Pressure Mapping

Measure interface pressure between two surfaces, utilising a thin and flexible sensor. The resulting data and our analysis tools offer insights to enhance product design, manufacturing, quality and research.

What is a Pressure Mapping System?

Pressure mapping is a unique test & measurement technology and a prime example of a wide-reaching R&D tool. Top-tier companies have successfully used our systems to help solve application challenges, improve product design and more.

An analysis tool that maps interface pressure and provides insight for a better understanding of surface behaviour

  • Provides key metrics including total force, peak pressures and centre of force
  • Clear visual representation of pressure distribution
  • Multiple graph options to plot data
  • Access real-time or recorded data

Components include: Sensors, Data Acquisition Electronics and Software

  • Over 200 standard sensors with different shapes, sizes, resolutions and pressure ranges; custom sensors available
  • High speed and wireless capabilities

Our Pressure Mapping Systems

I-Scan™ Systems

The versatile I-Scan tactile pressure mapping system is tailor-made by choosing from over 200 pressure sensors to meet your specific application requirements.

In-Depth Tire Analysis

The TireScan™ CrossDrive system is a fully integrated solution capable of measuring large tyre footprints at a high resolution using a tactile pressure sensor.

BPMS (Body Pressure)

BPMS™ measures the pressure distribution of the human body on support surfaces like seats, mattresses, cushions, and backrests.

Nip Measurement

Innovative machine design & setup tools to confirm nip uniformity and improve yields. We offer 3 solutions: Fujifilm Prescale™ Film, I-Scan™ and NPAT™.

Grip System

The Grip™ system measures static and dynamic pressures during object grasping, providing valuable insights for product design and manufacturing.

Wiper System

Utilising a tactile pressure sensor, the Wiper™ System measures wiper blade to windshield interface force profiles under various testing conditions.