US20070243766A1 - Memory stick convert device - Google Patents
Memory stick convert device Download PDFInfo
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- US20070243766A1 US20070243766A1 US11/443,019 US44301906A US2007243766A1 US 20070243766 A1 US20070243766 A1 US 20070243766A1 US 44301906 A US44301906 A US 44301906A US 2007243766 A1 US2007243766 A1 US 2007243766A1
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- Prior art keywords
- lower housing
- space
- convert
- memory stick
- stick
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- H—ELECTRICITY
- H05—ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
- H05K—PRINTED CIRCUITS; CASINGS OR CONSTRUCTIONAL DETAILS OF ELECTRIC APPARATUS; MANUFACTURE OF ASSEMBLAGES OF ELECTRICAL COMPONENTS
- H05K5/00—Casings, cabinets or drawers for electric apparatus
- H05K5/02—Details
- H05K5/0256—Details of interchangeable modules or receptacles therefor, e.g. cartridge mechanisms
- H05K5/0282—Adapters for connecting cards having a first standard in receptacles having a second standard
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y10—TECHNICAL SUBJECTS COVERED BY FORMER USPC
- Y10S—TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y10S439/00—Electrical connectors
- Y10S439/945—Adapter for pcb or cartridge
Definitions
- Taiwan Application Serial Number 95206199 filed Apr. 12, 2006, the disclosure of which is hereby incorporated by reference herein in its entirety.
- the invention relates to a memory stick convert device and, in particular, to a memory stick convert device that convert signal formats between the Micro-SD stick and the Memory Stick (Pro) Duo.
- the invention provides a memory stick convert device for converting signal formats between the Micro-SD and the Memory Stick (Pro) Duo.
- the disclosed memory stick convert device includes a lower housing, an upper housing, and a convert interface.
- An assembly of the upper housing and the lower housing has the same type of connector as the Memory Stick (Pro) Duo does at an end.
- the assembly includes a cavity to accommodate a Micro-SD stick.
- the convert interface is sandwiched between the upper housing and the lower housing to convert signal formats between the Memory Stick (Pro) Duo and the Micro-SD.
- the convert interface includes a substrate, a connecting chip, a tab terminal, and an elastic chip.
- the substrate is disposed with a convert control chip and a passive device for converting data formats for different memory sticks.
- the connecting chip is electrically coupled to the substrate and has a plurality of metal contacts, a connecting plate, and a positioning body. The connecting plate and the metal contacts are connected.
- the connecting chip is welded to the back of the substrate, separating the connecting plate.
- the positioning body is formed by ejection formation at the center of the metal contacts.
- the tab terminal is disposed on the substrate, electrically connecting to the contacts of the Micro-SD stick via the connecting chip.
- the elastic chip is a narrow, long structure disposed on one side of the substrate. One of its ends is fixed on the substrate.
- the other end is formed with a protrusion coupled to the recessed portion on the side of the Micro-SD.
- the tab contacts and the apparatus inserted into the memory stick convert device are electrically coupled.
- the circuit on the substrate converts the signal formats among different memory sticks and transmits signals.
- the lower housing includes a position guider, a recessed portion, an indention, a first lower housing space, a second lower housing space, a third lower housing space, a plurality of terminal slots, and an elastic plate slot.
- the position guider is disposed on one corner of the lower housing.
- the recessed portion is on one side of the position guider, the central portion along the long side of the lower housing.
- the indention is at the center of the lower edge of the lower housing.
- the first lower housing space, the second lower housing space, and the third lower housing space are formed in sequence as one goes from the indention into the lower housing.
- the first lower housing space accommodates the Micro-SD stick inserted into the memory stick convert device.
- the second lower housing space accommodates the connecting chip of the convert interface and the terminal of the Micro-SD stick inserted into the memory stick convert device.
- the third lower housing space accommodates the substrate of the convert interface.
- the terminal slots are disposed above the third lower housing space, so as to expose the tab contact of the convert interface.
- the elastic chip space is formed on one side of the lower housing, next to the first lower housing space and the second lower housing space, to accommodate the elastic chip.
- the elastic chip space includes a pressing portion and an indention. The pressing portion is at the central portion of the elastic chip space, pressing the elastic chip toward the direction of the first lower housing space and the second lower housing space.
- the indention is disposed at the bottom of the elastic chip space at a position corresponding to the elastic chip protrusion, so that the elastic chip protrusion protrudes from the elastic chip space.
- the height of the second lower housing space is smaller than that of the first lower housing space.
- the first lower housing space further has an internal position guider and an edge.
- the internal position guider is disposed at the central portion of one side of the first lower housing space.
- the internal position guider and the position guider of the Micro-SD stick inserted into the memory stick convert device together provide a correct insertion direction.
- the edge is on the other side of the first lower housing space, so that the Micro-SD stick slides along the edge into the memory stick convert device.
- the upper housing has a position guider, a recessed portion, an indention, a first upper housing space, a second upper housing space, and an elastic chip space.
- the position guider is disposed on one corner of the upper housing.
- the recessed portion is on one side of the position guider, at the central portion of the long side of the upper housing.
- the indention is at the center of the lower edge of the upper housing and includes an arc recessed portion.
- the first upper housing space and the second upper housing space are formed in sequence from the indention into the upper housing.
- the first upper housing space accommodates the Micro-SD stick inserted into the memory stick convert device.
- the second upper housing space accommodates the substrate of the convert interface.
- the elastic chip space is on the side of the upper housing next to the first upper housing space for accommodating the elastic chip. It has a pressing portion and an indention.
- the pressing portion is in the central portion of the elastic chip space, pressing the elastic chip toward the direction of the first upper housing space.
- the indention of the elastic chip space is at its bottom corresponding to the elastic chip protrusion, so that the elastic chip protrudes from the elastic chip space.
- the first upper housing space further has an internal position guider, an edge, and a terminal edge.
- the internal position guider is disposed in the central portion of an edge of the first upper housing space.
- the internal position guider and the position guider of the Micro-SD stick together provide a correction insertion direction.
- the edge is on the other side of the first upper housing space, so that the Micro-SD stick slides along the edge into the memory stick convert device.
- the terminal edge is at a position corresponding to the indention. The terminal edge and the internal position guider restrict the depth that the Micro-SD stick can be inserted.
- the lower housing has a lower housing side ridge
- the upper housing has an upper housing side ridge.
- the lower housing side ridge and the upper housing side ridge are on the left and right edges of the lower and upper housings, respectively for the assembly of the upper housing and the lower housing.
- the Micro-SD stick is compatible with the Trans Flash stick. Therefore, not only can the disclosed memory stick convert device convert the signal formats between the Micro-SD and the Memory Stick (Pro) Duo, it also converts the signal formats between the Trans Flash and the Memory Stick (Pro) Duo.
- FIG. 1 is a three-dimensional exploded view of the disclosed memory stick convert device
- FIG. 2 contains a top view and an A-A cross-sectional view of the memory stick convert device
- FIG. 3 is a three-dimensional view of one side of the lower housing of the invention.
- FIG. 4 is a three-dimensional view of the other side of the lower housing of the invention.
- FIG. 5 is a three-dimensional view of one side of the upper housing of the invention.
- FIG. 6 is a three-dimensional view of the other side of the upper housing of the invention.
- the disclosed memory stick convert device includes a convert interface 10 , a lower housing 20 , and an upper housing 30 .
- the size is the same as the Memory Stick (Pro) Duo stick.
- the convert interface 10 is sandwiched between the lower housing 20 and the upper housing 30 to convert the signal formats between the Micro-SD and the Memory Stick (Pro) Duo.
- the convert interface 10 includes a connecting chip 16 , a substrate 17 , a tab terminal 18 , and an elastic chip 19 .
- the substrate 17 is disposed with a signal convert control chip and passive device for converting data formats for different memory sticks.
- the connecting chip 16 includes several metal contacts 161 , a connecting plate 162 , and a positioning body 163 .
- the metal contacts 161 and the connecting plate 162 are an integrally formed metal device.
- the positioning body 163 is formed by plastic ejection formation in the central portion of the metal contacts 161 .
- the positioning body 163 can prevent the soldering tin from flowing to the front ends of the metal contacts 161 when the connecting chip 16 is welded to the substrate 17 . Therefore, it can avoid short circuits with the metal contacts 161 .
- the connecting plate 162 is removed, leaving the metal contacts 161 as independent metal contacts.
- the tab terminal 18 is disposed on the substrate for electrically connecting to the Micro-SD contacts via the connecting chip 16 .
- the tab contacts 18 are electrically connected to the device inserted into the memory stick convert device, using the circuit on the substrate 17 to convert and transmit signal formats between different memory sticks.
- the elastic chip 19 is a narrow, long structure disposed on the side of the substrate 17 . One of its ends is fixed on the substrate 17 , and the other end is formed with a protrusion 192 coupled to the recessed portion on the side of the Micro-SD.
- one corner of the lower housing 20 is disposed with the position guider 22 .
- the recessed portion 23 is formed on one side of the position guider 22 , in the central portion of the long side of the lower housing 20 .
- the recessed portion 23 matches with a protruding portion on the device.
- An indention 24 is formed at the center of the lower edge of the lower housing 20 .
- the first lower housing space 25 , the second lower housing space 26 , and the third lower housing space 27 are formed in sequence from the indention 24 into the lower housing 20 .
- the indention 24 receives the insertion of the Micro-SD, accommodating the inserted memory stick in the first lower housing space 25 .
- the second lower housing space 26 accommodates the connecting chip 16 of the convert interface 10 and the terminal of the inserted Micro-SD.
- the connecting chip 16 and the terminal of the Micro-SD are electrically coupled inside the second lower housing space 26 .
- the third lower housing space 27 accommodates the substrate 17 of the convert interface 10 .
- the height of the second lower housing space 26 is smaller than the height of the first lower housing space 25 .
- the height of the second lower housing space 26 is 0.2 mm
- the first lower housing space 25 is 0.25 mm.
- Several parallel terminal slots 28 are formed on the third lower housing space 27 , exposing the tab contacts 18 of the convert interface 10 .
- the side of the lower housing 20 is formed with an elastic chip space 29 , next to the first lower housing space 25 and the second lower housing space 26 , to accommodate the elastic chip 19 .
- the elastic chip space 29 has a pressing portion 291 and an indention 292 .
- the pressing portion 291 is disposed in the central portion of the elastic chip space 29 , pressing the elastic chip 19 toward the direction of the first lower housing space 25 and the second lower housing space 26 .
- a larger elastic force is thus produced by the elastic chip 19 to maintain the position thereof.
- the indention 292 is at the bottom of the elastic chip space 29 at a position corresponding to the elastic chip protrusion 192 .
- the elastic chip protrusion 192 protrudes from the elastic chip space 29 and touches the first lower housing space 25 .
- the upper housing 30 and the lower housing 20 match with each other.
- One corner of the upper housing 30 is formed with a position guider 32 .
- a recessed portion 33 is formed on one side of the position guider 32 , in the central portion of the long side of the upper housing 30 .
- An indention 34 is formed on the lower edge of the upper housing 30 .
- the indention 34 has an arc recessed portion 341 for accommodating the protrusion on the edge of the inserted Micro-SD and for the user to take out the inserted Micro-SD.
- the first upper housing space 35 and the second upper housing space 37 are formed in sequence from the indention 34 into the upper housing 30 .
- the indention 34 receives the insertion of the Micro-SD, accommodating the inserted memory stick in the first upper housing space 35 .
- the second upper housing space 37 accommodates the substrate 17 of the convert interface 10 .
- An elastic chip space 39 is formed on one side of the upper housing 30 , next to the first upper housing space 35 , to accommodate the elastic chip 19 .
- the elastic chip space 39 has a pressing portion 391 and an indention 392 .
- the pressing portion 391 is disposed in the central portion of the elastic chip space 39 , pressing the elastic chip 19 toward the direction of the first lower housing space 35 . A larger elastic force is thus produced by the elastic chip 19 to maintain the position thereof.
- the indention 392 is at the bottom of the elastic chip space 39 at a position corresponding to the elastic chip protrusion 192 .
- the elastic chip protrusion 192 protrudes from the elastic chip space 39 and touches the first lower housing space 35 .
- the third lower housing space 27 and the second upper housing space 37 form a space for accommodating the convert interface 10 .
- the first lower housing space 25 , the second lower housing space 26 , and the first upper housing space 35 forms space for accommodating the Micro-SD.
- the elastic chip spaces 29 , 39 accommodate the elastic chip 19 .
- the first lower housing space 25 contains an internal position guider 251 and an edge 252 .
- the first upper housing space 35 contains an internal position guider 351 and an edge 352 .
- the internal position guiders 251 , 351 are in the central positions of corresponding sides of the first lower housing space 25 and first upper housing space 35 .
- the internal position guiders 251 , 351 and the position guider of the Micro-SD act together to provide a correct insertion direction.
- the edges 252 , 352 are on the other corresponding sides of the first lower housing space 25 and the first upper housing space 35 .
- the inserted memory stick slides along the edges 252 , 352 .
- the elastic chip protrusion 192 touches the elastic chip protrusion 192 that protrudes from the indentions 292 , 392 , a force is then imposed for the elastic chip protrusion 192 to go inside the indentions 292 , 392 .
- the first upper housing space 35 further contains a terminal edge 353 at a position corresponding to the indention 34 .
- the terminal edge 353 along with the position guiders 251 , 351 restrict the depth that the memory stick can be inserted, so that the connecting chip 16 and the inserted Micro-SD have a good electrical connection.
- the lower housing has a lower housing side ridge 21
- the upper housing 30 has an upper housing side ridge 31 .
- the lower housing side ridge 21 and the upper housing side ridge 31 are on the left and right edges of the lower housing 20 and the upper housing 30 , respectively.
- the assembly between the lower housing 20 and the upper housing 30 can be achieved by employing ultrasonic welding to combine the lower housing side ridge 21 and the upper housing side ridge 31 .
- the assembly can be achieved by buckling up or adhering the lower housing side ridge 21 and the upper housing side ridge 31 .
- the Micro-SD stick and the Trans Flash stick have the same format. Therefore, not only can the disclosed memory stick convert device convert the signal formats between the Micro-SD and the Memory Stick (Pro) Duo, it can also convert the signal formats between the Trans Flash and the Memory Stick (Pro) Duo.
- the invention can convert the signal formats among the Micro-SD, the Trans Flash, and the Memory Stick (Pro) Duo. It is convenient for the user to convert data among different memory sticks.
Abstract
Description
- The present application is based on, and claims priority from, Taiwan Application Serial Number 95206199, filed Apr. 12, 2006, the disclosure of which is hereby incorporated by reference herein in its entirety.
- 1. Field of Invention
- The invention relates to a memory stick convert device and, in particular, to a memory stick convert device that convert signal formats between the Micro-SD stick and the Memory Stick (Pro) Duo.
- 2. Related Art
- Currently, there are many memory sticks on the market for data storage, such as Micro-SD, Trans Flash, and Memory Stick (Pro) Duo. When a user purchases a portable electronic product, he/she has to choose one that is compatible with the type of his/her original memory stick. Otherwise, additional memory sticks have to be purchased also. Such a situation causes a lot of inconvenience. To solve the problem, it is necessary to provide a convert device among all the memory sticks. However, no such a device is available for the Micro-SD, Trans Flash, and Memory Stick (Pro) Duo up to date.
- Therefore, the invention provides a memory stick convert device for converting signal formats between the Micro-SD and the Memory Stick (Pro) Duo.
- To achieve the above objective, the disclosed memory stick convert device includes a lower housing, an upper housing, and a convert interface. An assembly of the upper housing and the lower housing has the same type of connector as the Memory Stick (Pro) Duo does at an end. The assembly includes a cavity to accommodate a Micro-SD stick. The convert interface is sandwiched between the upper housing and the lower housing to convert signal formats between the Memory Stick (Pro) Duo and the Micro-SD.
- The convert interface includes a substrate, a connecting chip, a tab terminal, and an elastic chip. The substrate is disposed with a convert control chip and a passive device for converting data formats for different memory sticks. The connecting chip is electrically coupled to the substrate and has a plurality of metal contacts, a connecting plate, and a positioning body. The connecting plate and the metal contacts are connected. The connecting chip is welded to the back of the substrate, separating the connecting plate. The positioning body is formed by ejection formation at the center of the metal contacts. The tab terminal is disposed on the substrate, electrically connecting to the contacts of the Micro-SD stick via the connecting chip. The elastic chip is a narrow, long structure disposed on one side of the substrate. One of its ends is fixed on the substrate. The other end is formed with a protrusion coupled to the recessed portion on the side of the Micro-SD. The tab contacts and the apparatus inserted into the memory stick convert device are electrically coupled. The circuit on the substrate converts the signal formats among different memory sticks and transmits signals.
- The lower housing includes a position guider, a recessed portion, an indention, a first lower housing space, a second lower housing space, a third lower housing space, a plurality of terminal slots, and an elastic plate slot. The position guider is disposed on one corner of the lower housing. The recessed portion is on one side of the position guider, the central portion along the long side of the lower housing. The indention is at the center of the lower edge of the lower housing. The first lower housing space, the second lower housing space, and the third lower housing space are formed in sequence as one goes from the indention into the lower housing. The first lower housing space accommodates the Micro-SD stick inserted into the memory stick convert device. The second lower housing space accommodates the connecting chip of the convert interface and the terminal of the Micro-SD stick inserted into the memory stick convert device. The third lower housing space accommodates the substrate of the convert interface. The terminal slots are disposed above the third lower housing space, so as to expose the tab contact of the convert interface. The elastic chip space is formed on one side of the lower housing, next to the first lower housing space and the second lower housing space, to accommodate the elastic chip. The elastic chip space includes a pressing portion and an indention. The pressing portion is at the central portion of the elastic chip space, pressing the elastic chip toward the direction of the first lower housing space and the second lower housing space. The indention is disposed at the bottom of the elastic chip space at a position corresponding to the elastic chip protrusion, so that the elastic chip protrusion protrudes from the elastic chip space. The height of the second lower housing space is smaller than that of the first lower housing space.
- The first lower housing space further has an internal position guider and an edge. The internal position guider is disposed at the central portion of one side of the first lower housing space. The internal position guider and the position guider of the Micro-SD stick inserted into the memory stick convert device together provide a correct insertion direction. The edge is on the other side of the first lower housing space, so that the Micro-SD stick slides along the edge into the memory stick convert device.
- Corresponding to the lower housing, the upper housing has a position guider, a recessed portion, an indention, a first upper housing space, a second upper housing space, and an elastic chip space. The position guider is disposed on one corner of the upper housing. The recessed portion is on one side of the position guider, at the central portion of the long side of the upper housing. The indention is at the center of the lower edge of the upper housing and includes an arc recessed portion. The first upper housing space and the second upper housing space are formed in sequence from the indention into the upper housing. The first upper housing space accommodates the Micro-SD stick inserted into the memory stick convert device. The second upper housing space accommodates the substrate of the convert interface. The elastic chip space is on the side of the upper housing next to the first upper housing space for accommodating the elastic chip. It has a pressing portion and an indention. The pressing portion is in the central portion of the elastic chip space, pressing the elastic chip toward the direction of the first upper housing space. The indention of the elastic chip space is at its bottom corresponding to the elastic chip protrusion, so that the elastic chip protrudes from the elastic chip space.
- The first upper housing space further has an internal position guider, an edge, and a terminal edge. The internal position guider is disposed in the central portion of an edge of the first upper housing space. The internal position guider and the position guider of the Micro-SD stick together provide a correction insertion direction. The edge is on the other side of the first upper housing space, so that the Micro-SD stick slides along the edge into the memory stick convert device. The terminal edge is at a position corresponding to the indention. The terminal edge and the internal position guider restrict the depth that the Micro-SD stick can be inserted.
- The lower housing has a lower housing side ridge, and the upper housing has an upper housing side ridge. The lower housing side ridge and the upper housing side ridge are on the left and right edges of the lower and upper housings, respectively for the assembly of the upper housing and the lower housing.
- The Micro-SD stick is compatible with the Trans Flash stick. Therefore, not only can the disclosed memory stick convert device convert the signal formats between the Micro-SD and the Memory Stick (Pro) Duo, it also converts the signal formats between the Trans Flash and the Memory Stick (Pro) Duo.
- These and other features, aspects and advantages of the invention will become apparent by reference to the following description and accompanying drawings which are given by way of illustration only, and thus are not limitative of the invention, and wherein:
-
FIG. 1 is a three-dimensional exploded view of the disclosed memory stick convert device; -
FIG. 2 contains a top view and an A-A cross-sectional view of the memory stick convert device; -
FIG. 3 is a three-dimensional view of one side of the lower housing of the invention; -
FIG. 4 is a three-dimensional view of the other side of the lower housing of the invention; -
FIG. 5 is a three-dimensional view of one side of the upper housing of the invention; and -
FIG. 6 is a three-dimensional view of the other side of the upper housing of the invention. - The present invention will be apparent from the following detailed description, which proceeds with reference to the accompanying drawings, wherein the same references relate to the same elements.
- The directions referred herein are based upon the drawings of the specification. For example, as shown in
FIG. 3 , thecontact slots 28 are disposed in parallel on thelower housing 20. Other position relations can be understood in the same way. - As shown in
FIG. 1 , the disclosed memory stick convert device includes aconvert interface 10, alower housing 20, and anupper housing 30. After the assembly of thelower housing 20 and theupper housing 30, the size is the same as the Memory Stick (Pro) Duo stick. Theconvert interface 10 is sandwiched between thelower housing 20 and theupper housing 30 to convert the signal formats between the Micro-SD and the Memory Stick (Pro) Duo. - As shown in
FIG. 2 , theconvert interface 10 includes a connectingchip 16, asubstrate 17, atab terminal 18, and anelastic chip 19. Thesubstrate 17 is disposed with a signal convert control chip and passive device for converting data formats for different memory sticks. The connectingchip 16 includesseveral metal contacts 161, a connectingplate 162, and apositioning body 163. Themetal contacts 161 and the connectingplate 162 are an integrally formed metal device. Thepositioning body 163 is formed by plastic ejection formation in the central portion of themetal contacts 161. In addition to fixing the positions of themetal contacts 161, thepositioning body 163 can prevent the soldering tin from flowing to the front ends of themetal contacts 161 when the connectingchip 16 is welded to thesubstrate 17. Therefore, it can avoid short circuits with themetal contacts 161. After themetal contacts 161 are soldered onto the circuit on thesubstrate 17, the connectingplate 162 is removed, leaving themetal contacts 161 as independent metal contacts. Thetab terminal 18 is disposed on the substrate for electrically connecting to the Micro-SD contacts via the connectingchip 16. Thetab contacts 18 are electrically connected to the device inserted into the memory stick convert device, using the circuit on thesubstrate 17 to convert and transmit signal formats between different memory sticks. Theelastic chip 19 is a narrow, long structure disposed on the side of thesubstrate 17. One of its ends is fixed on thesubstrate 17, and the other end is formed with aprotrusion 192 coupled to the recessed portion on the side of the Micro-SD. - As shown in
FIGS. 3 and 4 , one corner of thelower housing 20 is disposed with theposition guider 22. The recessedportion 23 is formed on one side of theposition guider 22, in the central portion of the long side of thelower housing 20. When the disclosed memory stick convert device is inserted into a device, the recessedportion 23 matches with a protruding portion on the device. Anindention 24 is formed at the center of the lower edge of thelower housing 20. The firstlower housing space 25, the secondlower housing space 26, and the thirdlower housing space 27 are formed in sequence from theindention 24 into thelower housing 20. Theindention 24 receives the insertion of the Micro-SD, accommodating the inserted memory stick in the firstlower housing space 25. The secondlower housing space 26 accommodates the connectingchip 16 of theconvert interface 10 and the terminal of the inserted Micro-SD. The connectingchip 16 and the terminal of the Micro-SD are electrically coupled inside the secondlower housing space 26. The thirdlower housing space 27 accommodates thesubstrate 17 of theconvert interface 10. To ensure a good electrical connection between the connectingchip 16 and the inserted memory stick, the height of the secondlower housing space 26 is smaller than the height of the firstlower housing space 25. For example, the height of the secondlower housing space 26 is 0.2 mm, and the firstlower housing space 25 is 0.25 mm. Several parallelterminal slots 28 are formed on the thirdlower housing space 27, exposing thetab contacts 18 of theconvert interface 10. When the disclosed memory stick convert device is inserted into the device, thetab contacts 18 are in electrical contact with the device. The side of thelower housing 20 is formed with anelastic chip space 29, next to the firstlower housing space 25 and the secondlower housing space 26, to accommodate theelastic chip 19. Theelastic chip space 29 has apressing portion 291 and anindention 292. Thepressing portion 291 is disposed in the central portion of theelastic chip space 29, pressing theelastic chip 19 toward the direction of the firstlower housing space 25 and the secondlower housing space 26. A larger elastic force is thus produced by theelastic chip 19 to maintain the position thereof. Theindention 292 is at the bottom of theelastic chip space 29 at a position corresponding to theelastic chip protrusion 192. Theelastic chip protrusion 192 protrudes from theelastic chip space 29 and touches the firstlower housing space 25. - As shown in
FIGS. 5 and 6 , theupper housing 30 and thelower housing 20 match with each other. One corner of theupper housing 30 is formed with aposition guider 32. A recessedportion 33 is formed on one side of theposition guider 32, in the central portion of the long side of theupper housing 30. Anindention 34 is formed on the lower edge of theupper housing 30. Theindention 34 has an arc recessedportion 341 for accommodating the protrusion on the edge of the inserted Micro-SD and for the user to take out the inserted Micro-SD. The firstupper housing space 35 and the secondupper housing space 37 are formed in sequence from theindention 34 into theupper housing 30. Theindention 34 receives the insertion of the Micro-SD, accommodating the inserted memory stick in the firstupper housing space 35. The secondupper housing space 37 accommodates thesubstrate 17 of theconvert interface 10. Anelastic chip space 39 is formed on one side of theupper housing 30, next to the firstupper housing space 35, to accommodate theelastic chip 19. Theelastic chip space 39 has apressing portion 391 and anindention 392. Thepressing portion 391 is disposed in the central portion of theelastic chip space 39, pressing theelastic chip 19 toward the direction of the firstlower housing space 35. A larger elastic force is thus produced by theelastic chip 19 to maintain the position thereof. Theindention 392 is at the bottom of theelastic chip space 39 at a position corresponding to theelastic chip protrusion 192. Theelastic chip protrusion 192 protrudes from theelastic chip space 39 and touches the firstlower housing space 35. - After the assembly of the
lower housing 20 and theupper housing 30, the thirdlower housing space 27 and the secondupper housing space 37 form a space for accommodating theconvert interface 10. The firstlower housing space 25, the secondlower housing space 26, and the firstupper housing space 35 forms space for accommodating the Micro-SD. Theelastic chip spaces elastic chip 19. The firstlower housing space 25 contains aninternal position guider 251 and anedge 252. Correspondingly, the firstupper housing space 35 contains aninternal position guider 351 and anedge 352. Theinternal position guiders lower housing space 25 and firstupper housing space 35. Theinternal position guiders edges lower housing space 25 and the firstupper housing space 35. The inserted memory stick slides along theedges elastic chip protrusion 192 that protrudes from theindentions elastic chip protrusion 192 to go inside theindentions elastic chip 19 pushes theelastic chip protrusion 192 out of theindentions upper housing space 35 further contains aterminal edge 353 at a position corresponding to theindention 34. Theterminal edge 353 along with the position guiders 251, 351 restrict the depth that the memory stick can be inserted, so that the connectingchip 16 and the inserted Micro-SD have a good electrical connection. The lower housing has a lowerhousing side ridge 21, and theupper housing 30 has an upperhousing side ridge 31. The lowerhousing side ridge 21 and the upperhousing side ridge 31 are on the left and right edges of thelower housing 20 and theupper housing 30, respectively. The assembly between thelower housing 20 and theupper housing 30 can be achieved by employing ultrasonic welding to combine the lowerhousing side ridge 21 and the upperhousing side ridge 31. Alternatively, the assembly can be achieved by buckling up or adhering the lowerhousing side ridge 21 and the upperhousing side ridge 31. - The Micro-SD stick and the Trans Flash stick have the same format. Therefore, not only can the disclosed memory stick convert device convert the signal formats between the Micro-SD and the Memory Stick (Pro) Duo, it can also convert the signal formats between the Trans Flash and the Memory Stick (Pro) Duo.
- As described in the above preferred embodiments, the invention can convert the signal formats among the Micro-SD, the Trans Flash, and the Memory Stick (Pro) Duo. It is convenient for the user to convert data among different memory sticks.
- While the invention has been described by way of example and in terms of the preferred embodiment, it is to be understood that the invention is not limited to the disclosed embodiments. To the contrary, it is intended to cover various modifications and similar arrangements as would be apparent to those skilled in the art. Therefore, the scope of the appended claims should be accorded the broadest interpretation so as to encompass all such modifications and similar arrangements.
Claims (16)
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
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TW095206199U TWM300918U (en) | 2006-04-12 | 2006-04-12 | Memory stick convert device |
TW95206199 | 2006-04-12 |
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US20070243766A1 true US20070243766A1 (en) | 2007-10-18 |
US7288004B1 US7288004B1 (en) | 2007-10-30 |
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Application Number | Title | Priority Date | Filing Date |
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US11/443,019 Active US7288004B1 (en) | 2006-04-12 | 2006-05-31 | Memory stick convert device |
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US (1) | US7288004B1 (en) |
JP (1) | JP3129844U (en) |
TW (1) | TWM300918U (en) |
Families Citing this family (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
TWM308521U (en) * | 2006-09-26 | 2007-03-21 | Jess Link Products Co Ltd | Adapter card structure |
KR101523679B1 (en) | 2009-03-09 | 2015-05-28 | 삼성전자주식회사 | Case for holding a semiconductor memory device and semiconductor memory assembly |
JP5440902B2 (en) * | 2009-04-28 | 2014-03-12 | 村田機械株式会社 | Image forming apparatus |
Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US20050185371A1 (en) * | 2004-02-24 | 2005-08-25 | Alps Electric Co., Ltd. | Card adaptor |
US7025637B1 (en) * | 2004-12-09 | 2006-04-11 | Yun-Hsiu Lee | Memory card adapter |
US20060149855A1 (en) * | 2004-12-24 | 2006-07-06 | Kunio Fukuda | Adapter and memory unit |
US7118421B2 (en) * | 2003-02-10 | 2006-10-10 | Sony Corporation | Adapter device for electronic equipment |
US20070004285A1 (en) * | 2005-07-01 | 2007-01-04 | Yun-Hsiu Lee | Mini SD card adapter |
-
2006
- 2006-04-12 TW TW095206199U patent/TWM300918U/en not_active IP Right Cessation
- 2006-05-31 US US11/443,019 patent/US7288004B1/en active Active
- 2006-12-14 JP JP2006010148U patent/JP3129844U/en not_active Expired - Lifetime
Patent Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US7118421B2 (en) * | 2003-02-10 | 2006-10-10 | Sony Corporation | Adapter device for electronic equipment |
US20050185371A1 (en) * | 2004-02-24 | 2005-08-25 | Alps Electric Co., Ltd. | Card adaptor |
US7025637B1 (en) * | 2004-12-09 | 2006-04-11 | Yun-Hsiu Lee | Memory card adapter |
US20060149855A1 (en) * | 2004-12-24 | 2006-07-06 | Kunio Fukuda | Adapter and memory unit |
US20070004285A1 (en) * | 2005-07-01 | 2007-01-04 | Yun-Hsiu Lee | Mini SD card adapter |
Also Published As
Publication number | Publication date |
---|---|
TWM300918U (en) | 2006-11-11 |
US7288004B1 (en) | 2007-10-30 |
JP3129844U (en) | 2007-03-08 |
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