Vokietija, VFR-Kelnas: Erdvėlaiviai, palydovai ir jų paleidimo raketos

Vokietija, VFR-Kelnas: Erdvėlaiviai, palydovai ir jų paleidimo raketos

I dalis: Perkančioji organizacija

I.1) Pavadinimas ir adresai:

Oficialus pavadinimas: Deutsches Zentrum für Luft- und Raumfahrt e.V. (DLR)
Adresas: Linder Höhe
Miestas: Köln
Pašto kodas: 51147
Šalis: Vokietija, VFR
Asmuo ryšiams:
El-paštas: Jens.Schreiber@dlr.de
Interneto adresas (-ai):
Pagrindinis adresas: https://www.dlr.de/de

II dalis: Objektas

II.1.1) Pavadinimas:

QYRO PETER CubeSat Platform

II.1.2) Pagrindinis BVPŽ kodas:

34712000 Erdvėlaiviai, palydovai ir jų paleidimo raketos ;

II.1.3) Sutarties tipas:

Prekės

II.1.4) Trumpas aprašymas:

The QYRO project is a joint effort of Robert Bosch GmbH, Q.ANT, Trumpf Photonic Components, Trumpf Laser Berlin, Ferdinand-Braun-Institut, Leibniz-Institut für Höchstfrequenztechnik (FBH), and the German Aerospace Center Galileo Competence Center (DLR-GK). Its purpose is to promote Germany’s role in the space sector by demonstrating the performance of a miniaturised next generation quantum optical gyroscope and therefore pave the way for a commercial use of this new technology for a German company on the promising New Space market.
Therefore, the project shall design and develop a miniaturized, high precision nuclear magnetic resonance (NMR) Gyroscope for the use in the satellites. This quantum-based gyro – QYRO – shall be launched and validated in space against state-of-the-art attitude determination systems for CubeSat missions. For that purpose, DLR’s task in this project is to establish the definition and design of the mission to host the QYRO unit. Followed by supporting the other project partners to manufacture a space qualified version of the ground based QYRO unit.
Additionally, DLR KN with the support from GK, will integrate GALANT phased array antenna for space positioning applications, which additionally will be investigated in a first approximation to make the interference detection function usable in space.
In the framework of QYRO project, it has been agreed that the payload shall be constituted by two QYRO units, GALANT electronics module together with its antenna module, a reference gyroscope and finally a payload computer.
The mission will be launched into a SSO with an apoapsis and periapsis height under 600 km as a CubeSat (called PETER) in order to benefit from the cost-effective standardized components available on the CubeSat market and to demonstrate the quantum optical gyroscope on the very platform the commercial intention aims at. In terms of operations, communications and the payload on-board computer software, the valuable experience of DLR-SC and DLR-RB will contribute to a successful operation of the CubeSat.
The last stage of the project would comprise launching and operating the CubeSat in space to conduct the in-orbit validation test campaign.
Through the statement of work, the Contractor shall be responsible of providing the 16U platform for the FlatSat Model of PETER, support its integration and testing, contribute to the tools for its control and, additionally, providing the payload computer together with the necessary libraries and tools required to implement the payload control software on it. Until the end of phase C with the Critial Design Review (CDR). Further details about the Contractor requirements and responsibilities have been defined in the attached Specification of Services.

II.2) Aprašymas:

II.2.1) Kitas (-i) šio pirkimo BVPŽ kodas (-ai):

34712000 Erdvėlaiviai, palydovai ir jų paleidimo raketos