How does electrical safety system work on ISS?
$begingroup$
Is there any possibility that the power consumption is greater than power supply on ISS? What happens (or potentially would happen) if we plug too many electric devices so that ISS couldn't handle it?
I believe that there is an emergency system which powers life control system when fuses are blown. Would astronauts then have to replace the fuses? If yes, how much time do they have for that?
iss power electronics
$endgroup$
add a comment |
$begingroup$
Is there any possibility that the power consumption is greater than power supply on ISS? What happens (or potentially would happen) if we plug too many electric devices so that ISS couldn't handle it?
I believe that there is an emergency system which powers life control system when fuses are blown. Would astronauts then have to replace the fuses? If yes, how much time do they have for that?
iss power electronics
$endgroup$
2
$begingroup$
Just wondering what country you are residing in -- many countries have switched over almost entirely to resettable breakers rather than fuses for commercial and residential buildings.
$endgroup$
– Carl Witthoft
10 hours ago
$begingroup$
@CarlWitthoft I'm from Poland, and now I'm quite convinced that this happened here too, but I was probably influenced by my experience with car fuses ;)
$endgroup$
– Elgirhath
8 hours ago
$begingroup$
@CarlWitthoft One of those countries is the UK - but I still refer to "fuses" and "the fusebox".
$endgroup$
– Martin Bonner
8 hours ago
add a comment |
$begingroup$
Is there any possibility that the power consumption is greater than power supply on ISS? What happens (or potentially would happen) if we plug too many electric devices so that ISS couldn't handle it?
I believe that there is an emergency system which powers life control system when fuses are blown. Would astronauts then have to replace the fuses? If yes, how much time do they have for that?
iss power electronics
$endgroup$
Is there any possibility that the power consumption is greater than power supply on ISS? What happens (or potentially would happen) if we plug too many electric devices so that ISS couldn't handle it?
I believe that there is an emergency system which powers life control system when fuses are blown. Would astronauts then have to replace the fuses? If yes, how much time do they have for that?
iss power electronics
iss power electronics
asked 14 hours ago
ElgirhathElgirhath
685
685
2
$begingroup$
Just wondering what country you are residing in -- many countries have switched over almost entirely to resettable breakers rather than fuses for commercial and residential buildings.
$endgroup$
– Carl Witthoft
10 hours ago
$begingroup$
@CarlWitthoft I'm from Poland, and now I'm quite convinced that this happened here too, but I was probably influenced by my experience with car fuses ;)
$endgroup$
– Elgirhath
8 hours ago
$begingroup$
@CarlWitthoft One of those countries is the UK - but I still refer to "fuses" and "the fusebox".
$endgroup$
– Martin Bonner
8 hours ago
add a comment |
2
$begingroup$
Just wondering what country you are residing in -- many countries have switched over almost entirely to resettable breakers rather than fuses for commercial and residential buildings.
$endgroup$
– Carl Witthoft
10 hours ago
$begingroup$
@CarlWitthoft I'm from Poland, and now I'm quite convinced that this happened here too, but I was probably influenced by my experience with car fuses ;)
$endgroup$
– Elgirhath
8 hours ago
$begingroup$
@CarlWitthoft One of those countries is the UK - but I still refer to "fuses" and "the fusebox".
$endgroup$
– Martin Bonner
8 hours ago
2
2
$begingroup$
Just wondering what country you are residing in -- many countries have switched over almost entirely to resettable breakers rather than fuses for commercial and residential buildings.
$endgroup$
– Carl Witthoft
10 hours ago
$begingroup$
Just wondering what country you are residing in -- many countries have switched over almost entirely to resettable breakers rather than fuses for commercial and residential buildings.
$endgroup$
– Carl Witthoft
10 hours ago
$begingroup$
@CarlWitthoft I'm from Poland, and now I'm quite convinced that this happened here too, but I was probably influenced by my experience with car fuses ;)
$endgroup$
– Elgirhath
8 hours ago
$begingroup$
@CarlWitthoft I'm from Poland, and now I'm quite convinced that this happened here too, but I was probably influenced by my experience with car fuses ;)
$endgroup$
– Elgirhath
8 hours ago
$begingroup$
@CarlWitthoft One of those countries is the UK - but I still refer to "fuses" and "the fusebox".
$endgroup$
– Martin Bonner
8 hours ago
$begingroup$
@CarlWitthoft One of those countries is the UK - but I still refer to "fuses" and "the fusebox".
$endgroup$
– Martin Bonner
8 hours ago
add a comment |
1 Answer
1
active
oldest
votes
$begingroup$
This answer addresses only the US side of the ISS.
Like everything else on the ISS, it's complicated.
Fuses are not commonly used on the ISS. There are fuses within the battery subassemblies, to protect against internal battery shorts.
The common circuit protection device on the ISS is the Remote Power Controller (RPC), a commandable "smart circuit breaker". An RPC monitors the current passing through it and opens the circuit if the current exceeds a limit for a specified amount of time. The RPC can be commanded to reset once the problem has been resolved. The RPCs are grouped into RPC Modules (RPCMs). If the input voltage to an RPCM drops too low, all the RPCs in the RPCM will open.
If the power usage gets higher than the supplied power can handle (for example, if a solar array is lost), the onboard computers (MDMs) can command a 'load shed'. Using tables preloaded into the software, the MDM(s) controlling the electrical power system will command the RPCs on a set of devices open, powering them off.
If the power loss event is predicted, the flight controllers can most likely do a better job of powering down the station based on the current configuration than the load shed tables would. They would send commands to open the desired RPCs.
I believe that there is an emergency system which powers life control system when fuses are blown.
As stated, fuses are not commonly used, and there is no such emergency system. The ISS already runs off battery power when the solar arrays are not generating power. The load shed tables are built so that critical functions are the last to be turned off.
Acronymology:
- ARCU - American / Russian Conversion Unit
BCDU - Battery Charge / Discharge Unit
BGA - Beta Gimbal Assembly
- DDCU - DC / DC Converter Unit
- ECU - Electrical Control Unit
- IDA - Integrated Distribution Assembly
- IEA - Integrated Electronics Assembly
- MDM - Multiplexer / Demultiplexer (an absolutely awful name for an
onboard computer) - PFCS - Pump / Flow Control System
- PVA - Photovoltaic Array
- PVR - Photovoltaic Radiator
- RPDA - Remote Power Distribution Assembly
- SPDA - Secondary Power Distribution Assembly
- SSU - Sequential Shunt Unit
- Z1 - the name of a centrally located ISS truss unit
Source - personal notes. NASA does not provide a good reference source for the ISS. There is some information in this paper, from which the images are taken.
$endgroup$
add a comment |
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$begingroup$
This answer addresses only the US side of the ISS.
Like everything else on the ISS, it's complicated.
Fuses are not commonly used on the ISS. There are fuses within the battery subassemblies, to protect against internal battery shorts.
The common circuit protection device on the ISS is the Remote Power Controller (RPC), a commandable "smart circuit breaker". An RPC monitors the current passing through it and opens the circuit if the current exceeds a limit for a specified amount of time. The RPC can be commanded to reset once the problem has been resolved. The RPCs are grouped into RPC Modules (RPCMs). If the input voltage to an RPCM drops too low, all the RPCs in the RPCM will open.
If the power usage gets higher than the supplied power can handle (for example, if a solar array is lost), the onboard computers (MDMs) can command a 'load shed'. Using tables preloaded into the software, the MDM(s) controlling the electrical power system will command the RPCs on a set of devices open, powering them off.
If the power loss event is predicted, the flight controllers can most likely do a better job of powering down the station based on the current configuration than the load shed tables would. They would send commands to open the desired RPCs.
I believe that there is an emergency system which powers life control system when fuses are blown.
As stated, fuses are not commonly used, and there is no such emergency system. The ISS already runs off battery power when the solar arrays are not generating power. The load shed tables are built so that critical functions are the last to be turned off.
Acronymology:
- ARCU - American / Russian Conversion Unit
BCDU - Battery Charge / Discharge Unit
BGA - Beta Gimbal Assembly
- DDCU - DC / DC Converter Unit
- ECU - Electrical Control Unit
- IDA - Integrated Distribution Assembly
- IEA - Integrated Electronics Assembly
- MDM - Multiplexer / Demultiplexer (an absolutely awful name for an
onboard computer) - PFCS - Pump / Flow Control System
- PVA - Photovoltaic Array
- PVR - Photovoltaic Radiator
- RPDA - Remote Power Distribution Assembly
- SPDA - Secondary Power Distribution Assembly
- SSU - Sequential Shunt Unit
- Z1 - the name of a centrally located ISS truss unit
Source - personal notes. NASA does not provide a good reference source for the ISS. There is some information in this paper, from which the images are taken.
$endgroup$
add a comment |
$begingroup$
This answer addresses only the US side of the ISS.
Like everything else on the ISS, it's complicated.
Fuses are not commonly used on the ISS. There are fuses within the battery subassemblies, to protect against internal battery shorts.
The common circuit protection device on the ISS is the Remote Power Controller (RPC), a commandable "smart circuit breaker". An RPC monitors the current passing through it and opens the circuit if the current exceeds a limit for a specified amount of time. The RPC can be commanded to reset once the problem has been resolved. The RPCs are grouped into RPC Modules (RPCMs). If the input voltage to an RPCM drops too low, all the RPCs in the RPCM will open.
If the power usage gets higher than the supplied power can handle (for example, if a solar array is lost), the onboard computers (MDMs) can command a 'load shed'. Using tables preloaded into the software, the MDM(s) controlling the electrical power system will command the RPCs on a set of devices open, powering them off.
If the power loss event is predicted, the flight controllers can most likely do a better job of powering down the station based on the current configuration than the load shed tables would. They would send commands to open the desired RPCs.
I believe that there is an emergency system which powers life control system when fuses are blown.
As stated, fuses are not commonly used, and there is no such emergency system. The ISS already runs off battery power when the solar arrays are not generating power. The load shed tables are built so that critical functions are the last to be turned off.
Acronymology:
- ARCU - American / Russian Conversion Unit
BCDU - Battery Charge / Discharge Unit
BGA - Beta Gimbal Assembly
- DDCU - DC / DC Converter Unit
- ECU - Electrical Control Unit
- IDA - Integrated Distribution Assembly
- IEA - Integrated Electronics Assembly
- MDM - Multiplexer / Demultiplexer (an absolutely awful name for an
onboard computer) - PFCS - Pump / Flow Control System
- PVA - Photovoltaic Array
- PVR - Photovoltaic Radiator
- RPDA - Remote Power Distribution Assembly
- SPDA - Secondary Power Distribution Assembly
- SSU - Sequential Shunt Unit
- Z1 - the name of a centrally located ISS truss unit
Source - personal notes. NASA does not provide a good reference source for the ISS. There is some information in this paper, from which the images are taken.
$endgroup$
add a comment |
$begingroup$
This answer addresses only the US side of the ISS.
Like everything else on the ISS, it's complicated.
Fuses are not commonly used on the ISS. There are fuses within the battery subassemblies, to protect against internal battery shorts.
The common circuit protection device on the ISS is the Remote Power Controller (RPC), a commandable "smart circuit breaker". An RPC monitors the current passing through it and opens the circuit if the current exceeds a limit for a specified amount of time. The RPC can be commanded to reset once the problem has been resolved. The RPCs are grouped into RPC Modules (RPCMs). If the input voltage to an RPCM drops too low, all the RPCs in the RPCM will open.
If the power usage gets higher than the supplied power can handle (for example, if a solar array is lost), the onboard computers (MDMs) can command a 'load shed'. Using tables preloaded into the software, the MDM(s) controlling the electrical power system will command the RPCs on a set of devices open, powering them off.
If the power loss event is predicted, the flight controllers can most likely do a better job of powering down the station based on the current configuration than the load shed tables would. They would send commands to open the desired RPCs.
I believe that there is an emergency system which powers life control system when fuses are blown.
As stated, fuses are not commonly used, and there is no such emergency system. The ISS already runs off battery power when the solar arrays are not generating power. The load shed tables are built so that critical functions are the last to be turned off.
Acronymology:
- ARCU - American / Russian Conversion Unit
BCDU - Battery Charge / Discharge Unit
BGA - Beta Gimbal Assembly
- DDCU - DC / DC Converter Unit
- ECU - Electrical Control Unit
- IDA - Integrated Distribution Assembly
- IEA - Integrated Electronics Assembly
- MDM - Multiplexer / Demultiplexer (an absolutely awful name for an
onboard computer) - PFCS - Pump / Flow Control System
- PVA - Photovoltaic Array
- PVR - Photovoltaic Radiator
- RPDA - Remote Power Distribution Assembly
- SPDA - Secondary Power Distribution Assembly
- SSU - Sequential Shunt Unit
- Z1 - the name of a centrally located ISS truss unit
Source - personal notes. NASA does not provide a good reference source for the ISS. There is some information in this paper, from which the images are taken.
$endgroup$
This answer addresses only the US side of the ISS.
Like everything else on the ISS, it's complicated.
Fuses are not commonly used on the ISS. There are fuses within the battery subassemblies, to protect against internal battery shorts.
The common circuit protection device on the ISS is the Remote Power Controller (RPC), a commandable "smart circuit breaker". An RPC monitors the current passing through it and opens the circuit if the current exceeds a limit for a specified amount of time. The RPC can be commanded to reset once the problem has been resolved. The RPCs are grouped into RPC Modules (RPCMs). If the input voltage to an RPCM drops too low, all the RPCs in the RPCM will open.
If the power usage gets higher than the supplied power can handle (for example, if a solar array is lost), the onboard computers (MDMs) can command a 'load shed'. Using tables preloaded into the software, the MDM(s) controlling the electrical power system will command the RPCs on a set of devices open, powering them off.
If the power loss event is predicted, the flight controllers can most likely do a better job of powering down the station based on the current configuration than the load shed tables would. They would send commands to open the desired RPCs.
I believe that there is an emergency system which powers life control system when fuses are blown.
As stated, fuses are not commonly used, and there is no such emergency system. The ISS already runs off battery power when the solar arrays are not generating power. The load shed tables are built so that critical functions are the last to be turned off.
Acronymology:
- ARCU - American / Russian Conversion Unit
BCDU - Battery Charge / Discharge Unit
BGA - Beta Gimbal Assembly
- DDCU - DC / DC Converter Unit
- ECU - Electrical Control Unit
- IDA - Integrated Distribution Assembly
- IEA - Integrated Electronics Assembly
- MDM - Multiplexer / Demultiplexer (an absolutely awful name for an
onboard computer) - PFCS - Pump / Flow Control System
- PVA - Photovoltaic Array
- PVR - Photovoltaic Radiator
- RPDA - Remote Power Distribution Assembly
- SPDA - Secondary Power Distribution Assembly
- SSU - Sequential Shunt Unit
- Z1 - the name of a centrally located ISS truss unit
Source - personal notes. NASA does not provide a good reference source for the ISS. There is some information in this paper, from which the images are taken.
edited 5 hours ago
answered 13 hours ago
Organic MarbleOrganic Marble
59.2k3163254
59.2k3163254
add a comment |
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$begingroup$
Just wondering what country you are residing in -- many countries have switched over almost entirely to resettable breakers rather than fuses for commercial and residential buildings.
$endgroup$
– Carl Witthoft
10 hours ago
$begingroup$
@CarlWitthoft I'm from Poland, and now I'm quite convinced that this happened here too, but I was probably influenced by my experience with car fuses ;)
$endgroup$
– Elgirhath
8 hours ago
$begingroup$
@CarlWitthoft One of those countries is the UK - but I still refer to "fuses" and "the fusebox".
$endgroup$
– Martin Bonner
8 hours ago