We put sensors
where no one
thought you could

We build wireless sensors that work in places wired solutions simply can't go — from deep cryogenic cold to rocket combustion heat, with no battery, no electronics, and nothing to maintain on-site.

IntegSense
800°C
Demonstrated max
operating temperature
>20ft
Wireless range,
no line-of-sight required
0W
On-board power
consumed by sensor tag
1kpsi
Pressure sensing
range demonstrated
ISM Band
915
MHz
Cryo → 800 °C
>20 ft range
No battery · No wires
>1,000 psi
Our Technology

We turned a physics breakthrough into a product

Our sensors convert temperature and pressure into wireless frequency signals — picked up by a nearby reader with nothing at the sensor itself. No battery. No electronics. No wires. Just a small, rugged tag that keeps working where everything else fails.

A resonator at the heart of everything

Packaging designed to survive, not just withstand

We also measure pressure — wirelessly, at UHF

Our software keeps it accurate over time

Applications

We work where the
data has always been out of reach

If you've ever looked at a part of your system and thought "we can't put a sensor there" — that's exactly where we work best.

01
🚀

Aerospace & Space

Propulsion test stands, wind tunnels, launch vehicles, combustion chambers — these are the environments our sensors were built for. Places where routing a wire is physically impossible or adds more risk than it removes.

Propulsion Wind Tunnel Structural Health
02

Power Generation

Gas turbines, steam turbines, nuclear systems. Our sensors survive the temperatures and pressures inside the machine, not just around it — opening up monitoring possibilities that simply don't exist today.

Gas Turbines Steam Turbines Nuclear
03
🛢

Oil, Gas & Geothermal

Downhole environments combine extreme pressure, extreme temperature, and complete inaccessibility. Our sensors can be deployed and left — no battery changes, no maintenance trips, no wires to degrade.

Downhole Pipeline Geothermal
04
🏭

Industrial Process

Steel mills, chemical plants, high-temperature process lines. Our sensors give you real-time data from inside the process — not just at the periphery — so predictive maintenance is actually predictive.

Steel Chemical Process Control
05
🛡

Defense

Hypersonic vehicles, propulsion testbeds, radiation-hardened applications. Our sensors already meet the radiation tolerance requirements for space and nuclear environments — that's not a future claim, it's measured data.

Hypersonic Propulsion Rad-Hard
06
🔬

Research & Test

Test setups that used to take days to wire can now be instrumented in hours. Drop our sensors where you need data, interrogate them wirelessly, and get results without rebuilding your entire test article around your sensors.

National Labs OEM Test R&D
The Team

We've spent decades
on this problem

Our founders bring together the device physics, engineering depth, and commercial experience needed to take this from lab bench to real deployment — and we've done it before.

HM

Dr. Hakhamanesh Mansoorzare

Chief Technology Officer
IntegSense · Ph.D.
RL

Renato L. Pichilingue

Chief Executive Officer
IntegSense · OSU M.S.
MA

Dr. Mehdi Alighanbari

Co-Founder & COO
IntegSense · MIT PhD
Get In Touch

We'd love to hear about your problem

If you have a measurement challenge in a harsh environment, we probably have something to say about it. Whether you want to explore a partnership, run a field evaluation, or just talk through what's possible — reach out. We respond quickly.

Company
IntegSense Inc.
Orlando, Florida
Research Facility
University of Central Florida
Department of Electrical & Computer Engineering
Core IP
US Patent No. 11,162,972
Resonant MEMS Piezoelectric Sensor
Business Incubation
University Incubation Program
Global Tech Accelerator