DE19861388B4 - Device for cooling portable computer with PC-card plug-in port - has fan to circulate air through PC insert port and cool portable computer and electric connector coupled to supply current to fan - Google Patents

Abstract

The device has a card (22) with a first (24) and a second (28) end. The second end has at least one ventilation opening (30). The card has an air channel (36) between the first end and the ventilation opening. The second end (28) can be inserted into the PC insert port (20) so as to position the ventilation opening (30) in the PC insertion port. A fan (38) is connected to the first end (24) of the card (22) to blow air through the air channel (36) and the ventilation opening (30). The fan (38) circulates air through the PC insert port (20) and cools the computer (12). An electric connector (32) is fastened to the second end (28) of the card and is coupled to the fan to supply current to the fan.

Description

The The invention relates to a device for cooling an electronic device, especially a portable computer, with PC card slots.

To The early 90s drove the rapid growth of mobile computing the development of smaller, lighter and more portable tools for Information processing. An interesting innovation was the Development of PC card technology. The performance and usability of the PC cards quickly made them standard equipment many portable computers. The fast development and worldwide Application of PC card technology was largely due to the standardization efforts of the international association for Personal Computer Memory Card (Personal Computer Memory Card International Association = PCMCIA) instead of.

Of the PC card standard of PCMCIA brings now the advantages of this kind PC cards for one Variety of industries and vertical applications, including at smart cards, set top boxes, Automobiles and others. The compact size and robustness of PC card technology makes them the ideal technology for a wide variety of applications.

Of the current PC card standard sees physical specifications for three types from PC cards in front, with additional Provisions for extended maps. All three card types have the same length and Width and use the same 68-pin connector. Of the only difference between the dimensions of the card types is the fat. The thickness is 3.3 mm, 5.0 mm and 10.5 mm for the card type 1, type 2 and type 3, respectively, because they differ only in their thickness, can be a thinner card used in a thicker slot but a thicker one Card can be in a thinner Slot not used.

Everyone Card type has features that meet the needs of different applications customized are. Type 1 PC cards are typically used for storage devices used, such. RAM cards, flash memory cards, OTP cards (once programmable Cards) and SRAM cards. PC Card Type 2 are typically used for I / O devices such. Eg data / fax modems, LAN devices and mass storage devices. Type 3 PC cards are for facilities used, whose components are thicker, such as. B. rotating mass storage devices.

Extended Enable maps The addition of components for a proper operation outside the Systems must remain, such as B. antennas for wireless applications.

The Version number refers to the version of the PC card standard, on which a special card or system is based. Basically, the Version 1.0 has only memory and versions 2.x supported memory and I / O applications.

PCMCIA standard, version 1.0 / JEIDA 4.0-June 1990

The first version of the standard defined the 68-pin interface and the PC card form factors of type 1 and type 2. The original Version of the PCMCIA standard specified only the electrical and physical requirement for Memory cards. It defines the metaformat or map information structure (Card Information Structure = CIS), for compatibility and for plug-and-play (Plug-and-play) for PC cards critical is. The first version of the PC Card standard had no concept for input / output cards (I / O cards) available.

PCMCIA standard, version 2.0, 2.01 and 2.1-1991-1994

The second version of the standard defined an I / O interface for the same 68-pin interface, as for PCMCIA memory cards used in the first version of the standard has been. The version 2.0 added also different clarifications to the first version, a support for memory cards with two voltages and sections with card environment conditions and bypass test procedures. Version 2.01 added the PC Cards ATA specification, the card type Type 3 as well as the Auto-Index mass storage specification (Auto-indexing Mass Storage (AIMS) specification), which are moving towards digital Pictures is cut. She also closed the original version the map service specification one. Version 2.1 improved the card and socket service specification and improved the map information structure.

PC Card Standard-February 1995

The latest version of PC Card Standard added information for improvement the compatibility and the support for characteristics, like a 3.3 volt operation, DMA support and 32-bit cardbus control added.

The fast adaptation rate of the PC card slots has driven a steady stream of card and host implementations. During this time, PC cards were new with Technologies were introduced and the standard added significant new capabilities. At the same time, the card-host and software vendors gained considerable experience, and opportunities to improve compatibility were recognized.

The The goal of PCMCIR was to make the use of technology as easy as possible possible to make, but the standard can only guidelines in some areas Provide so that it There are manufacturers who do not meet the standard exactly or the have interpreted him differently. Therefore, the development allows the for a flexibility and customization was planned, the greatest possible compatibility. A way on the Being prepared for the diversity of the real world is intensive Tests of drafts with all the essential components of software functions and modules to perform up to entire platforms.

During the Last year, three main factors have come together, which are the PC Card Compatibility has significantly improved. In the version of the standard of March 1995 The software specification for PC cards has been improved in many ways. Improvements to the map information structure and the guidelines for Their use improved the way in which the main computer recognize the features and requirements of a map when it is inserted. Part of the March version 1995 was adding a policy document and a set of recommended guidelines for developers of special types of PC cards, such as As modems, wireless Devices, ATA cards and card bus cards.

Additionally has an increasing cooperation between the card, main computer and software developers within the industry to an improved compatibility guided. As far as that goes, PCMCIA and the Plug and Play Association have regularly sponsored PlugFest compatibility meetings, the leading ones Bring together manufacturers from all parts of the industry. Additional developments are expected.

at all the interest that surrounds the benefits of PC cards the problems faced by portable computer manufacturers and users little addressed. Due to the fact that many electronic devices in compressed a small case become, is the heat development a major problem. The processor class of the Intel Pentium is z. For that she's known size Quantities of heat generated. Disk drives and other components also produce considerable Quantities of heat. In a small case, like a laptop computer, these can be and other facilities overheat the portable computer and eventually to the Fail. The overheating can also be the mean lifetime until the failure of electronic Shorten components.

DE 94 16 783 U1 suggests a heat dissipating assembly for computers in which a fan is located on an internal computer plug-in card (backplane). The fan sucks air through an air duct formed along the plug-in card. The suction side is an orifice with air vents that also terminates the insertion slot on the outside of the computer.

Also US-A-5,475,563 discloses a heat dissipating assembly for a Notebook for dissipating heat, which arises when operating a PCMCIA card inserted in a PCMCIA slot. to heat dissipation by heat conduction via a thermal contact becomes an outside the PCMCIA card by a flexibly arranged within the notebook cooling plate flat contacted. To dissipate the heat from the cooling plate blowing in Notebook fan arranged air against cooling fins of the cooling plate.

It is therefore an object of the invention, a suitable cooling for an electronic device, in particular for a portable Provide computer, and a method for cooling an electronic Facility.

These The object is achieved by the features specified in claim 1, 9 and 10 respectively solved.

The The invention relates to a device for cooling an electronic device with a PC slot. The electronic device can be be a portable computer or another type of device, which PC-PCC-type PC slots lock in. According to the invention can be the cooling device into a PC slot insert, to cool air into an electronic device, such. B. a portable Computer, introduce.

advantageous Embodiments are the subject of dependent claims.

One embodiment The invention is illustrated in the figures and will be described below described in more detail. Show it:

1 a perspective view of the invention;

2 a perspective view of the cooling device of 1 ;

3 an exploded representation development of the cooling device of 2 and

4 a cross-sectional view of the cooling device of 2 ,

1 shows a cooling device, generally with the reference numeral 10 referred to in accordance with the embodiment of the invention with a portable computer 12 connected is. The portable computer 12 closes a base unit 14 , a screen 18 and a keyboard 16 one. The base unit 14 closes a PC card slot 20 one. The screen 18 is with the base unit 14 collapsible and is folded so that it is the keyboard 16 covers and allows the portability of the computer.

The PC card slot 20 is designed according to the PCMCIA PC card standards. The PC card slot is advantageous for PCMCIA type PC cards 3 designed. Advantageously, the slot is designed for a PC card type 2 or type 1.

The computer 12 closes vents 21 one. The cooling device 10 blows relatively cool air into the PC card slot 20 to the computer 12 to cool by convection. The cooling device 10 pushes hot air out of the vents 21 in the direction of the arrows 34 out.

In an alternative embodiment, the computer 12 an air-permeable base unit, which it through the cooling device 10 blown air allows from the computer 12 withdraw. Consequently, the cooling device 10 be retrofitted to virtually any portable computer with a PC slot. The cooling device 10 can be used as well as any setup with a PC slot.

As the PCMCIA standards continue to evolve, it will be understood that the invention is applicable to any variation of a variety of newly developed PC card slots 20 can be customized to the portable computer 12 to cool. In addition, the invention may be used in a variety of other applications, including use in a computer, e.g. For example, attachments, automobiles and any other application where PC Cards can be used.

2 shows an embodiment of the cooling device 10 according to the invention. The device 10 closes a hollow card 22 one. The map 22 has a first end 24 with an air intake 26 on. The map 22 has a second end 28 with at least one air opening 30 on.

The second end closes an electrical connector 32 one. The connector 32 is a standard PCMCIA PC card connector with a 68-pin contact which holds the card 22 with the portable computer 10 ( 1 ) connects. The connector 32 holds the card vents 30 within the PC slot. The vents 30 direct the air into the portable computer 12 into it to the computer 12 to cool when the card 22 with the PC slot 20 ( 1 ) is connected and the fan is operated.

3 shows the cooling device 10 , The map 22 closes an air duct 36 one that is between the first end 24 and the second end 28 extends.

The map 22 closes a fan 38 one. The fan 38 is with the first end 24 connected to the air through the air duct 36 to blow. if z. B. the fan 38 Air through the air intake 26 the fan forces the air through the air duct 36 and from the second end 28 through the air openings 30 out.

The fan 38 closes a supply line 40 one, the fan 38 connects to the electrical connector. The electrical connector 32 is at the second end 28 the card firmly mounted. The fan 38 is at the first end 24 the map 22 firmly mounted. When the electrical connector 32 with the PC slot 20 of the computer 12 ( 1 ) and the computer 12 is operated, so provides the connector 32 Power to the fan 38 ,

The fan 38 is redeemable with the first end 24 the map 22 connected. The redetachable connection allows the fan to be replaced, repaired or cleaned if necessary.

According to one aspect of the invention, the cooling device includes a fan holder 42 one with the fan 38 and thus with the map 22 connected is. The fan holder 42 closes a grid 46 and an air filter 44 one. The grid 46 and the air filter 44 protect the fan 38 , The fan 38 filters the air to block the accumulation of dust inside the computer 12 to minimize. The grid 46 can be engaged and disengaged to remove the air filter 44 to facilitate cleaning.

The air duct 36 closes a top 60 and a bottom 62 one, with the top a few of slats and the vents 30 has and the fins the air from the fan 38 through the ventilation openings. Furthermore, the bottom is adjacent 62 the vents 30 from.

4 shows an air flow through the cooling device 10 , The fan 38 will be continuous drifted and turned to air in the inlet 26 to pull the first end. The fan forces the air through the air duct to the second end 28 , Air leaves the second end 28 through the vents 30 , Every ventilation opening 30 closes a vent louvre 50 one. The slats 50 are with the vents 22 inside the air duct 30 connected. The air opening louvers 50 are with respect to the air flow direction 52 angled inside the duct to move the air outside the vents 30 to judge.

Although the fan 38 the air through the vents 30 As shown, it is understood that the fan can be reversed to also vent air into the vents 30 pull in and out of the first end 24 out.

Claims (17)

Device for cooling an electronic device ( 12 ) with a PC slot ( 20 ), the apparatus comprising: a card ( 22 ) with a first end ( 24 ) and a second end ( 28 ), the first end ( 24 ) outside the electronic device ( 12 ) and the second end ( 28 ) into the PC slot ( 20 ) is insertable; and at least one fan ( 38 ), with the first end ( 24 ) the map ( 22 ) connected is; where the card ( 22 ) a ventilation duct ( 36 ) between the first end ( 24 ) and the second end ( 28 ) and wherein the fan ( 38 ) Air through the ventilation duct ( 36 ) blows. Device according to claim 1, having an electrical connection (40) at the second end ( 28 ) the map ( 22 ) having. Device according to claim 1 or 2, comprising a removable filter ( 44 ) at the first end ( 24 ) the map ( 22 ) having. Device according to one of claims 1 to 3, which is a grid ( 46 ) at the first end ( 24 ) the map ( 22 ) having. Apparatus according to claim 1, wherein the second end ( 28 ) Ventilation openings ( 30 ) and lamellae ( 50 ) to supply air to the electronic device ( 12 ) respectively. Device according to one of the preceding claims, wherein the first end ( 24 ) an inlet ( 26 ) and the second end ( 28 ) have an outlet, and the fan ( 38 ) Air between the inlet ( 26 ) and the outlet. Device according to one of the preceding claims, wherein the fan ( 38 ) releasable at the first end ( 24 ) the map ( 22 ) is arranged. Device according to one of the preceding claims, wherein the card ( 22 ) Has dimensions that comply with the PCMCIA dimension specifications of type III. Portable computer ( 12 ), comprising: a base unit ( 14 ) with a keyboard ( 16 ) and a PC slot ( 20 ); a screen ( 18 ), which can be folded together with the base unit ( 14 ) connected is; and a cooling device ( 10 ) according to one of claims 1 to 8, wherein the cooling device ( 10 ) in the PC slot ( 20 ) is arranged. Method for cooling an electronic device ( 12 ) with a PC slot ( 20 ), with the steps: Inserting a card ( 22 ) with a first end ( 24 ) and a second end ( 28 ) into the PC slot ( 20 ) an electronic device ( 12 ), the first end ( 24 ) outside the electronic device ( 12 ) and the second end ( 28 ) into the PC card slot ( 20 ) is introduced; and cooling the electronic device ( 12 ) by at least one fan ( 38 ), which at the first end ( 24 ) the map ( 22 ) is arranged; where the through the fan ( 38 ) conveyed air through a channel ( 36 ) of the card between the first end ( 24 ) and the second end ( 28 ) the map ( 22 ) flows. Method according to claim 10, which comprises electrically connecting the card ( 22 ) with the electronic device ( 12 ) by means of an electrical connection (40) at the second end ( 28 ) the map ( 22 ). A method according to claim 10 or 11, which comprises filtering air by means of an air filter ( 44 ) at the first end ( 24 ) the map ( 22 ). Method according to one of claims 10 to 12, which is the protection of the fan ( 38 ) through a grid ( 46 ) at the first end ( 24 ) the map ( 22 ). The method of claim 10, wherein the second end ( 28 ) the map ( 22 ) Ventilation openings ( 30 ) and lamellae ( 50 ), the air into the electronic device ( 12 ) to lead. Method according to one of claims 10 to 14, which is the passage of air through an inlet ( 26 ) at the first end ( 24 ) the map ( 22 ) and an outlet at the second end ( 28 ) the map ( 22 ). Method according to one of claims 10 to 15, which is the detachable mounting of the fan ( 38 ) at the first end ( 24 ) the map ( 22 ). Method according to one of claims 10 to 16, wherein the card ( 22 ) Has dimensions that comply with the PCMCIA dimension specifications of type III.