Aerospace Electronics Design Consulting
A new #space #economy is emerging, the number of #satellites in orbit expected to reach 49,000 by 2029, and it could reach $2.7 trillion by #2050.
These #satellites will need #radiation_qualified designs and #suitable #electronic #components to carry out their missions successfully.
Electrical, electronic, and electro-mechanical (#EEE) components and materials for #spacecraft must meet specific criteria, and satellite #circuit #designs have numerous challenges to overcome.
#Electronic #design in satellites must consider
▪︎#high-energy ionizing radiation #environments
▪︎extreme #temperatures
▪︎power consumption
▪︎size restrictions
▪︎#vibration #tolerance
#Electronics #engineers know that designing circuits for #aerospace applications is more complicated than doing so for standard electronics.
A successful electrical design approach for the space industry requires specific #PCB layout techniques. These techniques are focused on creating especially robust products. The most stringent standards that engineers must consider include:
▪︎Vibration tolerances
▪︎Extreme temperature variations
▪︎Vacuum of space considerations
▪︎#Space collision with micro particle considerations
▪︎#UV #radiation
▪︎#Ionizing radiation
Some of the key design standards for aerospace electronics include:
#AS_91000 #Standard
#ECSS_Q_ST_70_10C
#MIL_STD_55110
#MIL_PRF_31032
#IPC_NADCAP_DoD, European Space Agency (#ESA): Space agencies that monitor and audit suppliers to ensure compliance with PCB standards.
@PCBTIPs
@designingPCB
www.pcbtips.ir
Learning Everywhere Everyday!😜
A new #space #economy is emerging, the number of #satellites in orbit expected to reach 49,000 by 2029, and it could reach $2.7 trillion by #2050.
These #satellites will need #radiation_qualified designs and #suitable #electronic #components to carry out their missions successfully.
Electrical, electronic, and electro-mechanical (#EEE) components and materials for #spacecraft must meet specific criteria, and satellite #circuit #designs have numerous challenges to overcome.
#Electronic #design in satellites must consider
▪︎#high-energy ionizing radiation #environments
▪︎extreme #temperatures
▪︎power consumption
▪︎size restrictions
▪︎#vibration #tolerance
#Electronics #engineers know that designing circuits for #aerospace applications is more complicated than doing so for standard electronics.
A successful electrical design approach for the space industry requires specific #PCB layout techniques. These techniques are focused on creating especially robust products. The most stringent standards that engineers must consider include:
▪︎Vibration tolerances
▪︎Extreme temperature variations
▪︎Vacuum of space considerations
▪︎#Space collision with micro particle considerations
▪︎#UV #radiation
▪︎#Ionizing radiation
Some of the key design standards for aerospace electronics include:
#AS_91000 #Standard
#ECSS_Q_ST_70_10C
#MIL_STD_55110
#MIL_PRF_31032
#IPC_NADCAP_DoD, European Space Agency (#ESA): Space agencies that monitor and audit suppliers to ensure compliance with PCB standards.
@PCBTIPs
@designingPCB
www.pcbtips.ir
Learning Everywhere Everyday!😜