Digital Timing, Redefined

Legacy Clocking Can’t Keep Up

Today’s AI, 5G, and automotive systems demand real-time, high-speed coordination, something traditional analog clocks were never designed for. Crystal-based clocks introduce drift, latency, and power inefficiencies, holding back the pace of innovation.

Why Timing Matters More Than Ever

Modern systems are moving faster, connecting deeper, and growing more complex. But the clocks driving them haven’t kept up, until now.

  • Rising Demand

    AI infrastructure, 5G base stations, and autonomous vehicles now require timing precision at multi-gigahertz speeds across highly distributed, data-intensive environments

  • The Analog Limit

    Legacy analog timing solutions were never designed for this scale. They drift, consume power, and require bulky, multi-chip designs that slow innovation.

  • Our Advantage

    We replace the analog chain with a single, programmable digital timing platform. With femtosecond jitter, thermal resilience, and CMOS scalability, we deliver what legacy clocks can’t.

Learn How Our Technology Works

The Timing Breakthrough

Digital Always Wins. CMOS Always Leads.

Mixed-Signal Devices redefines timing with a fully digital, CMOS-based architecture that outperforms legacy analog clock chains. At the core is a patented digital synthesis engine, blending DAC innovation, bulk acoustic wave stability, and integrated control logic.

Jitter performance as low as 19 femtoseconds

Programmability across frequencies and protocols

Ultra-compact size with low power draw

Thermal stability across extreme environments

Faster

0

GHz

Clocking for AI, 5G & radar at multi-gigahertz speeds

Cleaner

0

fs jitter

Ultra-low jitter ensures signal clarity

Stronger

-0

to

+0°C

Precision timing across extreme temperature swings

Built for What's Next

AI Infrastructure

Timing for GPU fabrics, accelerators, and high-speed interconnects.

5G Base Stations

Low-jitter timing across radios, fronthaul, and edge computing.

Automotive Systems

Clocking for radar, ADAS, and real-time vehicle systems.

Defense & Aerospace

Rugged, programmable, and secure for mission-critical timing

High-Speed Timing Without Limits

Experience precision, stability, and scalability with digitally engineered oscillators and jitter attenuators.

Crystal Oscillators (XO)

Precision clocking
up to 2 GHz

Voltage-Controlled Crystal Oscillators (VCXO)

Voltage-tunable timing
for synchronization

Temperature-Compensated Crystal Oscillators (TCXO)

Thermal stability across
extreme environments

Jitter Attenuators (JA)

Ultra-clean timing for optical
and networking

All powered by our proprietary CMOS digital synthesis engine.

Explore our products here

Why Mixed-Signal Devices?

Achieving the Holy Grail of Digital Timing.

We’ve done what legacy suppliers couldn’t: eliminate the limitations of analog timing. Our multi-gigahertz platform delivers compact size, exceptional stability, low power consumption, and CMOS scalability while pushing performance a decade ahead of traditional solutions.

Whether you’re building the next generation of AI, autonomous systems, or wireless infrastructure, our technology synchronizes the future.