Comparing MIL-STD-810G and DO-160 Testing Standards for Equipment in Environmental Conditions. See free embeddable images http://duotechservices.com/comparing-mil-std-810-and-do-160
Raspberry Pi 5: Challenges and Solutions in Bringing up an OpenGL/Vulkan Driv...
Comparing MIL-STD-810G and DO-160 Testing Standards
1. do-160
Low Pressure (Altitude)
High Temperature
Low Temperature
Temperature Shock
Contamination by Fluids
Solar Radiation (Sunshine)
Rain
Humidity
Fungus
Salt Fog
Sand and Dust
Explosive Atmosphere
Immersion
Acceleration
Vibration
Acoustic Noise
Shock
Pyroshock
Acidic Atmosphere
Gunfire Shock
Temperature, Humidity, Vibration, and Altitude
Icing/Freezing Rain
Ballistic Shock
Vibro-Acoustic/Temperature
Freeze / Thaw
Time Waveform Replication
Rail Impact
Multi-Exciter
Mechanical Vibrations of Shipboard Equipment
Altitude
Temperature
Temperature Variation
Fluids Susceptibility
Humidity
Fungus Resistance
Salt & Fog
Sand & Dust
Explosion Proof
Water Proof
Vibration
Shock & Crash safety
Icing
Magnetic Effect
Power Input
Voltage Spike
Audio Frequency Conducted Susceptibility
Induced Signal Susceptibility
RF Emission and Susceptibility
Lightning Susceptibility
ESD
Flammability
In Common Test Methods
Environmental Conditions and Test
Procedures for Equipment
Published by the
Radio Technical Commission
for Aeronautics (RTCA)
mil-std-810g
Environmental Engineering
considerations and laboratory tests
Published by the
United States
Department of Defense
Comparing MIL-STD-810G and DO-160 Testing
Standards for Equipment in Environmental Conditions
This document outlines a set of
minimal standard environmental
test conditions (categories) and
corresponding test procedures
for airborne equipment.These
tests provide a controlled (lab-
oratory) means of assuring the
performance characteristics of
airborne equipment in envi-
ronmental conditions similar of
those which may be encountered
in airborne operation of the
equipment.
This document emphasizes
tailoring an equipment’s envi-
ronmental design and test limits
to the conditions that it will
experience throughout its service
life, and establishing chamber
test methods that replicate the
effects of environments on the
equipment rather than imitating
the environments themselves.
First Edition
1962
First Edition
1975
Duotechservices.com