Classic Mode

Star Tech Journal

Issue: 1983-April - Vol 5 Issue 2

Page 5 Text:

5
STAR*TECH JOURNAL/APRIL 1983
BALLY/MIDWAY
SERVICE BULLETINS
* "BABY
PAC-MAN" VIDIOT PCB ADJUSTMENTS
* "BABY PAC-MAN" SCHEMATIC TYPO
*
"BABY PAC-MAN" FLIPPER E.O.S. WIRING
* "CENTAUR" & "SPEAK EASY'' SOLENOID EXPANDER PCBs
GAMf;. "BAB
"BABY PAC- MAN" ARD
SUBJECT
y PAC-MAN"
GAME CT· VlDlOT p .C. BO
ted on the
: TYPOGRAPm
sUBJE • 4 otentiometets loc.:sting Sync,
SCHEMAnc CAL ERROR ON
Thete atili ~idiot Boatd fot ad1 nttols wete
Please note on .1.
Winn di
scnematic #W-1 ')On
centet of e and Blue. These .~o xespective
g agram) th
.
~(thepl,....c.: ld
schemati .
ere is a Printin
"rue
Red. Gxeen b atd so that =e . .J:-g the
O
d to the
Wh
c In the SWitch lllafrix g enor on the
ad d e
an be ma d e w bile avoio.u•
i the monitot.
adjustments c d high voltages o1 ddition is
IS :~~LEFT INSIDE o
• .
f'RUITs 0 ~ ~~_!Witch ~ s shown on
sm all c O nfines an ate xes ult O f this a
awate
f'RUITs O ~ • L.l'Wlt;. Additionall e labeled
The unfo::ce departments a::;nboatds
that manY s
. metets and th
·th no
SWitch s h ~ is 1 shown on r, ~n;~~e .;!ie
of these pot=ed to Bally/Mid:°! :ut of
0U'l'LANE_
e aheled LEFT INsmr
have been te
Sync con o
thet
than
a
faults O
ut these
doubts abo
11
d ·ustment.
a 1 uld you have anY ' hesitate to ca
ad:~ents, ple~~:e!~~et~/3'lJ-'3555-
BallYfMidwCIY~s t_o_u _ _ _ _ _ l l ! ! ! I ! ! ~ ~ - - - - - - - - - - - - - - - - - ,
GAME: "BABY PAC-MAN"
SUBJECT: WIRING OF THE FLIPPER E.O.S. SWITCH
Due to a slight production error, some of the right flipper
end-of-stroke switches were mis-wired on the normally
open switch.
This condition results in the following symptoms:
l. Occasionally the ball will not kick out of the outhole.
2. When the right drop target is down, it is possible for
the game to re-enter the video maze while the ball is
still in motion on the playfield.
To correct these symptoms, make sure the wiring on the
right flipper end-of-stroke switch is the same as in the
following drawing {See Figure #1).
A 'l'TC" & "SPEAK EASY"
.UH
GAME • PINBALLS
XPANDER
SUBJECT: soLE~O~ !1enoid Expand~~;~~
,w.n.. nevet mstalling
es please xem
will
, .... e
th above gatn ' il e to do so
Boatd in . e ftom the boatd. F abt wing on the 43
jutnPe~ ~ : 5-amP, 3AG fuseoth~I games using
xesult ~ ·t Convetsely, ~'-' ·umpet added to
volt clXCUl •
uld have uuS 1
the expandet sho the xelClY contacts.
·de 43 volts to
S· "CENT
ptOVl
MIDDLE LUG SHOULD BE
ANODE SIDE OF DIODE
AND 51 WIRE (WHITE
WIRE WITH RED TRACE)
THE BOTTOM LUG
SHOULD BE 54 WIRE
(WHITE WIRE WITH
GREEN TRACE)
FIGURE #1

Page 6 Text:

6
STAR*TECH JOURNAL/APRIL 1983
SEGA ELECTRONICS'
ROM LINE (PART 7)
Continuing our ROM LINE
series on integrated circuits,
this issue we will expand on
those devices covered previ-
ously, differentiate between
TTL/LS and CMOS logic,
discuss handling techniques and
look at some common applica-
tions. As we mentioned last
time, the most basic of digital
ICs are the logic gates AND/
NAND, OR/NOR, EXCLU-
SIVE OR/EXCLUSIVE NOR,
the YES ( or BUFFER) and the
NOT ( or INVERTER). These
gates are often grouped together,
several on a single chip, and
comprise the more complex I Cs.
TTL ( or Transistor to Tran-
sistor Logic) at present has the
widest application in the video
games industry and is the most
diversified IC family. Typically,
a TTL device can be recognized
by a 74-preface designation(i.e.
74154). LS (or Low-power
Schottky) is functionally identi-
cal to TTL, but has superior
speed, temperature parameters
and consumes an average of
80% less power. An LS logic
device is differentiated by an
LS in its designator (i.e.
74LS131). Power supply re-
quirements should be kept
regulated within the 4. 7 5 to
5.25vdc range. Also keep in
mind that digital is two-state
logic and inputs should never
exceed supply(5.25vdc) or fall
below ground (Ovdc). A quick
tip on troubleshooting digital
- outputs found to be floating
(held somewhere midway
between 0-Svdc) are always
suspect. Now, on to some
specific chips . . .
The QUAD NAND gate,
7400/74LSOO is a 14-pin IC
that has wide use both as a
convenient packaging of 4
NAND gates on a single chip,
and as a way to consolidate
components for space consider-
ations, ( for example, on the
SPACE TACTICS Logic board,
IC 148 is configured as a single
NAND and a single OR).
Pictured below is an internal
configuration of the 7 400/
74LSOO, and our IC 148
arrangement.
Vee ( +5 VDC)
9
2
3
8
4
Having analyzed a few repre-
sentative TTL devices and their
applications, let's tum now to a
brief discussion ofMOS/CMOS.
MOS stands for Metal Oxide
Silicon/or Semiconductor. By
and large you will be concerned
with Complimentary MOS or
CMOS. These I Cs can contain
Vee (+5 VOC)
more functions per chip than
14
TTL/LS and consume very little
power operating over a supply
range of +3 to 15vdc. CMOS
chips are multiple stratis devices
( similar to other formats) with
the unique addition of a silicon
dioxide film separating the input
port from the other junctions.
4
It's this thin, glassy layer that
enables the chip to impose very
low loads on the input signal
source, while at the same time
standing as this chip-type's
"Achilles Heel". Susceptibility
· to static damage requires care-
ful handling techniques that
include exclusive use of DC
powered irons or well isolated,
IC 148
controlled output soldering
stations, and storage only in
The 7410/74LS10 is a 14- conductive foam or pins down
pin, Triple 3-input NAND gate on aluminum foil. Ground dif-
generally used for decoder or ferentials should be strictly
observed.
enable control functions:
Next month: A TTL review.

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