XT-CF-lite Technical Reference

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Lo-tech XT-CF-lite Board, Assembled (first prototype)

Technical reference manual for the XT-CF-lite board, currently version 1.0. See the main product page for general information, specifications, Bill of Materials, complete list of DIP switch settings and usage notes.

Downloads

Schematic

Lo-tech XT-CF-lite Board Schematic (first prototype)

Note: Switch position numbering is reversed in schematic.

Flash-based ROM

Functional Description

Boot ROM is provided via a SST39SF0x0A flash chip (DIP32) of 1Mb, 2Mb or 4Mb capacity, configured as a flat 32KB ROM (regardless of the chip size used). The ROM is configured via switches 1 to 4:

Base Address Sw1 Sw2 Sw3 Sw4
C000h ON ON ON ON
C800h ON OFF ON ON
D000h ON ON OFF ON
D800h ON OFF OFF ON
E000h ON ON ON OFF
E800h ON OFF ON OFF
F000h ON ON OFF OFF
F800h ON OFF OFF OFF
(Disabled) OFF - - -

The ROM operates via a simple 8-bit comparitor IC2 (74520 or 74688) to generate chip-enable, gated by ISA AEN (DMA transfer), and is switched via Switch 1. The ROM operates entirely independently to the CompactFlash header, hence enabling a reduced component count to be fitted to provide only a ROM board functionality.

ISA Bus /MEMR and /MEMW are presented directly to the SST39SF flash chip, along with A[0..14] and D[0..7].

The XT-CF-lite uses the Lo-tech XT-CF flash utility for ROM programming.

Components Required for ROM Board Operation

The XT-CF-lite PCB can be constructed as a universal 32KB byte-programmable ROM board, without the CompactFlash functionality, by populating only:

Part Value Device Package Qty Farnell Mouser
C1 47uF CPOL-EUE2-5 E2-5 1 8767114 140-REA470M1ABK0511P
C2 0.1uF C-EUC0603 C0603 1 1414610 81-GRM18R71C104MA01D
IC1 SST39SF0x0A SST39SF010ADIP32 DIL32 1 1896595 804-39SF010A7CPHE
IC2 74AC520D 74AC520D SO20W 1 1740268 595-SN74F521DWRG4
R1 0R R-EU_0207/10 0207/10 1 1700196 299-0-RC
RN1 10K RN08 RN-9 1 2112931 652-4609X-1LF-10K
SW1 SW_DIP-8 EDG-08 1 9471596 774-2068ST
Socket DIL32 1 1654375 571-1-390263-2

In this configuration, the board is functionally similar to the Lo-tech 8-bit ROM Board.

CompactFlash Adapter

Functional Description

The 3M CompactFlash header can support any type 1 or type 2 CompactFlash media, including microdrives. The media is powered directly from the 5V rail on the ISA bus.

The header is hard-wired for true-IDE mode operation, and therefore does not support hot-plug.

CompactFlash D[0..7] are connected directly to ISA Bus D[0..7] - there is no buffer present, since the CompactFlash specification provides for 8mA drive strength (the same as the SST39SF flash chip, which has been shown to work reliably in this configuration).

Since only D[0..7] are connected, the BIOS must perform a set-features command to enable 8-bit operation (which is supported by all CompactFlash media) before querying device ID.

Address Mappings

CompactFlash DA[0..2] are connected to ISA Bus A[1..3] - ISA Bus A0 is not decoded. This enables 16-bit instructions to be used (providing a performance advantage).

CompactFlash /CS0 and /CS1 are generated by a simple 8-bit comparitor IC3 (74520 or 74688), gated by ISA AEN (DMA transfer), IC 4 and 5 providing /CS0 or /CS1 (mutually exclusive) via ISA Bus A4 (see schematic). This provides access to all IDE registers within a port window of 1Fh:

Base+ Register
00h Data Register
01h Data Register (same as 00h)
02h Features Register
04h Sector Count Register
06h LBA Low Register
08h LBA Mid Register
0Ah LBA High Register
0Ch Device Register
0Eh Command Register
1Ch Device Control Register

The base IO address is configured via switches 5 to 8 (see XT-CF-lite#IO_Range).

Code Examples

8-bit Port IO

8-bit Port IO provdes best platform compatibility. Data is collected from the data register using simple byte IO:

  mov dx, 300h
  mov cx, 32 ; unrolling offers big advantages
.ReadNextOword:
  %rep 16 ; BYTEs
    in al, dx ; Read BYTE
    stosb ; Store BYTE to [ES:DI]
  %endrep
  loop .ReadNextOword

16-bit Port IO

16-bit Port IO offers significant performance advantage on 8088 hardware by reducing the loop code size and offloading part of the transfer to the bus interface unit, and further advantage on 8086 hardware by storing to memory using the full 16-bit datapath. However, not all early PC hardware implements 16-bit IO to 8-bit devices correctly, for example the AT&T 6300 presents data to the CPU byte-swapped.

  mov dx, 300h
  mov cx, 16 ; unrolling offers big advantages
.ReadNextOword:
  %rep 8 ; WORDs
    in ax, dx ; Read WORD via two bus-cycles
    stosw ; Store WORD to [ES:DI]
  %endrep
  loop .ReadNextOword

See Also