The flexibility you need for Resilient Positioning, Navigation, and Timing solutions
We offer standard products, configurable products, and product platforms that can be adapted and integrated.
Our Ultisense TNF-Primus is an extremely accurate and reliable autonomous True North Finding module based on advanced Hemispherical Resonator Gyro technology. It delivers azimuth, elevation and bank angles even in magnetically disturbed environments without need for GNSS. Coupled to a Laser range-finding module, it is the ideal solution for far target location.
Combat proven, the Sigma 95 inertial and hybridized navigation system family ensures the required performance and accuracy for the most advanced military fighters, combat helicopters, UAVs and tactical aircraft.
Versatile, Epsilon™ is a land platform inertial navigation unit, providing advanced applications, even in GNSS denied environment: navigation (position & heading), aiming aid, driving aid. It covers all tactical applications from logistic to Infantry fighting vehicles, as well as main battle tank.
The MMAC™ is an atomic frequency reference offering a fantastic trade-off between compactness, consumption and overvall frequency stability performances. With a size of 40 x 35 x 22 mm for a consumption of less than 0.3 W, the micro-clock creates a real technological breakthrough among oscillators in this category. It is a reliable reference and very high quality suitable for harsh environments where it is necessary to overcome a GNSS synchronization (eg long-term underwater missions).
SGTM10/20 is the generic ultra-low power Timing module of Syrlinks using a low power EWOS10/20 OCXO. This SGTM delivers a PPS, a Sine 50ohm and a HCMOS output with a standard frequency of 10 or 20MHz. Its core low aging performance and low power consumption makes it ideal for all applications with drastic precision timing constraints under GNSS denied area. The module consumes less than 100 mW at 25°C and shows a thermal sensitivity less than ±100ppb across the full temperature range (ordering Code B). A specific firmware brings its thermal sensitivity to ±2ppb (on demand)
SGTM16-UW is the least consuming precision clock module of Syrlinks. It uses a 50mW 16.384 EWOS and the SGTM16 can be used as a PPS time keeper in all highly battery-constraint underwater systems.
SGTM10HP is a low aging Timing module delivering a PPS, sine 50Ω or HCMOS output with a standard frequency of 10 MHz. Its core low aging and low power consumption makes it ideal for all applications with drastic precision timing constraints under GNSS denied area. The module consumes less than 550 mW at 25°C and shows a thermal sensitivity less than 15ppb across the full temperature range. A specific firmware brings its thermal sensitivity to ±1ppb (typ.) on demand.
The SGTM16HP-UW is a high performance timing module for underwater systems. It can be used as a PPS time keeping source and maintains incredible performance even in GNSS-denied environments.
EWOS5500 provides a unprecedent trade-off between global performances and high reliability for large volume space applications. It can be delivered in several thousand units at low price, providing a simultaneously very high frequency stability, accuracy and very low power consumption. It can be used for GNSS, OBC, ranging or Radio functions withint Mini & Microsatellites operating in Low Earth Orbits. its ASIC core has been tested against radiations up to 100 krad, and this OCXO is robust against shocks & vibrations. Will be flight proven in 2018.
EWOS10/20 is the least power consuming OCXO within Syrlinks products range. Widely used in aeronautic, defense or general industry applications, is shows a record low power consumption of 75 mW at 25°C. Powered with 5V, it is available in standard frequencies at 10 or 20 MHz with an operating temperatures up to 70°C or 85°C. Its high compactness and low power makes it ideal for high compacity battery powered systems requiring precision timing. EWOS10/20 can be disciplined thanks to its tuning pin and is highly resistant to shocks and vibrations.