While many electronics are designed to withstand up to 176 degrees Fahrenheit, the recommended temperature limit is 95 degrees Fahrenheit. Consistent high temperatures can lead to permanent damage to your device. Some devices will power themselves down to avoid this risk..
What is the operating temperature of consumer electronics?
Commercial / domestic: 0\xb.
C to 85\xb
C.
Industrial: -40\xb.
C
to 100\xb.
C.
Automotive: −40\xb.
C
to 125\xb.
C
What is the operating temperature of electronics?
The acceptable operating temperature for most electrical devices is 40 \xb.
C (104 \xb
F) or greater, and excessive cooling wastes energy, unnecessarily increases costs, adds to the maintenance burden, and can actually pose operational threats
What is the operating temperature range for electrical equipment?
Manufacturer's Specifications for Electrical Equipment Despite the capability to manufacture electrical equipment that can withstand high temperatures, the maximum recommended temperature for equipment is generally between 40 \xbaC and 50 \xbaC (105 \xbaF to 122 \xbaF)..
What is the temperature limit for electronics?
Conventional electronic components are designed to operate over a specified temperature range with upper limits generally set at 70\xb.
C for commercial applications, 85\xb
C for industrial applications, and 125\xb
C for military applications
What is the temperature range of consumer electronic?
Comm (Commercial)
0 to +70
Hi-Temp Comm (Hi-Temperature Commercial)
-10 to +100
Extended Comm (Extended Commercial)
-20 to +85
Ind (Industrial)
-40 to +85
.
What temperatures are safe for electronics?
While many electronics are designed to withstand up to 176 degrees Fahrenheit, the recommended temperature limit is 95 degrees Fahrenheit. Consistent high temperatures can lead to permanent damage to your device..
Commercial: 0 \xb0 to 70 \xb.
C.
Industrial: −40 \xb0 to 85 \xb.
C.
Military: −55 \xb0 to 125 \xb.
C
Manufacturer's Specifications for Electrical Equipment Despite the capability to manufacture electrical equipment that can withstand high temperatures, the maximum recommended temperature for equipment is generally between 40 \xbaC and 50 \xbaC (105 \xbaF to 122 \xbaF).
While many electronics are designed to withstand up to 176 degrees Fahrenheit, the recommended temperature limit is 95 degrees Fahrenheit. Consistent high temperatures can lead to permanent damage to your device.
Conventional electronic components are designed to operate over a specified temperature range with upper limits generally set at 70°C for commercial applications, 85°C for industrial applications, and 125°C for military applications.
For commercial temperature range electronics, the operating temperature range is usually 0 degrees C to 70 degrees C.
I can give you an answer because I had been one of those who either wrote or verified the specs of semiconductor ICs.
Legally and ethically speaki...68
I once designed an amplifier that would oscillate at -10°C. I fixed it by changing the design to add more phase margin. In this case, the oscillati...Best answer · 54
Other than maybe batteries and maybe the LCD components generally don't get damaged directly, even by extreme cold temperatures. If temperatures ar...20
The basic problem is that the density of the "free" charge carriers in semiconductors is a strong function of temperature. When the temperature dro...14
The temperature limit associated with an actual IC has more to do with thermal expansion/retraction than things like melting.
An IC is made up of...9
Other problems at such low temperatures are for example that LCDs are freezing and have a really slow reaction.
And the more important point for m...5
Few reasons:
in many cases - you can use components below minimum temperature, just don't expect that parameters will be same as specified in data...4
Silicon in particular is reliant on thermal excitation of its dopants to act as a semiconductor, making the nature of its semiconductor properties...2
Resistors are designed with a mixture of materials with different thermal properties, so that the thermal effects cancel out and give a resistance...2
Another factor is digital timing at low temperatures. Digital circuits typically run faster at lower temperatures, but circuit timing might fail (e...1
,Semiconductor parts are most often specified for use in the “commercial” 0 to 70°C and, to a lesser extent, in the “industrial” -40 …
Consumer electronics operating temperature range
Reliability test applied to integrated circuits
High-temperature operating life (HTOL) is a reliability test applied to integrated circuits (ICs) to determine their intrinsic reliability. This test stresses the IC at an elevated temperature, high voltage and dynamic operation for a predefined period of time. The IC is usually monitored under stress and tested at intermediate intervals. This reliability stress test is sometimes referred to as a lifetime test, device life test or extended burn in test and is used to trigger potential failure modes and assess IC lifetime.
