CN103971712A - Storage device - Google Patents

Abstract

The invention provides a storage device which comprises a load-bearing member, a storage unit and a shell. The shell is provided with a bottom plate, a top plate and a main combining structure, the load-bearing is provided with an interference portion and an auxiliary combining structure, the storage unit is provided with a body, a limiting portion and a terminal set, the body is provided with a first surface and a second surface which are opposite, part of the terminal set and the limiting portion are positioned on the first surface, the storage unit and the interference device are placed in the shell, the interference portion is positioned between the top plate and the limiting portion, the interference portion provides an interference force to the limiting portion, the bottom plate provides a supporting force to the second surface to fix the storage in the shell, and the main combining structure is combined with the auxiliary combining structure to enable the load-bearing member and the shell to be separably combined with each other.

Description

Memory storage

Technical field

The invention relates to a kind of memory storage.

Background technology

Along with the development of multimedia technology, it is more and more large that the digital archives of made becomes.Although traditional 1.44MB diskette is easy to carry, its capacity cannot meet current demand.In addition, though the hard disc of traditional magnetic disk structural formula can provide jumbo storage space, because its volume is compared with causing user to carry inconvenience greatly.Because re-writeable nonvolatile memory has that data are non-volatile, the little characteristic with machinery-free structure etc. of power saving, volume, be applicable to portable use, the most applicable use is on the portable battery-powered product of this class.Portable disk be exactly a kind of using with the memory storage of non-NAND type flash memory (Flash Memory) as medium.

In general, Portable disk can comprise circuit board, electronic component and several flexible terminals and metallic conduction sheet (also referred to as connector or connecting interface) in order to be connected with main frame.Although by the microminiaturization of circuit board, can appropriateness is dwindled the volume of Portable disk, but for fear of the size of the metal shell of connector, the further microminiaturization of Portable disk has sizable degree of difficulty.

For instance, along with existing connection and transmission standard are from USB (universal serial bus) 1.0/1.1 (UniversalSerial Bus, USB1.0/1.1) be upgraded to USB (universal serial bus) 2.0 (Universal Serial Bus, USB2.0), then be upgraded to again USB (universal serial bus) 3.0 (Universal Serial Bus, USB3.0), it has increased extra pin along with specification change.Accordingly, how to dwindle the volume of Portable disk and have the structural strength of Portable disk simultaneously concurrently, just become those skilled in the art to be for this reason devoted to the problem solving.

Summary of the invention

The invention provides a kind of memory storage, it has preferably structural strength.

Memory storage of the present invention comprises bearing part, storage unit and housing.Housing has base plate, top board and main integrated structure; Bearing part has interference part and secondary integrated structure; Storage unit has body, limiting unit and terminal group, body has relative first surface and second surface, the part of terminal group and restriction site are in first surface, storage unit and interference part are seated in housing, and interference part is between top board and limiting unit, and interference part provides interfering edge in limiting unit, and base plate provides support power in second surface, with static memory cell, in housing, main integrated structure is incorporated into secondary integrated structure, so that bearing part and housing mutually combine separably.

In one example of the present invention embodiment, above-mentioned interference part has the 3rd relative surface and the 4th surface.Top board is in the face of the 3rd surface, and limiting unit protrudes from first surface and faces the 4th surface.

In one example of the present invention embodiment, above-mentioned secondary integrated structure comprises the first joint portion, or a pair of the 4th joint portion, or the first joint portion and this is to the 4th joint portion.The first binding site is in the 3rd surface.The 4th binding site is in the relative both sides of interference part.Main integrated structure comprises the second joint portion, or a pair of the 3rd joint portion, or the second joint portion and this is to the 3rd joint portion.The second binding site is in top board.The 3rd binding site is in the pair of side plates of housing.Each side plate is connected between top board and base plate.The first joint portion is in order to be bonded to the second joint portion, and this to the 4th joint portion in order to be bonded to this to the 3rd joint portion.

In one example of the present invention embodiment, the first above-mentioned joint portion is one of them of fastener and catching groove, and the second joint portion is wherein another of fastener and catching groove.

In one example of the present invention embodiment, above-mentioned interference part also has at least one the first protuberance, is positioned on the 4th surface.Limiting unit also has multiple spacer blocks.The first protuberance abuts against between two adjacent spacer blocks accordingly.

In one example of the present invention embodiment, above-mentioned interference part also has at least one the second protuberance, is positioned on the 4th surface.The second protuberance is adjacent to a side of body.

In one example of the present invention embodiment, above-mentioned bearing part comprises plate body, and plate body has loading end.Extend from plate body interference part.Ontological distinction is Part I and the Part II of common first surface.Terminal group and restriction site are positioned at housing in Part I and with Part I.Part II is from Part I extends housing and be adjacent to loading end.

In one example of the present invention embodiment, between above-mentioned interference part and plate body, there is drop.

In one example of the present invention embodiment, extend above-mentioned interference part and the 4th joint portion respectively slave plate body, and interference part is between the 4th joint portion.In interference part is seated in housing time, the outer distance of the 4th joint portion is greatly in the outer distance of side plate.

In one example of the present invention embodiment, the 3rd above-mentioned joint portion is a cross-notching, and the part of the 4th joint portion is embedded in fluting.

In one example of the present invention embodiment, the 3rd above-mentioned joint portion is a contacting piece or a pair of catching groove, and the 4th joint portion is a pair of catching groove and a contacting piece.

In one example of the present invention embodiment, above-mentioned terminal group is the transmission interface of four line differential transfer.

In one example of the present invention embodiment, above-mentioned terminal group also comprises the transmission interface of two line differential transfer.

In one example of the present invention embodiment, above-mentioned terminal group is USB3.0 terminal group.

In one example of the present invention embodiment, above-mentioned storage unit is system in package (system inpackage, SIP) structure.

Based on above-mentioned, in the time that interference part and storage unit are placed in housing, the limiting unit interfering edge of storage unit is provided by interference part, and the base plate that adds upper shell provides storage unit anchorage force, thereby be able to storage unit to be positioned in housing, and make interference part between limiting unit and the top board of housing, so that housing, bearing part and storage unit combine in mutual stacked mode, thereby can improve the structural strength of memory storage.Meanwhile, the also therefore conduct and the basic structure of various shell assembling the effect that provides user to grip of part outside housing is provided bearing part.

For above-mentioned feature and advantage of the present invention can be become apparent, special embodiment below, and coordinate accompanying drawing to be described in detail below.

Brief description of the drawings

Fig. 1 is the schematic diagram of a kind of memory storage of the present invention's one exemplary embodiment;

Fig. 2 and Fig. 3 are respectively that the memory storage of Fig. 1 is at the explosive view of different visual angles;

Fig. 4 is the sectional view of the memory storage of Fig. 1;

Fig. 5 is the partial enlarged drawing of the memory storage of Fig. 1;

Fig. 6 is the upward view of the memory storage of Fig. 1;

Fig. 7 is the explosive view of a kind of memory storage of another exemplary embodiment of the present invention;

Fig. 8 is the explosive view of a kind of memory storage of the another exemplary embodiment of the present invention;

Fig. 9 and Figure 10 are that a kind of memory storage of another exemplary embodiment of the present invention is at the explosive view of different visual angles;

Figure 11 is the memory storage of Fig. 9 sectional view after combination.

Description of reference numerals:

100,400: memory storage;

110,210,310,410: bearing part;

112,412: plate body;

114,214: interference part;

114a, 314a: the first joint portion;

114b: the first protuberance;

114c: the second protuberance;

116A, 116B, 216A: the 4th joint portion;

120,420: storage unit;

122,422: terminal group;

124,424: body;

126,426: limiting unit;

126a: spacer block;

130,230,330,430: housing;

132: base plate;

134,334: top board;

134a, 334a: the second joint portion;

136A, 136B, 236A, 236B: side plate;

136A1,236A1: the 3rd joint portion;

138: stopper section;

412a: loading end;

412b: guidance part;

412c: stopper section;

414: groove;

424a: Part I;

424b: Part II;

424c: the 3rd protuberance;

C1, C2, C3: hollow bulb;

D1, D2: outer distance;

S1, S7: first surface;

S2: second surface;

S3, S6: the 3rd surface;

S4: the 4th surface;

S5: side.

Embodiment

Fig. 1 is the schematic diagram of a kind of memory storage of the present invention's one exemplary embodiment.Fig. 2 and Fig. 3 are respectively that the memory storage of Fig. 1 is at the explosive view of different visual angles.Fig. 4 is the sectional view of the memory storage of Fig. 1.Please also refer to Fig. 1 to Fig. 4, in this exemplary embodiment, memory storage 100 is for example the carry-on disc structure with USB3.0 specification, it comprises bearing part 110, storage unit 120 and housing 130, wherein storage unit 120 is made with SIP, in a wafer packaging body, comprise multiple wafers or a wafer, add passive element, electric capacity, resistance, connector, antenna ... wait encapsulation more than arbitrary element.And storage unit 120 has the transmission interface that utilizes four line differential transfer, for example, it is the terminal group 122 (as shown in Figure 2, only indicating one of them terminal as representative at this) that meets USB3.0 specification.This transmission interface can comprise the transmission terminal of 5 USB3.0, and a transmission terminal in order to electrical ties housing 130, in another exemplary embodiment, also can comprise the transmission interface of compatible one or two line differential transfer downwards again, for example, be the transmission terminal of USB2.0.

Say further, the data transfer mode of USB2.0 (or compatible with it), it is the Double-strand transmission that is labeled as respectively D+ and D-, to offset the electromagnetic interference (EMI) of long lead, it uses differential wave the collaborative work of half-duplex (half-duplex), i.e. two line differential transfer.But, because " transmission " and " reception " are to share frequency range, can only have at one time the signal of a direction to flow (transmit or receive), so the performance of restriction overall performance.Therefore, possesses the terminal group 122 of USB3.0 specification, except the D+ that comprises above-mentioned USB2.0 and D-terminal, also comprise 4 data line TX+, TX-, RX+ and RX-, the differential wave that wherein TX+ and TX-are independent transmitted signal is to (differential pair), and RX+ and RX-are the independent differential wave pair that receives signal.Accordingly, in the time that electronic installation is connected with memory storage 100 whereby, can be used for transmitted signal with TX+ and TX-, RX+ and RX-form the state of four line transmission for receiving signal, and can realize two-way signaling transmission simultaneously, also be referred to as single channel duplex (full duplex, full-duplex) pattern.

In addition,, in this exemplary embodiment, bearing part 110 can comprise plate body 112 and the interference part 114 of extending from plate body 112.Housing 130 is for example the metallic iron housing that forms or formed by a plurality of elements combinations with panel-bending, in order to the docking structure with other electronic installation (not shown) as memory storage 100.In this exemplary embodiment, interference part 114 can partially or even wholly lay or be entrenched in housing 130 with storage unit 120, and interference part 114 is put or abutted against between storage unit 120 and housing 130.

Say further, in the present invention's one exemplary embodiment, housing 130 has base plate 132, top board 134 and pair of side plates 136A, 136B.Each side plate 136A or 136B are connected between base plate 132 and top board 134, and cross hollow bulb C1 so that storage unit 120 and interference part 114 are placed in wherein.Moreover storage unit 120 also has body 124 and limiting unit 126, wherein body 124 has relative first surface S1 and second surface S2.Limiting unit 126 is in order to coordinate that with interference part 114 body 124 is limited to a fixed position, and it can protrude from first surface S1.The part of terminal group 122 can be exposed to the first surface S1 of body 124.Second surface S2 is in abutting connection with the base plate 132 of housing 130, and interference part 114 can in abutting connection with or be inserted between limiting unit 126 and top board 134.

As mentioned above, the part of terminal group 122 and limiting unit 126 are positioned at first surface S1, and storage unit 120 is seated in housing 130 with interference part 114, and interference part 114 is between top board 134 and limiting unit 126, wherein interference part 114 provides interfering edge in limiting unit 126 directly or indirectly, and base plate 132 provides support power directly or indirectly in the second surface S2 of body 124, so as to static memory cell 120 in housing 130.This exemplary embodiment is to be directly adjacent to limiting unit 126 with interference part 114, and in another unshowned exemplary embodiment, user can outer shimming in this stacked structure, to allow the interference part be indirectly to provide interfering edge in limiting unit.

It is worth mentioning that in addition, housing 130 has main integrated structure, and bearing part 110 has secondary integrated structure, corresponding to main integrated structure, so that bearing part 110 mutually combines separably with housing 130.Say further, interference part 114 has the first joint portion 114a and the 3rd surperficial S3 respect to one another, the 4th surperficial S4.The top board 134 of housing 130 has the second joint portion 134a, and wherein the 4th surperficial S4 faces and be adjacent to the limiting unit 126 of storage unit 120.In this exemplary embodiment, the first joint portion 114a is positioned at the 3rd surperficial S3 and is a catching groove, and the second joint portion 134a is a fastener, for example, be top board 134 punching presses to be formed towards one of hollow bulb C1 extension to compress tongue piece.Accordingly, when bearing part 110 is after the forward and housing 130 combinations of Y-axis, fastener can be adjacent in catching groove accordingly, thereby bearing part 110 and the fixed effect of housing 130 along Y-axis are provided, above-mentioned the first joint portion 114a and the second joint portion 134a are difficult for separating from housing 130 along the negative sense of Y-axis because its architectural feature makes the interference part 114 of bearing part 110.Do not limit the combination pattern of the first joint portion 114a and the second joint portion 134a at this, also in another unshowned embodiment, the first joint portion also can be a fastener, and the second joint portion also can be a catching groove.Similarly, existing in order to reach the relevant engagement means of member in conjunction with effect, for example buckle, plug together ... etc., all applicable to this.

Based on above-mentioned, bearing part 110 is pressed between top board 134 and the limiting unit 126 of storage unit 120 by its interference part 114, thereby cause housing 130, storage unit 120 and bearing part 110 effect of local stacked and mutual clamping each other, to allow three be interfixed along Z axis, simultaneously also therefore stacked structure and improve the structural strength of memory storage 100.Moreover bearing part 110 is positioned at part outside housing 130 and thereby is able to the effect of being combined and providing user to grip with various shell under the profile prerequisite that meets related specifications.

Fig. 5 is the partial enlarged drawing of the memory storage of Fig. 1, at this, housing 130 transparences (shown in broken lines) can be known to the marriage relation between identification storage unit 120 and interference part 114.Please also refer to Fig. 2, Fig. 3 and Fig. 5, in bearing part 110 of the present invention, interference part 114 also has at least one the first protuberance 114b (at shown in this exemplary embodiment 3, but not as limit), be positioned on the 4th surperficial S4 and arrange along X-axis, and the limiting unit 126 of storage unit 120 has multiple spacer block 126a, it is also along X-axis arrangement and between adjacent both ends of terminal group 122, as shown in Figure 2, spacer block 126a is in fact between these terminals that belong to USB3.0.When bearing part 110 and storage unit 120 are entrenched in housing 130 when interior simultaneously, the first protuberance 114b can abut against between two adjacent spacer block 126a accordingly, allows the effect of bearing part 110 and storage unit 120 mutual contrapositions to reach.

In addition, refer again to Fig. 3 and Fig. 4, the interference part 114 of bearing part 110 also has at least one the second protuberance 114c (at shown in this exemplary embodiment 2, but not as limit), for example, be the fin being positioned on the 4th surperficial S4.When bearing part 110 and storage unit 120 are entrenched in housing 130 when interior simultaneously, the second protuberance 114c can be adjacent to the side S5 of body 124, to allow storage unit 120 be clamped between the second protuberance 114c and the stopper section 138 of housing 130 along Y-axis.

On the other hand, Fig. 6 is the upward view of the memory storage of Fig. 1.Please also refer to Fig. 3 and Fig. 6, in this exemplary embodiment, the main integrated structure of housing 130 also comprises that the 3rd joint portion 136A1 being arranged on side plate 136A (only demonstrates a wherein side at Fig. 3, the side plate 136B of opposite side can also have same structure), and it is fluting, and the secondary integrated structure of bearing part 110 also comprises a pair of the 4th joint portion 116A, 116B, it is for example a pair of press strip extending from plate body 112, its direction along X-axis and be positioned at the relative both sides of interference part 114, also be the orthogonal projection of interference part 114 on X-Y plane, to be positioned at this to the 4th joint portion 116A, between the orthogonal projection of 116B on X-Y plane.Moreover, in the time that bearing part 110 is embedded in housing 130, this part to the 4th joint portion 116A, 116B is chimeric to the 3rd joint portion 136A1, using the auxiliary connecting structure as between bearing part 110 and housing 130, and after both combinations, this outer distance D1 to the 4th joint portion 116A, 116B is greater than this outer distance D2 to side plate 136A, 136B, to allow memory storage 100 can meet the related specifications of apparent size.The pattern of main integrated structure and secondary integrated structure and quantity in this does not limit the present embodiment, in another unshowned embodiment, main integrated structure can only comprise the second joint portion or a pair of the 3rd joint portion, and secondary integrated structure also can only comprise the first joint portion or a pair of the 4th joint portion.In other words, above-mentioned the first joint portion corresponding to each other, the second joint portion, or the 3rd joint portion corresponding to each other, the 4th joint portion, all can provide between bearing part 110 and housing 130 independently in conjunction with effect.

Fig. 7 is the explosive view of a kind of memory storage of another exemplary embodiment of the present invention.Please refer to Fig. 7, different from above-mentioned exemplary embodiment, the side plate 236A of housing 230 has the 3rd joint portion 236A1 (opposite side is also same, not shown at this), it is a fastener, for example, be the tongue piece that compresses extending to hollow bulb C2 forming after side plate 236A punching press.Accordingly, bearing part 210 has a pair of the 4th joint portion 216A (corresponding person with side plate 236A being only shown at this), and it is the catching groove that is formed on 214 relative both sides, interference part.Accordingly, when bearing part 210 and housing 230 in conjunction with after, the 3rd joint portion 236A1 buckle and abutting against in the 4th joint portion 216A accordingly, so that bearing part 210 and housing 230 reach the effect fixing along Y-axis.

On the other hand, between the 4th joint portion 116A, the 116B (with reference to figure 3) of the present embodiment and interference part 214, there is gap, thereby after bearing part 210 and housing 230 combinations, side plate 236A, the 236B of housing 230 can be entrenched in respectively in the gap between the 4th joint portion 116A, 116B and interference part 214, the effect that can provide equally bearing part 210 and housing 23 to mutually combine.Similarly, the 3rd joint portion of the present embodiment and the 4th joint portion also can provide respectively the bearing part 210 combination effect with housing 23 independently, and simultaneously also can with the use of mutually arranging in pairs or groups of the joint portion of above-described embodiment.

Fig. 8 is the explosive view of a kind of memory storage of the another exemplary embodiment of the present invention.Different from above-described embodiment is, the first joint portion 314a is the fastener being positioned on the 3rd surperficial S6, and the second joint portion 334a is a catching groove that is positioned at top board 334 places of housing 330, similar with the exemplary embodiment of Fig. 2, the first joint portion 314 effect that can combination after provide bearing part 310 difficult negative sense along Y-axis and from housing 330 separate same with the second joint portion 334a.

Fig. 9 and Figure 10 are that a kind of memory storage of another exemplary embodiment of the present invention is at the explosive view of different visual angles.Figure 11 is the memory storage of Fig. 9 sectional view after combination.Please also refer to Fig. 9 to Figure 11, different from above-mentioned exemplary embodiment is, the plate body 412 of bearing part 410 has loading end 412a and is positioned at loading end 412a other guidance part 412b and stopper section 412c, and the body 424 of storage unit 420 is divided into Part I 424a and the Part II 424b of common first surface S7, wherein terminal group 422 and limiting unit 426 are positioned at Part I 424a and are located on the hollow bulb C3 of housing 430 with Part I 424a.It should be noted that the Part II 424b of body 424 is from Part I 424a extends housing 430, and guiding by guidance part 412b and stopper section 412c and limit effect are adjacent to the loading end 412 of plate body 412.

Say further, the storage unit 420 of this exemplary embodiment there is the Part II 424b that is positioned at outside housing 430 and as with the stacked structure of the plate body 412 of bearing part 410, and then can make the overlapping part of bearing part 410 and storage unit 420 increase, to improve the structural strength of memory storage 400.Moreover the body 424 of storage unit 420 also has the 3rd protuberance 424c that is positioned at Part II 424b, it abuts against bearing part 410 and is positioned at the groove 414 on plate body 412 and makes bearing part 410 and storage unit 420 adjoin each other and fix along Z axis.

In sum, in above-mentioned exemplary embodiment of the present invention, bearing part is laid between storage unit and housing with its interference part, to provide directly or indirectly interfering edge in the limiting unit of storage unit by interference part, and the base plate that adds upper shell provides storage unit anchorage force directly or indirectly, thereby be able to storage unit to be positioned in housing, and make interference part between limiting unit and the top board of housing, and then improve the structural strength of memory storage, and improve fiduciary level and the durability of memory storage.Meanwhile, the also therefore conduct and the basic structure of various shell assembling and then the effect that provides user to grip of part outside housing is provided bearing part.

In addition, memory storage is also by the main integrated structure of housing and the mutual corresponding combination of the secondary integrated structure of bearing part, allows the easy dismounting of bearing part and housing, is beneficial to assemble or keep in repair.

Finally it should be noted that: above each embodiment, only in order to technical scheme of the present invention to be described, is not intended to limit; Although the present invention is had been described in detail with reference to aforementioned each embodiment, those of ordinary skill in the art is to be understood that: its technical scheme that still can record aforementioned each embodiment is modified, or some or all of technical characterictic is wherein equal to replacement; And these amendments or replacement do not make the essence of appropriate technical solution depart from the scope of various embodiments of the present invention technical scheme.

Claims (15)

1. a memory storage, is characterized in that, comprising:

One housing, has a base plate, a top board and a main integrated structure;

One bearing part, has an interference part and a secondary integrated structure; And

One storage unit, there is a body, one limiting unit and a terminal group, this body has a relative first surface and a second surface, the part of this terminal group and this restriction site are in this first surface, this storage unit and this interference part are seated in this housing, and this interference part is between this top board and this limiting unit, wherein this interference part provides an interfering edge in this limiting unit, and this base plate provides an anchorage force in this second surface, to fix this storage unit in this housing, and this main integrated structure is incorporated into this pair integrated structure, so that this bearing part and this housing mutually combine separably.

2. memory storage according to claim 1, is characterized in that, this interference part has one the 3rd relative surface and one the 4th surface, and this top board is in the face of the 3rd surface, and this limiting unit protrudes from this first surface and faces the 4th surface.

3. memory storage according to claim 2, it is characterized in that, this pair integrated structure comprises one first joint portion, or a pair of the 4th joint portion, or this first joint portion and this is to the 4th joint portion, this first binding site is in the 3rd surface, this to the 4th binding site in the relative both sides of this interference part, and this main integrated structure comprises one second joint portion, or a pair of the 3rd joint portion, or this second joint portion and this is to the 3rd joint portion, this second binding site is in top board, this to the 3rd binding site in the pair of side plates of this housing, and respectively this side plate is connected between this top board and this base plate, wherein this first joint portion is in order to be bonded to this second joint portion, and this to the 4th joint portion in order to be bonded to this to the 3rd joint portion.

4. memory storage according to claim 3, is characterized in that, this first joint portion is one of them of a fastener and a catching groove, and this second joint portion is wherein another of this fastener and this catching groove.

5. memory storage according to claim 3, is characterized in that, this interference part also has at least one the first protuberance, be positioned at the 4th surface upper, and this limiting unit has multiple spacer blocks, and this first protuberance abuts against between two adjacent spacer blocks accordingly.

6. according to the memory storage described in claim 3, it is characterized in that, this interference part also has at least one the second protuberance, is positioned at the 4th surface upper, and this second protuberance is adjacent to a side of this body.

7. memory storage according to claim 3, it is characterized in that, this bearing part comprises a plate body, this plate body has a loading end, and extend from this plate body this interference part, and the Part I that this ontological distinction is common first surface and a Part II, this terminal group and this restriction site are positioned at this housing in this Part I and with this Part I, and this Part II is from this Part I extends this housing and be adjacent to this loading end.

8. memory storage according to claim 7, is characterized in that, between this interference part and this plate body, has a drop.

9. memory storage according to claim 7, it is characterized in that, this interference part and this extend from this plate body respectively the 4th joint portion, and this interference part is between this is to the 4th joint portion, in this interference part is seated in this housing time, this outer distance to the 4th joint portion is greater than this outer distance to side plate.

10. memory storage according to claim 3, is characterized in that, this is a cross-notching to the 3rd joint portion, and this part to the 4th joint portion is embedded in this cross-notching.

11. memory storages according to claim 3, is characterized in that, this is a contacting piece or a pair of catching groove to the 3rd joint portion, and this is a pair of catching groove and a contacting piece to the 4th joint portion.

12. memory storages according to claim 1, is characterized in that, this terminal group is the transmission interface of four line differential transfer.

13. memory storages according to claim 12, is characterized in that, this terminal group also comprises the transmission interface of two line differential transfer.

14. memory storages according to claim 13, is characterized in that, this terminal group is general-purpose serial bus USB 3.0 terminal group.

15. memory storages according to claim 1, is characterized in that, this storage unit is system in package SIP structure.