- Partnership Projects
- Core Competitiveness
- How to Apply
- Our Projects
The project aims to increase the availability of COTS GPS receivers by applying additional peripherals on the receiver board which immediately react on upcoming radiation effects (Single event Effects) and reduce the deadlock period. Furthermore, it aims to adapt the interfaces to meet typical small-scale spacecraft requirements.
The development of the following peripherals on the GPS receiver board is carried out within the project:
Deadlocks due to radiation effects that limit their availability are the main problem of COTS GPS receivers. The main challenge of the project is to limit the deadlock. Therefore, the deadlock has to be detected and countered as fast as possible. The development of the fast deadlock detection and fast automatic recovery system is the main challenge of the project.
COTS based GPS receivers for space applications are smaller (size and mass), consuming less power and cost less when compared to existing space GPS receiver systems. They are ideally addressing the small-scale satellite market. Their main disadvantage is the limited availability due to their sensitiveness to radiation effects. This disadvantage has to be compensated by developing special protection electronics. Therefore, the new ARGO-L1 GNSS receiver unit product provides an increased availability when compared to other COTS based GPS receivers for space applications. The achieved availability is > 99.99 %.
The ARGO-L1 GNSS receiver unit is a redundant COTS based GPS receiver unit for space applications. It is of small size and mass (< 1.3 kg) and consumes low power (< 5 W, hot redundant operation, EOL). It provides PVT data with an accuracy of better 10 m (3D rms) and 0.1 m/s (3D rms). Furthermore, it provides a PPS signal for synchronization. It can be operated in hot or cold redundancy. The antennas can be either connected to a dedicated receiver or equipped with a hybrid coupler, so that the signals from both antennas can be utilized by one receiver at the same time. The ARGO is designed to be supplied with an unregulated power bus voltage of 28 V. The data interface is either RS422 or CAN2.0.
The ARGO is a redundant COTS based GPS receiver unit for space applications. It can be either operated in hot or cold redundancy. The COTS based GPS receiver is equipped with additional peripheral electronics to counter radiation effects and to adapt them to typical small spacecraft interfaces. The redundancy is provided via two completely independent receiver and peripheral electronics PCBs in a single housing. The data interface and the antenna coupling are configurable. As data interfaces the customer can select either CAN2.0 or RS422 and antenna coupling can be done between a dedicated receiver/antenna pair or via a hybrid coupler which couples the signals of both antennas to one/both receiver(s) at the same time.
Furthermore, two different housing configurations have been implemented. The two configurations differ only in the attached covers.
The project covers the design, development and qualification of the ARGO-L1 GNSS receiver unit. At the beginning requirements are consolidated in a requirement review. The phase B is concluded with a PDR. Bread-boarding activities are carried out to support the phase B development. During phase C, an EQM is built-up and tested. The results support the development activities of phase C. The phase C and the project is concluded with a CDR.
The project is finished. The EQM of the ARGO-L1 GNSS receiver unit has been successfully qualified.