CN1540529A - CPLD method for realizing mobile storage for CF card - Google Patents

Abstract

The method includes steps: selecting True IDE interface mode for CF card; making CF card through CPLD to connect to CPU, that is to say address wires of CPU are connected to address wires of CF card and end of chip selection in CF card; sanding reading/writing command to CF card from CPU. Lengths of CD0 and CDl pins in socket slot of CF card are shorter than pin of power source, and difference of Length between them guarantees that when pulling out CF card, CD0 and CDl pins are disconnected, and CF is still powered. Interrupt of CF card through CPLD is connected to CPU. If CPU only supports trigger from interrupt of electrical level, then CPLD converts jumps of CD0 and CDl to signal of interrupt of electrical level.

Description

CPLD realizes the method for CF card mobile storage

Technical field:

The present invention relates to a kind of method that realizes mobile storage, relate in particular to the method that CPLD realizes CF card mobile storage.

Background technology:

In existing Industry Control and commercial unit field, more and more used intelligent processor and CPU, the intellectuality of these equipment is improved greatly, can handle information more.Simultaneously, owing to used CPU in a large number, the combination of these equipment and software is also more and more tightr, the increase of data volume make equipment control also complicated more, and the capacity of software itself is also done bigger and bigger, use traditional serial ports, perhaps the network interface upgrade software becomes complicated more, slowly, and also unstable.Particularly in large-scale production, the efficient that slowly influences production with instability greatly of software download has influenced the production line output.Outside removable portable storage device for commercial unit provides a stable interface easily, can be carried out exchanges data easily with the outside, has therefore obtained using widely.

In the portable mobile memory system, general parallel bus is a kind of more common cpu control bus, it is divided into Intel structure and Motorola structure haply, with the Intel structure is example, it be divided into again address bus (Address), data bus (Data), sheet choosing (/CS), read (/OE), write (/WE) signal etc., if system supports slow devices, also just have ready signal (Ready).The principle of Motorola bus and Intel is similar, and just the definition of interface signal line is different.By simple logical transition, the Motorola bus also can change into the Intel bus.

In portable mobile memory system, the general parallel bus of CPU by chip selection signal (/CS) to need to select apparatus operating, with read signal (/OE) do the operation of read data, with write signal (/WE) do the operation of write data.CPU and peripheral hardware respectively /OE and/the rising edge sampled data of WE.For peripheral hardware at a slow speed, when peripheral hardware was busy, it can drag down the Ready signal, and CPU can insert latent period in operation so, up to Ready signal high jump again.

Nowadays portable movable storage device is widely used in various consumer electronics products.That storage medium mainly adopts is Flash, and the interface of memory device mainly contains CF (Compact Flash) Card, and another is PC Card.That be used widely is CF Card, and supports that the producer of this standard is a lot, mainly contains IBM, Hitachi, HP, Kodak etc.

Portable movable storage device can be more convenient for the importing and the derivation of information, is example with the Ethernet switch management, and present is large-scale, high-end switching equipment, and management is very complicated, needs a large amount of configuration informations, mainly is some route table items; If every switch is disposed respectively, require a great deal of time and energy, if but with in the burned CF card of configuration information, with the configuration that a card just can solve all machines, convenient and swift; In addition, the abnormal information for switch in the use occurs also can derive it easily by the CF card, is convenient to record.

Portable movable storage device has reliable and stable data channel, upgrades to example with Ethernet switch; By the CF card reader, can be with used upgrade software, burned CF card, the CF card is inserted in the equipment just can upgrades easily, speed loads fast than serial ports, load slow slightly than network interface, but owing to there is not physical connection, do not worry going offline, this mode is more reliable and more stable.

Because CF is stuck in all advantages in the use, makes it large-area widespread use on commercial unit.But general application mode is to adopt the adaptive chip of CF card, and this interface chip possesses interface accessing control and two kinds of functions of power management (support hot plug) simultaneously.But the cost of interface chip has increased the cost of equipment undoubtedly than higher, is unfavorable for the large-scale application of this advanced mode.

Summary of the invention:

At the existing problem and shortage of above-mentioned conventional portable movable storage device, the purpose of this invention is to provide the method that the lower CPLD of a kind of cost realizes CF card mobile storage.

The present invention is achieved in that a kind of CPLD realizes the method for CF card mobile storage, may further comprise the steps:

Select the True IDE Mode interface modes of CF card, and make the CF cartoon cross CPLD to be connected, the address wire of address wire that CPLD makes CPU and CF card and sheet promptly are set select to hold and be connected with CPU;

CPU sends read write command to the CF card, and CF is sticked into capable read-write operation.

Further, the CD0 in the socket groove of described CF card, CD1 contact pin length should be lacked than power pin, and length difference between the two should guarantee that CF is stuck in when extracting, and CD0 and CD1 break away from slot, and CF also keeps power supply state;

The interruption of CF card is connected with CPU by CPLD, if CPU only supports the down trigger of level signal, then in CPLD CD0, CD1 saltus step is converted to the level look-at-me.

Further, the address wire of the address wire of described CPU and CF card and sheet choosing end is connected to be specially to select to hold with two sheets with three address wires of CF card by CPLD with five address wires of CPU USB (universal serial bus) and is connected.

The present invention replaces interface chip by the lower CPLD of cost, selects the True IDE Mode interface modes of CF card, and CPLD is set, make it possess the adaptive chip functions of interface, like this, CPU just can finish the read-write capability to the CF card, and the CF card has just been realized Mobile Storage Function MSF.For making the CF card possess plug-and-play feature simultaneously, also by the CD0 in the socket groove of CF card, CD1 contact pin Design of length must be lacked than power pin, difference in length between the two, can guarantee that CF is stuck in when extracting, CD0 and CD1 break away from slot, but CF also keeps power supply state, and CPU must support the edge look-at-me to trigger, if CPU refers to support the down trigger of level signal, so just must be in CPLD handle/CD0 and/the CD1 saltus step converts the level look-at-me to, the CF card just can easily have been realized hot plug.Like this, use CPLD and special technique means, just can finish and be equivalent to the function that special interface chip is finished.

Description of drawings:

Below in conjunction with accompanying drawing, the present invention is made detailed description.

Fig. 1 is the syndeton synoptic diagram of CPU of the present invention and CF;

Fig. 2 is control on the throne of the present invention and hot plug control structure synoptic diagram.

Embodiment:

CF card mobile storage mechanism proposed by the invention is achieved in that

Select the True IDE Mode interface modes of CF card, and make the CF cartoon cross CPLD to be connected with CPU, CPLD promptly is set the address wire of CPU is connected with the address wire and the sheet choosing end of CF card, hold with two sheet choosings with three address wires of CF card by CPLD with five address wires of CPU USB (universal serial bus) to be connected.

CPU sends read write command to the CF card, and CF is sticked into capable read-write operation.

And, CD0 in the socket groove of CF card, CD1 contact pin Design of length must be lacked than power pin, difference in length between the two, should be able to guarantee that CF is stuck in when extracting, CD0 and CD1 break away from slot, but CF also keeps power supply state, according to actual conditions, CD0 in the CF card stocket groove of design, CD1 contact pin length are at least than the short 1.5mm of power pin, the interruption of CF card be connected with CPU by CPLD, if CPU only supports the down trigger of level signal, then in CPLD, CD0, CD1 saltus step are converted to the level look-at-me.

Introduce the CF card here: the CF card is supported three kinds of interface modes, be respectively PC Card MemoryMode, PC Card IO Mode, True IDE Mode, the present invention selects True IDE mode for use, True IDEMode connects the simplest from hardware, and can use the driver of ide interface on software in a large number, therefore has advantage relatively.

Following table is the truth table of CF card when being arranged to True IDE Mode:

?/CS1	??/CS0	?A2	??A1	?A0	??/IORD	??/IOWR	????BIT?WITHE
								?1	??0	?0	??0	?0	??RD?Data	??WR?Data	????8?or?16bit
?1	??0	?0	??0	?1	??Error?Register	??Features	????8bit
								?1	??0	?0	??1	?0	??Sector?Count	??Sector?Count	????8bit
?1	??0	?0	??1	?1	??Sector?No.	??Sector?No.	????8bit
								?1	??0	?1	??0	?0	??Cylinder?Low	??Cylinder?Low	????8bit
?1	??0	?1	??0	?1	??Cylinder?High	??Cylinder?High	????8bit
								?1	??0	?1	??1	?0	??Select ??Card/Head	??Select ??Card/Head	????8bit
?1	??0	?1	??1	?1	??Status	??Command	????8bit
								?0	??1	?1	??1	?0	??Alt?Status	??Device?Control	????8bit

Like this, three address wires by the CF card (A2～A0) and two chip selection signals (/CS1 and/CS0), all registers in just can access list, by these registers, CPU just can realize the read-write operation to the CF card, the while can also be monitored the state of CF.

More important several registers are respectively in the CF card:

Error Register: whether monitoring sector mistake or can not the positive mistake of root occurs, and the sector whether occurs and overflow;

Sector Count, Sector No.Cylinder Low, Cylinder High: these four registers are to be used to locate the register that need carry out the space of read-write operation, similar with the IDE hard disk, if the CF card is in True IDE Mode, it also is to add the space that needs read-writes is located in the sector with cylinder so.CylinderLow, these two registers of Cylinder High all are 8Bits, form a 16bit Cylinder address.SectorNo. register has indicated the address that the sector begins, and Sector Count register has indicated the side-play amount of sector;

Whether Status: the contents table of this register is understood the current state of CF card, busy, the mistake of restorability whether occurs, operating mistake etc. whether occurs;

Control: this register mainly is to be used for controlling resetting and interrupting of CF card.

As shown in Figure 1, with these 5 address wires of AD0～AD4 of the general parallel bus of CPU add chip selection signal decoding obtain being used to visiting the CF register address space A0～A2 and/CS0 ,/CS1 certainly, comprises that also the interruption of CF connects, and below is the logical code among the CPLD:

CF_ADD(0)<＝IO_AD_REG(0)；

CF_ADD(1)<＝IO_AD_REG(1)；

CF_ADD(2)<＝IO_AD_REG(2)；

CF_CS(0)<＝IO_CS_L?or?IO_AD4?or(not?IO_AD3)；

CF_CS(1)<＝IO_CS_L?or(not?IO_AD4)or(not?IO_AD3)；

CF_WR<＝IO_CS_L?or?IO_WR_L；

CF_RD<＝IO_CS_L?or?IO_OE_L；

IO_RDY<＝IO_CS_L?or?CF?RDY；

CPU_IRQ<＝CF_IRQ。

Like this, just realized being connected of CF and CPU, CPU just can carry out read and write access to CF.

The CF card by/CD0 and/CD1 controls information on the throne.CF card inside/CD0 and/CD1 directly pulls down to ground by force, and in CF stocket ,/CD0 and/CD1 move 3.3V on weak.When the CF card inserts, CF stocket /CD0 and/CD1 dragged down by CF, triggers CPU INT with this, shows that this moment, CF inserted.This moment, CPU can open electronic switch by GPIO or general parallel bus, to the power supply of CF card, can begin the CF card is operated.Before extracting the CF card, CPU closes electronic switch by GPIO or general parallel bus, stops to after the power supply of CF card, and the CF card just can be extracted smoothly.But above hot plug operations also is not very intelligent when extracting, and must import an order of closing CF card power supply, guarantee that CF card power supply has been closed after, just can extract, can not accomplish plug and play.

As shown in Figure 2, in the stocket groove of CF/CD0 and/length of CD1 pin is as short as than the length of power pin and lacks 1.5mm.So when extracting CF ,/CD0 and/CD1 be power pin before the outage of CF card with before the CF card separates with regard to high jump, promptly/CD0 separates with the CF card than power supply is first with/CD1.Can cause going up of a CPU_INT this moment and jump, CPU jumps on monitoring this after signal, just can be the power-off of CF card, and just can extract smoothly this moment.If realize above hot plug, CPU must support the edge look-at-me to trigger so, if CPU only supports the down trigger of level signal, so just must be in CPLD handle/CD0 convert the level look-at-me to with/CD1 saltus step.Below be its logical code:

process(GRESET，GCLK)    begin       if(GRESET＝′0′)then       CD0_REG＜＝′0′；       CD1_REG＜＝′0′；       CD0_REG_CMP＜＝′0′；       CD1_REG_CMP＜＝′0′；          Elsif(GCLK′event and GCLK＝′1′)then            if(((CD0_REG_CMP＝′0′)and(CD0_REG＝′1′))and((CD1_REG_CMP＝′0′)and(CD1_REG＝′1′)))then                  CPU_INT＜＝′0′；            end if；            CD0_REG＜＝/CD0；            CD1_REG＜＝/CD1；            CD0_REG_CMP＜＝CD0_REG；           CD1_REG_CMP＜＝CD1_REG；        <!-- SIPO <DP n="4"> -->        <dp n="d4"/>  end if；end process.

Claims (3)

1. a CPLD realizes the method for CF card mobile storage, may further comprise the steps:

Select the True IDE Mode interface modes of CF card, and make the CF cartoon cross CPLD to be connected, the address wire of address wire that CPLD makes CPU and CF card and sheet promptly are set select to hold and be connected with CPU;

CPU sends read write command to the CF card, and CF is sticked into capable read-write operation.

2. CPLD as claimed in claim 1 realizes the method for CF card mobile storage, it is characterized in that, CD0 in the socket groove of described CF card, CD1 contact pin length should be lacked than power pin, length difference between the two should guarantee that CF is stuck in when extracting, CD0 and CD1 break away from slot, and CF also keeps power supply state;

The interruption of CF card is connected with CPU by CPLD, if CPU only supports the down trigger of level signal, then in CPLD CD0, CD1 saltus step is converted to the level look-at-me.

3. CPLD as claimed in claim 1 realizes the method for CF card mobile storage, it is characterized in that the address wire of the address wire of described CPU and CF card and sheet choosing end are connected to be specially to select to hold with two sheets with three address wires of CF card by CPLD with five address wires of CPU USB (universal serial bus) and are connected.

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