Software-Defined Radio REIMAGINED
Reducing SWaP+C (Size, Weight and Power plus Cost) is the driving force for innovation in Software-Defined Radio systems.
DATA CONVERSION is the most critical function of modern software-defined radio systems defining the quality and quantity of information into and out of digital processors.
DIGITAL DATA CONVERSION is a fundamental breakthrough in digital processing of analog signals that has enabled our state-of-the-art SoC (System-on-Chip) embedded in our Software-Defined Radio systems offering the lowest SWaP+C solutions for the most demanding missions.
DIGITAL DATA CONVERSION
DIGITAL DATA CONVERSION is a radical new approach to high-performance analog-to-digital conversion (ADC) where radio-frequency (RF) analog signals are directly converted from the voltage domain to the time domain in a voltage-to-time conversion (VTC) step. The time-domain signal is then converted to the digital domain in a time-to-digital conversion (TDC) step using parallel digital processors employing self-calibrating AI-inspired machine-learning algorithms. The end result is RF-to-digital data conversion with unprecedented speed, efficiency, and scalability.