MEMS gyroscopes deliver compact precision for motion sensing, while fiber optic variants exploit photonic principles for extreme rotational accuracy. Our quantum optic gyroscopes harness quantum interference effects for unprecedented sensitivity in navigation applications.

FluxGate magnetometers provide rugged, high-sensitivity magnetic field detection for geophysical applications. Atomic magnetometers leverage quantum spin states to achieve ultra-sensitive measurements of magnetic phenomena down to femtotesla resolution.

LIDAR technology maps three-dimensional environments through precise time-of-flight measurements of laser pulses. Our systems integrate advanced signal processing algorithms to extract environmental topology and material properties from photonic returns.

Ultra-Low Current Detection

Pico-ampere loggers capture electrical currents at the threshold of measurability, essential for quantum electronics research and single-molecule detection. These instruments achieve noise floors below 10^-15 amperes through advanced shielding and cryogenic operation.

Quantum tunneling current measurement

Single-electron detection capability

Femtoampere resolution logging

Acoustic Sensing Arrays

UPZT-based hydrophones convert underwater acoustic pressure into electrical signals with exceptional sensitivity. Fiber optic hydrophones eliminate electromagnetic interference while distributed acoustic sensing transforms optical fibers into continuous sensing arrays spanning kilometers.

Underwater surveillance systems

Seismic monitoring networks

Marine mammal tracking

AHRS and IMU systems fuse gyroscopic, accelerometric, and magnetometric data through Kalman filtering algorithms. Motion analyzers and autopilot systems provide real-time orientation determination with sub-degree accuracy for autonomous vehicle guidance.

Arbitrary waveform generators synthesize complex electrical signals with precise frequency, amplitude, and phase control. High-voltage pulsers deliver controlled energy bursts for testing electromagnetic compatibility and driving piezoelectric actuators.

Underwater acoustic modems enable data transmission through seawater using optimized modulation schemes. Optical communication systems leverage laser wavelengths for high-bandwidth underwater links, while long-range wireless transceivers operate across multiple frequency bands.

Portable and desktop data acquisition systems capture synchronized measurements across hundreds of channels. High-speed ADCs sample at gigahertz rates while maintaining 24-bit resolution for precise signal reconstruction and analysis.

Fabry-Pérot interferometers measure optical wavelengths with picometer precision for spectroscopic applications. Electro-acoustic and polarization modulators control light properties dynamically, enabling advanced laser measurement techniques and quantum optics experiments.

Sonar projectors generate controlled acoustic fields for bathymetric mapping and target detection. Noise recorders capture ambient underwater soundscapes while acoustic decoys provide countermeasure capabilities for maritime defense applications.

Electronic Analysis Tools

Power quality analyzers diagnose electrical grid disturbances through harmonic analysis and power factor measurement. Frequency response analyzers characterize system transfer functions while impedance analyzers map complex electrical properties across wide frequency ranges.

Energy Harvesting Solutions

Innovative power supplies harvest energy from environmental sources including solar radiation, mechanical vibration, and thermal gradients. Ultra-low power designs enable perpetual operation of remote sensing networks without battery replacement requirements.

High-Power Amplification

Power amplifiers deliver clean energy to drive high-impedance loads including piezoelectric actuators and electromagnetic coils. Class-D switching architectures achieve exceptional efficiency while maintaining signal fidelity for precision control applications.