Space Inventor 16U Hyperspectral
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State of the art report 2024

16U Hyperspectral 200mm

Space Inventor’s 16U satellite equipped with a cutting-edge hyperspectral 200mm telescope made for unlocking unparalleled capabilities, empowering groundbreaking scientific and environmental missions.

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GEO
Optical
EO
16U

Mission example

  • Precision Agriculture Monitoring for Optimal Crop Management
  • Environmental Hazard Detection, Including Oil Spills and Chemical Leaks
  • Stellar Spectroscopy for Detailed Star Analysis 16U CubeSat Configuration for Compact Form Factor
  • Hyperspectral 200mm Telescope Enables Broad Wavelength Range Imaging

MSRP From

€1.100.000

Specifications

Description

Space Inventor’s 16U satellite equipped with a cutting-edge hyperspectral 200mm telescope made for unlocking unparalleled capabilities, empowering groundbreaking scientific and environmental missions.

From precise astronomy insights to game-changing environmental monitoring, its advanced imaging prowess revolutionizes research.

This satellite is poised to redefine what’s possible in space-based observation, offering a competitive edge for research institutions and environmental agencies alike

Features

Fully redundant avionics bus
High speed data downlink
Onboard Processing for Real-Time Data Analysis
Safe decommissioning: Atmosphere disposal protocol

Mechanical drawing

Space Inventor 16U CubeSat Blueprint

Available modules in satellite

Space Inventor Momentum Wheel 1000

Reaction Wheel

Space Inventor presents high-performance reaction wheel units, meticulously designed for microsatellite missions with mission lifetimes of up to 5 years.
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Space Inventor IMU

IMU-P4

Inertial Measurement Unit with integrated gyroscope, accelerometer and magnetometer for satellites. 

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Space Inventor Magnetorquer

Magnetorquer

The MT-P4 magnetorquer rod is an integrated solution designed for momentum dumping of LEO satellites.
View module
Space Inventor Star Tracker

STR-P4

Star Tracker unit for mini- and microsatellites.

The star tracker is based on advanced star-tracking algorithms developed by Space Inventor. The embedded computer processing unit is built on highly reliable COTS components. The compact rad-hard camera’s optics collect enough signal to track across the entire celestial vault with full performance up to 0.3º/s. 
 

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Space Inventor Fine Sun Sensor

Fine Sun Sensor

The highly integrated fine sun sensor uses four photodiodes to estimate the sun direction vector with a precision of 1º.
View module
Space Inventor On-Board Computer

OBC

The OBC-P4 is an onboard computing platform consisting of four independent ARM Cortex-M7 modules, each with separate power supply, interfacing, and storage.
View module

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