JP2007249383A - Semiconductor circuit device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To solve a problem due to a short circuit caused by an adapter or the like without additional installation of any component/circuit in a flash media controller connected to a common socket. <P>SOLUTION: In the flash media controller connected to the common socket to which a plurality of kinds of flash media are inserted for use, allocation of a controller terminal corresponding to a terminal of a first flash medium is changed according to a register configuration so that the controller terminal connected to the terminal of the first flash medium is not used simultaneously with a controller terminal connected to a terminal of a second flash medium. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a semiconductor circuit device, and more particularly to a flash media controller.

  Currently, many types of flash media for personal computers (personal computers) and the like have been developed. However, it is difficult for a notebook personal computer or the like to provide a socket for each type of flash media due to restrictions on its size. Therefore, a common socket (combo connector) shared by a plurality of types of flash media (for example, Memory Stick (MS) (registered trademark), Secure Digital Card (SD) (registered trademark), and xDPictureCard (xD picture card) (XD) (registered trademark)). : Combo connector) may be mounted on laptop computers.

  FIG. 4 is a perspective plan view of the conventional combo connector 2. FIG. 4 shows an outer frame of the combo connector 2 and terminals for each of the three types of fresh media. The three types of flash media are MS, SD card, and xD picture card. That is, the MS terminal 4, the SD terminal 6, and the XD terminal 8 are provided in the combo connector 2. Each card-like fresh media and adapter are inserted from the right side of the figure (see FIG. 4B).

  MS-Duo (registered trademark), which is one of flash media, is used by being inserted into the combo connector (shared socket) 2 via an MS-Duo adapter. By the way, this MS-Duo adapter may contain metal as a constituent material. Therefore, when the MS-Duo adapter is inserted into the shared socket 2, a short circuit may occur at a portion unrelated to the MS terminal 4 inside the shared socket 2.

  FIG. 4 (2) illustrates the occurrence of such a short circuit. In the shared socket 2 shown in FIG. 4 (2), the power (Power) PAD of the XD terminal 8 and the signal (Data1) PAD of the SD terminal 8 via the upper end (shaded part) of the MS-Duo adapter 10 (in the figure). Are short-circuited (see dotted line region α). Furthermore. The ground (GND) PAD of the XD terminal 8 and the signal (Data 2) PAD of the SD terminal are short-circuited (see the dotted line region β) via the lower end portion (shaded portion) of the MS-Duo adapter 10 (see the dotted line region β). .

  In addition, a flash media controller that is an LSI is usually designed so that a media I / F (interface) terminal (that is, a controller terminal) is shared by a plurality of flash media in order to use a smaller package. . FIG. 5A is an example of a table showing shared terminal allocation in the flash media controller connected to the shared socket for SD, MS, and XD. FIG. 5 (2) is a wiring diagram on the board when connecting the common socket (combo connector) 2 and the controller 12 according to the table shown in FIG. 5 (1).

  When a short circuit occurs as shown in FIG. 4 (2) in the shared socket 2 connected to the controller 12 sharing the controller terminal as shown in FIG. 5, the following inconvenience (shown in FIG. 6) occurs. In the shared socket 2 and the controller 12 shown in FIG. 5, the line SDCDAT2 from the SD terminal and the line MSCDAT2 from the MS terminal are connected. Then, when the MS-Duo adapter 10 is inserted, a short circuit between the signal (Data2) PAD of the SD terminal and the ground (GND) PAD of the XD terminal causes the MSCDAT2 of the MS terminal to be shorted to GND (ground). (Refer to FIG. 6, area B). Similarly, since the line SDCDAT1 from the SD terminal and the line MSCDAT1 from the MS terminal are connected, a short circuit between the signal (Data1) PAD of the SD terminal and the power supply (Power) PAD of the XD terminal causes MSCDAT2DAT1 of the MS terminal. Is short-circuited to the power (power supply) (see FIG. 6, region A). Due to these short circuits, the MS does not operate normally.

  As shown in FIG. 7, a SW (switching element) 30 is provided between the controller terminal MDIO1 (which receives the SD terminal SDCDAT1 and the MS terminal MSCDAT1) and the SD terminal SDCDAT1, and similarly, the controller terminal MDIO2 and the SD terminal SDCDAT2 If the SW 32 is provided between the two, and these SWs are controlled, the above-mentioned inconvenience can be avoided. However, in this case, two SWs and a circuit (control circuit 40) for controlling the SWs must be provided, and new components and board areas are indispensable (see FIGS. 7 (1) and (2)).

  In the controller 12 shown in FIG. 7, when the SD is not used (that is, when the SD is not inserted), the control circuit 40 turns off the SWs 30 and 32 and the SD terminals (SDCDAT1 and SDCDAT2). Electrically disconnected from the control terminal.

In Patent Document 1, in order to connect and use a card other than a PC card on the secondary side of the PC card controller, in the PC card controller incorporating the interface logic, a card other than the PC card, or When the adapter card in which the card is inserted is connected, a register bit indicating an event that a 16-bit PC card is connected is set, and the PC card is connected from an external processor using the PC card controller. Disclosed is a card controller characterized in that
JP 2003-186582 A

  An object of the present invention is to eliminate inconvenience caused by a short circuit caused by an adapter or the like in a flash media controller connected to a shared socket without adding parts and circuits.

The present invention has been made to achieve the above object. The flash media controller according to claim 1 of the present invention is
In the flash media controller that connects to a shared socket where multiple types of flash media are inserted and used,
The controller terminal corresponding to the first flash media terminal is assigned by register setting so that the controller terminal connected to the first flash media terminal and the controller terminal connected to the second flash media terminal are not shared. It is characterized by changing.

A flash media controller according to claim 2 of the present invention is provided.
In the flash media controller that connects to a shared socket where multiple types of flash media are inserted and used,
Of the terminals of the first flash media, a specific one is selected by designation from the outside under program control,
Changing the assignment of the controller terminal corresponding to the selected terminal by register setting so that the controller terminal connected to the selected terminal and the controller terminal connected to the second flash media terminal are not shared. It is characterized by.

A flash media controller according to claim 3 of the present invention is provided.
In the flash media controller that connects to a shared socket where multiple types of flash media are inserted and used,
Of the terminals of the first flash media, a specific one is selected by designation from the outside under program control,
The controller terminal corresponding to the selected terminal is not shared so that the controller terminal connected to the selected terminal and the controller terminal connected to all types of flash media terminals used in the shared socket are not shared. The allocation is changed by register setting.

A flash media controller according to claim 4 of the present invention is provided.
4. The flash media controller according to claim 3, wherein a controller terminal assigned corresponding to the selected terminal is prepared in advance.

The flash media controller according to claim 5 of the present invention is
The first flash medium is a memory stick,
4. The flash media controller according to claim 1, wherein the second flash media is an SD card.

  By utilizing the present invention, the inconvenience due to a short circuit caused by an adapter or the like in a common socket into which a plurality of types of flash media can be inserted can be eliminated without increasing the number of components and circuits.

  Preferred embodiments according to the present invention will be described below with reference to the drawings. The following embodiment relates to a shared socket for an SD card, a memory stick (MS), and an xD picture card, and a flash media controller connected to the shared socket. The present invention is not limited to these, and can be applied to other shared sockets and controllers.

[First Embodiment]
FIGS. 1 (2) and 1 (a) are partial circuit diagrams of the flash media controller 12 according to the first embodiment of the present invention. FIG. 1A is a table showing shared terminal allocation in the flash media controller according to the first embodiment of the present invention.

  In the table of FIG. 1A, it is intended that the signal line of the SD terminal is not shared by the MS depending on conditions. Since these settings are made on the controller 12 side, the combo connector (shared socket) 2 is not changed.

  SD and MS each have a data width of 4 bits. In the prior art, the controller side often shares a terminal, but the controller 12 according to the first embodiment cancels the sharing depending on conditions.

Specifically, as shown in the table of FIG.
(A) When both the SD terminal and the MS terminal share the flash media controller terminals MDIO0 to MDIO3,
(B) The case where the SD terminal uses the controller terminals MDIO0 to 3 and the MS terminal uses the controller terminals MDIO4 to 7 is set. The setting (switching) of the above (A) and (B) is based on the register setting installed inside or outside the controller 12.

  In this way, when there is an inconvenience at the time of occurrence of the short circuit described above, the inconvenience can be solved by changing the register setting from (A) to (B).

  The structure of the circuit shown in FIG. First, in the normal state (when there is no short circuit in the connector), the selector determined by “A” selects the output according to the inserted card, and outputs it to the pad in the connector 2 via the terminals MDIO0-3. To do. The selector determined by “B” becomes “B: 0”, selects XDCDAT4-7, and outputs to the pads in connector 2 via terminals MDIO4-7. The selector determined by “C” becomes “C: 0” and takes in the MS input via the terminals MDIO 0 to 3 as MSCDI 0 to 3.

  Next, when a short circuit occurs (when a short circuit occurs in the connector), the selector determined by “A” selects an output according to the inserted card, and the pad in the connector 2 is connected via the terminals MDIO0-3. Output to. However, it functions only when the inserted card is SD or XD. MSCDAT0-3 do not go through here. The selector determined by “B” selects the output in accordance with the inserted card, and outputs it to the pads in the connector 2 via the terminals MDIO 4 to 7. However, it works only when the inserted card is MS or XD. If the inserted card is MS, MSCDAT0-3 are output. The selector determined by “C” becomes “C: 1” and takes in the MS input via the terminals MDIO 4 to 7 as MSCDI 0 to 3.

  By using the flash media controller 12 according to the first embodiment, even if any of the terminals related to SD is short-circuited with the power supply terminal of XD, in an apparatus such as a notebook computer equipped with the combo connector 2, the MS Can be used without problems.

[Second Embodiment]
FIG. 2A is a partial circuit diagram of the flash media controller 12 according to the second embodiment of the present invention. The second embodiment is substantially the same as the first embodiment, and the same portions are denoted by the same reference numerals, description thereof is omitted, and the difference between the two will be mainly described.

  In the controller 12 according to the second embodiment, only the terminals that cause inconvenience in the connector are selected and replaced by designation from the outside by program control. That is, depending on the structure of the shared socket (combo connector) 2, the short-circuited terminal may be changed. In accordance with this, a terminal that causes inconvenience is assigned to a convenient controller terminal by register setting.

  Specifically, only the terminal of the MS that causes inconvenience due to a short circuit is reassigned to another controller terminal, for example, MDIO4 (etc.). In this case, terminals other than MDIO4 may be used as long as they are not used in SD.

  The configuration of the circuit shown in FIG. 2 will be described. First, in the normal state (when there is no short circuit in the connector), the selector determined by “A” selects the output according to the inserted card, and outputs it to the pad in the connector 2 via the terminals MDIO0-3. To do. The selector determined by “B” does not affect the circuit at this time (unquestioned). The selector determined by “C” is “C: 0”, and XDCDAT4 is selected and passed through the terminal MDIO4. MSCDI0 to 3 are taken in without change.

  In the case of a short circuit (when a short circuit occurs in the connector), the selector determined by “A” selects the output according to the inserted card in principle, but the MS is inserted and the MS terminal is shorted. When the terminal is connected to the controller terminal causing the inconvenience, the selection is not made. The selector determined by “B” selects a terminal connected to a controller terminal that has caused a problem due to a short circuit. The selector determined by “C” selects the output according to the inserted card, and outputs it to the pad in the connector 2 via the terminal MDIO4. However, it works only when the inserted card is MS or XD. Further, for MSCDI0-3, only the amount corresponding to the MS terminal that is currently connected to the controller terminal causing the inconvenience due to the short circuit is taken in from MDIO4.

  If the data width of the SD or MS is increased, it is impossible in the first embodiment to assign the SD terminal and the MS terminal to the control terminal so as not to overlap all over (that is, the number of terminals is insufficient). there's a possibility that. In the second embodiment, reassignment is performed only for terminals connected to controller terminals that have inconveniences (or are likely to cause inconveniences), so the possibility that the number of terminals is insufficient is smaller than that of the first embodiment. It can be said that it is low.

[Third Embodiment]
FIG. 3A is a partial circuit diagram of the flash media controller 12 according to the third embodiment of the present invention. The third embodiment is substantially the same as the first embodiment, and the same portions are denoted by the same reference numerals, description thereof is omitted, and the difference between them will be mainly described.

  In the controller 12 according to the third embodiment, apart from the controller terminal connected to the terminal of the flash media, a replacement terminal (RSV) is prepared in advance in order to eliminate the inconvenience due to the short circuit. This replacement terminal (RSV) is not normally used, but this terminal is used when an inconvenience occurs due to a short circuit to eliminate the inconvenience.

  The configuration of the circuit shown in FIG. 3 will be described. In the case of a short circuit (when a short circuit occurs in the connector), the selector determined by “A” selects the output of the (MS) terminal connected to the controller terminal causing the short circuit. This is directed to the replacement terminal (RSV). For MSCDI0 to MSCDI3, only the part corresponding to the (MS) terminal that is currently connected to the controller terminal causing the short circuit is taken in from the replacement terminal (RSV).

  The third embodiment is effective when the terminals for the flash media are all shared by a plurality of types of flash media in the flash media controller. A plurality of replacement terminals (RSV) may be prepared.

A table (FIG. 1 (1)) showing shared terminal allocation in the flash media controller according to the first embodiment of the present invention, and a partial circuit diagram of the flash media controller according to the first embodiment of the present invention (FIG. FIG. 1 (2) (a)) and an operation table of the selector of the circuit (FIG. 1 (2) (b)). FIG. 3 is a partial circuit diagram (FIG. 2A) of a flash media controller according to a second embodiment of the present invention, and an operation table (FIG. 2B) of a selector of the circuit. FIG. 10 is a partial circuit diagram (FIG. 3A) of a flash media controller according to a third embodiment of the present invention, and an operation table (FIG. 3B) of a selector of the circuit. FIG. 4 is a perspective plan view of a conventional combo connector (FIG. 4A) and a perspective plan view of a conventional combo connector when a MS-Duo adapter is inserted and a short circuit occurs (FIG. 4B). A conventional table (FIG. 5 (1)) showing a shared terminal assignment in a flash media controller connected to a shared socket for SD, MS, and XD and a shared socket (combo combo) according to the table shown in FIG. 5 (1). FIG. 5B is a wiring diagram (FIG. 5 (2)) when connecting the connector) and the controller. It is a perspective top view of the conventional combo connector at the time of the inconvenience by a short circuit. A conventional example of the on-board wiring diagram when connecting the improved common socket (combo connector) and the controller (FIG. 7 (1)) and a perspective plan view of the improved conventional combo connector (FIG. 7 ( 2)).

Explanation of symbols

2 ... Common socket (combo connector), 12 ... Flash media controller, 30, 32 ... SW (switching) element, 40 ... Control circuit.

Claims (5)

In the flash media controller that connects to a shared socket where multiple types of flash media are inserted and used,
The controller terminal corresponding to the first flash media terminal is assigned by register setting so that the controller terminal connected to the first flash media terminal and the controller terminal connected to the second flash media terminal are not shared. Flash media controller characterized by changing. In the flash media controller that connects to a shared socket where multiple types of flash media are inserted and used,
Of the terminals of the first flash media, a specific one is selected by designation from the outside under program control,
Changing the assignment of the controller terminal corresponding to the selected terminal by register setting so that the controller terminal connected to the selected terminal and the controller terminal connected to the second flash media terminal are not shared. Flash media controller characterized by In the flash media controller that connects to a shared socket where multiple types of flash media are inserted and used,
Of the terminals of the first flash media, a specific one is selected by designation from the outside under program control,
The controller terminal corresponding to the selected terminal is not shared so that the controller terminal connected to the selected terminal and the controller terminal connected to all types of flash media terminals used in the shared socket are not shared. A flash media controller, wherein allocation is changed by register setting.   4. The flash media controller according to claim 3, wherein a controller terminal assigned in correspondence with the selected terminal is prepared in advance. The first flash medium is a memory stick,
5. The flash media controller according to claim 1, wherein the second flash media is an SD card.

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