Please title this page. (sram161.htm)

Bob Ammerman [RAMMERMAN at PRODIGY.NET] of RAm Systems (high performance, high function, low-level software) says

Actually, you can get by with fewer bits without much, if any, loss of functionality, performance, to wit: Assuming you are using '161 style counters to access 64KB of memory, here is a 12 I/O's solution:

Use 8 I/Os as a bidirectional address/data bus. Connect these I/O's to the 8 data pins in the RAM, and to the D inputs of the two least significant '161 chips.
Connect the Q outputs of the two least significant '161's not only to RAM address pins, but also to the D inputs of the two most significant '161 chips.
Connect the Q outputs of the two most signicant '161's to the remaining RAM address pins.
Connect the /LOAD input of all the '161s to a PIC I/O (call the I/O LOAD161)
Connect the /OE pin of the RAM to a PIC I/O (call the I/O RAMOE)
Connect the /WR pin of the RAM to a PIC I/O (call the I/O RAMWR)
Hardwire the /CS pin of the RAM to ground.
Connect the clock inputs of all the '161s to a PIC I/O (call the I/O CLK161)
Properly connect the carries from one '161 to the next.

Note that this can easily be expanded, without using _any_ more I/O's by adding additional 161's and daisy chaining the Q outputs of each pair to the data inputs of the next pair.
To set a random address:
    bsf        RAMOE                 ; Tell the RAM not to drive the bus
    clrf        RAMTRISPORT,F        ; Drive the bus
    bcf        LOAD161               ; Set counters up for sync load
    movlw  high(desired address)
    movwf  RAMDATAPORT
    bsf       CLK161                 ; Write high addr into low counters
    bcf       CLK161
    movlw  low(desired address)
    movwf  RAMDATAPORT
    bsf       CLK161                 ; Move high addr to high counters...
    bcf       CLK161                 ; ...and write low addr to low counters

To read several sequential bytes:

    bsf       LOAD161                ; Set counters up to count

    setf      RAMTRISPORT,F          ; Don't drive the bus
    bcf       RAMOE                  ; Tell the RAM to drive the bus

    movf    RAMDATAPORT,W            ; Get the byte
    ...do something with it...

    bsf       CLK161                 ; Advance to the next byte
    bcf       CLK161

    movf   RAMDATAPORT,W             ; Get the byte
    ...do something with it...

    bsf       CLK161
    bcf       CLK161

    movf  RAMDATAPORT,W              ; Get the byte

    etc.
Writing works very similarly, but you have to disable the /WR input the the RAM while changing the data and address:
Assume we have just set a random address as outlined above:
    bsf         LOAD161              ; Set counters up to count
    movlw    data_to_write
    movwf    RAMDATAPORT
    bcf          RAMWR
    bsf          RAMWR
    bsf          CLK161
    bcf          CLK161
    movlw    data_to_write
    movwf    RAMDATAPORT
    bcf          RAMWR
    bsf          RAMWR
    bsf          CLK161
    bcf          CLK161

    etc.
You can reduce the number of I/O's to 11, at the cost of slower writes (which are usually much less frequent than reads), as follows:

Eliminate the separate /RAMOE and /RAMWR outputs from the PIC, and replace them with a single /RAMGO output.
Use a logic gate so that /RAMOE is active (ie: low) only when /RAMGO is low and /LOAD161 is high.
Use another logic gate so that /RAMWR is active only when /RAMGO is low and /LOAD161 is low.

Now, when writing sequentially, do the following (assuming the address has been set up as described above):
        movlw        data_to_write
        movwf       RAMDATAPORT
        bcf             RAMGO        ; Since LOAD161 is low this will write to the RAM
        bsf             RAMGO

        bsf            LOAD161       ; Get ready to count
        bsf            CLK161        ; Bump address
        bcf            CLK161
        bcf            LOAD161

        movlw        data_to_write
        movwf       RAMDATAPORT
        bcf             RAMGO        ; Since LOAD161 is low this will write to the RAM
        bsf             RAMGO

        bsf            LOAD161       ; Get ready to count
        bsf            CLK161        ; Bump address
        bcf            CLK161
        bcf            LOAD161

        etc.

file: /Techref/mem/sram161.htm, 4KB, , updated: 2000/6/12 13:47, local time: 2024/11/12 11:49,

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