JP3941396B2 - Connection structure, memory card and memory card mounting device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a memory card connection structure in which information signals are written or read by being mounted on a mounting device, a memory card, a mounting device to which the memory card is mounted, and an information signal writing or reading system.
[0002]
[Prior art]
A memory card that incorporates a memory chip and stores information signals in the memory chip includes an external connection terminal that serves as an electrical contact with an external system. The memory card is supplied with power via an external connection terminal, and information signals are input / output to / from an internal memory chip via the external connection terminal.
[0003]
Since the external connection terminal provided on the memory card is electrically connected to the internal memory chip, it is necessary to easily prevent foreign objects such as fingers from coming into contact with the memory card. That is, when a foreign object directly touches the external connection terminal, static electricity is generated, and this static electricity may be transmitted from the external connection terminal to the memory chip, thereby destroying the memory chip. Therefore, it is necessary to take measures against static electricity so that the external connection terminals do not easily come into contact with foreign matter.
[0004]
In addition, the memory card is characterized by having portability, and downsizing is being promoted in consideration of the convenience of carrying. With the miniaturization of memory cards, the external connection terminals are also becoming narrower and the pitch is narrower. When the external connection terminal is thin and thus has a narrow pitch, there is a possibility that the external connection terminal can be easily displaced and damaged by lightly touching the foreign matter.
[0005]
Therefore, in this type of memory card, an external connection terminal is embedded in the card body, a small hole is provided in the card body to communicate with the external connection terminal, and the external connection terminal is connected to the outside through this hole. Or a concave part on the front end side of the card body in the card insertion direction, and an external connection terminal is arranged on the bottom of the concave part to protect the external connection terminal. Has been proposed.
[0006]
[Problems to be solved by the invention]
A memory card in which a small hole is provided in the card body so that the external connection terminal faces the outside cannot be easily removed if dust or the like enters the hole. If the mounting device is mounted with dust or the like clogged in the hole, reliable electrical connection with the mounting device may be hindered, and the connection terminal of the mounting device may be deformed. In addition, this type of memory card has a complicated structure and is difficult to manufacture.
[0007]
In order to prevent the structure from becoming complicated, there has been proposed a memory card in which a concave portion is formed in a card body and an external connection terminal is disposed in the concave portion. In this memory card, depending on the shape of the concave portion, the protection of the external connection terminal may be incomplete, and dust or the like tends to accumulate in the corner of the concave portion, which may hinder reliable connection with the mounting device. There has also been proposed a memory card in which a notch for preventing erroneous insertion into a mounting device is formed at one vertex of a substantially rectangular card body. The design of this memory card could not be changed by chamfering or rounding the remaining three vertices except for the notches.
[0008]
Therefore, the present invention can protect the external connection terminals with a simple structure, and can surely protect the memory chip built in the card body, and the apex has various shapes. An object of the present invention is to provide a memory card that can be used.
[0009]
A further object of the present invention is to provide a mounting device to which the memory card is mounted and a system for writing or reading information signals using the memory card.
[0010]
[Means for Solving the Problems]
In order to achieve the above-described object, the present invention provides a connection structure provided in a card body having a substantially rectangular planar shape, and includes a plurality of external connection terminals arranged in parallel along the insertion direction of the card body. The external connection terminal includes a voltage supply terminal (Vss), a status terminal (State), a digital signal transfer terminal (DIO) provided at the most end position of the card body, and a synchronization signal input. A terminal (SCLK), the voltage supply terminal (Vss) provided at the center position among these external connection terminals, an internal connection terminal (INT) connected inside the card body, and a plurality of reserve terminals ( Re) and have the above plurality of the reserve terminals (Re), by using as signal input or output terminals, together with the digital signal terminal for the transfer (DIO) para To allow the connection by Le interface between any of the terminals of the digital signal terminals for the transfer (DIO) and the plurality of the reserve terminals (Re), the internal connecting terminal (INT) is arranged It is characterized by.
[0011]
Here, a terminal arranged between the digital signal transfer terminal (DIO) and the reserve terminal is a synchronization signal input terminal (SCLK) .
A terminal arranged between the digital signal transfer terminal (DIO) and the reserve terminal is a synchronization signal input terminal (SCLK) .
[0012]
The present invention is also a memory card, comprising a plurality of external connection terminals arranged in parallel along the insertion direction of the card body having a substantially rectangular planar shape, wherein the external connection terminals are the card A voltage supply terminal (Vss), a status terminal (State), a digital signal transfer terminal (DIO), a synchronization signal input terminal (SCLK), and these external connection terminals provided at the most end position of the main body has an internal connection terminal provided at the center of the side positions the voltage supply terminal and (Vss) are connected in the above card body in (INT), and a plurality of the reserve terminals (Re), of the plurality reserve terminals (Re), by using as signal input or output terminals, variable connection by parallel interface in conjunction with the digital signal terminal for the transfer (DIO) And then, between any of the terminals of the digital signal terminals for the transfer (DIO) and the plurality of the reserve terminals (Re), the internal connecting terminal (INT) is arranged.
[0013]
Furthermore, the present invention is a mounting device in which a memory card is mounted by being connected via an external connection terminal provided on a card body having a substantially rectangular planar shape, and the memory card has a substantially rectangular planar shape. A plurality of external connection terminals arranged in parallel along the insertion direction of the card body, the external connection terminals being connected to a voltage supply terminal (Vss) provided at the endmost side of the card body; , A status terminal (State), a digital signal transfer terminal (DIO), a synchronization signal input terminal (SCLK), the voltage supply terminal (Vss) provided at the center side position among these external connection terminals, and the above internal connection terminals which are connected in the card body (INT), and a plurality of the reserve terminals (Re), the plurality of the reserve terminals (Re), the signal input or output terminals By and use, to allow a connection by parallel interface in conjunction with the digital signal terminal for the transfer (DIO), the digital signal terminal for the transfer (DIO) and among the plurality of the reserve terminals (Re) The internal connection terminal (INT) is arranged between any of the terminals .
[0014]
Furthermore, the present invention is an information signal writing or reading system in which a memory card is mounted by being connected via an external connection terminal provided on a card body having a substantially rectangular planar shape. A plurality of external connection terminals arranged in parallel along the insertion direction of the card body having a substantially rectangular plane shape, the external connection terminals being a voltage provided at the endmost position of the card body; Supply terminal (Vss), status terminal (State), digital signal transfer terminal (DIO), synchronization signal input terminal (SCLK), and the above-mentioned voltage supply provided at the central position among these external connection terminals a terminal (Vss) and connected in the interior of the card body internal connection terminal (INT), and a plurality of the reserve terminals (Re), the plurality of the reserve terminals ( e), by using as signal input or output terminals, the digital signal in conjunction transfer terminal and (DIO) to allow the connection by parallel interface, the terminal (DIO) for the digital signal transfer The internal connection terminal (INT) is arranged between any one of the plurality of reserve terminals (Re) .
[0022]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, a memory card and a mounting apparatus using the memory card according to the present invention will be described in detail with reference to the drawings.
[0023]
A memory card 1 according to the present invention is a storage medium that is mounted on a mounting device of an external system such as a computer or an audio device and in which information signals are written or read, and as shown in FIG. In addition, a plurality of memory chips 3 for storing information signals and a control integrated circuit 4 for controlling writing of information signals to the memory chips 3 or reading of information signals from the memory chips 3 are incorporated.
[0024]
As shown in FIG. 2, the memory card 1 is electrically connected to a connection terminal of the mounting device when supplied to the mounting device, supplies power to the control integrated circuit 4, and also provides information signals and various kinds of information. An external connection terminal 5 for transmitting a control signal is provided. The memory card 1 shown here employs a serial interface and is provided with nine external connection terminals 5.
[0025]
The card body 2 is formed in a thin card shape whose planar shape is rectangular with, for example, a synthetic resin. The memory card 1 of this example employs a serial interface and is provided with nine external connection terminals 5, thereby reducing the size of the card body 2. As shown in FIG. The length L1 is set to ½ or less of the length L2 in the long side direction.
[0026]
An erroneous erasure preventing member 6 is attached to the rear end of the card body 2 in the insertion direction with respect to the mounting device in the direction of arrow A in FIGS. The erroneous erasure prevention member 6 is engaged with an erroneous erasure prevention switch (not shown) housed in the card body 2 and is slid in a direction orthogonal to the insertion direction of the card body 2, thereby Switch ON / OFF. In addition, on one side surface parallel to the insertion direction of the card body 2 into the mounting device, an arc shape for preventing the memory card 1 from dropping from the mounting device when the memory card 1 is mounted in the mounting device. The locking notch 7 is formed. When the memory card 1 is mounted on the mounting device, the locking cutout portion 7 is engaged with a locking projection of the mounting device (not shown) to prevent the memory card 1 from falling off.
[0027]
As shown in FIG. 2, a cutout portion 8 that is cut obliquely with respect to the insertion direction is formed at one side end portion of the card body 2 on the front end side in the insertion direction. The notch 8 functions as an erroneous insertion prevention unit that prevents erroneous insertion when the memory card 1 is mounted on the mounting device.
[0028]
Further, a concave portion 9 is formed on the front end side in the insertion direction of the card body 2 as shown in FIG. The concave portion 9 is formed with a predetermined step from the upper surface on the front end side in the insertion direction of the card body 2, so that it is surrounded by the three wall surfaces and the bottom surface, and the upper surface of the card body 2 from the front end in the insertion direction of the card body 2. It is the shape which opened over. As shown in FIG. 5, the wall surface 9 a parallel to the front end side opening of the concave portion 9 is an inclined surface inclined at a predetermined elevation angle from the bottom surface 9 b of the concave portion 9.
[0029]
The memory card 1 thus has a wall surface 9a parallel to the opening on the front end side of the concave portion 9 as an inclined surface, so that dust or the like in the concave portion 9 can be removed from the inclined surface when the memory card 1 is attached to the mounting device. Can be easily discharged to the outside.
[0030]
As shown in FIG. 2, a plurality of external connection terminals 5 that are connected to connection terminals of the mounting device when the card body 2 is mounted to the mounting device are arranged in the concave portion 9. These external connection terminals 5 are formed by stamping a thin metal plate or part of a wiring pattern formed on the printed circuit board, and are formed on the bottom surface 9b of the concave portion 9 along the insertion direction of the card body 2. It is provided so that it may be mounted in parallel and exposed to the outside.
[0031]
As described above, the memory card 1 of this example employs a serial interface, so that the number of external connection terminals 5 is nine. In other words, the memory card 1 has nine external connections including a digital signal input / output terminal, a synchronization signal input terminal, a status signal input terminal, four voltage supply terminals, and two reserve terminals in the concave portion 9. A terminal 5 is disposed.
[0032]
As shown in FIG. 2, a protrusion 10 is provided between the external connection terminals 5 to prevent foreign objects such as fingers from coming into contact with the external connection terminals 5 from outside. Is formed. As shown in FIG. 2, the protrusion 10 is formed from the opening on the front side of the concave portion 9 to the wall surface 9 a parallel thereto so as to divide the region in the concave portion 9 into three equal parts. Three external connection terminals 5 are arranged in each of the three regions of the concave portion 9 divided by the protrusions 10.
[0033]
In the memory card 1, the area in the concave portion 9 is thus divided by the protrusion 10, and the arrangement area of the external connection terminals 5 is subdivided, so that the user can accidentally insert the external connection terminal into the mounting apparatus. The inconvenience of touching the connection terminal 5 is avoided, and the external connection terminal 5 is protected. Moreover, it is desirable that the central external connection terminal 5 among the three external connection terminals 5 respectively disposed in the three regions of the concave portion 9 divided by the protrusions 10 is connected to the ground.
[0034]
The memory card 1 connects the external connection terminal 5 at the center of the three areas to the ground as described above, so that even if the user's fingers may enter the area in the concave portion 9 divided, Touches the external connection terminal 5 connected to the ground, and it is possible to prevent an accident that the memory chip 3 is destroyed due to electrostatic discharge generated upon contact.
[0035]
In addition, as shown in FIG. 4, the memory card 1 is provided with projections 10 corresponding to the number of external connection terminals 5, and external connection terminals are provided in regions within the concave portions 9 divided by the projections 10. 5 may be arranged one by one. The memory card 1 can more reliably prevent contact of foreign matters such as fingers with the external connection terminals 5 by providing the protrusions 10 corresponding to the number of external connection terminals 5 in this way.
[0036]
In the memory card 1 according to the present invention, the number of the external connection terminals 5 may be ten. By setting the number of external connection terminals 5 to ten, the number of reserve terminals can be three. Thus, the memory card 1 having three reserve terminals can be used together with the digital signal input / output terminals described above by using these three reserve terminals as signal input or output terminals, for example. It is possible to perform connection by a parallel interface using four signal input or output terminals.
[0037]
In the above description, the example in which the protruding portion 10 is formed in the concave portion 9 in order to prevent contact with the external connection terminal 5 has been described. However, the memory card 1 according to the present invention is shown in FIG. As shown in FIG. 4, a shutter member 11 that opens and closes to close or open the concave portion 9 is provided. When the shutter member 11 is not mounted on the mounting device, the concave portion 9 is closed by the shutter member 11 so that the external connection terminal You may make it prevent the contact to 5. FIG. In this case, a groove for enabling the shutter member 11 to move from the wall surface 9a parallel to the front opening of the concave portion 9 to the inside of the card body 2 is formed.
[0038]
The shutter member 11 is formed in a rectangular plate shape having an area slightly larger than the opening area of the opening on the upper surface side of the concave portion 9, for example, with synthetic resin, and the memory card 1 is mounted on the front end side of the card body 2. It is attached to be movable along the insertion direction. When the memory card 1 is not attached to the attachment device, the shutter member 11 is urged toward the front end side in the insertion direction of the card body 2 by the spring member 12, and the concave portion is formed so as to close the upper surface side opening of the concave portion 9. 9 is arranged.
[0039]
When the memory card 1 is inserted into the mounting device, the shutter member 11 comes into contact with a sliding protrusion of the mounting device described later. As shown in FIG. 5 (B), the shutter member 11 is moved in the direction of arrow B in FIG. 5 (B) against the urging force of the spring member 12 by the sliding protrusion as the memory card 1 is inserted. And is moved into the groove to open the upper surface side opening of the concave portion 9.
[0040]
When the memory card 1 is not attached to the attachment device, the concave portion 9 is closed by the shutter member 11, so that external contact with the external connection terminal 5 is prevented, and the external connection terminal 5 is protected. Figured.
[0041]
Also in this memory card 1, the wall surface 9a parallel to the front side opening of the concave portion 9 is an inclined surface that is inclined with a predetermined elevation angle from the bottom surface 9b. Furthermore, it is desirable that the front end portion of the shutter member 11 has a similar inclined surface.
[0042]
Thus, when the memory card 1 is mounted on the mounting apparatus by using the wall surface 9a parallel to the front side opening of the concave portion 9 and the front end portion of the shutter member 11 as an inclined surface, the concave portion The dust in 9 can be easily discharged from the inclined surface to the outside.
[0043]
Also in this memory card 1, as shown in FIGS. 6A and 6B, a protrusion 10 may be formed in the concave portion 9 to divide the region in the concave portion 9. As described above, the memory card 1 divides the region in the concave portion 9 by the protrusion 10, so that even when the shutter member 11 is accidentally opened when the memory card 1 is not attached to the attachment device, the memory card 1 is used for external connection. Contact to the terminal 5 is prevented, and the external connection terminal 5 can be more reliably protected. 6A shows a state in which the opening on the upper surface side of the concave portion 9 is closed by the shutter member 11, and FIG. 6B shows the state in which the shutter member 11 opens and the upper surface side of the concave portion 9 is opened. The state which the opening part was open | released is shown.
[0044]
The memory card 1 configured as described above is mounted on a mounting apparatus 20 as shown in FIGS. 7 and 8, and information signals are recorded and reproduced.
[0045]
The mounting device 20 has an opening 21 into which the memory card 1 is inserted on the front side. The mounting device 20 is provided with a mounting recess 22 in which the memory card 1 is mounted from the opening 21 to the inside of the device along the insertion direction of the memory card 1 indicated by an arrow C in FIG. As shown in FIGS. 7 and 8, the mounting recess 22 faces the distal ends of a plurality of connection terminals 23 that are electrically connected to an external system.
[0046]
The connection terminal 23 is formed, for example, by punching and bending a metal plate or the like, and the base end side is embedded and supported in the mounting device 20, and exerts a biasing force in the direction of pressing the external connection terminal 5 of the mounted memory card 1. It is comprised as a leaf spring having. As shown in FIG. 7, a contact portion 23 a that contacts the external connection terminal 3 of the memory card 1 is bent and formed on the tip side of the connection terminal 23 that protrudes into the mounting recess 22. A plurality of connection terminals 23 are provided corresponding to the number of external connection terminals 5 of the memory card 1. In the mounting apparatus 20 of this example, nine connection terminals 23 are disposed in the mounting recesses 22 corresponding to the nine external connection terminals 5.
[0047]
As shown in FIGS. 7 and 8, the memory card 1 is inserted in front of the connection terminal 23 arranged in the mounting recess 22, that is, on the proximal end side in the insertion direction of the memory card 1. A sliding protrusion 24 is provided which slides on the external connection terminal 5. A plurality of the sliding protrusions 24 are provided corresponding to the number of the external connection terminals 5 of the memory card 1, similarly to the connection terminals 23, and each is disposed in front of the connection terminals 23. In the mounting apparatus 20 of this example, nine sliding protrusions 24 are provided in front of the connection terminals 23 corresponding to the nine external connection terminals 5. As shown in FIG. 9, when the memory card 1 is inserted into the mounting device 20, the sliding protrusion 24 slides on the external connection terminal 5 of the memory card 1 prior to the connection terminal 23. The sliding protrusion 24 discharges the dust 30 and the like in the concave portion 9 of the memory card 1 from the wall surface 9a of the concave portion 9 of the memory card 1 having an inclined surface to the outside.
[0048]
In the mounting device 20, when the memory card 1 is inserted, the sliding protrusion 24 slides on the external connection terminal 5 of the memory card 1 before the connection terminal 23, and the external connection terminal 5 Since the connection terminal 23 is connected to the external connection terminal 3 after removing the dust and the like, the electrical connection between the connection terminal 23 and the external connection terminal 5 can be ensured.
[0049]
In addition, since the mounting device 20 is provided with a plurality of sliding protrusions 24 corresponding to the external connection terminals 5 of the memory card 1 in front of the connection terminals 23, the region in the concave portion 9 is provided. It can be applied to the memory card 1 divided for each external connection terminal 5 by the protrusion 10, and can also be applied to the memory card 1 in which the region in the concave portion 9 is divided into three equal parts by the protrusion 10. .
[0050]
Further, the mounting device 20 can be applied to the memory card 1 in which the opening on the upper surface side of the concave portion 9 is closed by the shutter member 11 so as to protect the external connection terminal 5. When the memory card 1 provided with the shutter member is inserted, the mounting device 20 has the front side of the sliding projection 24 in contact with the front end of the shutter member 11 as shown in FIG. Accordingly, the shutter member 11 is opened.
[0051]
Further, as shown in FIG. 11, the mounting device 20 is provided with a concave portion 9 on the front end side in the insertion direction of the card body 2 with respect to the mounting device 20, and an external portion is provided in the concave portion 9 without providing a protrusion or a shutter member. Needless to say, the present invention can also be applied to a memory card having a configuration in which only the connection terminals 5 are arranged.
[0052]
Since the mounting device 20 has versatility as described above, it can be used for a wide range of applications without being restricted by the shape of the memory card 1.
[0053]
Incidentally, the memory card according to the present invention may be configured as follows.
[0054]
A plan view showing an example of this memory card is shown in FIG. FIG. 13 is a cross-sectional view of the memory card taken along line X ₁ -X ₂ shown in FIG.
[0055]
The memory card 100 has a substantially rectangular planar shape, and of the four apexes, one apex 101a at the front end of the card insertion direction indicated by the arrow D in FIGS. 12 and 13 and the arrow D in the figure. The apexes 101b and 101c at both ends of the rear end portion in the card insertion direction shown are chamfered larger than the other apex 102 at the front end portion in the insertion direction indicated by arrow D in FIG. In this memory card 100, by detecting the other apex 102 that has not been chamfered, the erroneous insertion when the memory card 100 is inserted into the mounting device is prevented.
[0056]
In the memory card 100, of the four vertices, the other vertex 102 at the front end in the card insertion direction indicated by the arrow D in FIGS. 12 and 13 is not chamfered, and the remaining three vertices 101a, 101b, and 101c are chamfered. For example, it is arcuate. Of the three chamfered vertices, one vertex 101a at the front end of the card insertion direction indicated by arrow D in FIGS. 12 and 13 is the other vertex 101b at both ends of the rear end of the card insertion direction, The chamfer is larger than 101c.
[0057]
The memory card 100 is mounted on a mounting device 103 as shown in FIGS. 14 and 15, and information signals are recorded and reproduced. FIG. 14 is a plan view showing an example of the mounting apparatus 103 according to the present invention, and FIG. 15 is a cross-sectional view taken along line Y1-Y2 of the mounting apparatus 103 shown in FIG. Here, in the drawings used in the following description, there are hatched portions even in plan views in order to clarify the relationship between members.
[0058]
The mounting device 103 is formed inside the device from the opening 104 along the insertion direction of the memory card 100 indicated by an arrow E in FIGS. A mounting recess 105 in which the memory card 100 is mounted, and an erroneous insertion preventing member 106 provided on the inner side of the opening 104 along the insertion direction of the memory card 100 indicated by an arrow E in FIGS. With.
[0059]
The erroneous insertion prevention member 106 has a front surface portion 107 on the opening 104 side and substantially perpendicular to the insertion direction of the memory card 100, and a protrusion 108 formed on one side end side of the front surface portion 107. . The protruding portion 108 is formed with an inclined surface 109 whose thickness and width gradually decrease from the front surface portion 107 toward the opening portion 104. The vertex 102 of the memory card 100 is detected by the inclined surface 109.
[0060]
Further, the erroneous insertion preventing member 106 is pivotally supported by the mounting device 103 and is urged to rotate clockwise in FIG. 15 by the coil spring 110. Further, the erroneous insertion preventing member 106 closes the opening 104 when the mounting apparatus 103 is not used, and prevents dust and the like from entering the mounting apparatus 103.
[0061]
16, 17, and 18 show a state where the memory card 100 is correctly inserted into the mounting device 103. When the memory card 100 is inserted from the opening 104 in the direction of arrow E in FIG. 16, the apex 102 comes into contact with the protrusion 108 provided on the erroneous insertion preventing member 106. Then, as shown in FIG. 17, the upper corner of the apex 102 of the memory card 100 slides on the inclined surface 109 of the protruding portion 108 to push up the erroneous insertion preventing member 106 upward in the drawing. Then, as shown in FIG. 18, the vertex 102 allows the erroneous insertion prevention member 106 to escape and allows the memory card 100 to be inserted into the mounting device 103.
[0062]
On the other hand, FIGS. 19 and 20 show a state where the memory card 100 is inserted in the wrong direction. When the memory card 100 is inserted in the direction of arrow E in the figure, the chamfered vertex 101a does not abut against the protruding portion 108 of the erroneous insertion preventing member 106, and the front end surface of the memory card 100 in the insertion direction is the erroneous insertion preventing member 106. It will contact | abut to the front-surface part 107 of this. Since the front surface portion 107 of the erroneous insertion preventing member 106 is formed substantially perpendicular to the insertion direction of the memory card 100 indicated by an arrow E in the drawing, the front end surface of the memory card 100 is in contact with the protruding portion 108 and is erroneously inserted. The insertion preventing member 106 cannot be pushed up. Therefore, when the memory card 100 is inserted in the wrong direction, the erroneous insertion preventing member 106 cannot be escaped by the apex 101a and cannot be inserted into the mounting device 103 of the memory card 100.
[0063]
19 and 20 show an example in which the memory card 100 is inserted upside down. Similarly, even when the memory card 100 is inserted in the reverse direction, the vertices 101b and 101c are not inserted into the erroneous insertion member 106. And the memory card 100 cannot be inserted into the interior. Therefore, the memory card 100 can be inserted into the mounting apparatus 103 only when the memory card 100 is correctly inserted, and erroneous insertion of the memory card 100 is prevented.
[0064]
From the viewpoint of preventing erroneous insertion, the three vertices 101a, 101b, and 101c of the memory card 100 may be formed so as not to contact the protruding portion 108 of the erroneous insertion preventing member 106, and the planar shape thereof is not limited. For example, as shown in FIG. 21, the vertices 102a, 102b, and 102c can be chamfered to various sizes, and the chamfered shape can also be an arc shape or a straight line shape. be able to.
[0065]
The memory card according to the present invention may be configured as follows.
[0066]
An example of this memory card is shown in FIG. FIG. 23 is a cross-sectional view taken along the line Z ₁ -Z _{2 of the} memory card shown in FIG.
[0067]
The memory card 120 is formed in a substantially rectangular shape as shown in FIG. 22, and a notch 121 is formed at the front end in the insertion direction indicated by the arrow F in FIG. The notch 121 is notched in the thickness direction across the entire width in the short side direction of the memory card 120 at the bottom side of the front end of the memory card 120 in the insertion direction. The cutout part 121 is cut out from the memory card 120 by a plane. By detecting the notch 121, the memory card 120 is prevented from being erroneously inserted when inserted into the mounting device.
[0068]
The memory card 120 configured as described above is mounted on a mounting device 122 as shown in FIGS. 24 and 25, and information signals are recorded and reproduced. 24 is a plan view showing an example of the mounting apparatus 122, and FIG. 25 is a cross-sectional view taken along line W ₁ -W ₂ of the mounting apparatus 122 shown in FIG. This mounting device 122 is formed from the opening 123 into the device along the insertion direction of the memory card 120 indicated by an arrow G in the drawing, and the inside of the device. A mounting recess 124 in which 120 is mounted, and an erroneous insertion preventing member 125 provided inside the opening 123 along the insertion direction of the memory card 120 indicated by an arrow G in the drawing.
[0069]
As shown in FIG. 25, the erroneous insertion preventing member 125 includes a prevention plate 127 having a first surface 126 substantially perpendicular to the insertion direction of the memory card 120 in the direction of arrow G, and an upper end portion of the prevention plate 127. And a protrusion 129 having a second surface 128 that protrudes toward the opening 123 and is substantially parallel to the insertion direction of the memory card 120.
[0070]
Further, the erroneous insertion preventing member 125 is pivotally supported by the mounting device 122 and is urged to rotate clockwise in FIG. 25 by the coil spring 130. Further, the erroneous insertion prevention member 125 closes the opening 123 when the memory card 120 is not attached to the attachment device 122 and prevents the entry of dust or the like into the attachment device 122 when not in use.
[0071]
When the memory card 120 is inserted, the erroneous insertion preventing member 125 rotates about 90 ° counterclockwise in FIG. 25 against the biasing force of the coil spring 130, and the first surface 126 is shown in FIG. Thus, it becomes substantially parallel to the insertion direction of the memory card 120.
[0072]
When the memory card 120 is correctly inserted, that is, when the notch 121 is formed on the bottom surface side of the front end portion of the memory card 120, the slope of the notch 121 causes the protrusion 129 to be formed as shown in FIG. The erroneous insertion preventing member 125 is pushed down by sliding. Then, as shown in FIG. 27, the notch 121 allows the erroneous insertion preventing member 125 to escape, and the memory card 120 can be inserted into the inside.
[0073]
As shown in FIG. 28, when the memory card 120 is inserted in the wrong direction, that is, when the notch 121 is not formed on the bottom surface side of the front end portion of the memory card 120, the front end surface in the insertion direction of the memory card 120 Is in contact with the second surface 128 of the protruding portion. At this time, since the second surface 128 is substantially perpendicular to the insertion direction of the memory card 120 indicated by the arrow G in FIG. 28, the front end surface of the memory card 120 abuts against the protruding portion 129 and the erroneous insertion preventing member. 125 cannot be pushed down. Therefore, when the memory card 120 is inserted in the wrong direction, the memory card 120 cannot be inserted into the mounting device 122 by escaping the erroneous insertion member 125.
[0074]
FIG. 28 shows an example in which the memory card 120 is inserted upside down. However, even when the memory card 120 is inserted in the reverse direction, the erroneous insertion preventing member 125 is similarly escaped to bring the memory card 120 into the inside. Can not be inserted until. Therefore, the memory card 120 can be inserted into the mounting device 122 only when the memory card 120 is correctly inserted, and erroneous insertion of the memory card 120 is prevented.
[0075]
In the memory card 120, since the detection of erroneous insertion is performed in the shape in the thickness direction, the cutout portion 121 may be formed in a size that allows the erroneous insertion preventing member 125 to be pushed down by sliding the protruding portion 129. Therefore, in order to prevent erroneous insertion, the planar shape of the apex of the memory card 120 does not matter. For example, as shown in FIG. 29, the memory card 120 can be chamfered at its apex, and the chamfered shape can be various shapes such as an arc shape and a straight line shape, and a design change can be made.
[0076]
Further, the memory card according to the present invention can be mounted by being inserted into the upper surface of the mounting device, in addition to being mounted by being inserted into the mounting device.
[0077]
An example of this memory card is shown in FIG. 30, a view of the memory card 140 viewed from the H direction in FIG. 30 is shown in FIG. 31, and a view of the memory card 140 viewed from the I direction in FIG. The memory card 140 is formed so that the planar shape is substantially rectangular. In addition, the memory card 140 has notches 143a and 143b for mounting at both end portions of the first side surface 141 in the long side direction. As shown in FIG. 31, notch portions 143c and 143d for mounting are also formed at both end portions of the second side surface 142 parallel to the first side surface.
[0078]
The memory card 140 can be mounted by being fitted into the mounting device 144 by the notches 143a, 143b, 143c, 143d.
[0079]
As shown in FIG. 33, for example, a mounting recess 145 in which the memory card 140 is mounted is formed on the upper surface of such a mounting device 144 with its opening facing upward, and on the side wall of the mounting recess 145. A protrusion 146 is formed. When the memory card 140 is attached to the attachment device 144, as shown in FIG. 34, the notch 143 (representing the notches 143a, 143b, 143c, 143d) of the memory card 140 and the protrusion 146 are engaged. Can be installed together.
[0080]
This memory card 140 can also be directly attached to the recording / reproducing apparatus. Alternatively, the memory card 140 may be attached to an adapter shaped like a flexible disk, and the adapter with the memory card 140 attached may be attached to the recording / reproducing apparatus.
[0081]
By attaching the memory card to the mounting device, the upper lid of the mounting device is not required, the thickness of the mounting device can be made thinner than when it is inserted into the mounting device, and the size of the device can be reduced. . In addition, the thickness of the adapter in which the memory card is inserted can be reduced.
[0082]
As described above, according to the present invention, a plurality of external connection terminals arranged in parallel along the insertion direction of a card body having a substantially rectangular planar shape constituting a memory card are used for digital signal transfer terminals and reserves. This reserve terminal is used as a signal input or output terminal, enabling connection by a parallel interface together with a digital signal transfer terminal, and a digital signal transfer terminal. The number of reserve terminals can be set freely, and the degree of freedom in the arrangement of reserve terminals can be improved. it can.
[Brief description of the drawings]
FIG. 1 is a block diagram showing an internal configuration of a memory card according to the present invention.
FIG. 2 is a perspective view showing an appearance of a memory card according to the present invention.
FIG. 3 is a bottom view of the memory card.
FIG. 4 is a perspective view showing another example of a memory card according to the present invention.
5A and 5B are views showing still another example of the memory card according to the present invention, in which FIG. 5A is a main part plan view showing a state where the shutter member closes the concave part, and FIG. 5B is a shutter. It is a principal part top view which shows the state which has opened the concave part.
6A and 6B are diagrams showing still another example of the memory card according to the present invention, in which FIG. 6A is a plan view of a main part showing a state where a shutter member closes a concave portion, and FIG. 6B is a shutter. It is a principal part top view which shows the state which has opened the concave part.
FIG. 7 is a cross-sectional view showing a mounting device to which a memory card according to the present invention is mounted.
FIG. 8 is a front view of the mounting device.
FIG. 9 is a cross-sectional view showing a state in which the memory card according to the present invention is mounted on the mounting apparatus.
FIG. 10 is a cross-sectional view showing a state in which another memory card according to the present invention is attached to the attachment device.
FIG. 11 is a plan view of the main part of the other memory card.
FIG. 12 is a plan view showing an example of the outer shape of a memory card according to the present invention.
13 is a cross-sectional view of the memory card taken along line X ₁ -X ₂ shown in FIG.
FIG. 14 is a plan view showing an example of a mounting apparatus in which a memory card according to the present invention is mounted.
15 is a cross-sectional view of the mounting device shown in FIG. 14 taken along line Y ₁ -Y ₂ .
FIG. 16 is a plan view showing a state in which the memory card is correctly inserted into the mounting device.
17 is a cross-sectional view taken along line Y ₃ -Y _{4 of} FIG. 16 showing a state where the memory card is being correctly inserted into the mounting device.
18 is a cross-sectional view taken along line Y ₃ -Y _{4 of} FIG. 16 showing a state where the memory card is being properly inserted into the mounting device.
FIG. 19 is a plan view showing a state where the memory card is erroneously inserted into the mounting device.
20 is a cross-sectional view taken along line Y ₅ -Y _{6 of} FIG. 19 showing a state in which the memory card is erroneously inserted into the mounting device.
FIG. 21 is a plan view showing an example of an outer shape of a memory card according to the present invention.
FIG. 22 is a plan view showing an example of the outer shape of the memory card according to the present invention.
23 is a sectional view of the memory card taken along the line Z ₁ -Z ₂ shown in FIG.
FIG. 24 is a plan view showing an example of a mounting device to which a memory card according to the present invention is mounted.
25 is a cross-sectional view of the mounting device shown in FIG. 24 taken along the line W ₁ -W ₂ .
FIG. 26 is a cross-sectional view showing a state in which the memory card is correctly inserted into the mounting device.
FIG. 27 is a cross-sectional view showing a state where the memory card is being correctly inserted into the mounting device.
FIG. 28 is a cross-sectional view showing a state where the memory card is erroneously inserted into the mounting device.
FIG. 29 is a plan view showing an example of the outer shape of a memory card according to the present invention.
FIG. 30 is a perspective view showing an example of the outer shape of a memory card according to the present invention.
31 is a side view of the memory card shown in FIG. 30 as viewed from the H direction in the figure.
32 is a rear view of the memory card shown in FIG. 30 as viewed from the I direction in the figure.
FIG. 33 is a cross-sectional view showing a state in which the memory card according to the present invention is attached to the attachment device.
FIG. 34 is a cross-sectional view showing a state in which the memory card according to the present invention is attached to the attachment device.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Memory card, 2 Card main body, 3 Memory chip, 5 External connection terminal, 9 Concave part, 10 Projection part, 11 Shutter member

Claims (12)

A connection structure provided in a card body having a substantially rectangular planar shape,
A plurality of external connection terminals arranged in parallel along the insertion direction of the card body,
The external connection terminals include a voltage supply terminal (Vss), a status terminal (State), a digital signal transfer terminal (DIO), and a synchronization signal input terminal provided at the most end position of the card body. (SCLK), the voltage supply terminal (Vss) provided at the center side position among these external connection terminals, the internal connection terminal (INT) connected inside the card body, and a plurality of reserve terminals (Re ) and it has a,
By using the plurality of reserve terminals (Re) as signal input or output terminals, the digital signal transfer terminals (DIO) can be connected by a parallel interface,
A connection characterized in that the internal connection terminal (INT) is disposed between the digital signal transfer terminal (DIO) and any one of the plurality of reserve terminals (Re). Construction. 2. The connection structure according to claim 1, wherein the terminal disposed between the digital signal transfer terminal (DIO) and the reserve terminal is a synchronization signal input terminal (SCLK) . 2. The connection structure according to claim 1, wherein the terminal disposed between the digital signal transfer terminal (DIO) and the reserve terminal is a voltage supply terminal (Vcc) . A plurality of terminals for external connection arranged in parallel along the insertion direction of the card body having a substantially rectangular plane shape,
The external connection terminals include a voltage supply terminal (Vss), a status terminal (State), a digital signal transfer terminal (DIO), and a synchronization signal input terminal provided at the most end position of the card body. (SCLK), the voltage supply terminal (Vss) provided at the center side position among these external connection terminals, the internal connection terminal (INT) connected inside the card body, and a plurality of reserve terminals (Re ) and it has a,
By using the plurality of reserve terminals (Re) as signal input or output terminals, the digital signal transfer terminals (DIO) can be connected by a parallel interface,
The internal connection terminal (INT) is disposed between the digital signal transfer terminal (DIO) and any one of the plurality of reserve terminals (Re). card. 5. The memory card according to claim 4, wherein the terminal disposed between the digital signal transfer terminal (DIO) and the reserve terminal is a synchronization signal input terminal (SCLK) . 5. The memory card according to claim 4, wherein the terminal disposed between the digital signal transfer terminal (DIO) and the reserve terminal is a voltage supply terminal (Vcc) . A mounting device in which a memory card is mounted by being connected via an external connection terminal provided on a card body having a substantially rectangular planar shape,
The above memory card
A plurality of terminals for external connection arranged in parallel along the insertion direction of the card body having a substantially rectangular plane shape,
The external connection terminals include a voltage supply terminal (Vss), a status terminal (State), a digital signal transfer terminal (DIO), and a synchronization signal input terminal provided at the most end position of the card body. (SCLK), the voltage supply terminal (Vss) provided at the center side position among these external connection terminals, the internal connection terminal (INT) connected inside the card body, and a plurality of reserve terminals (Re ) and it has a,
By using the plurality of reserve terminals (Re) as signal input or output terminals, the digital signal transfer terminals (DIO) can be connected by a parallel interface,
The internal connection terminal (INT) is disposed between the digital signal transfer terminal (DIO) and any one of the plurality of reserve terminals (Re). Card mounting device. 8. The memory card mounting device according to claim 7, wherein the terminal disposed between the digital signal transfer terminal (DIO) and the reserve terminal is a synchronization signal input terminal (SCLK) . 8. The memory card device according to claim 7, wherein the terminal disposed between the digital signal transfer terminal (DIO) and the reserve terminal is a voltage supply terminal (Vcc) . An information signal writing or reading system in which a memory card is mounted by being connected via an external connection terminal provided on a card body having a substantially rectangular planar shape,
The above memory card
A plurality of terminals for external connection arranged in parallel along the insertion direction of the card body having a substantially rectangular plane shape,
The external connection terminals include a voltage supply terminal (Vss), a status terminal (State), a digital signal transfer terminal (DIO), and a synchronization signal input terminal provided at the most end position of the card body. (SCLK), the voltage supply terminal (Vss) provided at the center side position among these external connection terminals, the internal connection terminal (INT) connected inside the card body, and a plurality of reserve terminals (Re ) and it has a,
By using the plurality of reserve terminals (Re) as signal input or output terminals, the digital signal transfer terminals (DIO) can be connected by a parallel interface,
The internal connection terminal (INT) is arranged between the digital signal transfer terminal (DIO) and any one of the plurality of reserve terminals (Re). Signal writing or reading system. 11. The information signal writing or reading according to claim 10, wherein the terminal disposed between the digital signal transfer terminal (DIO) and the reserve terminal is a synchronization signal input terminal (SCLK). system. 11. The information signal writing or reading system according to claim 10, wherein the terminal disposed between the digital signal transfer terminal (DIO) and the reserve terminal is a voltage supply terminal (Vcc). .

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