UPGRADE: 800XL -> 256K Memory (130XE Compatible)

From: Doug Wokoun (aa384@cleveland.Freenet.Edu)
Date: 08/04/90-08:59:44 PM Z

From: aa384@cleveland.Freenet.Edu (Doug Wokoun)
Subject: UPGRADE: 800XL -> 256K Memory (130XE Compatible)
Date: Sat Aug  4 20:59:44 1990

    by Claus Buchholz
    I designed the 256K upgrade described in my article, "The Quarter-Meg
Atari" (BYTE, September, 1985), in December, 1984. Since this pre-dated the
130XE, there was no precedent for extended memory on the XL's, I felt free
to implement a system of eight 32K banks. The major reason was to keep the
add-on circuit as simple as possible.
    The 130XE, introduced in early 1985, set a different standard for
bank-select memory. It uses 16K banks and makes them separately available
to both the CPU and the video controller (ANTIC). The XE has 128K total
memory. The 64K extended RAM is split into four 16K banks. A 256K 800XL has
192K extended RAM, which requires 12 16K banks.
    I have designed a new upgrade for the 800XL that implements such a
scheme. Its similarity to the 130XE's scheme allows use of software for the
XE on a 256K 800XL.
    To select one of four banks, the XE uses two bits, #2 and #3, in the
memory control register (port B of the 6520 PIA, addressed at $D301 or 54017
decimal). Zeroing bit #4 makes the selected bank appear at addresses
$4000-$7FFF (16384 to 32767 decimal), as seen by the CPU. Zeroing bit #5
makes it appear there as seen by ANTIC.
    In my upgrade, bits #2, #3, #5 and #6 select one of the twelve banks.
Zeroing bit #4 makes the selected bank appear at $4000-$7FFF to both the CPU
and ANTIC. So, any program for the XE that uses the extended RAM for CPU
storage will work on an 800XL with this mod. Those programs won't use the
additional 128K though. Programs that use the video banking feature of the
XE might run on the modified XL, but the screen display will be wrong.
    The procedure for this upgrade is basically the same as in the article,
except for the following points. If your ANTIC (U7) part number is CO21697,
use the circuit described by the first connection list below. If it is
CO12296, include the circuit in the second list. The circuit requires five
connections to the PIA (U23). So, pins 12 through 16 must be bent up and
connected to the circuit. The rest of the procedure is the same. Notice that
this circuit has one more chip than the article's circuit. This is the price
of compatibility.
    With the 256K dynamic RAMs in your XL, be sure to wait at least ten
seconds after turning the computer off. Otherwise it may not coldstart
properly when you turn it back on.
    I ask one thing in return for this information, Please pass it around to
all your interested friends. Put it in your club's library or on your
favorite BBS. Encouraging software support of 256K will result in many
interesting uses for it.
Thank you and enjoy!
    The Author and This BBS claim No responsibility for any type damages
incurred by doing this modification.
 MEMORY CONTROL REG. $D301 (54017)
    XL MOD              130XE
    Bit:                Bit:
7 6 5 4 3 2 1 0     7 6 5 4 3 2 1 0
D a b E c d B R     D V C x y B R
D=0 Enables         D=0 Enables
Diagnostics         Diagnostics
B=0 Enables BASIC   B=0 Enables BASIC
R=1 Enables OS      R=1 Enables OS
E=0 Enables V=0 Enables Extended RAM
Extended Ram for abcd is 4-bit Video
Extended RAM Bank# Ranges from 4-15
C=0 Enables Banks 12-15 are Extended Ram for Equivalent to XE's CPU.
xy is 2 Bit Banks
0-3 Extended Ram Bank Number. Ranges From 0-3.
8 41256 256K RAMs (200ns or less)
1 74LS153 Dual 4-to-1 Mux. (IC2)
1 74LS139 Dual 2-to-4 Decoder (IC3)
1 33 ohm, 1/4 watt Resistor
1 74LS158 Quad inv. 2-to-1 Mux. (IC4)
1 74LS393 Dual 4-bit counter (IC5)
    Instead of a drawing of the upgrade circuit, below is a list of
connections. Each entry in the list begins with the name of the signal
followed by all the IC pins that connect together and share the signal.
IC3-13 means pin 13 of IC3. The IC numbers appear in the parts list above.
IC1 is the 74LS158 chip from socket U27 on the XL motherboard.
DIP is the DIP header to be plugged into socket U27.
U23-xx refers to the pins you bend up on the PIA chip at U23 on the
Vcc : DIP-16, IC1-16, IC2-16, IC3-16, IC3-13
Vss : DIP-8, IC1-8, IC2-8, IC2-1, IC2-15, IC3-8
*A7*: DIP-11, IC2-10, IC2-11
A15 : DIP-10, IC2-13, IC3-3
A6 : DIP-14, IC2-6, IC2-5
A14 : DIP-13, IC2-3, IC3-2
MUX : DIP-1, IC1-1, IC2-2
A4 : DIP-2, IC1-2
A12 : DIP-3, IC1-3
RA4 : IC1-4, DIP-4
A5 : DIP-5, IC1-5
A13 : DIP-6, IC1-6
RA5 : IC1-7, DIP-7
-E : DIP-15, IC1-15
RA7 : IC2-9, DIP-9
RA6 : IC2-7, DIP-12
PB2 : U23-12, IC2-4
PB3 : U23-13, IC2-12
PB4 : U23-14, IC3-1
PB5 : U23-15, IC1-10
PB6 : U23-16, IC1-11
-Zd : IC1-9, IC3-14
-O1a: IC3-5, IC3-15, IC2-14
-O2b: IC3-10, One side of resistor
RA8 : Other side of resistor, Pin 1 of all RAMs
    If your U7 part number is CO12296, DO NOT connect signal *A7* above, and
make the following additional connections. The connection to U7 is to a
trace on the motherboard that runs from pin 8 of U7.
Vcc : DIP-16, IC4-16, IC5-14, IC4-3
Vss : DIP-8, IC4-8, IC4-2, IC4-15, IC5-7, IC5-2, IC5-12
A7 : DIP-11, IC4-6
-REF: U7-8, IC4-1
REF : IC4-4, IC5-1
A7' : IC4-7, IC2-10, IC2-11
Q7 : IC5-8, IC4-5
Q3 : IC5-6, IC5-13

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