We deliver long-term reliable constellations below 200 km
Just give us your payload and we will do the rest.
NewOrbit's NEO1 bus offers unmatched performance Compared to LEO
3x
900%
5x
50%
Higher Resolution
Reduction in mapping error
Increase in radiometric performance
Faster downlink speed
VERSATILE BUS THAT WILL MAKE ultra low orbits WORK FOR YOU
Specifications
Payload mass: up to 70 kg;
Available payload power: 300 W
Downlink speed: 1.1 Gbit/s
Altitudes: 170 - 250 km
Lifetime: 5-10 years
Based on revolutionary atmosphere-breathing propulsion system
adaptable for a wide variety of missions
Earth Observation
Optical, Multispectral, Infrared & Hyperspectral
Satellite Communication
IoT, 6G, Direct-to-Handheld and Quantum
Radars
Synthetic Aperture Radars (SAR), Radars and LiDAR
Scientific missions
Gradiometers, Radio Occultation, and Polarimeters
We take care of all challenges associated with ULEO
Spacecraft design
Operations
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NewOrbit’s propulsion system provides constant drag compensation at ULEO and allows 5+ years of lifetime.
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We select special materials that don’t react with atomic oxygen and use special shielding methods to protect aOx sensitive parts.
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The increased amount of ions and electrons at ULEO can cause discharge and damage satellite electronics and solar panels, which we resolve using our ion propulsion.
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Atmospheric density fluctuations cause additional torque, which requires a special satellite design and operational attitude control strategy.
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Atmospheric Density can vary greatly due to solar and geomagnetic activity. NewOrbit’s mission design handles the difficulties of variable drag.
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High-drag and frequent thrusting can quickly change orbital parameters. NewOrbit uses a completely novel, advanced control algorithm to maintain your desired orbit.
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Most launch vehicles can only deploy spacecraft in LEO. NewOrbit will manoeuvre your spacecraft to your desired ULEO orbit.
Contact us
Let us know how we can improve your mission.