Method and apparatus for controlling the temperature of...

Details Method and apparatus for controlling the temperature of... Method and apparatus for controlling the temperature of...

2002-05-06

2004-11-16

Chang, Yean-Hsi (Department: 2835)

Electricity: electrical systems and devices

Housing or mounting assemblies with diverse electrical...

For electronic systems and devices

C361S688000, C126S684000

Reexamination Certificate

active

06819559

ABSTRACT:

TECHNICAL FIELD
The invention described herein relates generally to electronic device enclosures. More particularly, the invention relates to thermal control of enclosures for portable computing devices.
BACKGROUND
The computer industry is moving toward smaller, faster, and more compact electronic systems. Nowhere is this more true than in the field of compact portable computer systems (e.g., laptop, notebook, or sub-notebook computers).
Conventional computer systems include numerous interconnected electronic components configured to accomplish a variety of different computing tasks. These electronic components are generally mounted on circuit boards contained within an enclosure or housing that (among other things) protects the components from damage. In portable computer systems, the housing serves as a carrying case and frequently includes the keyboard. As is known, housings of such portable computer systems are smaller than most “desktop” computers.
One of the important concerns in the design of computer housings is the need for adequate cooling of the electrical components during computer operation. Conventional designs address this concern by using cooling fans, heat sinks, vents, radiative cooling, and other cooling means to reduce the inside temperature of the housing, thereby preventing the overheating of the internal electronic components. In any case, these conventional approaches are directed toward removing heat from the inside of the housing in order to adequately cool the inside of the housing. Some cooling is achieved through heating and radiative cooling of the housings. However, there is an upper limit to the amount of heat that can be transferred to such housings. In a 25° C. ambient, the UL (Underwriters Laboratory) has set a maximum external surface temperature for plastic housings at 80° C. and for metal housings the maximum external surface temperature is 60° C.
As computers become faster, operating temperatures of the electrical components tend to go up. With each new generation of computers, thermal solutions become increasingly important. This becomes especially so in portable computers which are becoming smaller and smaller, thereby confining greater amounts of heat in smaller spaces.
FIG. 1
depicts a typical portable computer
1
. The depicted portable computer
1
includes a display
11
and a housing
10
. In order to maintain light weight and low cost, many portable computers use plastic housings
10
. Such plastic housings are relatively strong and absorb heat generated by the microprocessors and other components of the computer system during operation. However, in the continuing drive for ever thinner portable computers, stronger materials are required to give the necessary strength and resilience to the thinner computer housings. Metals can be used to provide a thinner, yet sufficiently strong, housing.
FIG. 2
is a cross-section view of a computer housing
10
′. The depicted metal computer housing
10
′ is constructed of, for example, titanium. Mounted inside the housing are internal electronic components. Various electronic components are shown mounted on a circuit board
21
, for example, a Main Logic Board. Underlying the circuit board
21
is a sheet of electrically insulating material
22
. Commonly, insulating material
22
is a thin sheet of black polyester material (i.e., Mylar®) whose primary purpose is to electrically insulate the circuit board
21
from contact with the inner surface of the metal housing
10
′. During ordinary course of use, the housing
10
′ can be subjected to some degree of mechanical flexing and bending. In the absence of the insulating material
22
, electrical contacts or the electronic components on the circuit board
21
can come into contact with the metal housing
10
′, which could possibly electrically short the system. Additionally, the insulating material
22
absorbs heat generated by the electronic components. One problem with such designs is that the insulating material
22
becomes very hot during system use. This heat is transferred from the polyester insulator
22
to the housing
10
′ where the external housing surface temperature can undesirably exceed the UL heat specification. Still worse, if the housing
10
′ becomes too hot, it can be uncomfortable for the user or can cause heat damage to furniture upon which the computer rests. This problem is exacerbated by the higher operating temperatures of the newer, faster computers. Furthermore, as the profile of these housings
10
′ becomes even slimmer, electronic components come into closer proximity to the insulating material
22
, again increasing the temperature of the housing
10
′.
Therefore, there is need for a method and apparatus that reduce the external temperature of computer (or other electronic device) housings.
SUMMARY OF THE INVENTION
In accordance with the principles of the present invention, a method and apparatus for reducing the external temperature of an electronic device housing is disclosed herein.
One embodiment of the invention includes an electronic device housing having a device enclosure with an electronic component mounted inside the enclosure. Inside the enclosure is a thermally reflective structure arranged between the electronic component and the enclosure to reduce enclosure heating by the electronic device. In one particular embodiment, the thermally reflective structure is electrically insulating. A substantially electrically non-conductive thermally reflective first layer and an adhesive second layer that affixes the thermally reflective electrical insulator to an inner surface of the housing.
In another embodiment, the invention comprises a portable computer having a computer housing and an electronic processor mounted inside the housing. The housing includes a thermally reflective layer arranged between the electronic processor and the housing to reduce heating of the housing by the electronic processor.
Yet another embodiment of the invention includes a method for reducing the external temperature of a portable computer housing having electronic components mounted therein. The method includes the operations of arranging a thermally reflective electrical insulator inside the housing between the electronic components and the housing and reflecting heat generated by the electronic components back inside the computer housing thereby reducing the exterior temperature of the computer housing.
These and other aspects of the invention will be disclosed in greater detail in the following detailed description.


REFERENCES:
patent: 5027061 (1991-06-01), Palmer et al.
patent: 6347035 (2002-02-01), Hamano et al.
patent: 2003/0117787 (2003-06-01), Nakauchi

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