Empowering Photonics Research with Precision Instrumentation
Precision tools purpose-built for advanced integrated photonics research, enabling innovation in energy-efficient computing, ultra-fast data interconnects, and utility-scale quantum applications
The first step..
The core foundation for optical power monitoring and high-quality data acquisition
Ultra low-noise photodetection
The analog front end features high-sensitivity photodetectors with selectable linear or logarithmic amplification: ideal for precise monitoring or wide dynamic-range measurements.
The result is accurate, low-noise optical-to-electronic signal conversion that feeds directly into the data acquisition system for dependable chip- and wafer-scale characterization.
The most capable data acquisition system in it's class
A multi-channel, truly simultaneous sampling ADC captures all inputs in parallel, with user-defined sample rates up to 100,000 samples per second.
Deep onboard memory supports long measurement windows and uninterrupted data collection, while a high-speed USB link enables fast transfers and automated, repeatable measurement routines.
Connectivity and synchronization
A rear-panel sync port enables tight integration with swept sources for spectral analysis and is compatible with all major tunable lasers on the market. The device is powered through a standard DC supply for stable operation, while a USB-C interface provides a modern, universal, and driver-friendly connection, far simpler than legacy setups.
Software support
A responsive, cross-platform user interface supports real-time power monitoring and spectrum analysis with popular tunable lasers.
Along with fully documented Python API for complete control and automated measurement routines.
