Pedal
Pedals are foot-operator levers located beneath the steering wheel that are used by the driver to control the movement of the vehicle, causing it to go faster, slow down or stop. There are different types of pedals: Accelerator, brake and sometimes clutch pedals.
Interplex can customize various parts of the pedals—from the pad, to the arm and the hinge, to deliver quality pedal solutions for your end application. Our global footprint ensures that no matter where you are, we can provide these customized application solutions close to you.

Pedal Solutions
Interplex is skilled in producing parts associated with accelerator and brake pedal sub-systems. From pedal hinges to pedal pads, our fully integrated molding capabilities enable us to provide customized solutions to top-tier automotive companies according to their end applications.
We are 100% dedicated to delivering high quality, reliable plastic molded products to our valued customers. All stages of the molding process— from computer-aided design through tool-making and production to assembly— are controlled in-house.
- Accelerator Pedal Hinge
- Accelerator Pedal Pad
- Brake Pedal Arm
Accelerator Pedal Hinge
Supports accelerator pedal and allows rotational movement about its axis.
Resources
Accelerator Pedal Pad
Provides sufficient surface area for driver to get a good grip on the pedal, to ensure smooth and controlled acceleration of vehicle.
Resources
Brake Pedal Arm
Translates linear motion of brake pedal pad to rotational movement in braking system.
Resources

Press-Fit
Interplex’s Press-Fit technology establishes solderless electro-mechanical connections with plated-through holes on printed circuit boards. These repeatable and reliable connection joints perform well even in harsh environments, and can manifest in a myriad of forms such as connector headers and customized overmolded electronic enclosures.
Extending across a multitude of industries, possible end applications include power distribution, actuator controls, automotive body control modules, solar panels, watches, passenger comfort and infotainment switches, airbag ECU safety solutions, and much more.
Interplex offers a wide spectrum of options: Choose from different materials, plating options, and even designs. From the low force eye-of-the-needle available in various sizes, to the hybrid MiniPLX perfect for high density signal and power applications, and even customizable options for dual-ended/SMT/IDC integrated Press-Fits.
- 0.64mm Press-Fit Pin
- Interplex Corporate Brochure
- Automotive Press-Fit Solderless Interconnects
- Press-Fit Technology
- Solderless Press-Fit Terminals for Automotive Applications
- Contact Resistance Analysis for Press-Fit Applications
- Determining PTH Integrity with Cross-Section Analysis
- Evaluation Checklist for Press-Fit Applications
- Mechanical Force Analysis for Press-Fit Applications
- PCB Hole Construction and Material Requirements for use with Press-Fit Technologies
- Press-Fit Current Carrying Capacity – Part 1 Application Requirements
- Press-Fit Current Carrying Capacity – Part 2 Current Testing & Results
- Press-Fit Current Carrying Capacity – Part 3 Design Considerations for Power Modules
- Supplier Best-Practices for Getting Results with Press-Fit Technology – Part 1 Design, Testing & Documentation
- Supplier Best-Practices for Getting Results with Press-Fit Technology – Part 2 Global Production Standards, Materials, Tooling and Process Controls
- Upgrading Product Designs From Solderjoints to Press-Fit – Why, When and How
- Adapting Press-Fit Connection Technology for Electronic Modules in Harsh Environments
- 1.5mm Press-Fit Pin
- Interplex Corporate Brochure
- Automotive Press-Fit Solderless Interconnects
- Press-Fit Technology
- Solderless Press-Fit Terminals for Automotive Applications
- Contact Resistance Analysis for Press-Fit Applications
- Determining PTH Integrity with Cross-Section Analysis
- Evaluation Checklist for Press-Fit Applications
- Mechanical Force Analysis for Press-Fit Applications
- PCB Hole Construction and Material Requirements for use with Press-Fit Technologies
- Press-Fit Current Carrying Capacity – Part 1 Application Requirements
- Press-Fit Current Carrying Capacity – Part 2 Current Testing & Results
- Press-Fit Current Carrying Capacity – Part 3 Design Considerations for Power Modules
- Supplier Best-Practices for Getting Results with Press-Fit Technology – Part 1 Design, Testing & Documentation
- Supplier Best-Practices for Getting Results with Press-Fit Technology – Part 2 Global Production Standards, Materials, Tooling and Process Controls
- Upgrading Product Designs From Solderjoints to Press-Fit – Why, When and How
- Adapting Press-Fit Connection Technology for Electronic Modules in Harsh Environments
0.64mm Press-Fit Pin
Establishes solderless electro-mechanical connection to PCB within sensor connector integrated in pedal unit, which transmits information related to pedal position for various functions in hybrid cars such as braking and start-stop functions, to name a few.
Resources
1.5mm Press-Fit Pin
Establishes solderless electro-mechanical connection to PCB within sensor connector integrated in pedal unit, which transmits information related to pedal position for various functions in hybrid cars such as braking and start-stop functions, to name a few.