A multifunctional controller merges certain functions of an onboard computer (OBC) and a power supply unit (PCDU) of a satellite. The controller includes reconfiguration functions for monitoring the correct functioning of components of an onboard computer of the satellite and for switching over betw
A multifunctional controller merges certain functions of an onboard computer (OBC) and a power supply unit (PCDU) of a satellite. The controller includes reconfiguration functions for monitoring the correct functioning of components of an onboard computer of the satellite and for switching over between redundant components and/or turning off electrical loads of the satellite in the event of a malfunction. The controller also includes control functions for controlling and distributing energy to satellite components, which is designed for turning on and off the power supply to satellite components together with the reconfiguration unit.
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1. A multifunctional controller for a satellite, comprising: reconfiguration hardware operable to reconfigure components of an onboard computer, and to shutdown electrical loads of the satellite, including redundant central processing units of an on-board computer of the satellite, in an event of a
1. A multifunctional controller for a satellite, comprising: reconfiguration hardware operable to reconfigure components of an onboard computer, and to shutdown electrical loads of the satellite, including redundant central processing units of an on-board computer of the satellite, in an event of a malfunction; andpower control hardware operable to control distribution of energy to satellitecomponents, including controlling an electrical power supply and power electronics of the electrical power supply that distribute electrical energy to one or more power supply busses,wherein a single chip, comprised of the reconfiguration hardware together with the power control hardware, is arranged separate from the redundant central processing units of the on-board computer, andwherein the single chip is configured to cyclically receive commands as data packets from a corresponding one of the redundant central processing units via a single respective data bus. 2. The multifunctional controller according to claim 1, wherein the reconfiguration hardware is configured to enable power resets or soft reset commands to be performed for reconfiguring components of the onboard computer and to be issued to the corresponding components. 3. The multifunctional controller according to claim 1, further comprising: an input configured to trigger the reconfiguration hardware upon receiving corresponding commands. 4. The multifunctional controller according to claim 1, further comprising: an input configured to provide signals from the onboard computer, which are monitored by the multifunctional controller and the multifunctional controller is configured so that when a missing monitoring signal is detected a reconfiguration of the corresponding components of the onboard computer is implemented. 5. The multifunctional controller according to claim 1, further comprising: an input configured to receive commands from decoder modules for hardware reconfiguration of the onboard computer, emergency shutdown of electrical loads of the satellite, or electrical switchovers. 6. A device for commanding a satellite and controlling its energy supply, the device comprising: an on-board computer comprising redundant central processing units and configured to control satellite equipment, store data, decode tele-commands, generate telemetry data, and control an internal power supply;a power control and distribution unit, which includes input lines from a solar panel, input/output lines to a battery, a power control and distribution unit power electronics system configured to distribute electrical energy to one or more supply buses, and power control and distribution unit circuit-breakers configured to turn off/on electrical loads of the satellite at one of the supply buses; andtwo redundant multifunctional controllers, each of which is a single chip separate from the redundant central processing units of the on-board computer, and each of which includes: reconfiguration hardware operable to monitor correct functioning of components of the onboard computer of the satellite, to switch-over between redundant components in the event of a malfunction, to reconfigure components of the onboard computer in the event of a malfunction, and to shutdown electrical loads of the satellite, including the redundant central processing units of the on-board computer, in an event of a malfunction, andpower control hardware operable to control current distribution to components of the satellite, including controlling an electrical power supply and power electronics of the electrical power supply that distribute electrical energy to one or more supply busses,wherein each single chip is configured to cyclically receive commands as data packets from a corresponding one of the redundant central processing units via a single respective data bus. 7. A satellite, comprising: a transceiver configured to receive radio signals;a solar panel configured to supply electrical energy to electrical loads of the satellite;a battery configured to supply electrical energy to the electrical loads of the satellite; anda device for commanding a satellite and controlling its energy supply, the device comprising: an on-board computer comprising redundant central processing units and configured to control satellite equipment, store data, decode tele-commands, generate telemetry data, and control an internal power supply;a power control and distribution unit, which includes input lines from a solar panel, input/output lines to a battery, a power control and distribution unit power electronics system configured to distribute electrical energy to one or more supply buses, and power control and distribution unit circuit-breakers configured to turn off/on electrical loads of the satellite at one of the supply buses; andtwo redundant multifunctional controllers, each of which is a single chip separate from the redundant central processing units of the on-board computer, and each of which includes: reconfiguration hardware operable to monitor correct functioning of components of the onboard computer of the satellite, to switch-over between redundant components in the event of a malfunction, to reconfigure components of the onboard computer in the event of a malfunction, and to shutdown electrical loads of the satellite, including the redundant central processing units of the on-board computer, in an event of a malfunction, andpower control hardware operable to control current distribution to components of the satellite, including controlling an electrical power supply and power electronics of the electrical power supply that distribute electrical energy to one or more supply busses,wherein each single chip is configured to cyclically receive commands as data packets from a corresponding one of the redundant central processing units via a single respective data bus. 8. The multifunctional controller according to claim 1, wherein the multifunctional controller is integrated in a power control and distribution unit. 9. The multifunctional controller according to claim 1, wherein the multifunctional controller is arranged in a housing that is separate from a power control and distribution unit and an onboard computer. 10. The device according to claim 6, wherein the multifunctional controller is integrated in the power control and distribution unit. 11. The device according to claim 6, wherein the multifunctional controller is arranged in a housing that is separate from the power control and distribution unit and the onboard computer. 12. The satellite according to claim 7, wherein the multifunctional controller is integrated in the power control and distribution unit. 13. The satellite according to claim 7, wherein the multifunctional controller is arranged in a housing that is separate from the power control and distribution unit and the onboard computer. 14. The device according to claim 6, wherein the reconfiguration hardware is configured to enable power resets or soft reset commands to be performed for reconfiguring components of the onboard computer and to be issued to the corresponding components. 15. The device according to claim 6, wherein each of the two redundant multifunctional controllers comprise: an input configured to trigger the reconfiguration hardware upon receiving corresponding commands. 16. The device according to claim 6, wherein each of the two redundant multifunctional controllers comprise: an input configured to provide signals from the onboard computer, which are monitored by the multifunctional controller and the multifunctional controller is configured so that when a missing monitoring signal is detected a reconfiguration of the corresponding components of the onboard computer is implemented. 17. The satellite according to claim 7, wherein the reconfiguration hardware is configured to enable power resets or soft reset commands to be performed for reconfiguring components of the onboard computer and to be issued to the corresponding components. 18. The satellite according to claim 7, wherein each of the two redundant multifunctional controllers comprise: an input configured to trigger the reconfiguration hardware upon receiving corresponding commands. 19. The satellite according to claim 7, wherein each of the two redundant multifunctional controllers comprise: an input configured to provide signals from the onboard computer, which are monitored by the multifunctional controller and the multifunctional controller is configured so that when a missing monitoring signal is detected a reconfiguration of the corresponding components of the onboard computer is implemented. 20. The multifunctional controller according to claim 1, wherein the data packets contain at least one of tele-commands and power switch commands.
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