Career
Change language
Kendrion contact
Head Office
Kendrion N.V.
Vesta Building - 5th floor
Herikerbergweg 213
1101 CN Amsterdam
The Netherlands
Contact now
change language
close
Locations
Career
Change language
clear field
Kendrion contact
Head Office
Kendrion N.V.
Vesta Building - 5th floor
Herikerbergweg 213
1101 CN Amsterdam
The Netherlands
Contact now
3T: Your partner for electronics & embedded systems

Leading the Way in Advanced Sensing and Analog Interfacing Solutions

Integrating precisemeasurements of diverse physical signals into complex electronic products can be a formidable challenge. For instance, in the semiconductor industry, achieving optimal performance relies on accurately measuring lens element positions and internal temperatures of advanced manufacturing machines. At 3T, we specialize in high-precision (capacitive) sensing, providing sub-micron resolution and temperature measurements accurate to a few millionths of a degree.

Furthermore, we've engineered a precision, battery-powered, fully analog electromagnetic flow meter. This robust device is purpose-built to endure radiation exposure and excels in measuring cooling water flow within nuclear plants.

Analog & mixed signal design is crucial for many applications

Our expertise in Analog & Mixed Signal Design extends into the area of building automation, where we've conceived a compact multi-sensor module for environmental sensing in office spaces. This groundbreaking module seamlessly integrates seven environmental sensors within a ceiling-mounted housing, consuming a mere 0.25 W of power.

To bolster our efforts, we employ LTSpice for design simulation and rely on LabVIEW and Python for test and measurement, analysis, and automation. Embracing innovative design approaches, we employ a model-based design methodology for our latest projects.

Explore Our Projects in Analog and Mixed-Signal Design

Precision capacitive sensing is one of our main measurement competencies.


Over the past two decades, 3T has build-up a strong competence in capacitive sensing. In 2000, we made a portable lens element adjustment kit in a flight case. It is used at the customer's site to adjust a lens element's x and y position over several micro-meters to optimize the total lens optical properties. The system's heart is capacitive sensor electronics delivering high stability after only 15 minutes of warm-up and a resolution of 10ppm (1nm).
Subsequently, a 14-channel version was then designed to be integrated into the machine enabling fully automatic and much faster adjustment.
3T then extended its capacitive sensing knowledge by building a 4-channel high resolution, high bandwidth capacitive distance sensing system for use in a servo system. It kept the original at the correct height within tens of nm during projection.
Another challenging capacitive system we designed for a multi-channel active damping system, where we also designed the power amplifiers for the voice coil actuator.

 

Joost Jansma, 3T Competence Officer

Our Capabilities in Analog & Mixed Signal Design

High-Precision Applications
  •  Combining high speed and high precision in FPGA and microcontroller solutions.

  •  High precision capacitive distance sensing systems achieving sub-nm resolution by measuring capacitance in aF (1 attoFarad = 10-18 F).

  •  Maintaining high precision in the presence of noisy backgrounds like high currents from motor drives.

Low-Power Solutions
  • Low dissipation is required for high precision, high stability measurements.

  • Achieving longer battery life

  • Ensuring higher lifetime accuracy

  • Highly accurate real-time measurements and sensor interfaces, even in the noisy background of power circuits.

Working in a Harsh Environment
  • Sensing microvolts of NTC bridge voltage in the presence of very high magnetic fields.
  • Maintaining high precision over the -40 to +80 C temperature range.
  • Measuring microvolts in an electromagnetic flow meter applied in a nuclear plant.
Contact us!
Sales Team 3T
3T B.V. (HQ)
Institutenweg 1
7521 PH Enschede
The Netherlands
Google maps

Discover more about 3T