “no-coding-required” setup. Some Aliexpress controllers also include bass shakers.
For maximum durability, we recommend:
Material: PETG, ABS, or Carbon-filled filaments.
Infill: Most parts work well with 20-40% infill (Gyroid pattern). However, for high-stress components (refer to the documentation), we strongly recommend 80% infill.
Wall Count: Use at least 4 to 6 wall loops for extra rigidity.
Yes! The handbrake is designed with universal mounting slots compatible with standard aluminum profiles (40/50 series). Whether you have a Trak Racer, Sim-Lab, or a custom DIY rig, the handbrake will bolt right on.
To ensure perfectly silent hardware, place the rubber washer at the very end of the M8x180 bolt, just before the locking collar.
To ensure a perfect fit with the internal mechanisms, please follow these specifications when sourcing your hardware:
Hydraulic/Gas Damper:
Maximum Outer Diameter: Ø15mm
Maximum Length: 140 mm
Springs:
Minimum Inner Diameter: Ø8mm (to slide freely over the M8 rods).
Elastomers (Brake Rubbers):
Minimum Inner Diameter: Ø8mm
Maximum Outer Diameter: Ø35mm (to fit within the pedal housing/washers).
Springs, DAMPERS and Elastomers
Electronics SHOPPING LIST
- Quantity: 1
- Option: Micro USB
- Note: compatible only with HX711 Loadcell Amplifier
Hardware Screws
Flanging Self-Lubricating Bearing
- Quantity: 6
- Option: 6x10x12-14×2
- Inner Diameter: Ø6mm
- Outer Diameter: Ø10mm
- Width: min 12mm, max 15mm
Flanging Self-Lubricating Bearing
- Quantity: 6
- Option: 6x10x15-16x2mm
- Inner Diameter: Ø6mm
- Outer Diameter: Ø10mm
- Width: min 12mm, max 15mm
Customization Products
Tools SHOPPING LIST
Find what you need in the DIY Tools section.
Cost estimate of the DIY LOAD CELL HANDBRAKE
Most of the pieces are listed in the Bill of Materials tab. You can save money with the included 3D Printed .STL Parts:
- Axis M8 Female Rodend
- M6x40 Spacers
- Drill Bit Stop Collar for Pedal
| Pieces | Quantity | Cost |
|---|---|---|
| Screws (bolts, washers, nuts...) | $5.00 | |
| M8 Female Rod End | 3 | $4.83 (3D Printed STL alternative are included) |
| Axis Bearings | 6 | $3.78 |
| Spacers | 3 | $5 (3D Printed STL alternative are included) |
| Arduino Pro Micro + HX711 | 3 | $7.53 |
| Load Cell USB Control Box (alternative of Arduino Pro Micro) | $30 | |
| Load Cell (120kg + 20kg + 20kg) | 3 | $12 |
| Hydraulic Damper (Optional) | 2 | $15 |
| Springs | 3 | $7.56 |
| CNC Parts (if you don't own a CNC Machine) | $200 - $300 | |
| 3D Printing (if you own a 3D printer) | $10 | |
| DIY Sim Studio CAD Plans | $10 - $20 (Depending on the offer/sale/bundle) | |
| TOTAL | Min: $50 - Average: $150 - Max: $300 |




























































































































Reviews
There are no reviews yet