Allgemeine Informationen

Veranstaltungsname	Projektplenum: 04-M30-MP-2556 Entwurf, Validierung und Test eines Electrical Power Subsystems (EPS) für CubeSats
Untertitel
Veranstaltungsnummer	04-M30-MP-2556
Semester	SoSe 2026
Aktuelle Anzahl der Teilnehmenden	0
erwartete Teilnehmendenanzahl	4
Heimat-Einrichtung	M.Sc. Space Engineering
Veranstaltungstyp	Projektplenum in der Kategorie Lehre
Art/Form
Englischsprachige Veranstaltung	Nein
ECTS-Punkte	12

Lehrende

Dr.-Ing. Benny Rievers

Tutor/-innen

Räume und Zeiten

Modulzuordnungen

Universität Bremen
- Space Engineering I - Space Engineering I (MPO 2019), 4. Version gültig ab WiSe 2025/2026
  - Project Module
    - 04-PT-MA-M30-MP - Master Project (gültig ab WiSe 2017/2018)
      - Projekt (Master Project)
- Space Engineering II - Space Engineering II (MPO 2021), 5. Version gültig ab WiSe 2025/2026
  - Project Module
    - 04-PT-MA-M30-MP - Master Project (gültig ab WiSe 2017/2018)
      - Projekt (Master Project)
- Space Engineering - Space Engineering (MPO 2025), 2. Version gültig ab SoSe 2026
  - Master Project
    - 04-PT-MA-M30-PM - Master Project (gültig ab WiSe 2025/2026)
      - Projekt (Master Project)

Kommentar/Beschreibung

The Electrical Power Subsystem (EPS) is a core element of CubeSat platforms, responsible for power regulation and distribution. The EPS must handle unregulated DC input from solar panels, provide stable output voltages (3.3 V, 5 V, 12 V), and interface with, e.g., USB-C and PC/104. It must also integrate protection circuits, telemetry, and power management functions.
This project covers the design, implementation, validation and testing of an EPS for CubeSat. The system will convert solar panel input into regulated outputs, implement overcurrent and overvoltage protection, and include Maximum Power Point Tracking (MPPT) for solar array efficiency. Telemetry will include input/output current, voltage, power, cell voltage, and temperature and system health status. The additional design of a simple, first prototype of a compatible battery / power storage subsystem is desired.
Tasks:
- System Requirements and Architecture: Reflect power requirements, select battery technology, and design the EPS architecture.
- Component Selection and Circuit Design: Select solar panels, electrical components (voltage regulators, MPPT controllers, protection components, battery management, …). Design the PCB layout in KiCAD.
- Telemetry Implementation: Develop hardware and firmware for data acquisition/sensor readout and subsystem communication.
- Prototype Assembly and Testing: Build the EPS prototype and validate performance under simulated LEO conditions, including power cycling and fault scenarios.
- Documentation: Provide scientific background, schematics, test reports, and a final report documenting the design process, results, and recommendations.
The outcome of this project will be a functional EPS prototype on a custom PCB and a compatible battery (subsystem).
Experience in the design of electronics / PCBs is mandatory.

Anmeldemodus

Die Auswahl der Teilnehmenden wird nach der Eintragung manuell vorgenommen.

Nutzer/-innen, die sich für diese Veranstaltung eintragen möchten, erhalten nähere Hinweise und können sich dann noch gegen eine Teilnahme entscheiden.

Projektplenum: 04-M30-MP-2556 Entwurf, Validierung und Test eines Electrical Power Subsystems (EPS) für CubeSats - Details