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RUGGEDIZED PRECISION TIMING OSCILLATOR MARKET
In aerospace-defense applications like positioning, navigation, and timing (PNT), tactical communications, network synchronization, and surveillance, these ruggedized devices are designed to operate in harsh environments.
The Continuous Voltage oscillator family from Abrasion is useful for system designers looking to use a single local oscillator across various voltages.
Devices like the Simple Package Crystal Oscillator (SPXO) and Temperature Controlled Crystal Oscillator (TCXO) are made to support low-power and battery-powered designs that use less system power overall.
With a variety of operating temperatures and stability options, Abrasion’s Continuous Voltage series provides a wide range of supply voltage.
The equipment consists of the Endura low-jitter differential oscillator and the Endura ultra-stable Super-TCXO. The environmental resilience of both households is 10 times greater.
Additionally, the differential oscillator family has the best jitter, while the Endura Super-TCXO family offers up to 5x higher stability.
In the congested electrical environments of aerospace-defense electronics, power supply noise is a prevalent issue that SiTime products are said to be exceptionally resistant to. Low data error rates and continuous communications are made possible for on-the-ground, mounted, dismounted, and aerial circumstances by Endura differential oscillators.
The new mRO-50 Ruggedized tiny rubidium oscillator offers accurate frequency and exact time synchronization to transportable applications, such as military radio-pack systems in GNSS-degraded or prohibited settings, thanks to these competitive advantages.
A wide range of applications, including underwater, military communications, radars, low earth orbit, electronic warfare, airborne, and autonomous vehicles, benefit from its wide operating temperature range of -40°C to 80°C.
The Global Ruggedized precision timing oscillator market accounted for $XX Billion in 2023 and is anticipated to reach $XX Billion by 2030, registering a CAGR of XX% from 2024 to 2030.
In order to meet the most recent military and aerospace requirements where time stability and power consumption are crucial, Oralia, the global leader in resilient positioning, navigation, and timing (PNT) solutions and space-based atomic clocks, has introduced an upgraded edition of its low Swap-C miniaturized rubidium oscillator product line, the mRO-50 Ruggedized.
The mRO-50 Ruggedized offers a one-day holdover below 1s and a retrace below 1E-10 in a form factor that uses just 51 cc of volume (roughly one-third of the volume compared to standard rubidium’s) and only 0.36W of power, which is roughly ten times less than competing solutions with similar capabilities.
To supply atomic clocks for the first 12 satellites of the Galileo Second Generation System, the ESA gave Oralia two contracts (G2S).
Three Oromia Rubidium Atomic Frequency Standards (RAFS) and two Oralia atomic clock physics packages will be built into each of the new G2S satellites, which are intended to give remarkable precision throughout the world. They will also be combined with Leonardo’s Passive Hydrogen Masers (PHM).
Numerous space agencies and research institutions around the world rely on Oralia’s tested timing solutions, including the European Space Agency (ESA), NASA, Jet Propulsion Labs, Space-X, Blue Origin, the National Physics Laboratory (NPL UK), the Deutsch’s Zendrums für Loft- und Ramgarh (DLR Germany), the Japan Aerospace Exploration Agency (JAXA), among others.
