Arcade Game Manual: Qix by Taito

^=IftU2^ ©1981 Trade Marks of Taito America Corporation

Revision 1 72-00008-001

^fitS

1256 Estes Avenue, Elk Grove Village, IL 60007
Telephone (312) 981-1000 Telex 25-3290

'^niv'TM

QIX

OPERATION, MAINTENANCE AND SERVICE MANUAL
Complete with Illustrated Parts Catalog

»Q,JJ»TM

TABLE OF CONTENTS

1. "QIX"^" GAME SET-UP Page 5

1 . 1 Game Features 6

1.2 Introduction 6

1.3 Game Inspection 6

1 .4 Game Pre-lnstallation 6

1 .5 Power On/Oft Switch, Interlock Switches,
Memory Protect Switch, Self Test Switch,

Volume Control, and Service Outlet 7

1 .6 Electronic Acceptors 7

1 .7 Game Installation 7

1 .8 Self Test Procedure 8

2. MAINTENANCE 15

2.1 Cleaning 16

2.2 Coin Door 16

2.3 Fuse Replacement 16

2.4 Monitor Removal 16

2.5 Cover Glass Removal 17

2.6 Printed Circuit Board Replacement 17

2.7 Power Supply 17

2.8 CMOS RAM 18

2.9 Test Points 19

3. THEORY OF OPERATION 21

3.1 General 22

3.2 Video Board 22

3.3 Data Sound Board 23

3.4 ROM/1/0 Board 24

3.5 Software Security Module 24

4. ILLUSTRATION & PARTS LISTS 25

Figure 1 Incandescent Panel 26

Figure 2 4-Way Joystick 27

Figure 3 Control Panel 28

Figure 4 Door Assembly 30

Figure 5 Cabinet Assembly Upright Front View 32

Figure 6 Cabinet Assembly Upright Rear View ... .34

Figure 7 Power Supply Component Layout 36

Figure 8 Video Processor Component Layout 39

Figure 9 Data/Sound Processor Component Layout 44

Figure 10 ROM/i/0 P.C. Assembly Component Layout48

Figure 1 1 Wiring Diagram 52

Figure 12 Power Supply Schematic (Fold Out)

Figure 13 Video Processor Schematic (Fold Out)

Figure 14 Data/Sound Processor Schematic (Fold Out)

Figure 15 ROM/I/O Schematic (Fold Out)

LISTS OF ILLUSTRATIONS

Figure 1-1 Programming Plug 6

Figure 1-2 Power ON/OFF Switch 7

Figure 1-3 Interlock Switches & Memory Protect Switch 7

Figure 1-4 Self Test Switches 7

Figure 1-5 Volume Control Setting 7

Figure 1-6 Coin Meter 7

Figure 1-7 Self Test Button 8

Figure 1-8 Video Board (On Back of Service Door) . .9

Figure 1-9 Flow Chart 10

Figure 1-10 Color Bar 10

Figure 1-11 Color Bar 10

Figure 1-12 Color Bar 11

Figure 2-1 Coin Door 16

Figure 2-2 Fuse Replacement 16

Figure 2-3 Monitor Removal 16

Figure 2-4 Cover Glass Removal 17

Figure 2-5 Printed Circuit Board 17

Figure 2-6 Power Supply 17

Figure 2-7 Current Limit Adjustment 18

Figure 3-1 Clock Timing 22

Figure 3-2 Dual Port RAM Timing 23

LISTS OF TABLES

Table 1-1 Self Test Switches 7

Table 1-2 Hardware Tests 8

Table 1-3 Video Board ROM Checksum 8

Table 1-4 Decoding Jumper Location 8

Table 1-5 Video Board RAM Checksum 9

Table 1-6 Data/Sound Board ROM Checksum 9

Table 1-7 Screen RAM Content 11

Table 1-8 Audit Totals 12

Table 1-9 Standard Coin Setting 13

Table 1-10 Custom Coin Setting 13

Table 2-1 Line Voltage .17

Table 2-2 Secondary Fuses 18

Table 2-3 Data/Sound Board Test Points 19

Table 2-4 Video Board Test Points 19

Table 3-1 Video Board Memory Map 22

Table 3-2 Register initialization 23

Table 3-3 Data/Sound Memory Map 24

Game Set-Up

qix'

1. GAME SET-UP

1.1 GAME FEATURES

TAITO AMERICA CORPORATION'S "QIX"™ upright game is

housed In a highly serviceable cabinet designed with many added

features.

By putting wheels on the cabinet, moving the game from one

location to another is made much easier.

A larger security designed cash box has been incorporated into the

design of this cabinet.

The Control Panel has a polycarbonate overlay, so cigarette marks

and mars can be easily wiped clean. This overlay can be replaced if

necessary.

The Marquee and Coverglass are made with fully Tempered Glass

to minimize breakage.

The Back Service Door houses all the PC Boards for the system

making servicing of the game, if needed, much easier.

Lighted Instructions are provided to further enhance the game and

attract players, by making the Instructions easier to read.

TAITO AMERICA CORPORATION proudly presents our improved

Self-Test capability, making servicing of the game easier, which

keeps your game up and running with less down time.

1.2 INTRODUCTION

TAITO AMERICA COROPRATION'S "QIX"^" upright game is de-
signed tor one or two players.

The object of the game Is to claim as much screen as possible
without getting in the path of the spinning "QIX""^", while avoiding
the traveling "Sparx"™ . The game Is set so a minimum prescribed
area must be claimed before moving on to the next screen.
The "Sparx"™ are timed, which is indicated at the top of the video
screen by a Red Timing Line. When the ends of the upper Red Line
meet, more "Sparx""^" are released. When the alarm sounds these
"Sparx"^" turn into Super "Sparx"™ and become more aggres-
sive and follow the Marker on the outside boarder.
If while claiming your area, your Marker is caught in the Spiral
Death Trap you will be destroyed, since you cannot cross your own
path. If you hesitate and do not complete your area a fuse will be
ignited and destroy the Marker. A Slow Draw and Fast Draw Button
are provided. If you claim your area using the Slow Draw Button the
point values will double.

1.3 GAME INSPECTION

TAITO AMERICA CORPORATION'S "QIX"^" upright game is ship-
ped ready for operation, but a last visual check should be made to
insure the game is in good condition. Please verify the following
before turning the game on.

Check the exterior of the game for shipping damage, chips, dents,
or broken parts.
Open the Rear Service Door and check for any interior damage.

* Make sure there isn't any damage to the wiring.

* Check Printed Circuit Boards, making sure there is
no damage to the components.

* Check fuses making sure they are firmly in their
holders.^

* Check for loose foreign objects, especially metal
objects which may cause electrical problems.

* Check Plug-In Connectors making sure they are
firmly In their sockets.

* Check the Coin Door for any possible damage, espe-
cially the switches.

The Video Monitor is properly adjusted before shipping. If there are
any adjustments necessary, refer to our Video Monitor Manual
(72-00009-001). This Manual contains all the Manufacturers re-
commendations for adjusting the Video Monitor.

1.4 GAME PRE-INSTALLATION

The following precautions should be followed when installing the
game.

* Avoid rough handling of the game, the picture tube is
fragile.

* Install the game on a level surface.

* Avoid Installing the game where it may receive excessive
sunlight or heat, to prevent the game from rising internal
temperatures.

* Do not install in a damp or dusty location.

* For a short time after connecting the power to the game,
the picture may be temporiarly distorted.

The monitor's purity is affected by the earth's magnetic field,
causing a variation of color. By turning the game on for 10 or15
seconds and then off for 20 to 30 minutes the automatic degaus-
sing circuit applies a degaussing field around the edges of the
monitor. Doing this several times will correct the problem.
Another way to correct this problem is to purchase a degaussing
coil or bulk tape eraser at any Electronics store. This will help to
immediately demagnetize the Video tube.

CAUTION

Caution must be used with a degaussing coil so the
magnetic field of the degaussing coil Is not allowed
to become too intense at any one place on the
picture tube, thereby causing a localized color dis-
tortion.

If you move the game to another location after degaussing the
problem may reappear.

Refer to Monitor Manual 72-00009-001 for details.
1.4.1 POWER REQUIRMENTS

TAITO AMERICA CORPORATION'S "QIX"^" game is shipped
ready for operation at 120 or 240VAC, 60Hz with a power con-
sumption of approximately 250 Watts.
The following line voltages may be selected:

100 VAC ±10% 50/60HZ

120VAC ±10% 50/60HZ

200VAC ±10%50/60Hz

220VAC ±10% 50/60HZ

240VAC ±10% 50/60HZ
A voltage Programming Block is located on the primary side of the
Transformer to compensate for high/low conditions. (See Figure
1-1).

FIGURE 1-1 PROGRAMING PLUG

CAUTION

For safe operation it is recommended the cabinet be
grounded. This game is equipped with a three con-
ductor power cable. The third conductor is the
ground conductor and when the cable is plugged
into an appropriate receptacle, the game is
grounded. The offset pin on the power cable's
three-prong connector is the ground connection.

1.5 POWER ON/OFF SWITCH, INTERLOCK SWITCHES, MEMORY
PROTECT SWITCH, SELF TEST SWITCH, VOLUME CONTROL,
AND SERVICE OUTLET

To minimize the hazard of electrical shock while servicing the game
a Power ON/OFF Switch, and two (2) Interlock Switches are pro-
vided. Two (2) Self Test Switches, a Volume Control and a Service
Outlet have also been provided . (See Figures 5 and 6 for location of
Switches).

1.5.1 POWER ON/OFF SWITCH, INTERLOCK SWITCHES

A Power ON/OFF Switch is located in the front of the game at the
botton left side of the cabinet. There are two Power Interlock
Switches, one is located on the inside of the Coin Door, the other
switch is located at the inside rear of the Service Door. This switch
removes all the power from the game without unplugging it from
the wall outlet. Power may be restored for servicing by pulling out
on the Interlock Switch Buttons.

FIGURE 1-2 POWER ON/OFF SWITCH
1.5.2 MEMORY PROTECT SWITCH

The Memory Protect Switch is used to prevent erroneous writes to
locations in the CMOS RAM which store the location program
variables.

Coin Door Memory Protect Switch

Coin Door Power Interlocic Switcii

Back Door Power interlcok Switcii

FIGURE 1-3 INTERLOCK SWITCHES & MEMORY PROTECT SWITCH

1.5.3 SELF TEST SWITCH

There are two (2) Self Test Switches and four (4) positions, located
on the inside of the Coin Door. See Figure 5. The "QIX"™ game is
capable of testing itself and provides data to demonstrate that the
games circuitry and the controls are working properly. For further
information on the Self Test Procedure refer to Section 1.8 and
Figure 1-8.

FIGURE 1-4 SELF TEST SWITCH

J

ADV. bUB

TEST

1

ts*

UP

^

g

A

ST

u
e

@

DN

SWITCH

FUNCTION

Up

Reset To Factory Setting (Reset Line Lit)

Increment Number (Variable Line Lit)

Down

Decrement Number

Advance Sub-Test

Move To Next Line

Advance Test

Move To The Next Screen

1.5.4 VOLUME CONTROL SEHING

The Volume Control Setting is located on the Data/Sound P. C.
Board, which is on the rear of the Service Door. The volume
increases when turned clockwise as indicated in Figure 1-5.

FIGURE 1-5 VOLUME CONTROL SEHtNG

1.5.5 SERVICE OUTLET

A Power Recepatacle has been provided to further aid servicing.
The voltage at this receptacle will be the same as the line voltage the
game is set at.

1.6 ELECTRONIC ACCEPTORS

This game is equipped with the capability of using 12VDC Elec-
tronic Coin Acceptors, such as Third Wave Electronics, Model
TW12 or equivalent. Power for these units may be obtained from
the Coin Entry Lamp terminals which provide 12VDC.

1.6.1 COIN METER

This game is also equipped with the capability of using a Coin
Meter. See Illustration below.

Connect one lead to the +12VDC supply (available from the Coin
Entry Lamp), another connection from the other lead on the Coin
Meter to Connector J15-13 on the ROM/10 Board

+12VDC-

-J15-13

TABLE 1-1 SELF TEST SWITCHES

FIGURE 1-6 COIN METER
1.7 GAME INSTALUTION

Open the Coin Door and pull out the bottom Interlock Switch. Turn
the game on. The language selection frame should be displayed.
If the game is in the game mode, push the door switch toward ADV
SUB Test. The game will go into self test. If after a minute, the
switch test frame is not displayed, refer to the manual on self test
after the switch test is displayed , push the door switch toward ADV
set four times.

Then the language selection frame should be displayed, push the
door switch toward ADV SUB Test until the language you want is
green. Push the left door switch toward ADV Test and then all the
print should be in the language you select. Push door switch
toward ADV Test four more times the game should now be in game
mode. For more information on the options the operator can use,
see Section 1 .8.17 through 1 .8.21 .

1.7.1 GAME ADJUSTMENTS

There are several adjustments you can make to the game to make

the play easier or more difficult.

First the percentages of screen that needs to be filled can be

adjusted anywhere from to 99 percent of the screen . The game is

factory set for 75%.

The Time Line can also be adjusted from to 99 seconds. The

longer the Time Line the easier the game is to play. The shorter the

Time Line the harder the game is to play. The game is factory set at

37 seconds.

Next the difficulty of each screen can be set independently using

settings from to 3. Screeni ,has 1 "QIX" and can be set from to

3 the higher the setting the more aggressive the "QIX" become.
Screen 2 has 1 "QIX". Screen 3 and 4 have 2 "QIX" per screen.
Standard factory settings are, Screen 1 is set at 0, Screens 2, 3 and

4 are set at 1 . _

1.8 SELF TEST PROCEDURE
1.8.1 GENERAL

The Self Test Procedure is performed using the two (2) Switches
located on the inside of the Coin Door, and the Sell Test Button and
the LED'S on the Video PC Board. (See Figure 1-7).

FIGURE 1-7 SELF TEST BUHON

1 .8.2 ENTERING INTO THE SELF TEST MODE

To enter the Self Test Mode , press the Advance Sub-Test Switch on
the Coin Door or the Self Test Button found near the LED display.
All the LED'S should blink on and the Hardware Tests should start.
The Diagnostics can be entered at the Location Programming
Screen (Section 1.8.16) by pressing the Advance Test Switch on
the Coin Door. If a continual test of the Video Board is desired,
press the Self Test Button twice to start the Video Test in the Auto
Test Mode. In this mode, the machine will continually run the
Hardware test until powered off. If the message "OPEN COIN
DOOR TO TEST" appears the Coin Door must be opened or a
jumper connected across J19, 1-2. This is because the CMOS RAM
Test (Section 1.8.6) cannot be performed with the memory pro-
tected by the Coin Door Switch.

1.8.3 HARDWARE TESTS

These tests are performed in the following order:

VIDEO BOARD

DATA BOARD

ROM Checksum

ROM Checksum

Communications RAM

Local RAM

CMOS RAM

Communications RAM

Color RAM

Handshake Test

Screen RAM

TABLE 1-2 HARDWARE TESTS

All LED values are shown Left to Right. is OFF, 1 is ON and X is
dependant upon the test results.

1.8.4 VIDEO BOARD ROM CHECKSUM

The ROM Checksum calculates the checksum of each Video ROM
and compares it to the checksum stored for that ROM. If it differs
from the stored value, the machine will halt and the value of the
ROM with the bad checksum will be shown on the LED'S.

LED VALUES: TEST IN PROGRESS: 00 0001
FAILURE: 01 XXXX

LED VALUE

VIDEO

2716

2732

01 0000

A000-A7FF

N/A

U5

01 0001

A800-AFFF

N/A

U5

01 0010

B000-B7FF

N/A

U6

01 0011

B800-BFFF

N/A

U6

01 0100

C000-C7FF

U3

U7

01 0101

C800-CFFF

U4

U7

01 0110

D000-D7FF

U5

U8

01 0111

D800-DFFF

U6

U8

01 1000

E000-E7FF

U7

U9

01 1001

E800-EFFF

U8

U9

01 1010

F000-F7FF

U9

U10

01 1011

F800-FFFF

U10

U10

TABLE 1-3 VIDEO BOARD ROM CHECKSUjVI

If the Checksum ROM is bad, it will show UlOtobe bad first. If this
test fails, the ROM indicated on the LED display will need to be
replaced. The E-PROM Memory in a given game may be im-
plemented as banks of either 2716 or 2732 E-PROMS. The
E-PROM type for each bank is selected by the decoding jumper
26-00002-016 for 2716 or 26-00002-032 for 2732.

E-PROM BANK

LOCATION

VIDEO

DATA

SOUND

U1

U22

U29

TABLE 1-4 DECODING JUMPER LOCATION

1.8.5 COMMUNICATIONS RAM FROM VIDEO BOARD

The Communications RAM Test determines the stability of memory
shared by the two processors by storing a predefined series of
numbers throughout the RAM, then reading it back to insure that it
was stored correctly.

LED VALUE: 00 0010

A failure has been detected when the machine halts with the above
display. Failure of Communications RAM during Video Board Tests
may result from either defective RAM circuitry or failure of the Data
Board. To isolate the failure, disconnect the Data Board at P6 and
re-enter the test. A failure means trouble in U3, U4 or associated
circuits. Passing the retest suggests Data Board problems.

1.8.6 VIDEO BOARD CMOS RAM

After saving values in another portion of memory, the CMOS RAM
is tested in the same manner as the Communications RAM. If the
CMOS RAM passes the test, all of the locations are restored to their
previous values.

LED VALUE: 00 0011

A failure of the CMOS RAM has been detected when the machine
halts with the above LED value displayed. If this occurs U85 and
U86 or associated decoding should be checked.

1.8.7 VIDEO BOARD COLOR RAM

This tests the system Color RAM by storing predefined sequences
of numbers in the Color RAM, then reading them back while testing
for accuracy.

LED VALUE;

00 0100

A failure is indicated by the processor halting with the above value
displayed on the LED'S. This signifies the need to check U56, U57
and associated multiplexing and decoding.

1.8.8 VIDEO BOARD SCREEN RAM

The Screen RAM is tested by writing a pattern to each page on the
screen. The results of these writes is then compared to the original
pattern. Any discrepancy causes the machine to halt with the LED
displaying the faulty RAM.

LED VALUE: TEST IN PROGRESS: 00 0101
FAILURE: 1XXXXX

LED VALUE

RAM

11 XXXX

RAM

10 1000

U26

11 1000

U48

10 0001

U32

11 0001

U65

10 0010

U31

11 0010

U64

10 0011

U30

11 0011

U63

10 0100

U29

11 0100

U62

10 0101

U28

11 0101

U61

10 0110

U27

11 0110

U60

10 0111

U26

11 0111

U59

10 1000

U17

11 1000

U48

10 1001

U16

11 1001

U47

10 1010

U15

11 1010

U46

10 1011

U14

11 1011

U45

10 1100

U13

11 1100

U44

10 1101

U12

11 1101

U43

10 1110

U11

11 1110

U42

10 1111

U10

11 1111

U41

TABLE 1-5 VIDEO BOARD RAM CHECKSUM

Upon failure of a screen RAM, locate the problem RAM and replace
it. Exchange the suspected RAM with a known good location to
determine If the problem moves with the RAM, IC or whatever the
problem is in the supporting circuitry. Futher testing can be done
with the Color Bar Test.

If this Diagnostic appears to halt without indicating a RAM failure
(00 01 01 on LED'S) , a failure to begin the next test (Data Hardware)
is indicated. The interconnection to the Data Processor must be
inplace and the Data Processor must be functional to continue.

/

SELF TEST LEDS

oo oooo

A^

SELF TEST BUTTON

FIGURE 1-8 VIDEO BOARD (ON BACK SERVICE DOOR)

1.8.9 DATA/SOUND BOARD SELF TESTS
DATA HARDWARE (ROM CHECKSUM)

The ROM Checksum calculates the checksum of each Data ROM
and compares it to the checksum stored for that ROM. If it differs
from the stored value, the machine will halt and the value of the
ROM with the bad checksum will be shown on the LED'S.

LED VALUE

DATA

2716

2732

01 0000

AOOO

N/A

U14

01 0001

A800

N/A

U14

01 0010

BOOO

N/A

U15

01 0011

B800

N/A

U15

01 0100

COOO

U12

U16

01 0101

C800

U13

U16

01 0110

DOOO

U14

U17

01 0111

D800

U15

U17

01 1000

EOOO

U16

U18

01 1001

E800

U17

U18

01 1010

FOOO

U18

U19

01 1011

F800

U19

U19

TABLE 1-6 DATA/SOUND BOARD ROM CHECKSUM

If this test fails in the field, the bad ROM will need to be replaced.

1.8.10 DATA/SOUND BOARD LOCAL MEMORY

The Data Processor uses a known sequence of numbers to test the
bits in its Local Memory. If a bad bit is found the machine will halt
with the following display.

LED VALUE: 00 0111

1.8.11 COMMUNICATIONS RAM ADDRESSING

The function of this test is to ensure that both the Data and the
Video Processor address the Communicatons RAM in the same
manner. The Data Processor requests the Video Processor to fill
the RAM with a known pattern then, the Data Processor compares
the result to the expected pattern. If it does not match, one of the
processors is probably decoding the address incorrectly as the
RAM itself was previously tested for stability by the Video Proces-
sor. The machine will halt with the following display.

LED VALUE: 00 1000

1.8.12 DATA/VIDEO HANDSHAKE

This test ensures that the Data Processor can sencl priority com-
mands via interrupts to the Video Processor. The Video Processor
is halted, then restarted by the data Processor after the proper
command acknowledgements are received. The machine will halt
with the following display.

LED VALUE: 00 1001

1.8.13 SWITCH TEST

This screen is used to determine all switches are in working order
before entering the switch dependent self-test screens. The Wiring
Diagram supplied with each game will indicate the number as-
sociated with a particular switch. The switch number appears in
green if the switch is closed and white if it is open.
The Advance Test Switch (Switch Number 9) is always RED in order
to set it apart from the other switches on the screen. Switches 29,
30, 31 and 32 are not used and remain Green. The user should
check all other switches before pressing the Advance Test Switch,
as this would move him to the next screen. In addition to the
switches required , by the game, the User should be sure to test the
Advance Sub-Test, UP and DOWN Switches located in the Coin
Door for proper closure as the switches are used to move about in
the Self-Tests Screens. To advance to the next screen, activate the
Advance Test Button on the Coin Door.

LED VALUE: TEST IN PROGRESS: 00 0110
FAILURE: 01 XXXX

GAME OVER

Ml

i

I

I

SELF TEST

ADVANCE
SUB-TEST

ADVANCE
TEST

t

_>

ROM CHECKSUmToO

(FAILURE)
0001 — 01 XXXX

VIDEO ^
BOARD

COMMUNrCATIONS RAM 1 00 0010

CMOS RAM \ 00 0011

COLOR RAM I 00 0100

^^-^ (FAILURE)
SCREEN RAM j 00 0101 IX XXXX

-LED'S

J

X (FAILURE)

ROM CHECKSUM ToO 0110 01 XXXX

DATA/
SOUND-
BOARD

LOCAL RAM T^ 0° 0111
COMMUNICATIONS RAM ^00 1000

HANDSHAKE TEST \ 00 1001

^SWITCH TEST ^

GRAY SCALE ^

COLOR BARS ^

SCREEN
TESTS "

ALIGNMENT'CONVERGENCE ^

LANGUAGE SELECT*^

i ^

DOWN

< HIGH SCORE TO DATE i

*""" '^'^'■^ I

COIN SLOT PROGRAMMING^

)

r

GAME OVER

J

FIGURE 1-9 FLOW CHART

1.8.14 COLOR BALANCE AND INTENSITY ADJUST SCREEN

This screen is comprised of two sections. The first section provides
a method for adjusting the intensity level of each color gun, and
achieving an initial color balance.

Three squares, one blue, one green and one red, are drawn along
the top of the screen at Maximum intensity and brightness. The
color guns should be adjusted so that these squares are barely
visible and equal intensity.

To complete the color adjustments, a gray scale is provided at the
bottom of the screen. Fine tune the color balance with this scale,
the double check that the squares at the top are barely visible. To
advance to the next screen, activate the Advance Test Switch
located on the Coin Door.

1.8.15 COLOR BARS

The CPU divides the screen RAM into 1 6 areas corresponding to 1 6
bars on the screen. Each area is written with a data value from the
Table below. Each value exercise one bit in the Screen RAM. The
Color RAM is written with a pattern which outputs each data value
with a recognizable color from the Table. All other data values are
coded black. This results in a normal screen of 1 6 color bars per the
following table.

$OOFF

$0000

$FFFF

$FFOO

$OOFF

COLOR BAR DIAGNOSTIC

NORMAL

FIGURE MO COLOR BAR

$0000

o

HI

a.

a
a

O

-J
111

>-

==

z
cc
a

D

3
-J
CD

O

>

I

z
d
o

1

^

^^

».

=

^^

=:

rz:

z^

^—

=

^

$FFOO

COLOR BAR DIAGNOSTIC

BIT 03 STUCK LOW IN 1-BANK

FIGURE 1-11 COLOR BAR

10

L"^ .o ^o

SCREEN RAM
DATA CONTENT
-A

$OOFF

$0000

::v^

$FFFF

SCREEN RAM CONTENT

COLOR RAM ADDRESS

BAR#

COLOR

HEX

BINARY

BIT TESTED

1

Red

01

0000 0001

2

Orange

02

0000 0010

1

3

Yellow

04

0000 0100

2

4

Green

08

0000 1000

3

5

Blue Green

10

0001 0000

4

6

Blue

20

0010 0000

5

7

Violet

40

0100 0000

6

8

White

80

1000 0000

7

9

Red

FE

1111 1110

10

Orange

FD

1111 1101

1

11

Yellow

FB

1111 1011

2

12

Green

F7

1111 0111

3

13

Green Blue

EF

11101111

4

14

Blue

DF

1101 1111

5

15

Violet

B7

1011 1111

6

16

White

F7

0111 1111

7

None

Black

XX

xxxx xxxx

$FFOO

COLOR BAR DIAGNOSTIC

BIT 6 STUCK HIGH ALL BANKS

FIGURE 1-12 COLOR BAR

TABLE 1-7

NOTES

11

If the Self-Test pass, errors in those circuits which affect CPU
accesse are ruled out. This leaves latches U91 , U94, shift registers
U95,U96 and U105-109, direction select U81 and U104 and the CR
side of the Color RAM MUX U55, U73, and U74.
Stuck bits may be indentified by observing abnormal bars. A bit
stuck high will result in black bars (two bit high) on the left or top
half of the screen except for the bar associated with the stuck bit.
On the right of bottom half, the bar associated with the stuck bit will
be black. The converse is true of a bit stuck low.
An error across the entire bar indicates an error in the shift
registers, direction select, or color RAM MUX which affects every
pixel. Lines of error running crosswise to the bars indicate an error
in one bank of RAM of every eighth pixel. To move to the next
screen, activate the Advance Test Button.
If self test fails, the Color Bars still may by useful. This screen may
now be entered without going through on-board self test. Use
"Advance Test" to enter the High Score Screen then "Down" to
enter the Switch Test. Advance Test may then be used to access the
Color Bars.

1.8.16 ALIGNMENT AND CONVERGENCE TEST

This screen is provided to align the color guns and correct the

convergence on the screen . The screen is composed of a red and a

green rectangle and white grid.

Adjust the screen width and length so that the red rectangle is

slightly within the boundaries of the tube. The adjustment is to be

made on the center of the lines which make up the rectangle. The

corners of the rectangle will extend beyond the shadow mask.

The green rectangle defines the normal playfield and so should be

visible from the players view point.

A grid of white squares is provided to help detect and correct any

convergence problems the tube may have. Adjust the monitor until

the squares are of equal size throughout the screen.

To advance to the next screen , activate the Advance Test Button on

the Coin Door.

1.8.17 LOCATION PROGRAMMING SGREEN(LANGUAGE SELEC-
TION)

This screen allows the user to select the language in which the
Location Programming and the game will operate. Four (4) lan-
guages are provided. Use the Advance Sub-Test Button to move
through the offered languages. When the desired language is
green, depress the Advance Test Button, to advance to the next
screen.

1.8.18 LOCATION PROGRAMMING

This screen allows the location to define the difficulty factor for the
game. It also allows the location to set a maximum number of
credits allowed in the machine prior to a game start up.
The user selects the line to be changed by using, the Advance
Sub-Test Button until the desired line is changed to green. The
value associated with this line is then modified with the UP and
DOWN Switch. If the machine is to be reset to the factory
settings, use the Advance Sub-Test Button until the reset line is lit
in green , then press the UP Switch . The values will be reset and the
user will be placed back on the first line for futher adjustments.
Advance test will move to the next screen at any time.
The backup HSTD (High score to date) value is used to reset the
high score on the next screen. Its value will initially determine the
score needed for a player to have his own initials show with his
score in the high scores.

The maximum credit defines a limit for the machine, which when
crossed will disable the coin slots. This allows the location to set a
limit on the amount of games a player will get if there is a line of
people waiting. This value ranges from 1 to 99. However, it should
not be set so close to 99 that a single coin can overflow the credits
issued (maximum 99). A Free Play Mode may be selected by
setting maximum credits to 0. The credits per coin are set in the
coin slot programming screen.

12

1.8.19 HIGH SCORE TO DATE SCREEN

This screen shows the scores and initials of the players with the ten
highest scores. It is used as an audit for the game. To reset the
values to the backup HSTD selected on the previous screen, press
the UP Switch. This will also set the initials to "TAG".
When the UP Button is activated it resets to default scores. To
move to the next screen, activate the Advance Test Button on the
Coin Door.

1.8.20 AUDIT TOTALS

This screen provides the audit totals for the game. Once they are
recorded, they may be zeroed by pressing the UP Switch. The
following audits are kept.

Total Credits

Left Coins

Center Coins

Right Coins

Paid Credits
Awarded Credits

% Free Plays

Minutes Played

Minutes Awarded

% Free Time
Average Game (Sec)

High Scores

The total number of paid credits issued.

This total is never zeroed, but it will

wrap around to zero when its total reaches

1 ,000,000. The only time this total can

be zeroed is by physically removing the

battery or jumper W1 , while the power

is off.

The number of coins dropped into the

left slot.

The number of coins dropped in the

center slot.

The number of coins dropped into the

right slot.

The number of credits issued for coins.

The number of credits awarded by the

game.

Awarded credits / paid credits + awarded

credits MOO

Number of minutes the game has been in

play mode.

Number of minutes the game has been in

extended or awarded play.

Awarded minutes / minutes played *100.

Minutes played / paid credits + awarded

credits *60

The number of times which a player

scored high enough to bump someone else

from the high score list.

TABLE 1-8 AUDIT TOTALS

The UP Switch is used to zero the audits. To advance to the next
screen, activate the Advance Test Button on the Coin Door.

1.8.21 COIN SLOT PROGRAMMING

This screen allows the user to either select a standard coinage
setting for the game or program his own. If a standard setting is
desired , use the UP and DOWN Switch to adjust the coinage setting
while it is lit in green . The values for the variable will change as this
number is altered. When the right selection is set, use Advance
Test to return to the game.

If a non-standard setting is desired, use Advance Sub-Test Switch
to move down to the variables so that they may be programmed
individually. Once this switch is pressed, the setting number is set
to zero to show that the location has supplied their own settings. As
the lower variables are unchanged, the user may minimize his
effort by first selecting a setting close to the one he desires.
Once in the programming mode, the Advance Sub-Test Switch is
used to move among the variables . It will also take you back to the
standard settings, if you press it by mistake. The UP and DOWN
Switches are used to increment or decrement the values. Advance
Test Switch will return to the game when pressed.

The cojn multiplier tells how many coin units are Issued for each
coin through a particular slot. Coin units for credit show the
number of units necessary before a credit is issued. Coin units for
bonus gives the number of units necessary before a bonus credit is
issued.

Minimum coin is an optional value which will keep the credits from
accumulating until the specified minimum amount of coin units is
reached. It is not used In any of the standard settings.

1.8.22 CMOS MEMORY FAILURE

If the message "Memory Failure - Service Required" appears on
the screen, the CMOS RAM which stores all of the location prog-
ramming has failed . All the values stored in the RAM are set back to
factory defaults. This condition probably indicates a battery failure
or a Failure of U85 or U86. Refer to Section 2 on Maintainence
2.8 CMOS RAM.

STANDARD COIN SEHINGS

TABLE 1-9

"1

■o

CO

B

CO

.23

■*=
E

8

aS

a

E

o
to

.=

!

CL

E
o

CO

c:

8

DC

CD
CO

s

=)
c
o

CO

"E

3

c

5

c

3

c

'8

E

3

E

"c:

if

COIN DOOR MECHANISMS

CREDIT/MONEY

STANDARD

1/.25, 4/«1

01

01

04

01

01

00

00

1/.50, 3/«1, 6/*2

02

01

04

01

02

04

00

1/.50

03

01

04

01

02

00

00

1 DM, 5 DM

1/1DM, 6/5DM

04

06

00

01

01

00

00

1 FRANC, 5 FRANC

1/2F, 3/5F ONLY

05

01

16

06

02

00

00

25 CENTS, 1 GUILDER

1/25, 4/1G

06

01

00

04

01

00

00

5 FRANCS, 10 FRANCS

1/5F, 2/1 OF

07

01

00

02

01

00

00

1/10F

08

01

00

02

02

00

00

1 FRANC, 2 FRANC

2/1 F, 5/2F

09

00

04

01

04

00

00

1 UNIT, 5 UNITS

1/2, 3/5

10

01

00

06

02

00

00

TWIN COIN

1/1 COIN

01

01

04

01

01

00

00

1/2 COINS

03

01

04

01

02

00

00

CUSTOM COIN SEHINGS

TABLE 1-10

CD

OS

(U

CL

•^

Q.

en

c

a.

E

3

E
o

3

E

1

3

i

-Q

42

3

CO

o

CO

c:

CO

a

^

'8

CO

o

s

'8

i2

'c

3

'E

3

E

3

E

ra

*r

c=

.a

C

C

'c

C/3

_l

O

cc

o

O

s

COIN DOOR MECHANISMS

CREDIT/MONEY

STANDARD

1/.25, 5/*1

00

01

04

01

01

04

00

2/.50, 5/^1

00

01

04

01

01

04

02

2/.50, 4/^1

00

01

04

01

01

00

02

1/.50, 3/*1, 4/*1.25

00

03

12

03

04

15

00

1/.50, 3/*1, 7/*2

00

12

48

12

14

96

24

25 CENTS. 1 GUILDER

1/.25, 5/1G

00

01

00

04

01

04

00

100 LIRE. 200 LIRE

1/200 LIRE

00

01

00

02

02

00

00

TWIN COIN

1/3 COIN, 2/5

00

02

00

02

05

00

00

1 UNIT, 5 UNITS

1/1, 5/5

00

01

00

05

01

00

00

1/3, 2/5

00

02

00

10

05

00

00

13

Maintenance

ALL GAMES REQUIRE A CERTAIN AMOUNT OF MAINTENANCE TO KEEP THEM IN
GOOD WORKING ORDER. A PERIODIC CHECK OF THE MECHANICAL CONTROLS
WOULD BE BENEFICAL TO THE SUCCESS OF YOUR GAME

2. MAINTENANCE

2.1 CLEANING

The exterior of the game, all metal parts and all plastic parts can be
cleaned with a non-abrasive cleanser. Caution should be used
when cleaning the glass, a dry cloth can cause scratches and result
in a foggy appearance.

2.2 COIN DOOR

The Coin Door used in the "QIX" game needs little or no mainte-
nance, See Figure 2-1. If desired a special coin mechanism
cleanser, that leaves no residue, can be obtained from your dis-
tributor. Refer to the manufacturers documenation if additional
information is needed.

2.4 MONITOR REMOVAL

If you need to remove the Video Monitor, follow the instructions
listed below:

FIGURE 2-1 COIN ODOR

2.3 FUSE REPLACEMENT

This game contains 8 fuses. Seven of these fuses can be found on
the Power Supply Assembly, five (5) are on the PCB and two (2) are
on the Power Supply Bracket. One (1) is located at the bracket
where the AC line cord comes into the cabinet. See Figure 2-2 for
location of these fuses.

CAUTION

It is recommended the game be left disconnected
for at least one hour before removing the video
monitor. This will probably discharge the video
tube but EXTREME CAUTION is still necessary.

Disconnect power from the line voltage.

Disconnect the monitor cable connector.

Remove the wire cable clamp.

Take out the two side bolts, one on each side of the

cabinet.

Remove the four mounting bolts and disconnect the green

ground wire.

Slide the Monitor out by pulling the Monitor toward you.

CAUTION

Use EXTREME CAUTION and do not touch electrical
parts of the Monitor Yoke area with your hands or
with any metal object in your hands! High voltages
may exist in any Monitor, even with power discon-
nected.

^^

FIGURE 2-2 FUSE REPLACEMENT

FIGURE 2-3 MONITOR REMOVAL

16

2.5 COVER GLASS REMOVAL

To remove the Cover Glass follow the instructions listed below:

1. Renriove the Control Panel.

2. Loosen three (3) screws on the Cover Glass, front brac-
ket.

3. Open Service Door and remove the (Rear) Cover Glass
bracket.

4. Slide glass out through the Service Door.

FIGURE 2-4 COVER GLASS REMOVAL

2.6 PRINTED CIRCUIT BOARD REPLACEMENT

You may wish to remove the "Q!X"^" printed circuit board, Video

Processor (998846), Data/Sound Board (998845), or ROM I/O

Board (998847) for servicing. Refer to Figure 2-5.

The "QIX"™ Printed Circuit Boards (PCB) are located on the inside

of the rear service door for easy access.

To remove the boards the following steps should be followed:

1 . Open the rear service door, the power will automatically
be removed by the Interlock Switch located on the inside
of the doorframe.

2. Disconnect the connectors from the board or boards you
wish to remove.

3. Disconnect the ribbon cable, connecting the boards by
spreading eject latches on the connector.

4. Remove the screws for the board you wish to remove.

FIGURE 2-5 PRINTED CIRCUIT BOARD

2.7 POWER SUPPLY

The Power Supply produces all the necessary game voltage re-
quirements. Refer to Figure 2-6 while reading the following circuit
description.

FIGURE 2-6 POWER SUPPLY

2.7.1 AC INPUT

The AC Input Voltage is applied to the main Power Supply via the AC
Line Cords, Line Filter, Line Fuse, Power Switch and Interlock
Switch. Different Line Cords are used for 120V and for 240V. The
Line Fuse is located on the Line Cord Assembly near the Strain
Relief. A Voltage Programming Block is located on the primary side
of the Transformer to compensate for high/low voltage conditions .
The following line voltages may be inserting the appropriate Prog-
ramming Plug.

Line Voltage

Line Fuse

100 VAC ± 10%

50/60HZ

SAIVIP

120 VAC + 10%

50/60HZ

3 AMP

200 VAC + 10%

50/60HZ

1,5AIVIP

220 VAC ± 10%

50/60HZ

I.SAIWP

240 VAC ± 10%

50/60HZ

1.5AIV1P

TABLE 2-1 LINE VOLTAGE

17

CAUTION

For continous protection against fire hazard, re-
place only with a fuse of the same type having the
sanne electrical rating.

There are five secondary sources. Three go to the Regulator PCB
providing +5VDC, +12VDC, -12VDC, and -5VDC. The other
two are fused 6.3VAC used for the incandescent lighting and fused
120VAC used for the monitor, and in certain models for a fluores-
cent lamp and fan. These secondary fuses are located on the
bracket adjacent to the Power Transformer.

Circuit

Secondary Fuse

120VAC
6.3VAC

2.0AMP SLO-BLO
2.5AMP

TABLE 2-2 SECONDARY FUSES

2.7.2 -5VDC AND -12VDC REGULATORS

The AC Input for the negative voltages comes into the Regulator

PCB on J1-5 and J1-6 from the transformer. Fuse F3 protects

against short circuits. The AC voltage is then full wave rectified by

BR3 and filtered by C16. The raw DC is then applied to Reg 1 , a

three terminal - 1 2V Regulator. The output of this Regualtor is the

- 1 2VDC output for the system and is also the input voltage for Reg

2, a -5V Regulator. The output of this Regulator is the -5VDCfor

the system.

Capacitors C17, C18, C19 are to improve the transient response

and stability of the minus voltage regulator. Diodes D8 and D9

provide protection against CI 8 and C1 9 being shorted through the

Regulator.

Resistors R34 and R35 provide current limiting for LED'S 3 and 4

which will light when there is voltage present at the regulation

outputs.

2.7.3 -hSVDC REGULATOR

The AC Inputfor the +5VDC Regulator circuit comes in on J1-4 and
J1-2, via F1 into BR1 . BR1 full wave rectifies the AC Input. This raw
DC is applied to the collectors of (2) series pass transistors,
mounted on the Heat Sink Assembly. The regulation is done by U3,
which is a voltage regulator whose output controls the gain of Q5,
which in turn controls the gain of the series pass transistors. The
emitter of the series pass transistor return to the Regulators PCB
and through R11 and R12, which serve to force current sharing
between the series pass devices. The voltage at the output of R1 1
and R12arethe +5VDC for the system. R11 and R12 are voltage
set and current foldback adjustments respectively. These are fac-
tory adjusted to 5V ±.25V. at 7AMPS.
Q8, D3 and R20 comprise a SCR-Type Crowbar Circuit which will
trigger when the DC output voltages rise above 5.8V. Once the SCR
fires, the Power Supply has to be turned off to reset the device. R19
is a current limiter tor the voltage indicator LED 1 . R1 6 is used to
set the output voltage of the Regulator.
G8, D2, R1 3 and Q4 delay the start-up of the 5V Regulator to allow
the -5VDC Regulator to stabilize first.

2.7.4 +12VDC REGULATOR

This circuit is essentially the same as the 5V Regulator described
above. The AC current comes in on J1-3 and J1-4, via fuse F2 into
BR2. The AC is rectified by BR2 and filtered by C9. The raw DC is
fed to a single series pass transistor on the Heat Sink Assembly and
also powers the +12V and +5V Regulator. R28 and R25 are
voltage set and current foldback and factory adjusted to 12 Volts
±.25V at 4 AMPS. D7, Q9, and R31 are SCR Crowbar Circuits
which trigger at 13VDC output which causes supply to go into
current foldback. There is an RC delay as in the 5V circuit to delay
the 4- 12V rise time.

18

2.7.5 RESET CIRCUIT

The reset circuit will output a 2sec active low MRST pulse at J3-14
J4-14 when the power is first turned ON and whenever power fails
for more than 35ms.

The reset circuitry is comprised of a Dual Timer (556) and a
fuilwave type optical coupler across an AC secondary. The output
of U1 is the input to one half of the 556 which is configured as a
missing pulse detector. CI and R3 determine the time before the
output goes active. This is set for about 35ms. When two or more
cycles are missing , the output of the first timer triggers the second
timer which drives the MRST low for about 2 seconds. The timer
constant for the second timer is set by R4 and C6.
Power on reset is generated by C4, and R39 and D1 2 on the trigger
input of the second timer. Q3 inverts the signal out of the 556 so it
is active low. R7 insures MRST is low while the power is rising.

2.7.6 POWER SUPPLY ADJUSTMENTS

VOLTAGE Adjust voltages on +5V and +12V for +5.00V to
+ 5.05Vand +12.00Vto +12.05V.
CURRENT LIMIT Adjust control (5Iand 1 21) counterclockwise until
voltage just changes , then turn control clockwise until voltage goes
back to original value with pointer, mark position of arrow on
potentiometer then turn control until beginning of 1st notch is
aligned with the pointer. On the controls with the Blue Disk turn
approximately 30°.

FIGURE 2-7 CURRENT LIMIT ADJUSTMENT

NOTE: If Voltage adjustment will not bring voltage up, set current
limit adjustment to Vi value.

2.8 CMOS RAM

If when powering the game up, it will not coin up because the
battery is low. The following Procedure should be followed.
Open the Back Door of the game, pull W1 out on the Video Board
(Blue jumper). Wait 2 minutes, power back on and insert W1 back
in. Open the Coin Door and pull out bottom Interlock Switch. If the
Language Select frame does not come on the CRT, power down,
remove W1 again. Short pins 1 8 and 9 on U85, power back on and
insert W1 back in. Leave the game on for 12 hours. If this Proce-
dure does not work when you turn the game back on the battery
may need to be replaced.

2.9 TEST POINTS

The following is a list of Test Points to be used when troubleshoot-
ing.

DATA/SOUND BOARD

DTP1

E

(Master Clock)

DTP2

Q

(Master Clock)

DTP3

DMA/BREQ

DTP4

SA15

(Address Line)

DTPS

DA 15

(Address Line)

DTP6

Voice Clock

DTP7

SBSC

(Sound Processor Data Enable)

DTPS

DBSC

(Data Processor Data Enable)

DTP10

+5V

DTP11

Ground

TABLE 2-3 DATA/SOUND BOARD TEST POINTS

VIDEO BOARD

VTP1

Invert

VTP2

10 MHZ

VTP3

VQ

(Clock Video Processor)

VTP4

VE

(Clock Video Processor)

VTP5

Extal

(External Clock)

VTP6

DMA/BRK

VTP7

VBSC

(Video Data Enable)

VTP8

VA15

(Address Line)

TABLE 2-4 VIDEO BOARD TEST POINTS

If you ground any Data Enable Test Point (PJPJ, DTPS, VTP7) the
related processor will receive no OP and the address line will act
like a 16 Bit Counter.

19

SXX^333sd

Theory

Of

Operation

THIS SECTION PROVIDES A TECHNICAL DESCRIPTION OF THE "QIX"™ GAME
IH^.3^^ ELECTRONICALLY CONSISTS OF PRINTED CIRCUIT BOARDS TV
MONITOR, POWER SUPPLY, AND SPEAKERS WHICH ARE DESCRIBED IN DETAIL
IN THE FOLLOWING TEXT.

3. THEORY OF OPERATION

3.1 GENERAL

The TAITO AMERICA CORPORATION'S arcade video system game
is an advanced multiprocessor based circuit utilizing the Motorola
6809E microprocessor.
The system is organized in three logical blocks:

A. The Data Processor, which supervises the operation of the
entire system.

B. The Video Processor, which performs all screen based
functions, such as playfield image motion, line drawing,
etc.

C. The Sound Processor, which generates sounds under the
direct control of the Data Processor.

In order to facilitate easy inter-system communications, the Data
and the Video Microprocessors run synchronously using clock and
timing signals developed on the Video Board. For this reason,
discussion will begin by examining the Video Board.

3.2 VIDEO BOARD
3.2,1 SYSTEM CLOCK

The fundamental system clock is developed by the 20MHz crystal,
inverters U24 and U39, and components. The 20MHz signal is
divided by the high speed flip flop U38 to obtain a 10MHz main
clock with a precise 50 percent duty cycle. This 10MHz signal
generates all other fundamental timing signals for the video sys-
tem, including the Data Processor. IC23 divides the 10MHz signal
to obtain 5MHz, 2.5MHz and CCLK, and their respective inver-
sions. IC's U9, U37, and U38 combine these signals, presenting
them to U25, which synchronizes the output signal to the system
10MHz clock. This circuit produces waveforms whose active edges
are synchronized to 15ns worse case, 2ns average.
The characteristics of the clock circuit may be noted by reference to
the Timing Diagram, Figure 3-1.

,

"-

,

—

_

» MHZ j

\

1

\

J

2.&MHZ

/

1

~

. —

11 5 MHZ

^

--

._-

--

—

—

—

CCLK

.-_

__

TZ

DC_

—

--

—

--

\_

■ —

QX

~

...

■ —

_-

—

VEQ

,

- —

' —

:^

—

RSZ 1

^

—

" —

__

mss.

\

,

\

'—

MUX

^

rcre

^

—

CK

\

L« \

A BUS

DBUS

~

__

n;^

—

—

—

HZ

'^1

—

—

M8US

RAKWW

__

^

— C

HZ

^

~

=

3

^

—

1

FIGURE 3-1 CLOCK TIMING

3.2.2 SCREEN RAM

The Video Processor controls a Screen RAM of 256 x 256 pixels
with 8 bits per pixel. In order to access of this information, the
screen is divided into two pages, top and bottom, chosen under
software control. These pages are both addressed at 0000 - 7FFF
with address corresponding to the lower left corner of the screen
(horizontal scan) . All CRT accesses to this RAM are transparent to
the processor and the RAM may be read or written any time.
The timing of the Screen RAM and the eventual scan is controlled
by a 6845/6545/46505 CRT Controller Chip. It's address outputs
are gated by U19, U20, U50, and U51 for inversion when used a
cocktail table mode. The scan addresses are multiplexed with the
address present on the microprocessor address bus by U35, U52,
U53, and U54 for standard RAS-CAS accessing. The desired bank
of memory is addressed by U87, a one of four decoder.
Data written into the Screen RAM comes directly from the system
data bus, buffered by 33 Ohm resistors. If a processor read is
taking place, the data is placed on the data bus by U77, U78, U79,
and U80. First byte, screen reads are latched by 374's U91 , U92,
U93, and U94. A second byte screen read is then performed, and
this data, together with the data from the first screen read latched
by the 374's is loaded in to the eight (8) 74LS299 shift registers.
These registers may be shifted in either direction for cocktail table
implementation . The byte stream then proceeds to the Color RAM.

ADDRESS

A.

$8000

B.

$8400

C.

$8800

D.

$8C00

$8C01

E.

$9000

F.

$9402

$9403

$9400

G.

$9800

H.

$9C00

VIDEO BOARD MEMORY MAP

Dual Port RAM

CMOS Battery Backup Memory

LED Output and Color RAM Page Select

Data FIRQ Activation Address

Video FIRQ Deactivation Address

Color RAM

Address Latch Hi-Byte

Address Latch Lo-Byte

Address Latch Indexed Screen Location

Scan Line Readback Location

CRT Controller Base Address

TABLE 3-1 VIDEO BOARD MEMORY MAP
($= HEXADECIMAL)
3.2.3 DUAL PORT RAM

This RAM may be accessed in its entirety by either processor. This
is arbitrated as follows:

1. The Data Processor runs in quadrature with (one quarter
clock cycle ahead of) the Video Processor. In other words,
E is inverted for use as DO, and Q becomes DE. Refer to
Timing Diagram. Figure 3-2.

2. The Data Processor, by nature of this timing , accesses the
Dual Port RAM Va cycle before the Video Processor. At this
point the Video Processor is guaranteed to not be acces-
sing the RAM. The Data Processor access is flagged by
U36, which causes a cycle to be stolen from the Video
Processor's main clock, VQ and VE.

3. The Video Processor is unable to access the Dual Port RAM
unless the Data Processor is not accessing it as it will not be
receiving clocks during that time. The cycle steal is ac-
complished by the generation of signal DPMUX by U36.
This signal directly steals the cycle, and also folds over
multiplexers U5, U6, and U21 , switching the address lines,
R/W and gating signals . U1 and U2 gate the data to or from
the disired processor. U22 insures that no spurious writes
are generated during foldover.

22

E

\
E

— ^

\

/

\

DC V

DABUS J C

_^

\

) — c

/

_J

1 c

J

00 WJ5 }

CD

i

\

1

^

\

VE

\

3

-)

VDBIJS

C

-(

DPMUX

V

i y

1

■\

21UASUS
I1U0BUS-2W

-^ ,

■\ i

H

2IU C5 /

\ t

-^

/

FIGURE 3-2 DUAL PORT RAM TIMING

3.2.4 CMOS RAM

The CMOS RAM is implemented for use as both a battery back-up
storage area and a work area for the Video Processor. The gating
U100, U101, U1 02, and U1 03 insure that writes to the block RAM
from $8700 - 87FF cannot be performed unless the Coin Door is
open (J19-2 grounded). The 3.6V NiCAD battery is trickle charged
by Q8, R64, and R65 when the system is powered. When turned
off, supply current for U85, U86, and U100 is provided by this
battery. U100 Is included to solidly gate the MRST signal and
prevent invalid operations during power Up and Down.
LED and Color RAM Page Latch, U72 is addressed at address
$8800. The upper six bits drive LED'S on the circuit board for
diagnostics which cannot be done through the screen. The lower 2
bits select the Color RAM page and will be discussed later.

3.2.5 Bl DIRECTIONAL FIRQ CAPABILITY

To provide for immediate inter-system communication on demand
a Bi-Directional FIRQ Capability has been provided. Any access of
address $8C00 by the Video Processor will generate a FIRQ to the
Data Processor. Any access of $8C01 by the Video Processor will
remove a FIRQ generated by the Data Processor to the Video
Processor. This is accomplished by U7, U8, and U9.

3.2.6 COLOR RAM

The Color RAM is used as a translation matrix so that a number of
different pixel values may access a given color, or to change the
color of a given area of the screen without rewriting the Screen
RAM. The serial bit stream, eight bits wide, comes from the shift
registers of the Screen RAM to be presented to multiplexers U55,
U73, and LI74. These select between the Video Processor bus and
the serial bit stream. As processor access times are considerably
greater than the basic bit time (200ns), it is necessary to access
this register only during retrace times. Bus read/write occur
through U75, and serial output is latched by U76. This Data Stream
is converted to a color pallet of 64 colors and four intensities. When
the serial bit is selected for access, the two high order bits are
provided by the LED output latch. This allows the Programmer to
select between four pages of RAM rapidly.

3.2.7 ADDRESS LATCH CIRCUITRY

Two methods of Screen Memory Address are provided:

1. A 16 bit address may be written Into latch
U70 and U71 addressed at $9402 and $9403.
The addressed location may be accessed by
reference to location $9400.

2. The high order bit of the latch selects one

of two pages which may be directly addressed
by reference to locations $0000 - $7FFF
U36, U70, and U71 latch the address. U36 is
used In conjunction with U70 as U70 and U71
are tri-stated when inactive. The screen
address deposited on the LA bus by U84
and U98 for Processor Bus accesses, and by
U70 and U71 for latched address. Decoding
is performed by U87 and U88.

3.2.8 SCAN LINE READBACK

When read, this location is the number of the scan line currently
being drawn by the beam. U34 latches the last row address drawn,
and U1 01 prevents erratic updating at the end of a horizontal line.
There are 256 valid scan lines 00 - FF.

3.2.9 CRT CONTROLLER

The 6845/6545/46505 is a software programmable sync and scan
generator. It has two ports based at $9C00 and $9C01 . It is
recommended thatthe reader consult Motorola, Hitachi, Rockwell,
or Synertek supplied documentation.
Register initialization are as follows:

Register

Description

Initialization (decimal)

RO

Horizontal total-1

40

R1

Horizontal displayed

32

R2

Horizontal sync position

35

R3

Sync pluse width

03

R4

Vertical total-1

31

R5

Vertical hold adjust

17

R6

Vertical displayed

32

R7

Vertical sync position

32

R9

Scan lines per row-1

07

TABLE 3-2 REGISTER INITIALIZATION

All other registers are cleared. The interlace capability which dif-
ferentiates the various types is not used in this application.

3.3 DATA/SOUND BOARD

The Data Processor runs synchronously to the Video Processor, as
was described In this (Section Dual) Port Memory. All basic timing
signals originate on the Video Processor Board and are bussed
onto the Data Processor Board. The Sound Processor and
Amplifier circuitry also resides on this Board.

23

3.3.1 MEMORY MAP

The following devices are available for access to the Data Proces-
sor.

A.

$8000

Dual Port Memory

B.

$8400

Local Memory

C.

$8800

ACIA Base Address

D.

$8C00

Video FIRQ Activation Address

$8C01

Data FIRQ Deactivation Address

E.

$9000

Sound PIA

F.

$9400

Game PIA 1 .

G.

$9900

Game PIA 2.

H.

$9C00

Game PIA 3.

TABLE 3-3 DATA/SOUND MEMORY MAP
($= HEXADECIMAL)

3.3.2 DUAL PORT MEMORY

See discussion of Dual Port Menfiory under Video Processor Head-
ing (Section 3.2).

3.3.3 LOCAL MEMORY

This is a 1K block of memory, U15 and U16, provided for scratch
and work area for the Data Processor.

3.3.4 ACIA

A Motorola 6850 ACIA has been provided for diagnostic and other
communications. Timing is generated by crystal oscillator Y1 - U23
and prescaled by U27 and U26. SW1 may be configured to allow
one of eight baud rates (2 speeds may be software selected in the
ACIA). Correct RS-232 levels are provided by U25 and U21.

3.3.5 BI-DIRECTIONAL FIRQ CAPABILITY

Any access of $8C00 will generate a FIRQ to the Video Processor.
Any access of $8C01 will remove FIRQ generated by the Video
Processor to the Data Processor. This is accomplished by U7, U8,
and LI9, which resides on the Video Board.

3.3.6 SOUND PIA

Both ports of PIA U20 have been dedicated to the control of the
Sound Processor. Port A is used to select a sound number, which
is initiated by strobbing the U20 (CA2) - US (CA1) interrupt line.
Responses can be made using the reverse U8 (CA2) - U20 (CA1)
interrupt. Port B is used to control the amplitude of the generated
sound to the Stereo Amplifiers. The output of side B go to U24 and
U28, which vary the ratio of the voltage divider across the non-
inverting inputs of U29 and LI30. This allows balance control of the
sound to coincide with real time events occuring on the screen.

3.3.7 GAME PIA^S

Three 6820's are provided for interfacing with Play Controls and
Coin Door Switches. These are located on the Game Board and are
accessed through a Jumper Cable J16 and J15 respectively.

3.3.8 SOUND PROCESSOR

A Motorola 6802 also resides on the Data Board for sound genera-
tion. This Processor runs at 3.68MHz and accesses only two
devices, PIA'S U7 and U8. U8 as mentioned previously, interface
to the Data Processor. It also is the digital to analog output of the
Sound Processor. Data from Port B is presented to U13. The
current based output is converted to a voltage output by Q1 , and
controlled in amplitude by a potentiometer placed across J8.
Speech circuitry is mixed with sound by R9, and the sum is sent to
the Amplifiers. U7 controls the speech synthesis chip U19. The
speech signal is shaped and filtered bythemultipole bandpass filter

3.4 ROM/I/O/ BOARD

This board contains the Program ROM for both the Data, Video and
Sound Processors, along with the PIA'S needed to interface con-
trol, coils, lamps, etc.

3.4.1 GAME PIA'S

Three Game PIA'S are located on this board $9400, $9900, $9C00.
These devices, U11, U20, and U30 respectively, interface through
noise control circuits A or B filters for those lines dedicated to
inputs. Eleven (11) High Current Drivers have been provided utiliz-
ing circuit C. Each of these is capable of switching a 1.5AMP/
24Volt DC load to ground.

3.4.2 ROM'S

Eight ROM locations are provided for the Data Processor, U12 -
U19. These are selected by U21 . Eight ROM'S, U3 - U10 selected
by U2 are dedicated to the Video Processor. Sounds are supported
by ROM'S U25, U26, and U27, with select U28.
ROM Bank U3 - U10 may consist of either 2716 or 2732 type
EPROMS as determined by a jumper plug inserted in U1. It is
assumed that all such EPROMS in the bank are of the same type.
Likewise, ROM Bank U12 - U19 is determined by jumper plug at
U22 ROM Bank jumpering for 2716's is as follows: Pin 1-14, 2-13,
3-12, 4-11 and 5-10. The highest address EPROM is U10. U19, or
U27 in each bank with addresses of adjacent sockets progressing
downward in $800 byte blocks.

Jumpering for 2732's is as follows: Pin 2-14, 3-13, 4-12, 5-11,
and 6-10. The highest address EPROM is U10, U19, or U27in each
bank with addresses of adjacent sockets progressing downward in
$1000 byte blocks.

3.5 SORWARE SECURITY MODULE
ENCRYPTION MODULE

Taito America's video system is designed to operate with a prop-
rietary Encryption Module taking the place of the CPU.
This 40-Pin Module has the same logic and timing charecteristics
as the 6809E CPU it replaces, however, the module permits opera-
tion codes stored in EPROMS to be inciphered.
Troubleshooting is accomplished either through the Self Test
capability discussed in Section 2 or by use of the "Taito Tech"
Test Set which provides additional tests, monitor functions and
support signature analysis by means of a self contained 6809E
CPU.

24

Illustration

&

Parts Lists

INCANDESCENT PANEL

FIGURE 1

ITEM

TAITO
PART NO.

DESCRIPTION

1

27-00005-001

Lamp #455 (Flasher)

2

27-00006-001

Lamp #47

3

26B00009-001

Bayonet Base Socket

4

26B00009-001

Marquee Lighting Plate

26

4-WAY JOYSTICK

FIGURE 2

ITEM

4
5
6
7

~r

9
10

TAITO
PART NO.

63A00031-001

63A00021-001

63C00027-001

62A00002-001

63A00028-002

63A00030-001

61A00078-001

63A00026-001

29B0001 6-002

63A00029-001

DESCRIPTION

Ball & Shaft

Mask

Mounting Plate

Shock Mount Pad

Switch Plate

Actuator

1" Bracket

Switch Spacer

Leaf Switch

Spacer

27

CONTROL PANEL

FIGURE 3

ITEM

TAITO
PART NO.

DESCRIPTION

1

63B00031-001

Ball & Shaft

2

63B00024-002

Push Button (Red)

3

07M00051-001

Control Panel

4

63B00024-001

Push Button (White)

5

63C00025-001

Switch Support

6

54A07001-008

Stamped Nuts/s-ll

7

29800016-001

Leaf Switch

8

42D0001 7-001

Dash Panel

9

63D00032-004

Control (4-way Leaf Switch)

10

63800030-001

Actuator

11

59800020-017

"E" Ring

12

61A00015-001

Strike Hook

13

12800108-001

Cleat

*14

63-00050-001

Decal, Lexan

*ltem not shown on drawing.

28

CONTROL PANEL

FIGURE 3

29

ITEM

TAITO
PART NO.

42D00067-001

04-00037-002

61 B001 42-001

61D00079-001

61A001 11-001

08M00018-001

79-00031-001

DESCRIPTION

Door Assembly

Lock Kit

Lock Rod Assembly

P.C. Board Mounting Plate

Rod Lock Bracket

DOOR ASSEMBLY

FIGURE 4

Game P.C. Board Assembly

L.E.D. Values Sheet

*ltem not shown on drawing.

NOTES

30

DOOR ASSEMBLY

FIGURE 4

31

CABINET ASSEMBLY UPRIGHT FRONT VIEW

FIGURE 5

ITEM

TAITO
PART NO.

DESCRIPTION

1

07M00055-001

Incandescent Panel

2

63B00006-001

"U" Channel Bracket

3

47D0001 2-002

Marquee

4

61 C0011 5-001

Marquee Retaining Bracket

5

61 D0001 2-001

Lower Cover Glass

6

07M00052-001

Control Panel Assembly

7

07-00050-001

Coin Door

8

61 B001 13-001

Switch Bracket

9

07M00057-001

Service Switch Assembly

10

29-00022-001

Slide, Center Return Switch

11

29600015-001^

Interlock Switch

12

61 B001 14-001

Interlock Switch Bracket

13

59-00008-001

Latching Clamp

14

63B00002-004

"T" Molding

15

29A00023-001

Power ON/OFF Switch

16

41D00009-001

Finish Cabinet

32

CABINET ASSEMBLY UPRIGHT FRONT VIEW

FIGURE 5

1

S^r" "l^^^:\>

SHi

CABINET ASSEMBLY UPRIGHT REAR VIEW

FIGURE 6

ITEM

TAITO
PART NO.

DESCRIPTION

1

42D00069-001

Door & Board Mounting Assembly

2

42D0001 6-001

Door Panel

3

21C00003-001

Speaker 6" round

4

61B00027-001

Speaker Grill

5

41D00009-002

Finished Cabinet

6

61B00057-001

Leaf Hinge

7

61C00006-001

Upper Cover Glass Bracket

8

63C00035-001

Monitor Shroud

9

61C00080-001

Monitor Mounting Bracket

10

27-00006-001

#47 Bulb, Lighted instr.

11

47D0001 3-002

Cover Glass

12

44C00001-001

Wheels

13

63C00005-004

"L" Molding

14

07M00042-001

A/C Line Cord Assembly

15

63C00005-022

"L" Molding

16

61B00030-002

Interlock Bracket

17

29B0001 5-001

Interlock Switch

18

07M00039-001

Power Supply

19

61C00054-001

Cash Box Lid

20

61B00056-001

Leaf Hinge

21

61A00055-001

Hinge Pin

22

31-00006-001

19" Color Monitor

23

63-00019-001

Cash Tray Separator

24

61-00039-001

Cash Tray Handle

25

61C00060-001

Cash Box

26

63-00010-001

Cash Tray (Only)

27

07M00054-001

Cash Tray Assembly

28

42C0001 3-001

Monitor Support Cleat

29

61C00086-001

Corner Bracket

30

08-00002-001

Data/Sound P.C.B,

31

61800142-001

Lock Rod Assembly

32

08-00003-001

ROM/IG P.C.B.

33

04M00037-002

Lock Kit

34

08-00001-001

Video Processor P.C.B,

35

61D00079-001

P.C.B. Mtg. Plate

34

CABINET ASSEMBLY UPRIGHT REAR VIEW

FIGURE 6

35

POWER SUPPLY COMPONENT LAYOUT

FIGURE 7

F4

F5

i

36

POWER SUPPLY

FIGURE 7

SYM

TAITO
PART NO.

DESCRIPTION

R1

11-00001-102

Resistor 1.0K 5% 1/4 W 5%

R2

11-00001-512

Resistor 5.IKV4W 5%

R3

11-00001-183

Resistor 18Ky4W5%

R4

11-00001-224

Resistor 220K y4W 5%

R5

11-00001-472

Resistor 4.7K V4W 5%

R6

11-00001-222

Resistor 2.2K V4W 5%

R7

11-10001-101

Resistor 100 V4W 5%

R8

11-00001-102

Resistor 10K 1/4 W 5%

R9

11-00001-472

Resistor 4.7K V4W 5%

R10

11-10001-101

Resistor 100 V2W 5%

R11

11-30001-015

Resistor .15 4W 5%

R12

11-30001-015

Resistor .15 4W5%

R13

11-00001-472

Resistor 4.7K i/tW 5%

R14

11-00001-222

Resistor 2.2K y4W 5%

R15

11-00001-222

Resistor 2.2K V4W 5%

R16

11-60001-252

Pot 2.5K y4W 20%

R17

11-00001-222

Resistor 2.2K y4W 5%

R18

11-60001-102

Pot1.0Ky4W20%

R19

11-00001-511

Resistor 510 y4W 5%

R20

11-10001-470

Resistor 47 yaW 5%

R21

11-00001-162

Resistor 1.6Ky4W 5%

R22

11-00001-103

Resistor 10K y4W 5%

R23

11-00001-472

Resistor 4.7K y4W 34

R24

11-00001-222

Resistor 2.2K y4W 5%

R25

11-60001-102

Pot 1.0Ky4W5%

R26

11-00001-472

Resistor 407K y4W 5%

R27

11-00001-222

Resistor 2.2K y4W 5%

R28

11-60001-252

Pot 2.5K y4W 20%

R29

11-00001-472

Resistor 4.7K y4W 5%

R30

11-00001-122

Resistor 1.2Ky4W 5%

R31

11-10001-470

Resistor 47 y4W 5%

R32

11-30001-015

Resistor .15 4W 5%

R33

11-00001-222

Resistor 2.2K y4W 5%

R34

11-00001-122

Resistor 1.2Ky4W 5%

R35

11-00001-511

Resistor 510 y4W 5%

R36

11-00001-222

Resistor 2.2K y4W 5%

R37

11-00001-104

Resistor 100K

R38

11-00001-103

Resistor IOKV4W 5%

R39

11-00001-224

Resistor 220L y4W 5%

CI

12-30001-225

Capacitor, Tantalum 2.2ut 25V

C2

12-10004-103

Capacitor, Ceramic .01 uf

C3

12-10004-103

Capacitor, Ceramic .01 uf

C4

12-30001-105

Capacitor, Tantalum 1.uf 35V

SYM

TAITO
PART NO.

DESCRIPTION

C5

12-10001-102

Capacitor, .001 uf

C6

12-30001-106

Capacitor, Tantalum 10uf

C7

12-20003-509

Capacitor, Electrolytic 50,000uf

C8

12-30001-105

Capacitor, Tantalum 1.uf 35V

C9

12-20003-209

Capacitor, Electrolytic 20,000uf

CIO

12-10001-332

Capacitor, Ceramic .0033uf

C11

12-30001-476

Capacitor, Tantalum 47uf

C12

12-30001-105

Capacitor, Tantalum 1.uf 35V

C13

12-10004-103

Capacitor, Ceramic .01 uf

C14

12-10001-102

Capacitor, .001 uf

C15

12-30001-476

Capacitor, Tantalum 47uf

C16

12-20002-108

Capacitor, Electrolytic 1,000uf

C17

12-30001-225

Capacitor, Tantalum 2.2uf 25V

C18

12-30001-225

Capacitor, Tantalum 2.2uf 25V

C19

12-30001-105

Capacitor, Tantalum l.uf 35V

F1

24-00003-010

10A Fuse

F2

24-00003-010

10A Fuse

F3

24-00003-003

Fuse, 2A

F4

24-00003-004

Fuse, 4A

F5

24-00003-004

Fuse, 4A

BR1

13-00100-025

Diode Bridge 25A, 100V

BR2

13-00100-012

Diode Bridge 12A, 100V

BR3

13-00100-002

Diode Bridge 2A, 100V

D1

13-14002-001

Diode IN4002

D2

13-14002-001

Diode IN4002

D3

13-10752-001

Diode, Zener IN752

D4

13-14002-001

Diode IN4002

D5

13-14002-001

Diode IN4002

D6

13-14002-001

Diode IN4002

D7

13-10964-001

Diode, Zener IN964

D8

13-14002-001

Diode IN4002

D9

13-14002-001

Diode IN4002

D10

13-14002-001

Diode IN4002

D11

13-14002-001

Diode IN4002

D12

13-14002-001

Diode IN4002

LED1

13-00001-001

LED (Red)

l£D2

13-00001-001

LED (Red)

LED3

13-00001-001

LED (Red)

LED4

13-00001-001

LED (Red)

U1

15-62500-001

Opto Coupler HI 1AA2

U2

15-50556-001

Timer (Dual) 556

U3

15-50723-001

Voltage Regulator 723

U4

15-50723-001

Voltage Regulator 723

37

POWER SUPPLY

FIGURE 7

SYM

TAITO
PART NO.

DESCRIPTION

REG1

15-57912-001

Voltage Regulator 7912

REG2

1

15-57905-001

Voltage Regulator 79L05

Q1

14-22905-001

Transistor 2N2905

Q2

14-22905-001

Transistor 2N2905

Q3

14-22905-001

Transistor 2N2905

Q4

14-22905-001

Transistor 2N2905

Q5

14-23055-001

Transistor 2N3055

Q6

14-22905-001

Transistor 2N2905

Q7

14-20030-001

Transistor TIP-30A

Q8

14-26401-001

SCR 2N6401

Q9

14-26401-001

SCR 2N6401

J1

25-00022-006

Connector, 1-380999-0 6Pin

J2

25-00022-008

Connector, 350212-1 8Pin

J3

25-00002-014

Connector, 09-60-1141 14Pin

J4

25-00002-014

Connector, 09-60-1140 14Pin

24-10001-001

Fuse Clips

30-00220-002

Heat Sink Dual To-220

30-00003-001

Heat Sink Single To-3

38

VIDEO PROCESSOR COMPONENT LAYOUT

FIGURE 8

A

fiDs

Ds

^SAo^m

=3J DC

DS

6^A4S

s'Di

i<a«

Js

5"

= '^"" =1=3 »"

^■^^ <! i r~g¥¥~7 s I 3U i %^\

I 138 < * I ^5/^ < i I 3?y : ^

=li!

/S7 < l 5 I <?g < §

CDs "^ '^s- BS«a

» f- ■ ■i-< 2 ( 1

• ^- 5 ( 1

8=

7^< l

I /g7 <; czPSE^ZSi

3

B

g»» < g I 37# < J

go

^8

37S

e»9 d I 3?4 ^ 8 rUTT

go

§e

C3 t»

g?? <

:^

3^

395Z2^' I su i i nmzni I >^//g : s

299 < 8c I -399 ; j

,0*

=^^=^ic

JSZ]|

DID:

1=1

j^Z_

[IZl-i

s«

^//g g y i ^//g

3? C±3

CZJ

* * «it

:^^:^!D* c^^iss c^^iss'

CD ^^^ 'C" C^ so

ZD S" "CUD ^^ o** CD 8*>

CD

^^2 c^oi]* r^^ °

s a «» * c=i -s □*! o (i!r f 0'

^ CZIV

T Dg DSffiDS

° IZZ]-

D^

fO?

^tfl j [_a>_j;: □^i=i-8 «s im-i'

[S

OiOi

VIDEO PROCESSOR

FIGURE 8

SYM

TAITO
PART NO.

DESCRIPTION

C1

12-10002-104

Capacitor Ceramic, .1uf,50V, +80/~20%

C2

12-10002-104

Capacitor Ceramic, .1uf,50V, +80/-20%

C3

12-10002-104

Capacitor Ceramic, .1uf,50V, +80/-20%

C4

12-10002-104

Capacitor Ceramic, .1uf,50V, +80/-20%

C5

12-10002-104

Capacitor Ceramic, .1uf,50V, +80/~20%

C6

12-10002-104

Capacitor Ceramic, .1uf,50V, +80/-20%

C7

12-10002-104

Capacitor Ceramic, .1uf,50V, +80/-20%

C8

12-10002-104

Capacitor Ceramic, .luf.SOV, +80/-20%

C9

12-30001-106

Capacitor Tant, 10ut,16V

C10

12-10002-104

Capacitor Ceramic, .1uf,50V, +80/-20%

C11

12-10002-104

Capacitor Ceramic, .luf,50V, -h80/~20%

C12

12-10002-104

Capacitor Ceramic, .1uf,50V, +80/-20%

C13

12-10002-104

Capacitor Ceramic, .1uf,50V, +80/~20%

C14

12-10003-101

Capacitor Ceramic, 100pf, 10% NPO Axial Lead

C15

12-10002-104

Capacitor Ceramic, .1uf,50V, +80/-20%

C16

12-10002-104

Capacitor Ceramic, .1uf,50V, +80/-20%

C17

12-10002-104

Capacitor Ceramic, .1uf,50V, +80/-20%

C18

12-10002-104

Capacitor Ceramic, .1uf,50V, +80/-20%

C19

12-10002-104

Capacitor Ceramic, .1uf,50V, +80/-20%

C20

12-10002-104

Capacitor Ceramic, .1uf,50V, +80/-20%

C21

12-10002-104

Capacitor Ceramic, .1uf,50V, +80/-20%

C22

12-30001-106

Capacitor Tant, 1 0ut, 16V

C23

12-10002-104

Capacitor Ceramic, .1uf,50V, +80/-20%

C26

12-10002-104

Capacitor Ceramic. .1uf,50V, +80/-20%

C27

12-10002-104

Capacitor Ceramic, .1uf,50V, +80/-20%

C28

12-10002-104

Capacitor Ceramic, .1uf,50V, +80/-20%

C29

12-10002-104

Capacitor Ceramic, .1uf,50V, +80/~20%

C30

12-10002-104

Capacitor Ceramic, .1uf,50V, +80/-20%

C31

12-10003-101

Capacitor Disk lOOpf, 10% NPO

C32

12-10002-104

Capacitor Ceramic, .1uf,50V, +80/-20%

C33

12-10002-104

Capacitor Ceramic, .1uf,50V, +80/-20%

C34

12-10002-104

Capacitor Ceramic, .1uf,50V, +80/-20%

C35

12-10002-104

Capacitor Ceramic, .1uf,50V, +80/-20%

C36

12-10002-104

Capacitor Ceramic, .1uf,50V, +80/-20%

C37

12-10002-104

Capacitor Ceramic, .1uf,50V, +80/-20%

C38

12-10002-104

Capacitor Ceramic, .1uf,50V, +80/-20%

C39

12-10002-104

Capacitor Ceramic, .1uf,50V, +80/-20%

C40

12-10002-104

Capacitor Ceramic, .1uf,50V, +80/^20%

C41

12-10002-104

Capacitor Ceramic, .1uf,50V, +80/-20%

C42

12-10002-104

Capacitor Tant, 1 0ut, 16V

C43

12-10002-104

Capacitor Ceramic, .1uf,50V, +80/-20%

C44

12-30001-106

Capacitor Tant, 10uf,16V

C45

12-30001-106

Capacitor Tant, 1 0ut, 16V

C50

12-10002-104

Capacitor Ceramic, .1uf,50V, +80/-20%

C51

12-10002-104

Capacitor Ceramic, .1uf,50V, +80/-20%

C52

12-10002-104

Capacitor Ceramic, .1uf,50V, +80/-20%

C53

12-10002-104

Capacitor Ceramic, .1uf,50V, -h80/-20%

C54

12-10002-104

Capacitor Ceramic, .1uf,50V, +80/-20%

40

SYM

TAITO
PART NO.

DESCRIPTION

C55

12-10002-104

Capacitor Ceramic, .1uf,50V, +80/--20%

C56

12-10002-104

Capacitor Ceramic, .1uf,50V, +80/-20%

C57

12-10002-104

Capacitor Ceramic, .1uf,50V, +80/-20%

C58

12-10002-104

Capacitor Ceramic, .1uf,50V, +80/-20%

C59

12-10002-104

Capacitor Ceramic, .1uf,50V, +80/-36

C60

12-10002-104

Capacitor Ceramic, .1uf,50V, +80/-20%

C61

12-30001-106

Capacitor Tant, 1 0ut, 16V

C62

12-10002-104

Capacitor Ceramic, .1uf,50V, +80/-20%

C63

12-30001-106

Capacitor Tant, 10uf,16V

C64

12-10002-104

Capacitor Ceramic, .1uf,50V, +80/-20%

C65

12-10001-471

Capacitor Ceramic, 470uf,50V,10% X7R
Axial Lead

C66

12-10002-104

Capacitor Ceramic, .1uf,50V, +80/^20%

C67

12-10002-104

Capacitor Ceramic, .1uf,50V, +80/-20%

C68

12-10002-104

Capacitor Ceramic, .1uf,50V, +80/-20%

C69

12-10002-104

Capacitor Ceramic, .1uf,50V, +80/-20%

C70

12-10002-104

Capacitor Ceramic, .1uf,50V, +80/--20%

C71

12-10002-104

Capacitor Ceramic, .1uf,50V, +80/-20%

C72

12-10002-104

Capacitor Ceramic, .1uf,50V, +80/-20%

C73

12-10002-104

Capacitor Ceramic, .1uf,50V, +80/-20%

C74

12-10002-104

Capacitor Ceramic, .1uf,50V, +80/-20%

C75

12-10002-104

Capacitor Ceramic. .1uf,50V, +80/-20%

C76

12-10002-104

Capacitor Ceramic, .1uf,50V, +80/-20%

C77

12-30001-106

Capacitor Tant, 1 0ut, 16V

C78

12-10002-104

Capacitor Ceramic, .1uf,50V, +80/^20%

C79

12-10002:104

Capacitor Ceramic, .1uf,50V, -h80/-20%

C80

12-30001-106

Capacitor Tant, 1 0ut, 16V

C81

12-10002-104

Capacitor Ceramic, .1uf,50V, +80/^20%

C82

12-10002-104

Capacitor Ceramic, .1uf,50V, +80/-20%

C83

12-10002-104

Capacitor Ceramic, .1uf,5QV, +80/-36

C84

12-10002-104

Capacitor Ceramic, .1uf,50V, +80/-20%

C85

12-10002-104

Capacitor Ceramic, .1uf,50V, +80/-20%

C86

12-10002-104

Capacitor Ceramic, .1uf,50V, +80/-20%

C87

12-10002-104

Capacitor Ceramic, .1uf,50V, +80/-20%

C88

12-20001-107

Capacitor Electrolytic, 100uf,25V,
+ 100/ -20%

C89

12-20001-107

Capacitor Electrolytic, 100uf,25V,
+ 100/ -20%

C90

12-20001-107

Capacitor Electrolytic, 100uf,25V.
+100/- 20%

C91

12-10002-104

Capacitor Ceramic, .1uf,50V, +80/-20%

C92

12-10002-104

Capacitor Ceramic, .1uf,50V, +80/-20%

C93

12-10002-104

Capacitor Ceramic, .1uf,50V, +80/~20%

C94

12-10002-104

Capacitor Ceramic, .1uf,50V, +80/-20%

C95

12-10002-104

Capacitor Ceramic, .1uf,50V, +80/-20%

C96

12-10001-471

Capacitor Ceramic, 470pf,50V,10% X7R
Axial Lead

C97

12-10001-471

Capacitor Ceramic, 470pf,50V,10% X7R
Axial Lead

C98

12-10001-471

Capacitor Ceramic, 470pf,50V,10% X7R
Axial Lead

VIDEO PROCESSOR

FIGURE 8

SYM

TAITO
PART NO.

DESCRIPTION

C99

12-10002-104

Capacitor Ceramic, .1uf,50V, +80/-20%

C100

12-10002-104

Capacitor Ceramic, .1uf,50V, +80/-20%

C101

12-10003-100

Capacitor Ceramic, 10pf,10% NPO Axial
Lead 20%

CI 02

12-10002-104

Capacitor Ceramic, .1uf,50V, +80/-20%

C103

12-10002-104

Capacitor Ceramic, .1uf,50V, +80/-20%

C104

12-10002-104

Capacitor Ceramic, .1uf,50\/, +80/-20%

C105

12-10002-104

Capacitor Ceramic, .1uf,50V, +80/-20%

C106

12-10002-104

Capacitor Ceramic, .1ut,50V, +80/-20%

C107

12-10002-104

Capacitor Ceramic, .1uf,50V, +80/-20%

C108

12-10002-104

Capacitor Ceramic, .1uf,50V, +80/-20%

C113

12-10001-471

Capacitor Ceramic, 50V, 10% 470PF
Axial Lead

R1

11-00001-330

Resistor 33 OHM, 1/4 W, 5%

R2

11-00001-152

Resistor 1.5K, V4W, 5%

R3

11-00001-271

Resistor 270 OHIVI, V4W, 5%

R4

11-00001-271

Resistor 270 OHM, y4W, 5%

R5

11-00001-271

Resistor 270 OHM, y4W, 5%

R6

11-00001-332

Resistor 3.3K, V4W, 5%

R7

11-00001-221

Resistor 220 OHM, V4W, 5%

R8

11-00001-222

Resistor 2.2K, VaVJ, 5%

R9

11-00001-330

Resistor 33 OHM, V4W, 5%

R10

11-00001-330

Resistor 33 OHM, V4W, 5%

R11

11-00001-330

Resistor 33 OHM, Va^N, 5%

R12

11-00001-330

Resistor 33 OHM, V4W, 5%

R13

11-00001-820

Resistor 82 OHM, i/tW, 5%

R14

11-00001-181

Resistor 180 OHM, Va^, 5%

R15

11-00001-271

Resistor 270 OHM, V4W, 5%

R16

11-00001-151

Resistor 150 OHM, ^AW, 5%

R17

11-00001-151

Resistor 150 OHM, V4W, 5%

R18

11-00001-271

Resistor 270 OHM, V4W, 5%

R19

11-00001-181

Resistor 180 OHM, Va\N, 5%

R20

11-00001-820

Resistor 82 OHM, i^W, 5%

R21

11-00001-330

Resistor 33 OHM, V4W, 5%

R22

11-00001-330

Resistor 33 OHM, V4W, 5%

R23

11-00001-330

Resistor 33 OHM, V4W, 5%

R24

11-00001-330

Resistor 33 OHM, V4W, 5%

R25

11-00001-330

Resistor 33 OHM, ^AW, 5%

R26

11-00001-330

fiesistor 33 OHM, V4W, 5%

R27

11-00001-330

Resistor 33 OHM, lAW, 5%

R28

11-00001-181

Resistor 180 OHM, ^AW, 5%

R29

11-00001-471

Resistor 470 OHM, V4W, 5%

R30

11-00001-471

Resistor 470 OHM, V4W, 5%

R31

11-00001-471

Resistor 470 OHM, V4W, 5%

R32

11-00001-471

Resistor 470 OHM, i^W, 5%

R33

11-00001-471

Resistor 470 OHM, VaVJ, 5%

R34

11-00001-681

Resistor 680 OHM, V4W, 5%

R35

11-00001-391

Resistor 390 OHM. V4W. 5%

R36

11-00001-330

Resistor 33 OHM, Va^, 5%

SYM

TAITO
PART NO.

DESCRIPTION

R37

11-00001-473

Resistor 47K OHM, V4W, 5%

R38

11-00001-332

Resistor 3300 OHM, V4W, 5%

R39

11-00001-331

Resistor 330 OHM, V4W, 5%

R40

11-00001-331

Resistor 330 OHM, ^AW, 5%

R41

11-00001-331

Resistor 330 OHM, V4W, 5%

R42

11-00001-331

Resistor 330 OHM, ^AW, 5%

R43

11-00001-331

Resistor 330 OHM. VaV^, 5%

R44

11-00001-331

Resistor 330 OHM, Va^, 5%

R45

11-00001-151

Resistor 150 OHM, y4W, 5%

R46

11-00001-820

Resistor 82 OHM, y4W, 5%

R47

11-00001-471

Resistor 470 OHM, V4W, 5%

R48

11-00001-181

Resistor 180 OHM, y4W, 5%

R49

11-00001-271

Resistor 270 OHM, y4W, 5%

R50

11-00001-473

Resistor 47K OHM. y4W. 5%

R51

11-00001-330

Resistor 33 OHM, y4W, 5%

R52

11-00001-330

Resistor 33 OHM, V4W, 5%

R53

11-00001-330

Resistor 33 OHM, y4W, 5%

R54

11-00001-330

Resistor 33 OHM, y4W, 5%

R55

11-00001-330

Resistor 33 OHM, y4W. 5%

R56

11-00001-330

Resistor 33 OHM, y4W, 5%

R57

11-00001-330

Resistor 33 OHM, y4W, 5%

R58

11-00001-330

Resistor 33 OHM, y4W, 5%

R59

11-00001-473

Resistor 47K OHM, V4W, 5%

R60

11-00001-332

Resistor 3300 OHM, y4W, 5%

R61

11-00001-391

Resistor 390 OHM, y4W. 5%

R62

11-00001-332

Resistor 3.3K, V4W, 5%

R63

11-00001-102

Resistor 1K, V4W, 5%

R64

11-00001-121

Resistor 120 OHM, y4W, 5%

R65

11-00001-151

Resistor 150 OHM, y4W, 5%

R66

11-00001-332

Resistor 3.3K, y4W, 5%

R67

11-00001-332

Resistor 3300 OHM, V4W, 5%

R68

11-00001-332

Resistor 3.3K, y4W, 5%

R69

11-00001-332

Resistor 3.3K, y4W, 5%

FB1

17-00001-001

Ferrite Bead

FB2

17-00001-001

Ferrite Bead

FB3

17-00001-001

Ferrite Bead

FB4

17-00001-001

Ferrite Bead

FB5

17-00001-001

Ferrite Bead

FB6

17-00001-001

Ferrite Bead

FB7

17-00001-001

Ferrite Bead

FB8

17-00001-001

Ferrite Bead

FB9

17-00001-001

Ferrite Bead

FB10

17-00001-001

Ferrite Bead

FB14

17-00001-001

Ferrite Bead

Q1

14-23904-001

Transistor NPN Silicon (2N3904)

02

14-23904-001

Transistor NPN Silicon (2N3904)

03

14-23904-001

Transistor NPN Silicon (2N3904)

04

14-23904-001

Transistor NPN Silicon (2N3904)

41

VIDEO PROCESSOR

FIGURE 8

SYM

TAITO
PART NO.

DESCRIPTION

Q5

14-23904-001

Transistor NPN Silicon (2N3904)

Q6

14-23904-001

Transistor NPN Silicon (2N3904)

Q7

14-23904-001

Transistor NPN Silicon (2N3904)

Q8

14-23905-001

Transistor NPN Silicon (2N3905)

LED1

13-00001-001

L.E.D. RED, TL-13/4

LED2

13-00001-001

L.E.D. RED, TL-13/4

LED3

13-00001-001

L.E.D. RED, TL-13/4

LED4

13-00001-001

L.E.D. RED, TL-13/4

LED5

13-00001-001

L.E.D. RED, TL-13/4

LED6

13-00001-001

L.E.D. RED, TL-13/4

Y1

19-00003-001

CRYSTAL, 2O,O00MHZ

BAH

20-00001-001

Battery, NICAD, 3.6V, 1/3 AA

SW1

29-00017-001

Switch Momentary

TP1

59-00021-001

Test Point

TP2

59-00021-001

Test Point

TP3

59-00021-001

Test Point

TP4

59-00021-001

Test Point

TP5

59-00021-001

Test Point

TP6

59-00021-001

Test Point

TP7

59-00021-001

Test Point

TP8

59-00021-001

Test Point

RP1

11-50001-102

1K0HM Resistor Sip Pack

RP2

11-50001-473

47K OHM Resistor Sip Pack

RP3

11-50001-332

3.3K Resistor Sip Pack

RP4

11-50001-332

3.3K Resistor Sip Pack

RP5

11-50001-332

3.3K Resistor Sip Pack

J1

25-00001-014

Connector, 14 Pin .156 Center

J2

25-00002-014

Connector, 14 Pin .156 Center

J3

25-00001-001

Connector. 50 Pin Header Vertical

J6

25-00001-001

Connector, 50 Pin Header Vertical

J19

25-00002-002

Connector, 2 Pin .156 Center

W1

25-00021-002

Connector .1 Center for W1

W1

26-00007-001

Shorting Pin

32-00001-001

P.C.B. Video Processor Board

U1

15-20245-001

Bus Transiciever, Octal (74LS245)

U2

15-20245-001

Bus Transiciever, Octal (74LS245)

U3

15-10003-001

Ram 1Kx 4 NMOS Static (2114)

26-00001-018

Socket DIP 18 Pin for U3

U4

15-10003-001

Ram IK X 4 NMOS Static (2114)

26-00001-018

Socket DIP 18 Pin for U4

U5

15-20157-001

Multiplexer Quad 2-lnput (74LS157)

U6

15-20157-001

Multiplexer Quad 2-lnput (74LS157)

U7

15-20074-001

Flip Flop, Dual D (74LS74)

U8

15-20032-001

Quad 2 Input or (74LS32)

U9

15-20032-001

Quad 2 Input or (74LS32)

U10

15-10001-001

RAM 16Kx 1 Dynamic (4116)

26-00001-016

Socket DIP 16 Pin for U10

SYM

TAITO
PART NO.

DESCRIPTION

U11

15-10001-001

RAM 16Kx 1 Dynamic (4116)

26-00001-016

Socket DIP 16 Pin for U11

U12

15-10001-001

RAM 16Kx1 Dynamic (4116)

26-00001-016

Socket DIP 16 Pin for U12

U13

15-10001-001

RAM 16Kx 1 Dynamic (4116)

26-00001-016

Socket DIP 16 Pin for U13

U14

15-10001-001

RAM 16Kx 1 Dynamic (4116)

26-00001-016

Socket DIP 16 Pin for U1 4

U15

15-10001-001

RAM 16Kx1 Dynamic (4116)

26-00001-016

Socket DIP 16 Pin for U15

U16

15-10001-001

RAM 16Kx1 Dynamic (4116)

26-00001-016

Socket DIP 16 Pin for U16

U17

15-10001-001

RAM 16Kx 1 Dynamic (4116)

26-00001-016

Socket DIP 16 Pin for U17

U18

15-00003-001

CRT CONTROLLER 68A45

26-00001-040

Socket DIP 40 Pin for U18

U19

15-20086-001

Quad 2 Input Exclusive or (74LS86)

U20

15-20086-001

Quad 2 Input Exclusive or (74LS86)

U21

15-20157-001

Multiplexer Quad 2-lnput (74LS157)

U22

15-20032-001

Quad2lnputor(74LS157)

U23

15-20161-001

Counter, 4 Bit Presetable (74LS161)

U24

15-20004-001

Inverter, HEX (74LS04)

U25

15-70374-001

Latch, Octal Shockey (74LS374)

U26

15-10001-001

RAM 16Kx1 Dynamic (4116)

26-00001-016

Socket DIP 16 Pin for U26

U27

15-10001-001

RAM 16Kx1 Dynamic (4116)

26-00001-016

Socket DIP 16 Pin for U27

U28

15-10001-001

RAM 16Kx1 Dynamic (4116)

26-00001-016

Socket DIP 16 Pin for U28

U29

15-10001-001

RAM 16Kx1 Dynamic (4116)

26-00001-016

Socket DIP 16 Pin for U29

U30

15-10001-001

RAM 16Kx1 Dynamic (4116)

26-00001-016

Socket DIP 16 Pin for U30

U31

15-10001-001

RAM 16Kx1 Dynamic (4116)

26-00001-016

Socket DIP 16 Pin for U31

U32

15-10001-001

RAM 16Kx1 Dynamic (4116)

26-00001-016

Socket DIP 16 Pin for U32

U33

15-10001-001

RAM 16Kx1 Dynamic (4116)

26-00001-016

Socket DIP 16 Pin for U33

U34

15-20374-001

Latch, Octal (74LS374)

U35

15-20153-001

Multiplexer, Dual 4-lnput (74LS153)

U36

15-20074-001

Flip Flop Dual-D (74LS74)

U37

15-20008-001

Quad, 2-lnput and (74LS08)

U38

15-70113-001

Flip Flop JKSchottky (74LS113)

U39

15-20004-001

Inverter, HEX (74LS04)

U40

15-30017-001

Buffer/Driver, HEX (7417)

U41

15-10001-001

RAM 16Kx 1 Dynamic (4116)

26-00001-016

Socket DIP 16 Pin for U41

42

VIDEO PROCESSOR

FIGURE 8

SYM

TAITO
PART NO.

DESCRIPTION

U42

15-10001-001

RAM 16Kx 1 Dynamic (4116)

26-00001-016

Socket DIP 16 Pin for U42

U43

15-10001-001

RAM 16Kx 1 Dynamic (4116)

26-00001-016

Socl<et DIP 16 Pin for U43

U44

15-10001-001

RAM 16Kx1 Dynamic (4116)

26-00001-016

Socket DIP 16 Pin for U44

U45

15-10001-001

RAM 16Kx 1 Dynamic (4116)

26-00001-016

Socket DIP 16 Pin for U45

U46

15-10001-001

RAM 16Kx1 Dynamic (4116)

26-00001-016

Socket DIP 16 Pin for U46

U47

15-10001-001

RAM 16Kx1 Dynamic (4116)

26-00001-016

Socket DIP 16 Pin for U47

U48

15-10001-001

RAM 16Kx1 Dynamic (4116)

26-00001-016

Socket DIP 16 Pin for U48

U49

15-20032-001

Quad 2-lnput or (74LS32)

U50

15-20086-001

Quad 2-lnput Exclusive or (74LS86)

U51

15-20086-001

Quad 2-lnput Exclusive or (74LS86)

U52

15-20153-001

Multiplexer, Dual 4-lnput (74LS153)

U53

15-20153-001

Multiplexer, Dual 4-lnput (74LS153)

U54

15-20153-001

Multiplexer, Dual 4-lnput (74LS153)

U55

15-20157-001

Multiplexer, Quad 2-lnput (74LS157)

U56

15-10008-001

RAM IK X 4 HMOS Static (2148)

26-00001-018

Socket DIP 18 Pin for U56

U57

15-10008-001

RAM 1Kx 4 HMOS Static (2148)

26-00001-018

Socket DIP 18 Pin for U57

U58

15-30017-001

Buffer/Driver. HEX (7417)

U59

15-10001-001

RAM 16Kx1 Dynamic (4116)

U60

15-10001-001

RAM 16Kx 1 Dynamic (4116)

U61

15-10001-001

RAM 16Kx1 Dynamic (4116)

U62

15-10001-001

RAM 16Kx 1 Dynamic (4116)

U63

15-10001-001

RAM 16Kx1 Dynamic (4116)

U64

15-10001-001

RAM 16Kx1 Dynamic (4116)

U65

15-10001-001

RAM16KX1 Dynamic (4116)

U66

15-10001-001

RAM 16Kx 1 Dynamic (4116)

U67

15-20032-001

Quad 2-lnput or (74LS32)

U68

15-20244-001

Octal Buffer (74LS244)

U69

15-20245-001

BUS Transciever, Octal (74LS245)

U70

15-20374-001

Latch, Octal (74LS374)

U71

15-20374-001

Latch, Octal (74LS374)

U72

15-20374-001

Latch, Octal (74LS374)

U73

15-20157-001

Multiplexer Quad 2-lnput (74LS157)

U74

15-20157-001

Multiplexer Quad 2-lnput (74LS157)

U75

15-20245-001

BUS Transciever, Octal (74LS245)

U76

15-20273-001

Register 8 Bit (74LS273)

U77

15-20373-001

Latch, Octal (74LS373)

U78

15-20373-001

Latch, Octal (74LS373)

U79

15-20373-001

Latch, Octal (74LS373)

U80 15-20373-001 |

Latch, Octal (74LS373)

SYM

TAITO
PART NO.

DESCRIPTION

U81

15-20157-001

Multiplexer Quad 2-lnput (74LS157)

U82

15-00002-001

Microprocessor 68A09E

26-00001-040

Socket DIP 40 Pin for U82

U83

15-20244-001

Octal, Buffer (74LS244)

U84

15-20244-001

Octal, Buffer (74LS244)

U85

15-10002-001

RAM IK X 4 CMOS Static (6514)

26-00001-018

Socket DIP 18 Pin for U85

U86

15-10002-001

RAM 1Kx 4 CMOS Static (6514)

26-00001-018

Socket DIP 18 Pin for U86

U87

15-20139-001

Decoder Dual 1 of 4(74LS139)

U88

15-20032-001

Quad 2-lnput of (74LS32)

U89

15-20074-001

Flip Flop, Dual-D (74LS74)

U90

15-20004-001

Inverter, HEX (74LS04)

U91

15-20374-001

Latch, Octal (74LS374)

U92

15-20374-001

Latch, Octal (74LS374)

U93

15-20374-001

Latch, Octal (74LS374)

U94

15-20374-001

Latch, Octal (74LS374)

U95

15-20299-001

Shift Register 8 Bit (74LS299)

U96

15-20299-001

Shift Register 8 Bit (74LS299)

U97

15-20244-001

Buffer, Octal (74LS244)

U98

15-20244-001

Buffer, Octal (74LS244)

U99

15-20138-001

Decoder, 1 of 8 (74LS138)

U100

15-40000-001

Quad 2-lnput NOR (74C00)

U101

15-20008-001

Quad 2-lnput AND (74LS08)

U102

15-20010-001

Triple 3-lnput AND (74LS10)

U103

15-20000-001

Quad 2-lnput NAND (74LS00)

U104

15-20157-001

Multiplexer Quad 2-lnput (74LS157)

U105

15-20299-001

Shift Register 8 Bit (74LS299)

U106

15-20299-001

Shift Register 8 Bit (74LS299)

U107

15-20299-001

Shift Register 8 Bit (74LS299)

U108

15-20299-001

Shift Register 8 Bit (74LS299)

U109

15-20299-001

Shift Register 8 Bit (74LS299)

U110

15-20299-001

Shift Register 8 Bit (74LS299)

43

DATA/SOUND PROCESSOR COMPONENT LAYOUT

FIGURE 9

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44

DATA/SOUND PROCESSOR

FIGURE 9

SYM

TAITO
PART NO.

DESCRIPTION

R1

11-00001-473

Resistor 47K V4W ±5%

R2

11-00001-332

Resistor 3.3K V4W ±5%

R3

11-00001-332

Resistor 3.3K V4W ±5%

R4

11-00001-332

Resistor 3300 OHM Va^N ±5%

R5

11-00001-472

Resistor 4.7KV4W ±5%

R6

11-00001-103

Resistor 4.7K V4W ±5%

R7

11-00001-103

Resistor IOKV4W ±5%

R8

11-00001-332

Resistor 3.3K OHM V4W ±5%

R9

11-60001-502

Pot, P.C. Mount 5K

R10

11-00001-473

Resistor 47K V4W ±5%

R11

11-00001-473

Resistor 47K y4W ±5%

R12

11-00001-332

Resistor 3.3K ^AW ±5%

R13

11-00001-332

Resistor 3.3K VaW ±5%

R14

11-00001-332

Resistor 3.3K V4W ±5%

R15

11-00001-332

Resistor 3.3K ^AW ±5%

R16

11-00001-332

Resistor 3.3K Va'H ±5%

R17

11-00001-332

Resistor 3300 OHM V4W ±5%

R18

11-00001-124

Resistor 12OKV4W ±5%

R19

11-00001-472

Resistor 4.7K ^AW ±5%

R20

11-00001-221

Resistor 220 OHM Va^ ±5%

R21

11-00001-221

Resistor 220 OHM i/tW ±5%

R22

11-00001-332

Resistor 3.3K V4W ±5%

R24

11-00001-182

Resistor 1.8K 1/4 W ±5%

R25

11-60001-104

POT, P.C. Mount 100K

R26

11-00001-103

Resistor 1 0K 1/4 W ±5%

R27

11-00001-103

Resistor IOKV4W ±5%

R28

11-00001-223

Resistor 22K Va^ ±5%

R29

11-00001-562

Resistor 5.6K V4W ±5%

R30

11-00001-332

Resistor 3.3K Va'H ±5%

R31

11-00001-020

Resistor 2.2 OHM V4W ±5%

R32

11-00001-010

Resistor 1 OHM V2W ±5%

R33

11-00001-020

Resistor 2.2 OHM V4W ±5%

R34

11-00001-010

Resistor 1 OHM V2W ±5%

R35

11-00001-102

Resistor 1. OK OHM V4W ±5%

R36

11-00001-332

Resistor 3.3Ky4W ±5%

R37

11-00001-152

Resistor 1.5Ky4W ±5%

R38

11-00001-222

Resistor 2.2K V4W ±5%

R39

11-00001-221

Resistor 220 OHM V4W ±5%

R40

11-00001-332

Resistor 3.3K y4W ±5%

R41

11-00001-562

Resistor 5.6K V4W ±5%

R42

11-00001-223

Resistor 22K y4W ±5%

R43

11-00001-103

Resistor 10K y4W ±5%

R44

11-00001-103

Resistor 1 0K y4W ±5%

R45

11-00001-103

Resistor 10Ky4W ±5%

R50

11-00001-472

Resistor 4.7K y4W ±5%

FB1

17-00001-001

Ferrite Bead

FB2

17-00001-001

Ferrite Bead

FB3

17-00001-001

Ferrite Bead

FB4

17-00001-001

Ferrite Bead

SYM

TAITO
PART NO.

DESCRIPTION

FB5

17-00001-001

Ferrite Bead

FB8

17-00001-001

Ferrite Bead

FB9

17-00001-001

Ferrite Bead

FB10

17-00001-001

Ferrite Bead

FB11

17-00001-001

Ferrite Bead

FBI 3

17-00001-001

Ferrite Bead

FB14

17-00001-001

Ferrite Bead

FB15

17-00001-001

Ferrite Bead

FB16

17-00001-001

Ferrite Bead

FB17

17-00001-001

Ferrite Bead

FBI 8

17-00001-001

Ferrite Bead

FBI 9

17-00001-001

Ferrite Bead

FB20

17-00001-001

Ferrite Bead

CI

12-10002-104

Capacitor Ceramic .luf 50V Axial Lead

C2

12-10002-104

Capacitor Ceramic .luf 50V Axial Lead

C3

12-10002-104

Capacitor Ceramic .luf 50V Axial Lead

C4

12-10002-104

Capacitor Ceramic .luf 50V Axial Lead

C5

12-10002-104

Capacitor Ceramic .luf 50V Axial Lead

C6

12-10002-104

Capacitor Ceramic .luf 50V Axial Lead

C7

12-20001-107

Capacitor Electrolytic 100uf 16V

C8

12-20001-107

Capacitor Electrolytic lOOuf 16V

C9

12-20001-107

Capacitor Electrolytic 100uf 16V

CIO

12-20001-107

Capacitor Electrolytic 100uf 16V

C11

12-20001-107

Capacitor Electrolytic lOOuf 16V

C12

12-10002-104

Capacitor Ceramic .luf 50V Axial Lead

C13

12-10002-104

Capacitor Ceramic .luf 50V Axial Lead

C14

12-10002-104

Capacitor Ceramic .luf 50V Axial Lead

C15

12-10002-104

Capacitor Ceramic .luf 50V Axial Lead

C16

12-10002-104

Capacitor Ceramic .luf 50V Axial Lead

C17

12-10002-104

Capacitor Ceramic .1uf 50V Axial Lead

C18

12-10002-104

Capacitor Ceramic .luf 50V Axial Lead

C19

12-10003-470

Capacitor 47pf 10% NPO Axial Lead

C20

12-20001-105

Capacitor Electrolytic luf

C21

12-10002-104

Capacitor Ceramic .luf 50V Axial Lead

C22

12-20001-807

Capacitor Electrolytic 800uf, 16V

C23

12-20001-807

Capacitor Electrolytic 800uf, 16V

C24

12-10001-471

Capacitor Ceramic 470pf 50V 10% Axial Lead

C25

12-10001-471

Capacitor Ceramic 470pf 50V 10% Axial Lead

C26

12-10001-471

Capacitor Ceramic 470pf 50V 10% Axial Lead

C27

12-10001-471

Capacitor Ceramic 470pf 50V 10% Axial Lead

C28

12-10001-471

Capacitor Ceramic 470pf 50V 10% Axial Lead

C30

12-10001-471

Capacitor Ceramic 470pf 50V 10% Axial Lead

C31

12-10001-471

Capacitor Ceramic 470pf 50V 10% Axial Lead

C32

12-10001-471

Capacitor Ceramic 470pf 50V 10% Axial Lead

C33

12-10002-104

Capacitor Ceramic .luf 50V Axial Lead

C34

12-10002-104

Capacitor Ceramic .1uf 50V Axial Lead

C35

12-10002-104

Capacitor Ceramic .luf 50V Axial Lead

C36

12-10002-104

Capacitor Ceramic .luf 50V Axial Lead

45

DATA/SOUND PROCESSOR

FIGURE 9

SYM

TAITO
PART NO.

DESCRIPTION

C37

12-10002-104

Capacitor Ceramic .luf 50V Axial Lead

C38

12-10002-104

Capacitor Ceramic .luf 50V Axial Lead

C39

12-10001-123

Capacitor Ceramic .012 50V Axial Lead

C40

12-10001-183

Capacitor Ceramic .018 50V Axial Lead

C41

12-10004-103

Capacitor Ceramic .01 uf 50V Axial Lead

C42

12-10001-332

Capacitor Ceramic .0033uf 50V Axial Lead

C43

12-10001-153

Capacitor Ceramic .015uf 50V Axial Lead

C44

12-10001-563

Capacitor Ceramic .056uf 50V Axial Lead

C45

12-10003-100

Capacitor 10pf NPO Axial Lead

C46

12-10002-104

Capacitor Ceramic .luf 50V Axial Lead

C47

12-20001-105

Capacitor Electrolytic luf Axial Lead

C48

12-20001-105

Capacitor Electrolytic luf Axial Lead

C49

12-10001-471

Capacitor Ceramic 470uf 50V Axial Lead

C50

12-10001-471

Capacitor Ceramic 470pf 50V Axial Lead

C51

12-10002-104

Capacitor Ceramic .luf 50V Axial Lead

C52

12-10002-104

Capacitor Ceramic .luf 50V Axial Lead

C53

12-10002-104

Capacitor Ceramic .luf 50V Axial Lead

C54

12-10002-104

Capacitor Ceramic .luf 50V Axial Lead

C55

12-20001-105

Capacitor Electrolytic 1uf

C56

12-10002-104

Capacitor Ceramic .luf 50V Axial Lead

C57

12-20001-477

Capacitor Electrolytic 470uf, 16V

C58

12-20001-477

Capacitor Electrolytic 470uf, 16V

C59

12-10002-104

Capacitor Ceramic .luf 50V Axial Lead

C60

12-10002-104

Capacitor Ceramic .luf 50V Axial Lead

C61

12-10001-471

Capacitor Ceramic 470pf 50V 10% Axial Lead

C62

12-10001-471

Capacitor Ceramic 470pf 50V 10% Axial Lead

C63

12-10001-471

Capacitor Ceramic 470pf 50V 10% Axial Lead

C64

12-10001-471

Capacitor Ceramic 470pf 50V 10% Axial Lead

C65

12-10001-471

Capacitor Ceramic 470pf 50V 10% Axial Lead

C66

12-10001-471

Capacitor Ceramic 470pf 50V 10% Axial Lead

C67

12-10001-471

Capacitor Ceramic 470pf 50V 10% Axial Lead

068

12-10002-104

Capacitor Ceramic .luf 50V Axial Lead

C69

12-10002-104

Capacitor Ceramic .1uf 50V Axial Lead

C70

12-10002-104

Capacitor Ceramic .1uf 50V Axial Lead

C71

12-10002-104

Capacitor Ceramic .1uf 50V Axial Lead

C72

12-10003-101

Capacitor lOOpf 10% NPO Axial Lead

C73

12-10003-221

Capacitor 220pf 10% NPO Axial Lead

C74

12-10002-104

Capacitor Ceramic .luf 50V Axial Lead

C75

12-20001-105

Capacitor Electrolytic luf

C76

12-20001-105

Capacitor Electrolytic luf

C77

12-10002-104

Capacitor Ceramic .1uf 50V Axial Lead

C78

12-10002-104

Capacitor Ceramic .luf 50V Axial Lead

C79

12-10002-104

Capacitor Ceramic .1uf 50V Axial Lead

C80

12-10001-471

Capacitor Ceramic 470pf 50V 10% Axial Lead

C81

12-10001-471

Capacitor Ceramic 470pf 50V 10% Axial Lead

C83

12-10003-100

Capacitor lOpf NPO Axial Lead

TP1

59-00021-001

Test Point

TP2

59-00021-001

Test Point

46

SYM

TAITO
PART NO.

DESCRIPTION

TP3

59-00021-001

Test Point

TP4

59-00021-001

Test Point

TP5

59-00021-001

Test Point

TP6

59-00021-001

Test Point

TP7

59-00021-001

Test Point

TP8

59-00021-001

Test Point

TP9

59-00021-001

Test Point

TP10

59-00021-001

Test Point

TP11

59-00021-001

Test Point

RP1

11-50001-332

Resistor Sip Pack 3.3K

RP2

11-50001-332

Resistor Sip Pack 3.3K

RP3

11-50001-471

Resistor Sip Pack 47K

RP4

11-50001-471

Resistor Sip Pack 47K

RP5

11-50001-103

Resistor Sip Pack 10K

RP6

11-50001-332

Resistor Sip Pack 3.3K

U1

15-20244-001

Octal Buffer (74LS244)

U2

15-00002-001

Microprocessor 68A09E

26-00001-040

Socket 40PDIP-For68A09E

U3

15-20244-001

Octal Buffer (74LS244)

U4

15-20244-001

Octal Buffer (74LS244)

U5

15-00007-001

Microprocessor 6802

26-00001-040

Socket 40P DIP for 6802

U6

15-20244-001

Octal Buffer (74LS244)

U7

15-00004-002

Parallel I/O 6821

U8

15-00004-002

Parallel I/O 6821

U9

15-20245-001

BUS Tranciever, Octal (74LS245)

U10

15-20244-001

Octal Buffer (74LS244)

U11

15-20245-001

BUS Tranciever, Octal (74LS245)

U12

15-20244-001

Octal Buffer (74LS244)

U13

15-50001-001

Digital to Analog Converter 8 Bit (1408)

U14

15-20032-001

Quad 2-lnput or (74LS32)

U15

15-10003-001

RAM IK X 4 NMOS Static (2114)

26-00001-018

Socket 18P DIP for 2114

U16

15-10003-001

RAM IK X 4 NMOS Static (2114)

26-00001-018

Socket 18P DIP for 2114

U17

15-20138-001

Decoder 1 of8(74LS138)

U18

15-50003-001

Quad OP AMP LM324

U19

15-60004-001

Speech Synthesis TMS5200

26-00001-028

Socket 28P DIP for TMS5200

U20

15-00004-001

Parallel 1/0 68A21

U21

15-60002-001

Line Driver (MC1488)

U22

15-00005-002

Serial I/O 68A50

26-00001-024

Socket 24P DIP for 68A50

U23

15-20004-001

Inverter, HEX (74LS04)

U24

15-44066-001

Quad Analog Multiplexer (4066) .

U25

15-60001-001

Line Receiver (MCI 489)

U26

15-20161-001

Counter 4-Bit Presettable (74LS161)

U27

15-20092-001

Counter Divide By Twelve (74LS92)

U28

15-44066-001

Quad Analog Multiplexer (4066)

DATA/SOUND PROCESSOR

FIGURE 9

SYM

TAITO
PART NO.

DESCRIPTION

U29

15-50002-001

Audio Amplifier (2002)

30-00001-001

Heatsink to 220

U30

15-50002-001

Audio Amplifier (2002)

30-00001-001

Heatsink to 220

SW1

29-00001-001

Switch, DIP 4 Pole

Y1

19-00002-001

Crystal 7.3728 MHZ

Q1

14-23904-001

Transistor NPN, Sllcon 2N3904

J1

25-00002-004

Connector 14 PIN Locking

J5

25-00001-001

Connector Header 50 PIN

J6

25-00001-001

Connector Header 50 PIN

J7

25-00002-005

Connector 5 PIN Locking

J8

25-00002-005

Connector 5 PIN Locking

J9

25-00003-001

Connector RS232

47

ROM/I/O P.C. ASSEMBLY COMPONENT LAYOUT

FIGURE 10

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r^sn |fb43|

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rR2n I FB6[

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48

ROM/I/O P.C. ASSEMBLY

FIGURE 10

SYM

TAITO
PART NO.

DESCRIPTION

R1

11-00001-562

Resistor 5.6K, V4W ±5%

R2

11-00001-471

Resistor 470 OHM V4W ±5%

R3

11-00001-471

Resistor 470 OHM V4W ±5%

R4

11-00001-471

Resistor 470 OHM V4W ±5%

R5

11-00001-471

Resistor 470 OHM Va^ ±5%

R6

11-00001-471

Resistor 470 OHM V4W ±5%

R7

11-00001-471

Resistor 470 OHM V4W ±5%

R8

11-00001-471

Resistor 470 OHM ^AW ±5%

R9

11-00001-471

Resistor 470 OHM 1/4 W ±5%

R10

11-00001-471

Resistor 470 OHM V4W ±5%

R11

11-00001-471

Resistor 470 OHM V4W ±5%

R12

11-00001-471

Resistor 470 OHM V4W ±5%

R13

11-00001-471

Resistor 470 OHM i/iW ±5%

R14

11-00001-471

Resistor 470 OHM V4W ±5%

R15

11-00001-471

Resistor 470 OHM y4W ±5%

R16

11-00001-471

Resistor 470 OHM Va^ ±5%

R17

11-00001-471

Resistor 470 OHM V4W ±5%

R18

11-00001-471

Resistor 470 OHM ^AW ±5%

R19

11-00001-471

Resistor 470 OHM V4W ±5%

R20

11-00001-562

Resistor 5.6K, V4W ±5%

R21

11-00001-562

Resistor 5.6K, lAW ±5%

R22

11-00001-562

Resistor 5.6K, ^AW ±5%

R23

11-00001-562

Resistor 5.6K, Va^N ±5%

R24

11-00001-562

Resistor 5.6K, V4W ±5%

R25

11-00001-562

Resistor 5.6K, V4W ±5%

R26

11-00001-562

Resistor 5.6K, V4W ±5%

R27

11-00001-562

Resistor 5.6K, V4W ±5%

R28

11-00001-471

Resistor 470 OHM V4W ±5%

R29

11-00001-471

Resistor 470 OHM V4W ±5%

R30

11-00001-471

Resistor 470 OHM V4W ±5%

R31

11-00001-471

Resistor 470 OHM 1/4 W ±5%

R32

11-00001-471

Resistor 470 OHM y4W ±5%

R33

11-00001-471

Resistor 470 OHM ^AW ±5%

R34

11-00001-471

Resistor 470 OHM V4W ±5%

R35

11-00001-471

Resistor 470 OHM V4W ±5%

R36

11-00001-471

Resistor 470 OHM V4W ±5%

R37

11-00001-471

Resistor 470 OHM lAW ±5%

R38

11-00001-471

Resistor 470 OHM ^AW ±5%

R39

11-00001-471

Resistor 470 OHM ^AW ±5%

R40

11-00001-562

Resistor 5.6K, ^AW ±5%

R41

11-00001-562

Resistor 5.6K, ^AW ±5%

R42

11-00001-562

Resistor 5.6K, V4W ±5%

R43

11-00001-562

Resistor 5.6K, lAW ±5%

R44

11-00001-471

Resistor 470 OHM V4W ±5%

R45

11-00001-471

Resistor 470 OHM ^AW ±5%

R46

11-00001-471

Resistor 470 OHM ^AW ±5%

R47

11-00001-471

Resistor 470 OHM ^AW ±5%

R49

11-00001-471

Resistor 470 OHM ^AW ±5%

R50

11-00001-471

Resistor 470 OHM lAW ±5%

SYM

TAITO
PART NO.

DESCRIPTION

R51

11-00001-471

Resistor 470 OHM V4W ±5%

R52

11-00001-562

Resistor 5.6K, lAW ±5%

R53

11-00001-562

Resistor 5.6K, ^AW ±5%

R54

11-00001-471

Resistor 470 OHM V4W ±5%

R55

11-00001-471

Resistor 470 OHM V4W ±5%

R56

11-00001-471

Resistor 470 OHM lAW ±5%

R57

11-00001-471

Resistor 470 OHM V4W ±5%

R58

11-00001-471

Resistor 470 OHM ^AW ±5%

R59

11-00001-471

Resistor 470 OHM V4W ±5%

R60

11-00001-471

Resistor 470 OHM ^AW ±5%

R61

11-00001-471

Resistor 470 OHM ^AW ±5%

R62

11-00001-471

Resistor 470 OHM ^AW ±5%

R63

11-00001-471

Resistor 470 OHM ^AW ±5%

CI

12-10002-104

Capacitor Ceramic .luf Axial Lead

C2

12-10002-104

Capacitor Ceramic .1uf Axial Lead

C3

12-10001-471

Capacitor Ceramic 470pf Axial Lead

C4

12-10001-471

Capacitor Ceramic 470pf Axial Lead

C5

12-10001-471

Capacitor Ceramic 470pf Axial Lead

C6

12-10001-471

Capacitor Ceramic 470pf Axial Lead

07

12-10001-471

Capacitor Ceramic 470pf Axial Lead

08

12-10001-471

Capacitor Ceramic 470pf Axial Lead

09

12-10001-471

Capacitor Ceramic 470pf Axial Lead

010

12-10001-471

Capacitor Ceramic 470pf Axial Lead

C11

12-10001-471

Capacitor Ceramic 470pf Axial Lead

012

12-10001-471

Capacitor Ceramic 470pf Axial Lead

013

12-10001-471

Capacitor Ceramic 470pf Axial Lead

015

12-10001-471

Capacitor Ceramic 470pf Axial Lead

016

12-10001-471

Rapacitor Ceramic 470pf Axial Lead

017

12-10001-471

Capacitor Ceramic 470pf Axial Lead

018

12-10001-471

Capacitor Ceramic 470pf Axial Lead

019

12-10001-471

Capacitor Ceramic 470pf Axial Lead

020

12-10001-471

Capacitor Ceramic 470pf Axial Lead

021

12-10001-471

Capacitor Ceramic 470pf Axial Lead

022

12-10001-471

Capacitor Ceramic 470pf Axial Lead

023

12-10001-471

Capacitor Ceramic 470pf Axial Lead

024

12-10001-471

Capacitor Ceramic 470pf Axial Lead

025

12-10001-471

Capacitor Ceramic 470pf Axial Lead

026

12-10001-471

Capacitor Ceramic 470pf Axial Lead

027

12-10002-104

Capacitor Ceramic .luf Axial Lead

028

12-10002-104

Capacitor Ceramic .luf Axial Lead

029

12-10002-104

Capacitor Ceramic .luf Axial Lead

030

12-10002-104

Capacitor Ceramic .luf Axial Lead

031

12-10002-104

Capacitor Ceramic .luf Axial Lead

032

12-10002-104

Capacitor Ceramic .luf Axial Lead

033

12-10002-104

Capacitor Ceramic .luf Axial Lead

034

12-10002-104

Capacitor Ceramic .luf Axial Lead

035

12-10002-104

Capacitor Ceramic .luf Axial Lead

036

12-10001-471

Capacitor Ceramic 470pf Axial Lead

49

ROM/I/O P.C. ASSEMBLY

FIGURE 10

SYM

TAITO
PART NO.

DESCRIPTION

C37

12-10001-471

Capacitor Ceramic 470pf Axial Lead

C38

12-10001-471

Capacitor Ceramic 470pf Axial Lead

C39

12-10001-471

Capacitor Ceramic 470pf Axial Lead

C40

12-10001-471

Capacitor Ceramic 470pf Axial Lead

C41

12-10001-471

Capacitor Ceramic 470pf Axial Lead

C42

12-10001-471

Capacitor Ceramic 470pf Axial Lead

C43

12-10001-471

Capacitor Ceramic 470pf Axial Lead

C44

12-10001-471

Capacitor Ceramic 470pf Axial Lead

C45

12-10001-471

Capacitor Ceramic 470pt Axial Lead

C46

12-10001-471

Capacitor Ceramic 470pf Axial Lead

C47

12-10001-471

Capacitor Ceramic 470pf Axial Lead

C48

12-10001-471

Capacitor Ceramic 470pf Axial Lead

C49

12-10001-471

Capacitor Ceramic 470pf Axial Lead

C50

12-10001-471

Capacitor Ceramic 470pf Axial Lead

C51

12-10001-471

Capacitor Ceramic 470pf Axial Lead

C52

12-10002-104

Capacitor Ceramic .luf Axial Lead

C53

12-10002-104

Capacitor Ceramic .luf Axial Lead

C54

12-10002-104

Capacitor Ceramic .luf Axial Lead

C55

12-10002-104

Capacitor Ceramic .luf Axial Lead

C56

12-10002-104

Capacitor Ceramic .luf Axial Lead

C57

12-10002-104

Capacitor Ceramic .1uf Axial Lead

C58

12-10002-104

Capacitor Ceramic .luf Axial Lead

C59

12-10002-104

Capacitor Ceramic .1uf Axial Lead

C60

12-10002-104

Capacitor Ceramic .luf Axial Lead

C61

12-10001-471

Capacitor Ceramic 470pf Axial Lead

C62

12-10001-471

Capacitor Ceramic 470pf Axial Lead

C63

12-10001-471

Capacitor Ceramic 470pf Axial Lead

C64

12-10001-471

Capacitor Ceramic 470pf Axial Lead

C65

12-10001-471

Capacitor Ceramic 470pf Axial Lead

C66

12-10001-471

Capacitor Ceramic 470pf Axial Lead

C67

12-10001-471

Capacitor Ceramic 470pf Axial Lead

C68

12-10001-471

Capacitor Ceramic 470pf Axial Lead

C69

12-10001-471

Capacitor Ceramic 470pf Axial Lead

C70

12-20001-107

Capacitor Electrolytic lOOuf

C71

12-10001-471

Capicitor Ceramic 470pf Axial Lead

C72

12-10002-104

Capacitor Ceramic .1uf Axial Lead

C73

12-10002-104

Capacitor Ceramic .1uf Axial Lead

C74

12-10002-104

Capacitor Ceramic .1uf Axial Lead

C75

12-10002-104

Capacitor Ceramic .luf Axial Lead

C76

12-10002-104

Capacitor Ceramic .luf Axial Lead

C77

12-10002-104

Capacitor Ceramic .luf Axial Lead

C78

12-10001-471

Capacitor Ceramic 470pf Axial Lead

C79

12-10001-471

Capacitor Ceramic 470pf Axial Lead

C80

12-10001-471

Capacitor Ceramic 470pf Axial Lead

C81

12-10001-471

Capacitor Ceramic 470pf Axial Lead

C82

12-10001-471

Capacitor Ceramic 470pf Axial Lead

C83

12-10001-471

Capacitor Ceramic 470pf Axial Lead

C84

12-10001-471

Capacitor Ceramic 470pf Axial Lead

SYM

TAITO
PART NO.

DESCRIPTION

C85

12-10001-471

Capacitor Ceramic 470pf Axial Lead

C86

12-10001-471

Capacitor Ceramic 470pf Axial Lead

C87

12-10001-471

Capacitor Ceramic 470pf Axial Lead

C88

12-10001-471

Capacitor Ceramic 470pf Axial Lead

C89

12-10001-471

Capacitor Ceramic 470pf Axial Lead

C90

12-10001-471

Capacitor Ceramic 470pf Axial Lead

C91

12-10001-471

Capacitor Ceramic 470pf Axial Lead

C92

12-10001-471

Capacitor Ceramic 470pf Axial Lead

FB1

17-00001-001

Ferrite Bead

FB2

17-00001-001

Ferrite Bead

FB3

17-00001-001

Ferrite Bead

FB4

17-00001-001

Ferrite Bead

FB5

17-00001-001

Ferrite Bead

FB6

17-00001-001

Ferrite Bead

FB7

17-00001-001

Ferrite Bead

FB8

17-00001-001

Ferrite Bead

FB9

17-00001-001

Ferrite Bead

FB10

17-00001-001

Ferrite Bead

FB11

17-00001-001

Ferrite Bead

FB12

17-00001-001

Ferrite Bead

FB13

17-00001-001

Ferrite Bead

FB14

17-00001-001

Ferrite Bead

FB15

17-00001-001

Ferrite Bead

FB16

17-00001-001

Ferrite Bead

FB17

17-00001-001

Ferrite Bead

FB18

17-00001-001

Ferrite Bead

FB19

17-00001-001

Ferrite Bead

FB20

17-00001-001

Ferrite Bead

FB21

17-00001-001

Ferrite Bead

FB23

17-00001-001

Ferrite Bead

FB24

17-00001-001

Ferrite Bead

FB25

17-00001-001

Ferrite Bead

FB26

17-00001-001

Ferrite Bead

FB27

17-00001-001

Ferrite Bead

FB28

17-00001-001

Ferrite Bead

FB29

17-00001-001

Ferrite Bead

FB30

17-00001-001

Ferrite Bead

FB31

17-00001-001

Ferrite Bead

FB32

17-00001-001

Ferrite Bead

FB33

17-00001-001

Ferrite Bead

FB34

17-00001-001

Ferrite Bead

FB35

17-00001-001

Ferrite Bead

FB36

17-00001-001

Ferrite Bead

FB37

17-00001-001

Ferrite Bead

FB38

17-00001-001

Ferrite Bead

FB39

17-00001-001

Ferrite Bead

FB40

17-00001-001

Ferrite Bead

FB41

17-00001-001

Ferrite Bead

50

ROM/I/O P.C. ASSEMBLY

FIGURE 10

SYM

TAITO
PART NO.

DESCRIPTION

FB42

17-00001-001

Ferrlte Bead

FB43

17-00001-001

Ferrite Bead

FB44

17-00001-001

Ferrlte Bead

FB45

17-00001-001

Ferrlte Bead

FB46

17-00001-001

Ferrite Bead

FB47

17-00001-001

Ferrlte Bead

FB48

17-00001-001

Ferrite Bead

FB49

17-00001-001

Ferrite Bead

FB50

17-00001-001

Ferrite Bead

FB51

17-00001-001

Ferrite Bead

FB52

17-00001-001

Ferrite Bead

FB53

17-00001-001

Ferrite Bead

D1

13-14001-001

Diode IN4001

D2

13-14001-001

Diode IN4001

D3

13-14001-001

Diode IN4001

D4

13-14001-001

Diode IN4001

D5

13-14001-001

Diode 1N4001

D6

13-14001-001

Diode IN4001

D7

13-14001-001

Diode IN4001

D8

13-14001-001

Diode 1N4001

D9

13-14001-001

Diode IN4001

D10

13-14001-001

Diode IN4001

D11

13-14001-001

Diode IN4001

D12

13-14001-001

Diode IN4001

Q1

14-00001-001

Transistor NPN Darlington TIP120

Q2

14-00001-001

Transistor NPN Darlington TIP120

Q3

14-00001-001

Transistor NPN Darlington TIP120

Q4

14-00001-001

Transistor NPN Darlington TiP120

Q5

14-00001-001

Transistor NPN Darlington TIP120

Q6

14-00001-001

Transistor NPN Darlington TIP120

Q7

14-00001-001

Transistor NPN Darlington TIP120

Q8

14-00001-001

Transistor NPN Darlington TIP120

Q9

Not Used

Q10

14-00001-001

Transistor NPN Darlington TIP120

Q11

14-00001-001

Transistor NPN Darlington TIP120

Q12

14-00001-001

Transistor NPN Darlington TIP120

U1

26-00002-016

ROM Select

26-00001-014

Socket 14P Dip, for U1

U2

15-20138-001

Decoder 1 of 8 (138)

U3

E-PROM "QIX"™

26-00001-024

Socket 24 Pin Dip for U3

U4

E-PROM "QIX"^"

26-00001-024

Socket 24 Pin Dip for U4

U5

E-PROM "QIX"™

26-00001-024 Socket 24 Pin Dip for U5

SYM

TAITO
PART NO.

DESCRIPTION

U6

E-PROM "QIX"^"

26-00001-024

Socket 24 Pin Dip for U6

U7

E-PROM "QIX"^"

26-00001-024

Socket 24 Pin Dip for U7

U8

E-PROM "QIX"^"

26-00001-024

Socket 24 Pin Dip for U8

U9

E-PROM "QIX"^"

26-00001-024

Socket 24 Pin Dip for U9

U10

E-PROM "QIX"^"

26-00001-024

Socket 24 Pin Dip for U10

U11

15-00004-001

Paralell 1/0 68A21

U12

E-PROM "QIX"^"

26-00001-024

Socket 24 Pin Dip for U12

U13

E-PROM "QIX"^"

26-00001-024

Socket 24 Pin Dip for U13

U14

E-PROM "QIX"™

26-00001-024

Socket 24 Pin Dtp for U14

U15

E-PROM "QIX"^"

26-00001-024

Socket 24P Dip Used For E-PROM

U16

E-PROM "QIX"™

26-00001-024

Socket 24 Pin Dip for U1 6

U17

E-PROM "QtX"^"

26-00001-024

Socket 24 Pin Dip for U17

U18

E-PROM "QIX"^"

26-00001-024

Socket 24 Pin Dip for U1 8

U19

E-PROM "QIX"^"

26-00001-024

Socket 24 Pin Dip for U1 9

U20

15-00004-001

Paralell I/O 68A21

U21

15-20138-001

Decoder 1 of 8(138)

U22

26-00002-016

ROM Select

26-00001-014

Socket 24P Dip for U22

U23

15-20004-001

Inverter, HEX (74LS04)

U24

Not Used

U25

Not Used

U26

Not Used

U27

E-PROM "QIX"™

26-00001-014

Socket 14P Dip for U27

U28

15-20138-001

Decoder 1 of 8 (138)

U29

ROM Select

26-00001-014

Socket 14P Dip Used For ROM Select

U30

15-00004-001

Paralell I/O 6821

J3

25-00001-001

Connector Header 50PIN

J5

25-00001-001

Connector Header 50PIN

J6

25-00001-001

Connector Header 50PIN

J11

25-00002-014

Connector 14 Pin Header .156 Center

J15

25-00002-014

Connector 14 Pin Header .156 Center

J16

25-00002-014

Connector 14 Pin Header .156 Center

J17

25-00002-014

Connector 14 Pin Header .156 Center

51

WIRING DIAGRAM

FIGURE 11

POWER SUPPLY SCHEMATIC

FIGURE 12

{ J3-IH3) PF

KEY ( 03-9 )

W^^^^^S'U ■'"A'TO AMERICA CORPORATION

^^»^^S^^ T.l.phon. OU) »ei-1000 T.I.. 25-3290

UMH OTM«WM WtCnT

— -

IHtol.

XIW

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^ |.^o«... ».. 1

.,

:^

pouJCA Supply Assendty

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^:^l«..« ,«., «. ,^.

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DATA/SOUND PROCESSOR SCHEMATIC

FIGURE 15

rj6"-46 ,

U23

IC

GNrt

..

+12

-!2

4-15

-5V

fifl02

1,-2!

h:^

fiftPl fiftA2.l

1

?o

68A50

i

1?

6ft09E

1

7

2114

9

IP

4nfift.t4A«^

7

14

1 <;n4; ij^?.2

7

14

Idftft

7

14

1

I40R

2

U^

5

If^l?»8/I5^lfil

fi

16

[c;9da.Lc;24*=,

10

?0

L?^q2

)0

5

2002

.■^

5

LM.^4

\?

4

It

TMS ^00

Il

5

4

!^3^

TAITO AMERICA CORPORATION

1iS6 E«t*« Av*nu«. Elk Qrev* VMlia*. IL eOC
Tatcphon* (312) 981-1000 T»l«x 25-3290

^

n l^iir^Mf^^ .*r.^/Ri

Ifiii.

ISZpL

DATA PROCESSOR

4^— Id

32-00002

IM

VIDEO PROCESSOR SCHEMATIC 1 OF 2

FIGURE 13

\AIOil (213(415

\\\VW^V\VV\V\\\^\\\\\\\\\\\\VA\\VV\\\\\\\\^ 1

(j3 -36 y -

flafiQ(j6-43")

^-^^^ <3ir35^

POWER/GROUND

TABLE

IC

GND

^^

-f)

+12

4116

16

c»

1

fiflA4ft

1

•V^

fiflAOQE-

I

7

2114

9

18

t ?;?4B^S244

m

?0

1 ?;?qd 1 .«;.^74/S374

10

?0

LSffSt

R

16

LSO0,LSO4,l<;Oft

7

14

74I7/LS20,1_S32

7

'4

LS74^LSft6,Sll3

7

'4

O DENOTES GENERAL PURPOSE PULL-UP

PF^^^ (j6-IO> » Cj6r28)

(J6-I2X J6-29)

26> K; 06-46)

NOTICE TO ALL PERSONS RECEfVINQ THIS DRAWING

CONFIDENTIAL : Reproduction forbidden without the
specific written permission of Taito America Corp., Ell(
Grove Village.lL. This drawing is only conditionally issued,
and neither receipt nor possession thereof confers or
transfers any right in , or license to use. the subject matter
of the drawing or any design or technical information shown
therein, nor any right to reproduce this drawing or any part
thereof. Except for manufacture by vendors of Taito America
Corp.. and for manufacture under the corporation's written
license, no right to reproduce this drawing is granted or the
subject matter thereof unless by written agreement with or
written permission from the corporalioa

REVISIONS

}

^31^

f TAITO AMERICA CORPORATION

12Se Eataa Avvnu*. Elk Qrova Villaga, IL 60007

^..OXH.,««^C.«

•^

i«i».

n HlJf^HtS 0.T.2/HI «-

WBLTOl.

lKk«

..

mm *~

*-»«<' - "™ i i

.1

X

VIDEO PROCESSOR 1

^I

JIM

■*.

4^1

'**"* I'd '"*32^^^ooooi IH'I

»"«"**

SiSil

VIDEO PROCESSOR SCHEMATIC 2 OF 2

FIGURE 14

SKc 33(9)

►^ VW

ROM I/O SCHEMATIC

FIGURE 16

A+5V

,+5V

COIN DOCR

mwFR/GROiJND

TABl

r

IC

r^n

4^

.12!

6aA2i

1

20

91\<r.

1?

24

1 9A?^

fi

16 ;

I c;04

7

14

^^^^s-ssssr^s^ TAITO AMERICA CORPORATION

V^TA I^^^J' 1256 Estes Avenue, Elk Grove Villaoe, )L 60007
^^''^■sSSSS**^ Telephone (312) 981-1000 Tele, 25-3280

UNLESS OTHERWISE SPECIFIED

incl...

^ DHliGH^^ ""7,/P.! «-

O.U. TOL.

Lch..

m„

* — *

""»«"" "" 1 1

.X

'2XZ.

DESCRIPTION.

ROM /TO

.XX

.III

><

tat..

^§>^^^

•-" lo

T2DC0603 ImI

.,...1..