900055A_9157_Card_Punch_Coupler_Technical_Manual_Nov64 900055A 9157 Card Punch Coupler Technical Manual Nov64
900055A_9157_Card_Punch_Coupler_Technical_Manual_Nov64 900055A_9157_Card_Punch_Coupler_Technical_Manual_Nov64
User Manual: 900055A_9157_Card_Punch_Coupler_Technical_Manual_Nov64
Open the PDF directly: View PDF 
.
Page Count: 97
| Download | |
| Open PDF In Browser | View PDF |
."..J
Model, 9157 CARD PUNCH
COUPLER SYSTEM
TECH.NICAL MANUAL
SDS 900055A
1 November 1964
I81'·ls
SCIENTIFIC DATA SYSTEMS/1649 Seventeenth Street/Santa Monica, California/UP 1-0960
@1964 Scientific Data Systems, Inc.
Printed in U.S.A.
TABLE OF CONTENTS
Page
PART I.
PART II.
PART III.
GENERAL DESCRIPTION . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . "
1-1
Introduction
1-1
Description
1-1
Power Requirements. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ..
1-1
OPERATING AN D PROGRAIv\MING INSTRUCTIONS. . . . . . . . . . . . . . . . . . . ..
2-1
Section 2-1. Operating Instructions . . . . . . . . . . . . . . . . . . . . . . . . . . ..
2-1
Load and Run-in Procedure .. . . . . . . . . . . . . . . . . . . . . . . . . . . ..
2-1
Stacker Usage. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ..
2- 1
Section 2-2. Programming Instructions. . . . . . . . . . . . . . . . . . . . . . . . . ..
2-1
Addressing. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ..
2-1
Corner-Turning Method . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
2-2
Program Tests . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ....
2- 2
Card Feeding and Buffer Loading. . . . . . . . . . . . . . . . . . . . . . . . . ..
2-2
Timing. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ..
2-2
Terminating and Error Conditions . . . . . . . . . . . . . . . . . . . . . . . . . .
2-3
Example of Card Punch Program . . . . . . . . . . . . . . . . . . . . . . . . . ..
2-3
IMPLEMENTATION...........................................
3-1
Section 3-1. Logic Description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ..
3-1
Coupler Initializing. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ..
3-1
Punch Address Logic. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ..
3-1
Mode Control. . . . . . . . . . . . . . . . . . . . . . . . . . . . . • . . . . . . . ..
3-1
Punch Tests. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ..
3-2
Punch Timing. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ..
3-2
Card Feeding . . . . . . . . . . ; . . . . . . . . . . . . . . . . . . . . . . . . . . ..
3-2
Buffer Loading . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ..
3-2
Terminating and Error Conditions . . . . . . . . . . . . . . . . . . . . . . . . . .
3-3
Section 3-2. Interface Signals. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ..
3-4
Signals from IBM 523 to SDS 9157/91570 Coupler . . . . . . . . . . . . . . .
3-4
Signals from SDS 9157/91570 Coupler to IBM 523
3-4
ii
...............
,.
u
/
Page
PART IV.
INSTALLATION AND MAINTENANCE. . . . . . . . . . . . . . . . . . . . . . . . . . ..
4-1
Section 4-1. Installation of Card Punch Unit. . . . . . . . . . . . . . . . . . ..
4-1
Power Supply Polarity Change
a
PART V.
.........................
4-1
Disable Relay HD2 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ,
4-2
Relay No.1 Wiring Change . . . . . . . . . . . . . . . . . . . . . . . . . ..
4-2
Adjustment of Cam P7 Contacts. . . . . . . . . . . . . . . . . . . . . . . ..
4-2
Mode Switch Setting
...............................
4-2
Patch Board Connections . . . . . . . . . . . . . . . . . . . . . . . . . . . ..
4-2
Section 4-2. Maintenance Instructions. . . . . . . . . . . . . . . . . . . . . . ..
4-2
Periodic System Testing. . . . . . . . . . . . . . . . . . . . . . . . . . . . ..
4-2
Adjusting Coupler Circuits. . . . . . . . . . . . . . . . . . . . . . . . . . ..
4-2
REFERENCE DOCUMENTS. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ..
Section 5-1. Logic Equations
5-1
.............................
5-1
Section 5-2. Logic Diagrams . . . . . . . . . . . . . . . . . . . . . . . . . . . . ..
5-3
Section 5-3. Engineering Drawings
5-45
Section 5-4. Module Data Sheets and Suppl iers Code Index . . . . . . . . ..
5-54
J
FIGURES
2-1
Punch Timing Diagram
..................................
2-3
3-1
Punch Coupler Timing Diagram. . . . . . . . . . . . . . . . . . . . . . . . . . . ..
3-1
4-1
IBtv'I 523 Power Supply Wiring Before Modification. . . . . . . . . . . . . . . ..
4-1
4-2
IBM 523 Power Supply Wiring after Modification . . . . . . . . . . . . . . . . ..
4-1
TABLES
2-1
Card Punch Codes . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ..
2-1
2-2
Sample Program. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ..
2-4
)
iii
Card Punch
PART
1. GENERAL DESCRIPTION
The coupler circuits are contained in three rack-mounted, 20module, swing-out chassis. A 6-foot cable and cable plug module provide connection to the computer AUXILIARY connector.
Three cable plug modules with three 25-foot cables connect the
coupler to the IBM 523 Card Punch.
INTRODUCTION
This publ ication comprises operating and maintenance instructions for the Model 9157/91570 Card Punch Coupler System
manufactured by Scientific Data Systems, Incorporated, 1649
Seventeenth Street, Santa Monica, California. Model 9157/
91570 is a computer output system which couples a modified
IBM 523 Card Punch to SDS Computers. System description
and operation are contained in Parts I, II, and III. Modification
and adjustment requirements for the IBM 523 Card Punch and
maintenance of the system are included in Part IV. Logic diagrams and schematics are contained in Part V to aid with maintenance and testing procedures.
Receptacle 45J of the coupler is wired to accommodate a computer AUXILIARY connector for another output coupler device.
POWER REQUIREM ENTS
Power loading on the computer power suppl ies for operating the
card punch coupler system is as follows:
DESCRIPTION
+ 8 volts
+25 volts
-25 volts
The system is capable of punching standard 80-column cards at
a rate of 100 cards per minute. Hollerith (BC D) and binary
punching modes are available and are selected by program control. Card feeding operations are asynchronous, requiring each
card cycle to be initiated by the computer program.
1.4 amperes
3.2 amperes
0.6 amperes
The IBM 523 requires 11 amperes from a 110-120 volt, 50 or 60
cycle ac source.
/
1-1
PART II. OPERATING AND PROGRAMMING INSTRUCTIONS
SECTION 2-1. OPERATING INSTRUCTIONS
STACKER USAGE
Approximately 1,000 cards can be received by the stacker.
The fi rst card enteri ng the stacker will not have been processed by the computer and th~ coupler; also, the last card
will not automatically feed through to the stacker. Pressing
the START pushbutton again wi II feed the last card into the
stacker.
LOAD AND RUN-IN PROCEDURE
To operate the system, the operator must turn the power on at
the power switch on the right-hand side of the IBM 523 Card
Punch unit, load the hopper (800 cards maximum), and press the
START pushbutton on the control panel. This procedure will
initial ize the coupler and establ ish the ready condition for
feeding and punching the cards. Card punching can then proceed at a rate of 100 cards per minute under computer program
control.
SECTION 2-2. PROGRAMMING INSTRUCTIONS
ADDRESSING
Pressing the STOP pushbutton on the control panel will render
the unit not ready and inhibit feeding and punching. Pressing the START pushbutton again will initiate another card
cycle, and the unit will be ready once more.
o
The computer addresses the punch coupler using operation code
46 for the first card punch unit and 478 for unit number two.
8
Octal character code designations used for the 9157/91570
Card Punch Coupler are I isted in Table 2-1.
Table 2-1. Card Punch Codes
Typewriter
Character
0
1
2
3
4
5
6
7
)
8
9
SPACE
#
(cj
:
>
/
&
A
B
C
D
E
F
G
H
I
BAC K SPACE
I:1
[
<
L.....
*
Card
Holes
Octal
Code
0
1
2
3
4
5
6
7
00
01
02
03
04
05
06
07
8
9
8-2
8-3
8-4
8-5
8-6
8-7
10
11
12
13
14
15
16
17
12
12-1
12-2
12-3
12-4
12-5
12-6
12-7
20
21
22
23
24
25
26
27
12-8
12-9
12-0
12-8-3
12-8-4
12-8-5
12-8-6
12-8-7
30
31
32
33
34
35
36
37
Typewriter
Character
Code
Holes
Octal
Code
-
11
11-1
11-2
11-3
11-4
11-5
11-6
11-7
40
41
42
43
44
45
46
47
11-8
11-9
11-0
11-8-3
11-8-4
11-8-5
11-8-6
11-8-7
50
51
52
53
54
55
56
57
t>
None
/
0-1
0-2
0-3
0-4
0-5
0-6
0-7
60
61
62
63
64
65
66
67
0-8
0-9
0-8-2
0-8-3
0-8-4
0-8-5
0-8-6
0-8-7
70
71
72
73
74
75
76
77
J
K
L
M
N
0
P
Q
R
CAR. RET.
S
*
]
;
f:::,
S
T
U
V
W
X
y
Z
TAB
,
0/0
rn
\
-Itt
/
2-1
CORNER-TURNING METHOD
CARD FEEDING AND BUFFER LOADING
The Ia\-\ 523 is a parallel-punching device; that is, it punches
one SO-digit row at a time. Punching one card requires that
the computer transmit the entire card image twelve times. The
coupler then inspects the image each row time and loads an 80bit buffer register with the appropriate row image.
The punch coupler is set up to communicate with the computer
buffer when the following EOM instruction is executed:
EOM
On646
where n may be either 2 or 3. When n = 2, the punching mode
is BCD, while binary punching occurs when n = 3.
The row buffer is loaded each row time by connecting the computer buffer to the punch coupler, using an EOM instruction
and addressing the punch. Two punching modes are available:
Hollerith (BCD), and binary. These modes are controlled by
the EOM instruction.
Following the execution of this EOM instruction, the punch
coupler proceeds to clock characters from the computer buffer
and to load the row buffer until output has been terminated by:
When punching BC D, SO characters must be transmitted each
row time where the first character is punched in card column
one. Binary punching requires that 160 characters be transmitted to the punch coupler each row time. The first of the
160 characters is punched in rows 12 through 3 of column one
-- the most significant bit of this character appears in row 12.
The second character is punched in rows 4 through 9 of column
one, with the most significant bit in row 4. Subsequent columns are punched in the same manner with the result that all
odd-numbered characters are punched in rows 12 through 3 and
all even-numbered characters in rows 4 through 9.
EOM
14000
and all characters have been transmitted.
A card cyc Ie is initiated when the set-up EOM is executed and
the punch is ready.
TIMING
The Ia\-\ 523 Punch operates on a cycle basis. The punch clutch
is operated and then the unit will execute one punch cycle.
Immediately following the end of that cycle, there is a period
during which the clutch may be operated again and provide
another punch cycle (Figure 2-1). The continuation of this
type of operation results in a punch rate of 100 cards per minute.
PROGRAM TESTS
Two punch conditions are available for testing by the computer
program using the S KS I/o instruction.
The punch "ready" test is made using the following instruction
format:
If, however, a following punch cyc Ie is not programmed prior
to the end of the punch cycle, that following cycle will be
lost to the program. The next opportunity to execute a punch
cycle, then, would be at the end of this following cycle. If
a punch cycle is not called for during the following cycle, the
unit wi II "coast" to a stop at a point where it can accept a
signal to punch and will immediately enter a punch cycle when
the instruction is received. Whi Ie the unit is cycl ing following
a punch cycle, it may be instructed to initiate a punch cycle.
This information will be held, if necessary, until the appropriate time in the cycle to operate the punch clutch and initiate
a punch cycle.
SKS 14046
A program skip results if the punch is ready to feed a card. For
the punch to be ready to feed, the following conditions must
exist:
a)
the hopper is not empty
b)
the stacker is not full
c)
a run-in process has occurred
d)
the chip box is not full
e)
a card jam does not exist
f)
a card cyc Ie is not in process
The punch cycle is divided into 14 equal periods of 42.S milliseconds each. Twelve of these periods are used for row punching, the other two are for card feeding. Of the 42.S millisecond punch period, approximately 20 milliseconds are required
for the actual punching. The remainder of the period, or approximately 23 milliseconds, is available to load the row buffer for the next row.
The punch row buffer is always ready for loading when the
punch is ready to feed.
The other program test provides a means of determining the
status of the punch row buffer. This instruction format is:
SKS
At the end of a card punch cyc Ie, after row 9 has been punched,
there is a 10-millisecond period during which the unit may be
instructed to initiate a following punch cycle. This period begins at the time the punch becomes ready.
12046
and a program skip results if the row buffer is ready for loading.
2-2
only be followed for character transmissions other than for the
first one which is responsible for initiating the card feed. The
punch ready test must always be made prior to executing a
feed cycle. The timing diagram in Figure 2-1 illustrates these
modes of operation.
The punch coupler may be addressed before the row buffer is
ready to be loaded, in which case, the coupler will delay
c locking characters from the computer unti I the current information in the buffer has been punched. This procedure may
Punch Ready
loosing next card
cycle
Figure 2-1. Punch Timing Diagram
The computer I/O error indicator will be set when the IORP
command is used if, after the last card row has been punched,
the punch signals that this card has not fed properly. This signal occurs at the same time that end-of-record is given.
TERMINATING AND ERROR CONDITIONS
The SDS 930 and 9300 Computers provide a mode of operation
whereby the computer buffer may continue to address the punch
coupler after the row buffer has been loaded (although output
has been terminated). This type of operation allows the punch
coupler to inform the coupler when it is next ready to accept
data for loading of its row buffer. This is accomplished by the
punch coupler transmitting an end-of-record (halt) signal when
its row buffer is ready and the IORP Extended Mode Channel
is employed.
EXAMPLE OF CARD PUNCH PROGRAM
A typical sample program for punch operation is listed in Table
2-2.
o
2-3
Table 2-2. Sample Program
Program Objective:
Punch one card
Location
200*
201
202
203
204
205
206
207
210*
211
212
213
214
215
216
217
220*
221
222
223
224
225
226
227
230*
Instruction
LDA
STA
LDX
SKS
BRU
EOM
2MIW
SKS
HLT
BRX
EOM
SKS
BRU
SKS
BRU
MIN
SKN
BRU
BRU
HLT
BRU
777
777
000
Remarks
00226
00227
00225
14046
00203
02646
00254
20010
Set row count
Test bit 12 --punch ready
Select Punch
Stop on error
00206
14000
21000
00213
12046
00215
00227
00227
00223
00202
Terminate row output
Test bit 13 -- punch buffer ready
Test for 12 rows done
Continue
Halt when card done
00200
77754
77764
00000
Decimal -20
Decimal -12
Row count
Start of card image
2-4
D
PART Ill. IMPLEMENTATION
SECTION 3-1. LOGIC DESCRIPTION
PUNCH ADDRESS LOGIC
Description of the logic circuits in the card punch coupler are
presented in sequence by functional circuit groups. Sequence
of a typical card punch cycle is illustrated in Figure 3-1,
Timing Diagram. Refer to Part V of this manual for a complete
list of logic equations and logic diagrams of the circuits described.
for the first unit and 478 for the sec8
and unit. This address is decoded from both the computer (
Register and the buffer. When decoded from the ( Register,
the Punch address, Pa, becomes:
The punch address is 46
-
-
-
=
Lb
+
+
+
+
+
+
+
W9 WlO
..
....Sml
Pa Buc C 14 02
Pa Buc ( 14 02 + •• ,
·1
Pr
j.
-+-!_:_. __
'1···- ···~---·l
_~ i
-: i"r.-_._'-+'_..
-q
:
-_~~o~
-*1.L....-_ _- +
ji'
__
·1
.I
J2.
. . !I.
........ -.:.: . : f ..
cc
W12 W13 W14
.
-!
,
_
....
~~-'; ·
~:.~.I:> ,_;.-1--_.-+!___-.-.____
-~T-- ••. 13:
-~_~~--l:b-'-.·-+---1-+----'·t·
D9
iNn
The punching mode, either BC D or binary, is described by the
EOM which connects the computer buffer to the punch coupler. If C 14 is true during this EOM, the punching mode is
binary; if reset, the mode is B( D, This information is retained in the punch coupler by tile ~unch ~inary flip-flop which
is controlled a~ follows:
4:~ltt:Xi If
On
C20 C21 C22 (23
MODE CONTROL
sPb
rPb
f:d9
CT9
When the punch is addressed from the W Buffer, it is for the
purpose of !:.oading the punch ~uffer; therefore,
Dcr
Dcr
Dcr
Dcr
Dcr
Dcr
Dcr
- - - + Dcr
time
C 17 C 18
for the first unit connected to the computer W Buffer,
Initialization of the coupler during power turn-on is accomplished. by a dc reset, Dcr, signal which is obtained using a
delay circuit and is present for a few mi Iliseconds af.ter power
turn-on. Dcr resets all of the control and counter flip-flops.
rPb
rSc
rBc
rCt
rRc6
rRc5
rRc4
rRc3
=
Pa
COUPLER INITIALIZING
..
-~ - t-
..
I'
1.
I'
I
~~_:l.
. Ii
~----~----~----~-----J~.-.-.~~
t:
.",i ..~~--+--~
De
Ec
.
.
-C
..
_ _ _ _ ...... _ - 4 _
Se
Fe
j ~ .. ,-. - •• - _.
Figure 3-1. Punch Coupler Tim ing Diagram
3-1
PUNCH TESTS
The D9 one-shot is triggered a second time, at the end of each
cycle, for the purpose of establishing a period during which
the punch clutch may not be operated. Attempted operation
of the clutch during this period results in misfeeds.
Two punch conditions are available for testing from the computer. First, the status of the punch row buffer may be determined by using the S KS instruction and bit C 13. A program
jump will result if the ~uffer is :,.mpty, Be.
The End-of-cycle one-shot supplies the triggering signal for
the second operation of D9. Ec is triggered during row 9 time
by
Pa Be C 13 + ...
The other test is used to determine if the punch is ready to begin another punch cycle. Bit C 12 calls for this test and a program jump results if the punch is ready.
sEc
rEc
Ed9 D9
(dc)
40 ms
which then triggers D9 again by
Pa Be Lb Sc C 12 + • • •
sD9
rD9
The term Sc, Successful cycle, appears here to describe the
status of the punch.
-
Ec
30 ms
(ac)
CARD FEEDING
The Sc flip-flop is set at the conclusion of each punch cycle
if all of the following punch conditions exist:
A Feed card signal is supplied to the punch, once per card
a)
mechanical interlocks are made
cycl~. Fc is provided as a result of the punch being addressed
b)
the START key has been operated
for the purpose of loading the row buffer for the first time,
which is for row 12.
c)
the card hopper is not empty
d)
the last card fed properly in the punch station
e)
sFc
rFc
the last card fed properly into the stacker
The D9 is included here to inhibit feeding during the unrel iable
period as described previously. The punch may, however be
addressed during this period and the Fc signal will be provided
by
Conditions a) through d) are supplied by one signal from the
punch, Pr, Punch ready. The last condition is suppl ied by
the punch signal, ec, ~ard ~cled. Set Sc thus becomes,
sSc
I
Cc Pr De
sFc
where De is a sampling pulse provided by the coupler.
The IBM 523 provides twelve timing pulses, one per card row.
These pulses are on the order of 13 mi Iliseconds duration and
define the time used for punching each row (Figure 3-1).
Eleven of these signals are wired in common to provide the
coupler with a single pulse, Edn, for card rows 12 through 8.
The row 9 pulse, Ed9, is brought out separately and is used
in the end-of-cyc Ie timing. (Row 9 is the last row punched.)
sBe
rBe
De
Lb WO W5 W6
Therefore, the Be fl ip-fl op is set after each rew has been
punched and is then reset once the buffer is again loaded. The
term WO W5 W6 indicates that the computer buffer output has
been terminated and that all characters have been received by
the punch coupler.
Both Edn and Ed9 signals trigger one-shot circuits as follows:
Edn
20 ms
•.. + Sc Be D9 02 (ac)
The term Be here indicates that the row buffer has been loaded
with the row 12 punch image. The Be flip-flop is controlled as
follows:
PUNCH TIMING
sDn
rDn
Buc Pa Sc D902 (dc) + •.•
40 ms
(dc)
Since Fc resets the Sc flip-flop,
rSc
Fc 02 + ..•
and,
sD9
rD9
Ed9
30 ms
the fact that Sc is set and Be is reset means then that the row
buffer has been loaded and the punch has not been instructed
to feed a card.
(dc) + •••
The D9 one-shot is set for 30 ms so that it falls during the time
that Pr and Cc are to be sampled (Figure 3-1). The fall of
both Dn and D9 trigger a one -shot, De,
sDe
rDe
BUFFER LOADING
When the row buffer is ready to be loaded (Be is set), and the
punch is addressed by the computer buffer, then the characters
are clocked from the computer, inspected, and the punch image is shifted into the row buffer.
Dn + D9 Ec
10 JJS
3-2
/
A row counter is employed in the punch coupler which defines the card row that is to be punched next. The state of
th is counter and the characters presented to the coupler by
the computer buffer determine whether a one or a zero is shifted into the row buffer. The row buffer shifts from bit 80 towards bit 1 and, thereby, the image for the previous row is
replaced by the image for the next row to be punched.
The computer buffer c lock is derived from a one-shot wh ich is
triggered by,
sSd
rSd
Rc3
12
11
Rc4
Rc5
Rc6
a
a
a
0
a
a
a
@
a
1
2
3
4
5
6
7
8
9
1
1
1
1
1
1
1
1
a
a
a
0
0
0
1
1
1
1
1
1
1
1
a
a
1
a
1
a
1
a
1
0
1
0
1
Rt4
Rt5
Rt6
Rt7
Rt2
Rt3
Rt4
Rt5
Rt6
Rt7
Rt2
Rt3
Sh
/
Rc6 Dn
rRc6
Rc6 Dn + D9 Ec + Dcr
sRc5
Rc5 Rc6
rRc5
Rc5 Rc4 Rc6 + D9 Ec + Dcr
sRc4
Rc4 Rc5 Rc6 + D9 Ec
rRc4
Rc4 Rc5 Rc6 + Dcr
sRc3
Rc3 Rc4
rRc3
Rc3 Rc4 + D9 Ec + Dcr
When the row buffer is being loaded in the binary mode, 160
characters will be transmitted by the computer buffer but only
every other character will be inspected for shifting information
into the row buffer.
The Ct fl ip-flop controls this operation by being "toggled" by
each character clock.
rCt
The D9 term is used here to initialize Ct properly during run-in
and at the end of each cycle. The reset term Pb Rt3 Dn is required since, beginning with row 4 of the card, it is necessary
to shift the row buffer for every other character beginning with
, the second one.
The setting of B80 in the binary mode is controlled as follows
sB80
+
+
+
+
+
+
The counter state and the computer buffer character then determine the sB80 term. For the BCD punching mode, inspection
of the character set and counter state leads to the following
function:
R2 Rt4 ~
(Row
RI R2 Rt5 RC3
(Row
(R 1 R2 R3 R4 R5 R6+R 1 R2 R3 R4 R5 R6+Sn) Rt6 ~ (Row
R3 R4 R5 R6 Rt7 Rc3
(Row
(R4 Rc4+R4 Rc4)(R5 Rc5+R5 Rc5)(R6 Rc6+R6 Rc6) Rc3 Sn
(Rows 2-7)
Rt2 Rc3 R3 (R4 R5 R6) Sn
(Row
Rt3 Rc3 R3 (R4 R5 R6)] Pb Sh
(Row
= [in
12)
+
+
+
+
11)
-t
+
Pb C t Sd + D9 Ec
Pb C t Sd + Pb Rt3 Dn
sCt
The dc term D9 Ec controls each flip-flop so that during runin and at the end of each card cycle, the counter is forced to
the row 12 configuration.
sB80
Lb Be Ct Sd
The Sh signal is gated here by Ct for the purpose of punching
in the binary mode.
The counting is controlled by the following logic:
sRc6
Sd
and the shift clock is then,
Decoded Term
1
(ac)
The buffer clock becomes,
The row counter consists of four fl ip-flops, Rc3 through Rc6,
and provides the following states:
Row
Lb Be W5 W6 Q2
6.81Js
[R 1 Rt4
R2 Rt5
R3 Rt6
R4 Rt7
R5 Rt2
R6 Rt3] Pb Sh
.........
The ~unch ~agnets are enabled by,
Pm1
I
0)
1)
Md Bl
I
I
I
Pm80
Md B80
Md
Be (Edn + Ed9)
where:
8)
9)
TERMINATING AND ERROR CONDITIONS
+
where:
A mode of operation is available with the 930 and 9300 computer buffers wh ich permits the buffer to continue addressing the
punch after the condition of WO W5 W6 arises. The purpose of
this mode is to allow the punch (or any device) to disconnect
from the buffer when it is next ready to receive data.
Sn '" (R I R2 + ifi R2) (R3 R4 R5 R6)
The ~ term is the shifting clock for the entire row buffer and is
derived from the term which clocks the computer buffer.
3-3
The punch disconnects by transmitting Whs at De time if WO
is reset,
@=
d)
Edn
(Row time 12 through 8)
The 523 generates a signal similar to Ed9 for each
row time. These signals for rows 12 through 8 are
bussed together in the coupler and provide one
signal, Edn.
e)
Power
The power supply in the 523 is used to drive the
punch magnets and other relays in the unit. This
supply voltage is +45 volts, and is brought out of the
coupler along with the common side of the supply.
= Lb Ec De Cc + - - -
An additional error response is suppl ied if the row buffer has
not been loaded by punch time.
®
Ed9
(Row 9 Time)
This signal is false from 9.0 to 9.3 time and represents the time that row 9 is being punched.
Lb DeWOW6
An error response is provided after row 9 has been punched if
th is ca ~d does not feed properl y.
®
c)
= - - + Lb
SECTION 3-2.
Be (Dn + Dg Ec)
INTERFACE SIGNALS
The chassis ground of the 523 is brought out and is
connected to the computer ground.
All of the signals transferred between the IBM 523 and the
coupl er go through the "shoe" type connector provided in the
IBM 523 unit.
SIGNALS FROM SDS 9157/91570 COUPLER TO IBM 523
SIGNALS FROM IBM 523 TO SDS 9157/91570 COUPLER
The SDS 9157/91570 Coupler sends the following signals to
the IBM 523 unit:
The following signals are outputs from the IBM 523 which are
used by the SDS 9157/91570 Coupler:
a)
P;
(Punch Ready)
This signal is false when the 523 is ready to accept
a start signal which will initiate a punch cycle.
a)
Pc
(Punch Clutch)
This signal operates a relay in the 523 which, inturn,
has contacts that complete the circuit to the clutch.
b)
Cc
(Cycle Complete)
This signal is false from 9.5 to 13.0 time (see
Electrical Time Chart on IBM Wiring Diagram Type
523) of a punch cycle and indicates that the previous
card punched was fed through the 523 read station
successfu II y.
b)
Pmn
(Punch Magnets, 80 lines)
The 80-punch magnets are driven from the coupler.
3-4
,.
PART IV. INSTALLATION AND MAINTENANCE
SECTION 4-1.
POWER SUPPLY POLARITY CHANGE
INSTALLATION OF CARD PUNCH UNIT
The IBM 523 Summary Punch must be modified as follows before
being connected to the Model 9157/91570 Card Punch Coupler.
The power supply polarity in the IBM 523 must be reversed to
enable SDS standard relay drivers to operate the punch magnets
and control relays of the IBM 523. Figures 4-1 and 4-2 show
the power circuit before and after modification.
40 v-3
r-------.
HD2A
+40 v.
w ite)
(white)
I
2000 mfd
I
I
I
I
L
(green)
40 v-1
J
5.0 amp
Figure 4-1. IBM 523 Power Supply Wiring Before Modification
+40v.
rI
250
ohms
I
I
~
40 v-2
2000 mfd
I
I
L
o---y
40 v-1
LTL F5
HD2A
5.0 amp
Figure 4-2. IBtv\ 523 Power Supply Wiring After Modification
4-1
The following changes are required to reverse power supply
polarity:
a)
Disconnect wire at 40v-2 which runs to
2000 mfd filter.
b)
Disconnect wire at 40v-2 which runs to
LTL F5 fuse.
c}
Disconnect wire at HD2A which runs to
generator.
d)
Disconnect wire at HD2A which runs to
2000 mfd filter.
e}
Connect wires which were disconnected
in steps a and b to HD2A.
f}
Connect wires which were disconnected
in steps c and d to 40v-2.
RELAY NO.1 WIRING CHANGE
The rectifier in the hold circuit of relay No. 1 must be reversed
(reverse connections at rectifier) since the power supply polarity has been reversed.
ADJUSTMENT OF CAM P7 CONTACTS
The contacts of cam P7 must be set to make at 9.5 time and to
break at 13.0 time. This is a standard IBM modification and is
required by the timing control in the coupler.
MODE SWITCH SETTING
The toggle switch labeled DETAIL-MASTER must be in the MASTER position.
PATCH BOARD CONNECTIONS
DISABLE RELAY HD2
Jumper leads must be inserted between the PUNCH MAGNETS
and the COUNTER TOTAL EXIT points on the patch board.
The reason for this modification is that the coil of relay No. 11
is wired in parallel with that of HD2, and relay No. 11 must
be operated while HD2 must remain inoperative.
NOTE
Cut out IBM modification data along dotted
line and staple to inside cover of IBM Wiring
Diagram Type 523 which is supplied with each
IBM 523 Summary Punch Unit •
Disconnect the wire at the coil of relay HD2. Wrap the end of
the wire with insulation tape and tie it back.
•:••••••••••••••••••••••••••••••••••••••••••••••••••••••••
•:
IMPORTANT
•
•••
•:• NOTE THE FOLLOWING MODIFICATIONS TO THIS UNIT
:
•+
••
1.
Power supply polarity is reversed.
••
:
2.
The coil of the HD2 relay is open-circuited.
(The wire to the coil is disconnected at the relay and
is tied back and labeled.)
:
:
:
:
:
:
:
3.
Polarity of the rectifier in relay circuit No. 1 has
been reversed.
(The wire connected to the anode has been interchanged
with the wire to the cathode.)
:
:
:
:
:
•
4.
Cam P7 is set to make at 9.5 time and to break at 13.0
:
••:
•:
:
:
•
•
•
time.
+
!••••••••••••••••• + •• + •••••••••• +.+ •• + •••••••••••••••••••:
SECTION 4-2. MAINTENANCE INSTRUCTIONS
perform these adjustment tests. Refer to the Logic Diagrams in
PART V for connector and pin numbers of the one-shot outputs.
PERIODIC SYSTEM TESTING
One-Shot
At regular maintenance intervals, and whenever malfunction is
suspected, perform a system test routine to determine the operational status of the card punch system. SDS Catalog No.
034003 Card Punch Test Program, or equivalent, may be used
for this purpose.
ADJUSTING COUPLER CIRCUITS
Monitor the output signals of the six coupler one-shot circuits
in the sequence listed below, and adjust as necessary to obtain
the required pulse duration. The START pushbutton on the IBM
523 must be held down and cards must be in the hopper to
4-2
Pulse Duration
Dn
20 ms
Ec
40 ms
D9
30 ms
De
10fJsec
Fc
40 ms (Ground true side
of Be fl ip-flop)
Sd
6.8 fJsec (Ground Lb)
PART V.
REFERENCE DOCUMENTS
SECTION 5-1. LOGIC EQUATIONS FOR
9157/91570 CARD PUNCH COUPLER
Punch Address - Cs
Po
Row 9 Time
= CT7
sD9 == Ed9
C18 C19 C20 C21 C22 C23
Punch Address - W's
Lb
= W9
WlO W11 W12 W13 W14
=
Po Buc C14 Q2
rPb = Po Bue C14 Q2 + Der
= Be
rBe
=
De
=
rEc
= 40 msec
D9 Ed9
(de)
=
(Dn + D9 Ec)
rDe
=
lOfJsec
(ac)
Be Lb W5 W6 WO Q2 + Dcr
Po Be (C13 + C12 Sc D9)
sSe
= Se
Pr Ce De
rSe
= Se
Fe Q2 + Dc r
Row Counter
sRc6
Column Tally
sct
sEc
sDe
Successful Cycle
/
= 30 msec
Delay Clock
Buffer Empty
sBe
rD9
End Clock
Punch Binary
sPb
(de)
=
Rc6 Dn
rRe6 == Re6 Dn + Ee D9 + Dcr
==
ct
Pb jQ + Ee D9
rCt =
ct
Pb
~
sRc5 == Re5 Rc6
+ Pb Dn Rt3 + Dcr
Shift Clock
sSd
=
rSd
= 6.8
Lb Be W5 W6 Q2
(ac)
fJSec
Buffer Clock
rRe5
=
Rc5 Rc4 Rc6 + Ec D9 + Dcr
sRc4
=
Rc4 Rc5 Rc6 + Ec D9
rRc4
=
Re4 Rc5 Rc6 + Dcr
sRc3
=
Rc3 Rc4
rRc3
=
Re3 Rc4 + Ee D9 + Der
Sd
Row Buffer Shift Clock
Sh
=
Lb Be
ct
Feed Card
Po Buc Sc D9 Q2 (de) + Sc
sFc
rFc
= 40
Be'" D9
Q2 (ac)
msee
Row n Time
sDn == Edn
Row
Rc3
Rc4
JkL
~
12
11
0
1
2
3
4
5
6
7
8
9
0
0
0
0
1
1
1
1
1
1
0
0
1
1
1
1
0
0
1
1
1
1
0
0
0
0
1
1
1
1
0
0
1
1
1
1
0
1
0
1
0
1
0
1
0
1
0
1
Sd
(de)
rDn == 20 msee
5-1
Rt4
Rt5
Rt6
Rt7
Rt2
Rt3
Rt4
Rt5
Rt6
Rt7
Rt2
Rt3
rB80
= sB80
@{fRl R2 Rt4 Rc3
sB79
= B80
®
+ Rl R2 Rt5 ifc3
rB79
=
®
+ {R 1 R2 R3 R4 R5 R6 + iff R2 R3 R4 R5 R6
Buffer Loading
sB80
=
Sh
Sh
B80 Sh
T
I
I
I
+ Sn} Rt6 Rc3
I
Q) + R3
@
R4
Rs
R6 Rt7 Rc3
sB 1
+ {R4 Rc4 + R4 Rc4} {R5 Rc5 + R5 Rc5}
{R6 Rc6 + R6 1k6} Rc3
Sn
G)
+ Rt2 Rc3 R3 (R4 R5 R6) 'Sn
CD
+ Rt3 Rc3 R3
~
37
38
39
/..
NOTES:
I. REv LETTERS LISTED INDICATE STATUS OF EACH
SHEET OF THIS MULTIPLE SHEET DRAWING.
2. CHECK INDIVIDUAL SHEETS FOR REVISION LETTER
AGAINST THIS SHEET BEFORE USING THIS ORAwING.
9157/91570
CARD PUNCH
PAGE
COUPLER
I
A
. Dwg. No. 106557
5-4
f ..
2&
21
28
29
30
31
32
33
34
35
36
31
38
39
40
41
,..
,..
42
43
44
45
!
I
I
u
Ii
I
I
I
I
,&.
....
-
'L
,..
,..,
....
-.
I
--
••
-----.-
'"
- - -
,..
,..
-.
-.
~
~
-"
-- - ,..
,.
1"\.
1"\.
- - -- - -
-
,..
,..
,..
,..
,..
-'"
,..
,..
-
- --- -- -- ---
1"\.
,..
-'"
,..,
,..
1"'0
-
-
-.
.I't.
-'"
-
~
-
10-
~
-
~
-
M
I
01
r
~
--- -
-""
.1'0
,..
-'"
,..
,..
.It..
....
-.
,..
,..
,..
,.
,.
-
,..
"
-
"-
-
--
....
....-
-.
-.
-
"
----
,..
"
,..
,.
-.
-
...,.
1'0
,..
1'0
-"'"
-'"
1"0
......
-.
,..
,..
..n.
-
"
-
-
-
-
-
.I"t.
-'"
I
-'"
-
I
-'"
~
-:-
~
P5Q
' - - - -..... AUX.
SEE Pol 6E
YO
t CONN.
L -_ _.....
32
J
TBIA
-
.I">.
-
-'"
TO J (30 U)-- -
-
,..
,..
,..
1'>.
- ---,..-
~
-
.....
,..
-
"'"
,..
-
-"'-
,..
-.
~
-"'.
-
--
~
I
-
-"'-
,..
1"\.
1"\.
,..
,..
,..
,..
"
1'0
I
-"
--
1"\.
1"\.
-
1"\.
....
-
-
-
,..-
:
,..
1"1..
1"1..
......4~
,..
,..
,.,
~~
1">c
-
J\.
-
f"\.
....4E
-"
..r..
roo.
,..41
-
-
-9 ov
-"'8
+8
-7 -25
-"'6 +2'
---..,:ro J (40 U)
-
P 51
p~~
SEE
PI.G £
SEE
PAGE
!3
34
..Jv
t
P52
SEE
Dwg. No. 106557
PAGE
3'
!
9151/91510
PI
JI
CARD
PUNCH
CARD PUNCH COUPLER
P-igc
A
2
CONNECTOR
LOCATION
r--
45 44 43 42
TYPE-
CHASSIS
U
KE.Y
Lee
41
40 39 38 31\36 35
31
30 29 28 21 26
I
4~
44
TYPE
FH fH
KEV
LaC
30
15
8
4~
LOCATION
!
43 42
41
40 39 38 31 \36
31
30 Z9 28 21 26
FH
FH
RK FH fH I fH; fH FH FH fH fH FH
Rf( FH FH FH FH
53 15 15 15 15
8
8
8
6
8
30 30 30 30 30
15 15
8
8
30 30
FH
15
15
44 43
35 34 33
53 15 15 ·15 i 15 15 15
8
B 8
8
8 i 8
& 8 e
30 30 22 30 ~O 130 3C 30 30
i
CONNECTOR
CHASSIS J
33 32
RK RK R K RK ~ K P QK ~K R K R K RK
R K RK R I( P Rf( RK RK R f(
53 53 53 53 53 52 53 53 53 53 53 R
53" 5j ~3 S3 53 53 53 53 53
8
8
8 22
e 8 8 b 8 8 8 8 8 18 8 8 8 8
8
8
22 21. 22 ~2 22 20 22 2l 22 22 22 ...">"£. 22 2.2 22 46 22 22 22 22
CONNECTOR
CHASSISM
34
42
41
AUX FH FH GK uK
TYPE
17 17 51 51
KEY
2
2
6
2
2
LOC 26 32 32 22 22
32
15 15
f.
S
30 3C
15
30
E
LOCATION
40
39
39
37
36
35
34
33 32
31
30 29 28 27 26
FH
IK
8H 6K
10 SI
2
2
42 22
IH
O~
13
2
46
IK
fH
II
uK uK IK
15
8
30
51
2
8
2
It>
51
2
22
I
52 5l
2
2
20 8
51
2
8
IS
IC P ox RK
12 S3 13 .S3
10 22 2
8
8
30 34 28 46 22
9157/91570
CHART, MODULE LOCATION
CARD PUNCH COUPL E R
P.g~3
A
Dwg. No. 106557
5-6
MCDUlE
I rEM
/
t
t
LIST
MODEL QTY
DESCRIPTION
ITEM
I
RELAY DRIVER
RK53
2
ANO
()R
BHIO
I
:3
COUNTER
FHI5
20
4
UNIVERSAL
BUFFER
FF
FF
21
FMI7
Z
S
DIODE
GATE
I
GKSI
4
6
DICDE
('ATE
2
GKS2
I
1
O-R GATE
IHII
I
IC 12
I
IKSI
:3
ex 13
2
INVERTER
INVER TER
8
ANO
9
INVERTER
10
MULTIV I BRATOR
AMPLIFIER
REPLACEMENT PARTS LIST
-DESC RIPTION
DESIGNATION
I
~ESISTOR
2
RESISTOR, 470.1\.
•
820 I\.
::2
iP53} QI T"'~ R3
±2k
'PSO) RI THRU
•
R 31
:3
RESISTOR,8.2ttrl
:2%
~F50/ R3Z THRU R35
P53 R4 THRU R7
4
RESISTOR, 33K.I\.
±Z ?o
(P53) R8
5
INDUCTOR, Z20uh
6
7
8
±5?o
(A PACITOR ,MYLAR .00luftJO: (P~3)
CAPACITOR" TANTALUM
15ut + 10?
DIODE,) S III CON SWITCHING
IN907A
IN914A
IN 3063
IN 3065
9
CONNECTOR~
SOLDERTAll
47 CONTACT 1'7008-47
31
1&., 17
8
16, 17
I
16, 17
,31
42,90 .. 91
26, 27.74
(P,53) (I
I
22., 23, 76
(P50) C R I THRU
CA4
S
4 , 13
4 , 12,13,14
4,&
4
(P53) CRI~ .
J~f,M) THRU ~5M)
J bU} THRU J(45tJ
J(26J) THRU J(45J)
60
82
,
16, \7
(P53) R~ PIO
2.
I~, 17
(P5:3) (3,(4
2
26,2.7, 74
(P53) :R3
1
2,6,,30,'8
: : %
(P 5:)
II
R£SiSLE,IOJ ...
: L rr.
Il
(APAt IT OR ; MYL AR .01 u~ ! 1010
--IN~I'!
16, 17
I
Rt.SI':, :r,c." ;':OK [\
DIODE, SILICO!: SWITC.HING
3
CZ
Ie
13
THRU L31
(P50) L.
CODE
QTY SUPPLIER
(SEE' INDEX)
R I'
j
9157/91570
CARD PUNC .. COUPLER
PAGE
4
A
Dwg. No. 106557
5-7
,
SIGNAL
PAGE
SIGNAL
PAGE
Bl-BI
Z4
D9
U
B9_B16
1)
~
U
a17_814
II
~-
U
B15 __ B31
11
D;Sc
U
•
SIGNAL
PAGE
.,
..
Fa
Pa lie
.,
'T
,
,
~
ft
B33_840
10
Dc ..
841-841
19
De
U
iY
849-B56
II
Da
U
P-=
U
B57-864
17
U
Pm 1-:"-"""
JI
B65~71
16
Pm.~
J.
B73-BIO
15
Pml.~U
~
7
Pm"~
a ..
(Da + D9 Eel
S;
'T
Pm4S~""'S6
Buc
7
Buc·
Ee
II
Pm57~"
Z6
~
11
Ed.
Pm"~
zs
Jl
PI'
n
00
u
p;
n
Ed..
n
n
Edi
Cll
11
cn
II
Cl4
ell
ca-
a.z-
Cl4
•
n
Fe
.,
.,
U
Cl7
C1I
7
CI9
7
CIO
7
ell
Lb
ell
C1S
c;
ce;
Ct
Ct
+~)
al
a.
11
(il
7
Lb-
7
Lb Be
7
Lb
7
n
u
Cc
7
az
az
(U
11
II
Ut
+
Lb)
II
LIt
+ ~t
aJ
•
•
a,
tV
Ud
14
UdO-Udl
14
••
5-8
II
II
II
II
II
Ut
+ Ut,
II
II
·lJ
9157/91570
CARD PUNCH COUPLER
PAGE 5
A
Dwg. No. 106557
~
/
SIGNAL
R4
PAGE
u.
11
(a. • Lb)
RS
RS U.
(M • Lb)
II
R"
It" Lb
(R" • Lb)
,ii4 Ri>
R6)
Sii
Ita
/
....
..
....
..
11
9
Itc)
I
ad
id-
I
Itc4
I
lte4 a
I
lte4
I
I
lteS
I
ReS-
I
Ite"
Rc'"
Re6
ac-...
...
a-
IRtl) ----;> Iltn)
.810
5c
PAGE
wo
Il
WS
IZ
Il
WS-
ws Wi
LIt
If
W6
Il
W6a
IZ
WiWo
IZ
W9~W14
;;q
IZ
n-
Il
I
ic..
ReS
SIGNAL
•
•
•
•
•
•
•
9
10
,
,
14
9157/91570
IZ
CARD PUNCH COUPLER
•
PAGE
6
A
Dwg. No. 106557
/
5-9
At
22
BUC·~~BUC.
~~CI4
Pb
OJ
I
o
~~Lb
02
Q2*
42
Lb~
39
(LbB~)
~
Bu,·
9157/91570
CARD PUNCH COUPLER
P.sge 7
Dwg. No. 106557
A
-\
',-
~
1 ...
,- -1l32.J~ Reo·
~"
~~I
Reo
rl~
Re5
43J
:40.~
On
Re6. 31
~
I~-I
.32
Re4
JX-,I~
1R ,5
51
1 29
RI I
130.
RC5..l.!J
Hc5
I~~
sl
I 19 1Rc4
II~
RI
1 18 , ~
Re6-. 17
J~
Jri')
Ocr
RC5
,";1 \
Ikr
4f
Rc6
42J2
01
+25V
Pb
I
~f;L
Dn
[Rt~
I
42J
1
-
34J
2
-zsjl
:
,
U~
,21
...,....
Dc,.
D
C. P. M.I
P53
=______
I=L
I
~
21
p(l~2Q
~23
Sd--.U
V
15
D9Ee*
12
Dcr
II
0
1
0
0
0
0
I
0
0
,
1
I
I
I
1
0
0
0
I
0
I
CARD PUNCH COUPLER
4
e
5
I
6
7
I
2
91 ':J7/ 91570
Pdgr
3IJ
0
0
,
,
1
33Ji
I
Row RC3 RC4 RC5 RC6
r---
:3
A
Dwg. No. 106557
l
I
1
1
I
I
0
0
,
1
1
1
0
o· I
8
9i_S>Lg~ I
I
0
I
I
0
1
Rt4i
Rt5
Rt6
Rt7
RtZ
I
Rt3
Rt4
Rt5
Rt6
Pt7
Rt2
Rt3
1
[Rt4)
[Rfi]
Rc5~
7
-
I
[R1~
Ua+Lb>
(R3+Lb)~A
01
--
(R4+
- [b)
Lb ,,-5
(R~+ Lb)
~
(R. lJ!.J
(~+Lb)
-.1
0 .... ,
I
.
0·'
) 39 0
(R& lb)
-
I32J~Sn
•
I
"->
b
33J6
(RI Lb)
(R2 Lb)
(Rb+ Lb) o~~ 13,3
26_~
-14
p~O
R4+ Lb
R5+Lb
R6 Lb
(~"'Lb)
(~"Lb)
I ~ ~
(R.R5R6)
43
~8"
i='h· ... _...1 ,/~.
....
31
----~
Pb"
~~(RoR5R&)Sn
J
Sn - 5
9157/91570
CARD
PuNCH COUPLER
Pdg~
9
A
Dwg. No. 106557
u
l.
'--
33 _
· rr.(Fblb)
(~kT5~
~
24 J 2Z
c3
~
~3.8\---J
(RI Lb)
~t4J
(RzLb)
[Rt~
~c3
(R3Lb)
Fto]
(R3Lb)
01
.....
~
.....
"
~-~
-
! (R4~~
(R4Lb)
~~
[Rt-d
(F6Lb)
Ft~
Ir-
13.
I
(,.)
(RI L~
(RzLt..)
[0/2]
Rn
Rc"
(Ro~
(RoLb)~:\
[R3R4R5] -" 4.
[0/2]
~tb1~
~
~
_
A
I
I~
134
~
Ft
~/
~~~~A
10
39J I
.J
8
0
~36~139J~(sB80)
Ra
Rc3
0~IJ.J4
~
~
8
'lIo11
~
33JI4
5
_3
~
~
9157/91570
CARD
PuNCH COUPlE~
Page 10
A
Dwg. No. 106557
~
37
l ~.
( R4+Lh)
Re4
21
RI
( R5+Lb)
~(R5+[h)
Re5
( R6+Lb)
(R2+Lb)
Re&
(Rb+Lb)
34
R
17
01
I
--'
~.
( LbBe)
(R5Lb
Re5
,~
;- e ~ 9.'
'(R7,+Lr)~~(R3Lb)
~32
)
"\I'Lr'·~'RILbJ
..
-.~.
(R6+L")o?l~(R6Lb
.
Sn
(R~ .. l_~)~~(~2.Lb) (R5+L~')~(R5Lb)
(P.4"Lb)~(~4L~)
Rd
9157/91570
CA RD PUNCH COUPLER
Pdqe II
A
Dwg. No. 106557
-~
Be~~
D9Sc ,,3
i
43
20 Mrl'
Q2"~"
Fe
Pc
+45v CLAMP
COMMON RETURN
Ec
~4~
D9
Ed9~38
[c.
~.
r--
19
I
I
: ZOJ _
L- _ _ _-
.o')o'td
II
1
c.P...t
P~~
-=
__
17
ws'"
10 ~"3J
o:-wv-
t:dn
On
~~
oJ""
'W6WQ
01
W6~3;
43
I
--'
2:) ,
~M
4
01
,
I
2B
I~
30
Oe
wo"
.OI",Y
Lit
~~
c.P.M.:
L2~J_ : __P~~
*
36J
W(,.~ 14
iDn-+D9EC.~
0
35
,.--
~~W6WO
~.~31
CI2
11• •
~
32
On
31
3
J
Dn+D9Ec)
'"
[X)~
Ec
33K
~ZtJ
-=
:3Q1J/
9151/91510
I
I
29
C.P·M.I
~53-1
CARD PUNCH COUPLER
P.g~ 12
A
Dwg. No. 106557
II~@
+86-1I----t
+86-.-_ _.....
E d9 _ _ _,--_ _ _
Pi -----,------"=-=--i
l l - Pr
....:....::~~
L-__________~~-__-13
- • Ed9
9
21
IT
II
15
13
01
1
0-
a
+8.
1'\
+8·
"
Edn----~----__~~~~
Ie
~cc
15
3
Edn
9157/91570
CARD PUNCH COUPLER
Page 13
A
Dwg. No. 106557
c.
~
"-
a;
(Lb BIl)
Ct
Edn- 33 ~
43
31
5d
~
37
2 t,D
1~5hO
33. Md
Bi
Ed9
41~Sh4
"
4L
27~ 25
Md
39J
C.h I
Mci~~I'
~
~o"'~.;
~~'I
r::;,
01'
1
Sh5
......
Md
(Lb8Cl)
Ct
43
Sd
19
31J
Lo
6
(LbBe)
Ct
-=
9 36J
ws·~
we~J
4':1.
Sd
27
9157/91570
CARD PUNCH COUPLER
Pc1g~14
A
Dwg. No. 106557
8
12
~13 WsW6Lb
SbBO:~~ I ~
~---1
o-f2
.--l-,
R
Sh"
I Beo
~
~IO
~
45M
S
I
I
T
3
~-
01
I
(X)
~
..,.-------
~
- - - =1
25
Rr
B
875
5h4
;. t,4
1
1
44M'
R
, ___
I
--
I
39
873
5""5
44M
10
3
B 71
CAQD
'=' I 5"V91570
PUNCH COUPLER
8
d
ge
A
i5
Dwg. No. 106557
"
c2
~
c
4
B73-
5
25
6
~
~
BI
B 72
Sr
.I
869
I
~
43M
43M
4:'M
39
51
27
~
In
~
I
--0
'y
~
4
869
I
S h·1
8e.,C
I
I
-I
<2M
0
~
14
I
1
·t·. .
(,
I
-
t'-4
c
j
r- '
B 6SC~\
O~,~'--
I
.
On
3
___
22"
_
Ec.-.r
~I
C-
~T~
__
~ I
28
R
I
42M
I
_127
•
41
--:-_r
__-=-2il]
c--"----4
C
-,
~
--
85702.-v
ShO
o.2J
'RI~Yll~
856
B55
I 39M
Shl
21
~n Rr~JFI
r--:h2
--..
29
854·
40
Sh3
-,....
.
.
RI39
853
39M
10
3
857
01
I
f'V
B53~ I
R
8
852
ShQ
~
851
I 38M
s·
5hl
7
II
R
21
38 M .
-; t", "-
29
B5~
38M
rr
RI 39
849
38M
853
Ct.RD
S 15~/91S""O
PUf\:H COlJPLER
C~ge
A.
18
Dwg. No. 106557
..,
c'
I
"
B49~,
QI
I
St- OOC
1?
L-
_6~.
'-~ ~
~ !:; : "
c~
r-
~ Rr-ll~~'
~481
r~
o-zj
37", I
S,
I
i~~-i-~\
r
37r,'
.
I
47
Sr 2
D
I
!4
c?5
/9
l
B4:
37'",
I
'i
;:'..
~
,
<:.
.
T"\
R'
~~Q
?71
39
845
37M
- -
16
L-+-
_ 10
c 22
3
o
,
- • 9 ,
~
CJl
::~,
~
'"
I
,~
;'
~.--,
_L",
-1 ;
---"
r...../
.
_ II
,
4'
.?7.~
12
, l;.-_ _ _ _ _ _ _ __
"
-
1
,~
L___
/
./
~
c~
I
3~
14
~--
0-=----
~n4:{, ~:: :l-s~,-~~t ::: ',:P~ ~',
~J
1C
I
.
~---
B 45
LrB-LT--1" flI
i;~ 2.
-
c.,...::::....:-
_-=J
o:-~L~ ________ L=-~~~)~~_____
I
.
I
.
I
m
I
_~
P
39
84 1
36M
1)
i
--+---t-----'
L--I
'---
~
_=--~~_)__________~
Ct.QD
~ 1:>7/91570
PUNCH CCLJPLE~
P~qe 19
A
Dwg. No. 106557
',-
B41:~~ I
S hO
o.:=u
R~
R
840
-l Qr,
E39
S. h 2
16
S
I
35M
35M
S
837
8381
1
35M
R1 39
35M
S
841
01
I
I\J
W
14
837
ShO
34M
1
~
I-iS~
83::
I
I
34M
_25
::>t-
RI
28
R
834
39
833
34M
34M
s
10
3
B 37
(, I ~7/91570
CARD
PUNCH
p~ ge 20
A
COUPLER
Dwg. No. 106557
_ 14
4
u--
B 33~"
~"\
I
I
I
S h':
o..Z-.l
St-I
--rlfl
1'6r'c ~
R~
1:31
~
133M
.,.,
L
t~jJ1
83')
40
33M
$h3
39
hi
829
33M
~
C.
B 33
tl1
I
N
~
829:~ I
_25
8r
32M
S'
829
'
1Q
r<~
827
i
Shl
21
32M
I
5hZ
29
'1
~
~.----nrl
I I . --L 1
39
826R
825
2M
32M
3
RI
7
,.,
,9157/91570
CARD
PUNCH
P
d
A
ge
21
COUPLER
Dwg. No. 106557
B 25
R
39
821
Stol
31M
82\
~ 157/91570
CARD
PUNCH COUPLER
p~ ge22
A
Dwg. No. 106557
Btl
OR
rr<·
EI5
816
29M
s
Rr
R~
8
29M
7
s
3
39
B'3
8141
29M
29M
~~
,I
10
Q
-'
B17
01
~.
,
~
~
0-.
I ~I
~
?S--~
R!
R
r
811
812
28M
s
,_
28M
R~
IQ
Sr 2
I
39
99
Sh3
28M
I
Sl
R
SIO
i
1
-~
26M
i.
16
10
3
813
9157/91570
CARD
PUNCH
O~ge23
A
COUPLER
Dwg. No. 106557
',-
',,-
89
R~
B7
Sh I
Sr'2
27M
-1'
B6Qr
27M
5
89
t11
~
I
'"""
~
B5~
ShO- 9
.
8-
I
Q
0;..:.
13
~~
14
8
~
84
83
26M
26M
18
82 ,
Sh2
26M
S
10
:3
85
9157/91570
CARD
PUNCH
Pdge24
A
COUPLER
'
Dwg. No. 106557
I--~
l-E
RD
L-.-_ _ _ _[
:>rr, 80
RD
44U
45u
~
I -
Pm76
Prr.72
M d-'O'---_ _
I
I
I. ·
IMdO~
I
L;
•
Pm
.
C--......---i
I
t_____.
77
45U
I ::U ~ p~
~ 5 II ' 4.1
0
0
Pin
40
..
,
CI~mpVolteSge
0
0
Pin 34,22,12. 2, of 45U~44U,43U.
l 4 Cf
...
'.
U
73
~D
Dm69
43U
.
Com", 0 n Ret urn
.11
J
I
4.3 U .
CARD
915'l'91570
PUNCH COUPLER
PeS q e
A
25
Dwg. No. 106557
32
RD
RD
Pm6B
32
1<0
Pm64
41U
42U
I
32
Prr. () 0
4CM
MdO
21
RL.;
21
Pm67
c
~D
Prr,63
~Pm59
40M·
42U
t11
~
'<)
c
L---1 ~D ~ Prr~2
• -I
RLJ
M~
10
-
Pmec
41U
42U
.-.---- - - - - - ' - - - - -
~
I
RD
40M
~
I
Pm5S
-------~----
(--.,---1
RD
PmeS
L-_ _ _ _
.4 2u
Md
~ -'--~
..
~.
J:(D
Pm61
PreS7
40M
0
Common Return
0
-0 Pln40,41,Z4 -;.'
CI~fT1pVolt~ge
0
0
/.?U.4IU.4~M.
Pln34,22,12,2.of 42U,4IU,40M.
~157/91570
CARD
PUNCH
~OUPLER
P~ge26
A
Dwg. No. 106557
~D
RD
Pm56
39U
MdO
RD
Pm52
32
Per. 48
37U
L
c:
~Pm55
r-L/ -1
I
("
'ill
~ P ... 51
RD
38u
39U
Md
32
36U
~Pm47
37U
----
01
I
CAl
0
c
~/
°
~Pm54
~pm50
RD
3S'.
39U
Me
I~I/
~
Pm46·
37U
2
L
I
Md.~ __ ~·_ _ _
::u r
c
I~
I
PmS3
Coml'T'on Return
QO
-
I
"0
Pm49
Pm45
37U
0
0
Pin 40·,41,24,.;.f !9J, 3eU 3711.
ClampVcltl5ge 0
0
Pln34~22,12 .. 2 .. of 39U~3PU",37U.
J
CARD
Q15~91570
COUPLER
PUNCH
Paqe27
A
Dwg. No. 106557
"
'-
RD
32
L--._ _ _ _
Pm44
~
~
36U
QO
Pm 40
-
I
~D' ~
Pm41
~
I
~D
Pm37
Pm33
34U
35U
36u
Pm36
34U
c
RD
I 32
~----------------------------~------------------------------~
Com /TI 0 n Ret u r. n
CI~rr.pVcltdge
IJ
0
Pin 4 C J 4 I 2: 4,
'.
0
Pln34,22,12,2,of
I
Cf
3 6 U, 3 5 U • 34 U .
36U,35U,34U.
9157/91510
CARD
PUNCH
p~
COUPLER
g e 2E
A
Dwg. No. 106557
RD
32
RD
Pm32
32
Pm24
21
o Pm23
31U
33U
Mc1O
L-
QO.
~
CE
Pm31
I ~D
I
33U
~dl
32U
f-'
("
RD
Pm27
I
31U
01
I
W
fIV
~)
I
~~
~Pm30
-c;JI
'J
RD
Pm26
320
M :12
~Pm22
31U
I
B.25'~
'.
o-~
("
I
RD
I
4L/
~pm25
Pm29
RO
32U
33U
~
Pm21
31U
Mdl
Common Return 0
C'~rT'pVclt~ge
0
o P,n40,41.2 4 ,of.BU,32U.3IJ.
o P,n~4.22.12.2.of
33U,32U,3 I U.
CARD
9157/91570
PUNCH COUPLER
p~ g
r1\
e
2~
Dwg. No. 106557
10
~
RD
--I
~
Pm2C
1
30M
RD
29U
~Pm16
I
RD
-
I 32
Pmll
leU
MdO
c·
P
RD
L.,....-'
RO
29U
Pml9
30M
~
-0
f:o
Pm 15
121
0
Pmll
W2-c
PmlO
l6U·
Mdl
'---
t11
I
W
w
I ~.)
Md2
I ~~
~
~
10
Pm 18
30M
Prnl 4
29u
I
RD
I
leU
B13~
~?mI3
~
'I
c!
~Pm17
3CM
Md2
Common Return
0
o P.n40 •.11.
C!C!mpVcltage
0
o P'r"134,22,12,2.of
{' 4.
(,
f
R:J
~Pm9
lS U
3 rj M. ? S \J. 2 e U.
30 M
1
29U,2eU.
CARD
9157/91570
PUN C H COU P L E R
Page
A
30·
Dwg. No. 106557
RD
32
J:(O
Pm8
27U
32
Prr4
21
Pm3
26u
MdO
C'
c
C
QD
27u
~o
Pm7
10
Pm6
~D
26u
Mdl
27u.
'-------.~
~
Pml
Pm 5
26U
ComrTIon Return o~--o Pin 40,41,24 of 27U.;:6U.
9157/91570
CARD
PUNCH COUPLER
Poge31
A
Dwg. No. 106557
5-34
CABLE PLUG MODULE
KEY
245 _
242 __
6 6. 26
244
241
r -__~2~3::..::9~____~238
236...
- 25v
- 25v
0>-4.;...;7_ _ _4~7-"0
0 46
46 0
_ 8V
45
45
OV
44
44
C2 ~
C220
C21 0
C20 0
~ ~;-,
4 1
40
41 0
88
_'"
C)~,
40 0
7
7
0f-'3;;;....;-.--~3~0
:'15 0....;:3::..::5"'-----_ _.::.3:..5-00
:'14 0...:3;;.,.4"--_ _
• ..;;..3-""4-00
:... 13
0...:3::..::3~_ _3~3~0
C It. 0f-'3~2=--_ _3.;;;.;2~0
R ~ 0f-3~1_ _ _3:..:1~0
~~ 0....;:3::...,;0"'-----_ _..;::.3..:.0-00
232
87
86
85
... 84
83
C :IS 0f-'3:::;....6=--_ _...:3;..;;6~0
!
PAGE 32
A
) 237
9i
Dwg. No. 106557
I
..... 82
:
... 81
, L0189
2304
_i 187
231
228 4
0 185
229
226
I
t'I
T
183
b 190
233
227
A188
~ 186
14
0'
~
139
138 ~
137 _
136
1. 184
4
u
134
133_
34
225
A182
132
131 .-
I
78
2224
'l179
223 4
b 180
130
I
77
b 178
74
.... 73
218
Y175
219 4
b 176
.... 7a
71
216 )
~
126
125
217 c
b 174
124
123
':1114 0....:2:::;....4~_ _.::.24"':""O0
Vh3 0.,...:2;:..;3~_---'2=3=-0
1/ 12 0.,...:2:..:2=--_ _.::.2.::.2~o
I
~
vi',} 0....,:2:::;....0~_ _=2..;;..0~0
Q? 0~17:.-_ _...;,.17.;....oo
W 6 O_I;..;;;6-""-_ _~16;:;....oo
WI) 0 I 5
I5 0
\'10
~'\i',,->
0
o
14
13
I
1
....
69
68
67
212
66
65
210
_i 16g
Y167
~ 170
213 4
b 168
211
121
120 _
119
118
117 __
64
208 4
~ 165
209
b 166
116 ...
1 ... 63
115 -I
206
0 1&3
207
b 164
-300-=
... 62
;..:;...._ _ _ _ _
--4_ _ _~1
______
_+-_ _ _
_ _ _ _:..:.1I..;;:;4_o
i
.....
14 o:y;._\-vr...,-'-(~~6..;..1------+-..,.0:'"1"......-------~I----r-----......:.1.:.::13~
13
~30 ~60
204
.A~~i 161
205
b l62
112
O~~I~ ~5:.:::9:..------~-------__- __+_--~----1:..:.1~1~
L31
202
t'l15g
203
& 160
rue
I I
II
~ 58
1
110...
-~olOIO
10 ... r.,)'1
57
109
_W;"$)
9
9 CPZ"
56
200
,t-~ i 157
201
.~* -! 158
108 __
~fIw r--:=8'--_ _--=-8~C:_;:P_;'3:M__o_..;::.5:..5------+_---------~I__.............._r__---......:.10~·7:...o
12
o
o
o
27
26 '
25
24
i
I
!
23
22
21
20
19
IE'
17
16
15
14
13
12
C~L.
7 0
'"
6 0
...
5 0
O
O~4_ _ _ _4.:.-o0
o
o
29
4
02SJ:.--____2_14-+_ _ _-'--91_7_1_ _ _ _ _2_1_5_+-___
&17_2
_ _ _...:1.::,2=.2_0-
VI :; 0....:2::....:.1 _ _--=2..;.,.1~o
V 9 0_1;...:9",-_ _...;..19~o
i
10 C Of-'-'I8'--_ _..;..18;......00
31
2E:
R 2 0~2-.;6:...---=~0
173
32
128 ...
127 --
2204
p, 0....:2::.::5"'-----_--.--;2:.;:5:....0
33
30
76
.... 75
0....,:2=-7'-----:22~~-0
221 4
35
129
0,....:2:..:8:...-_ _-=2.=.8~0
P,:!
'l177
37
36
'l181
K5 0....;:2:...:9~_--.--;2~9~o
R4
39
3E
135
224
....
41
4C
" - -
80
79
I
I
7
6
5
54
53
52
51
3
3 0
... 50
2
2 0
4i
I
I
0
44J-E-44
~~-----~----------~--~-----~
4~J-E-42 -lYP FeR ~LL
4
0>-'3=...;9"--_ _..=;3..;;..9~0
\", ;~; 0f-'3:;..:8"'-----_ _.:::;3.:::;8~0
G7
) 240
1--, 4'~ J-E-43
43
42
vp~
CM~D PUNCH COUPLER
0-::9:....:
7--1.-+-+--+-_ _+-_________-+-_ _ _ _ _ _ _-=9-=8:..0
o-=9:.:::5:..---'--+--+-_ _+-_________-+-_ _ _ _ _ _ _~9~6~-93
94 .:
~ 91
92 (ORAl N)
90
234
'9 191
142
- 89
141
-
43
42
0
235
9157/91570
243
0 48
'.
198
i
196
9 153
197.,
bl54
Ig44
fl
151
195
~
Ig2 c
, 14i
Ig3
~ ISO
155
199
.~ ~ 156
152
106_
105
104
103
102
101
5-35
100 0
II
10
9
45 ':-E- 8
WIRES
JE SIGNt.TION
P51
LOCATION 30U
KEY
:8 & 40
0 ..7
46
-~EV 0
45
+8V 0
CV 0 44
- 25Y
(
COMMC'''I
;:;E.
47 0
46 0
45 0
440
2":
~,
<.C
IS>
I
IE:
I
1-:"
I~
1'3
14
'-
;"
23B
235
98 _
234
41
40
41
40
ee
232
9 189
233
0190
39
38
39
38
87
86
230
91B7
231
0188
138
137
37
36
37
36
8 ..
83
228
9 185
229
0186
136
135 _
226
9 183
227
hl84
134 _
133 _
0182
-
35_
85
34
33
32
80
79
22"
9 181
225
31
30
31
30
78
77
222
Cj 179
223
29
28
29
28 _
76
75
220
'i177
221
0178
27
26
27
26 :
7..
73
218
9 175
219
hl76
126
125
25
24
25
24
72
7.
216
'i 173
217
0174
124
123 _
23
22
23
22
70
_ 69
2'"
21
20
20
67
19
18
19 ...
18
17
16
15
14
17
16
15 _
14
13
12
13
12
21
- 68
r -E17
-E16
-E15
-E14
132
131
130_
129
-E13
-E12
-E j I
128
-E 10
-E9
-EB
9 171
215 1
h 172
-E7
-E6
-E5
-E4
122
'-2J _
- E3
-E2
Cll69
2131
h 170
120 _
119
_66
65
210
9 167
-E I
-020
211
hl68
liB
117
-019
- OIB
6 ..
63
_ 62
61
208
'i165
209
0166
206
'i 163
207
hl64
116
115
114 _
113 _
60
59
204
'i 161
205
... 58
57
202
9 159
203
h 160
56
200
'l157
201
hl58
~
h l62
112
-017
-016
I
!
III ...
_ 5 ..
6
7
6
'.:
4
.
5
.
S2
51
196
3
2 _
50
"9
le4
3
3
2
;-M I
'-'
PI-E- [19
-[18
212
7
6
5
hlBO
110 _
109 _
198
, 155
199
h 156
53
I01t_
105
9 153
,151
197
19S C
hl54
6152
104
103 _
102 _
101
I4g
193 C
hiS
192
0.....,J.____1:.-.c0>--_-(l0~..;;:.:8----------.a.y------------O---..:.10::,0:..00
5-36
-015
-014
-01:3
-012
-Oil
-010
108
IQJ _
55
p 1- E-A I
V-
127 _
9
8 _
<:
-
33
32
9
8
';'
142 _(DRAIN)
141
140 _
139
_82
_ BI
II ...
0
9 191
90
89
10
9
A
Dwg. No. 106557
96
94
92
II
10
9157/91570
CARD PU~CH COUPLER
PAGE 33
97
_ 95
93
9,
10
II
,
239
236
CABLE PLUG MODULE
243
240
237
99
..3
42
35
34
:0
244
241
.. 3
42
TL' ,-'N
}I
245
242 _
!
!
-09
-08
-07
-06
-05
I
-04
-03
j -oz
PI-E-OI
TYPFORALL
WIRES
p I-E-E20
[,(SI0NATION
LOCATION
KEY
+
2 V
0
, V0
+ V0
V
0
r
., "1CN.
hE. -J PN I
PM
BO
!
19
-B
7e
--1
-.
22 Co 26
238
235
CABLE PLUG MODULE
9157/91570
243
240
237
99
CMW PUNCH COUPLER
PAGE 34
A
Dwg. No. 106557
98 _
47 0
46 0
45 0
440
97
95
93
91
43
42
43
42
90
89
234
41
40
41
40
88
87
232
9 189
233
0190
39
38
39
38
86
85
230 C
9187
231
0188
37
36
37
36
35 _
34
33 _
84
83
228
9 185
229
82
_ 81
226
9 183
227
80
79
_ 78
224
9 181
225
0182
222
9 179
223.
0180
130 _
220
9 177
2214
0178
129
. 128 _
127 _
y 175
219
0176
33
32
32
96~
94_
92
9 191
142
141
(DRAIN)
I
138 -
137~
C
"-
140:J
139
0186
136 _
135 _
0184
134 _
PI-E~GI9
Gle
GI7
GI6
GI5
133~
614
132 _
131 _
613
GI2
31
30
31
30 _
29
28
29
28
77
_ 76
75
27
27
26
74
73
218 c
26
25
24
25
24
72
71
216 •
23
22
23
22 _
21 _
C
21
20
20
69
_ 68
67
5':
::6
19
18
19
18
66
65
210
V l67
211
0168
118 _
117
17
16
17
16 _
64
63
208
VI65
209
0166
~5
15
14
15
i4 _
62
_ 61
206
9 163
207
116
115.
114 _
113 _
..
13
12
13
12
204
41
42
43
4.
45
46
47
I
PIN ~E
as
.-6
11
~7
fHI~
•
30
31
32
33
17
46
.4
~
39
IV
4~
33.
17
II
16
III
7
28
29
30
31
32
_33
15
10
If
22
!ti
I
28
29
18
I
2
1
8
9
IS
16
17
PIN: At.1iE
3
12
13
14
7
7
~
28
H
30
31
32
16
II
;
4
2t,
28
18 :29
9' l30
16 31
41
42
43
44
,
17
II
28
29
30
31
38
39
II
26
25
35
36
37
.
26
2
3
4
5
6
7
8
9
10
9
10
1O
26
26
I
I
1
8
9
13
14
15
16
17
18
19
20
21
22
If:-
E
8
2c
I
!3
2.
26
2?
4
5
6
1
17
IE9
' 17
PIN Rt.GE"
1
Ie
7
FHI5
41
42
.3
.4
45
46
47
38
,•
41
16
42
- 43
4445
46
47
FHl5
15
15
15
15
7
,
15
FHIS
41
4Z
43
44
45
46
47
,
15
7
FHI5
16
7
8
~2
43
44
45
46
41
45
46
47
9157/91570
CARD PUNCH COUPLER
Page 37
A
Dwg.
No.' 1()6557
!
"
26U
PiNIPAGE'
I
31
2
3
4
5
6
7
8
31
~I
31
31
31
8
31
31
Ot
I
.J::...
112
13
14
15
16
11
18
19
20
21
22
23
24
25
26
27
28
29
30
31
~I
~l
31
31
31
31
31
31
31
31
31
3;
;'1
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
10
:1
II
31
32
31
9
II
31
~I
•
,
31
12
13
14
15
16
17
18
19
20
21
22
23
24
~I
31
31
31
31
31
31
31
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
3
4
5
6
7
8
9
10
3C
3'::
3C
30
"2.""'
31
31
31
3'
31
31
31
11
,
31
47
~K53
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
3
4
5
6
7
8
9
10
3C
3('
3C)
3C,
30
II
It
46
;::KS:3
. . .,.;. . . . z.B.1:. Loc29L
~-
PIN PAGE PIN PAGE PIN ~GE'
31
3J
I
I
I
3C
30
::-1
3C
2
2
2
3
4
5
6
7
31
9
10
~ ll.V..
~~
"2.-
3~
3:3:
12
13
14
15
16
17
18
19
20
3::
3C
3:)
3('
30
3::3~
3:
'2-
3:
1
,
I
3::
;;K53
21
22
23
24
25
26
2728
29
30
31
32
33
34
35
36
37
38
39
:2,"lj
2
3
4
5
6
7
30
30
3C
3C
30
30
3C
'2r
3C
-~-
RK'.::
I
9
10
II
II
8
20
21
22
23
24
25
26
27
28
29
30
31
32
33
!
I
!
1
I
34
35
_36
37
38
39
40
30
PIN PAGE
2
3
4
5
6
7
8
9
10
12
13
14
30
15
30 . 16
17
3')
18
3Ci
19
~C'
~5U
~4U
c? :L LOC
32U LOC 33U
~--~ --~--=-=-=--- -~ ~LOC~LOC~
-
.-~
PIN PAC,£,
I
33
30
40
41
42
43
44
45
46
4}
~
41
42
43
44
45
46
47
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26 ~
27
28
29
30
31
32
33
34
35
3~
I
:
,
1
33
~51
37
38
39
40
41
42
43
44
45
46
47
29
29
29
29
29
29
29
PIN ~GE
I
2
3
4
5
6
7
8
9
10
29
29
£9
29
29
2.9
2.9
II
29
29
29
29
29
2~
2';:-
2.:l
l j
29
29
2?
:~;.
2~
':'~
•
,
i
!
29
hl\'.:::
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
2
3
4
5
6
7
_8
9
10
29
29
29
29
29
29
:'9
20
29
29
29
::9
2~
29
29
29
29
29
29
2~
29
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
2:9
~K53
41
42
43
44
45
46
A7
PIN PAGE
I
L:8
2
3
4
5
6
7
B_
9
10
28
28
28
28
28
29
29
29
29
:9
29
29
12
13
14
15
16
17
18
19
20
21
22
28
29
24
25
26
27
28
29
29
29
29
30
29
31
32
28
ZE
28
28
::8
2B
28
2E
28
2E
28
25
2~
33
29
29
4
~
,
29
RK53
34
35
36
37
38
39
2£:
2E
40
41
42_
43
44
45
46
47
2
3
4
5
6
7
8
10
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
28
28
28
28
MK53
41
42
43
44
45
46
47
28
28
28
28
;8
9
10
28
2e
II
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
_27
28
28
28
28
28
2E
28
28
28
28
28
28
2E-
29
30
31
32
33
34
35
36
37
38
39
ZE:
28
28
40
2E
PIN ~GE
I
28
2
3
4
5
6
7
8
2e
II
2~
29
PIN PAGE
I
28
3
II
1\
38
39
40
41
42
43
44
45
46
47
PIN PAGE
I
29
2e
28
28
28
28
28
29
28
28
28
28
28
2S
28
28
12
13
14
15
.16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
31
38
39
40
28
42
43
44
45
46
47
PK53
2·
3
4
5
6
7
8
9
10
27
27
27
27
27
27
II
4Q
41
28
PIN PAGE
I
27
41
42
43
44
45
46
47
HK53
PIN PAGE
I
2
3
4
5
6
7
8
9
10
27
27
21
27
27
27
27
II
27
27
27
27
27
27
27
27
27
27
27
27
27
27
2:
..,.,
L.
RK53
12 27
13
14 l7
15
16 . 27
11
18 ';7
19 27
20
27
21
22 27
23
24 27
25
26
27
29
27
27
27
27
28
30
31
32
33
34
35
36
31
38
39
27
27
Z7
40
41
42
43
44
45
46
41_
21
~.----'
RK53
91~7/91570
CARD PUNCH COUPLER
Pd~e
of.
38
Dwg. No. 106557
Loe ~2L
[PiN] PAGE
I
2
3
I 27
t 27
4
5
6 I 27
7 I 27
I
I
I
3'
LZ J !
-I
I
I 2-:: I
I
L2~~t_~
I 6 I I~ 1
17 1
I 7 I
2~
2:-
1 26
I
1 26
I 2 I 2= 1 2 I 25
I
I
I
I 25
I I
I
I
It!.:>
I
I I
I Z 1 25 12 1
I 2 I
12 I
12 I
1 2,_1
I 6 I 25 I 6 I
I 7 I 25 I 7 I
I 6 I
I 7 I
J6 I
7 I
J6 I
I 7 I
I 6 I
I 7 1
I 2
3
4
5
I 7
110_1
1111
I I2I
110
III
II2
I I
I
I
I
I I
I
I
I
!
2f
26
~ 25
25
~ 25 ~
~-~
2f l.l..U1 2t 1101 25 [IO}25 1101 251101
1101
Iitl
I111
1111
1111
1111
I11I
1111
I I 2 J 2{ J I 2 1 2 E: 1I 2 I 25 I I 2 I 25 I I 2 I 25 I I 2 I
I I2 I
13
13
I 31
II14
3J
=tl3
II 31
I4
'27
1
4 2c I 4 1 2 t III 31
4
25 1I 4 1 25 f I13d
4
25 III 31
4
I4
151
liS,
1151
11511151
11S-r--1151
1151
1151
16 I 27 1161
116 I 2t 116 I 26' I 16 I 25 I 16 I 25 I 16 I 25 I 161
I 16 I
171
1171 --1-1711171
1171
1171
1171
1171
1171
18127 1181
1181 2f 1181 2t' 118~25118J 251181.251181
1181
19127 fl91
1191261191 2f 119125 \19125 1191251191
JI91
l2QI
1201
1201
1201~20L_
1201
1201
1201
1201
211271211----.21126121121': 1211 251211251211251211
1211
221 271221
f22J 2f--1221 2t 1221 25122125 1221 251221
1221
1231
r2ST--1231
123\
123\
1231
231
123 I ==:J 231
24i 27 1241
1241 2t 1241 26 124T 25 1241 25 1241 25 1241
1241
cd
[251
125L___ 1251
1251---- 125
1251
125 [U---l 251
261 27 126,_
1261 2E 126[ 2t 12612_~~f 25 L261 25 1261
J261
27-T
1271 ~ ]271
LzTI_ 1271
1271
1271
1271
1211
28127 [281
1281 2f 1281261281251281251281251281
1281
291 27 129 I
) 291 2t 129 I 26 129 1 25 \29 (25-129 I 25 1291
1291
1301 2-:-· 1301-2-C 1301 25 130125 1301 251301
1301
301 27 [301
27
1-0127110J
III
1111
I 2 I 2 7 I f2 I
~
I 25
1 6 1 2 t1 6 I 25 I 6 I 25
I 7 1 26 I 7 1 25 1 7 I 25
I ~ I I ~ I : ItoI
I ~ I I gI
0'1
I
fl]
F 1
rn
~l m;~1
33 1
I
I~~I 2~ I~~I
133J
) 33-'
341 ?7 1341
1341
~~I
I~~T--~~--l~~f
2t
r331-- - 133 I
2": 1341-2b 1341
I~~I i0J~~1 2~ (~ru ;6I~~1
I~~I
I~~I
25
133[
1 331
251341251341251341
2!
25
37\ 1 1371--1 __ ]371
[ill I 1371 •
38\
I 381J ~ 381
I38T---r-r3sI- I 39 \
\39\
r391
1391
1391
40 1 , J 40 I
] 40 I l 140 , • I 40 I •
41 I 27 1411
T41Tzt 1411 26 1411 25
42 L-----.I 42 1 '1421
1421
1421
431
1431 34 143\
143~143T
441
1441
1441
1441
1441
451
1451
r~f51--1451
1451
461
146 I
1461
146 r 146 r
471
1471
1471
(47)
1471
RK53
P52
RK53
KK53
~".53
25
I 331
\Sg\25 ISgl
15g1
25
137r-r 137Lu---'----13~1
J 381 I I 38 \ I 1 381
1391 I 1391
1391
I 40 I •
140 1 L l tK) 1
141\ 25 1411 25
1421
1421- - 1431
1431
1441
1441
1451
L451
1461
1461
l~t11 __ T471
RK53
RK53
1411
[421
1431
1441
1451
1461
1471
I~I
133 1
1341
I~~I
I
I
I
I
r==1 ~
1101
1111
1111
I I2I
II2I
j
I 31
I4
1151
I 16
1171
118f
1191
1201
1211
1221
! 231
1241
125 I
1261
II 31
I
I
I~ I
I 6
J~
III 3/
II 3
4
I4
1151
115
1.16 I
I 16 ..
1171
117
1181
118
It91
119
1201 ___ 12-6
1211
121
1221
122
1231
123
1241.
124
1251
125
1261
126
1271
127
1281
128
1291
129
1301
130
1281
1291
1301
I4
1151
I 16 I
1171
I181
1191
1201
1211
1221
1231
124[
1251
1261
1271
1281
I 291
1301
I~~I
l~l
I 33 I
I 33 I
I 33
1341
1341
134t
134
I~~I
(~~l
I~~I
I~~
r-H
u
-_
WI
I 33 1
I~I
I~
137[-- 1371- --137\
\37
138 \
138 1
138 1
138
1391
1391
\391
139
I 40 !
J40T
~ L __ ~ 4Q
1411
1411
1411
141
1421 __I 421
] 4Z1
142
1431
1431
1431
143
144T-~441
1441
1441
144
/451
/45/
1451
1451
145
1461
146 J
146 1
1461
146
J471
[4II
1471
~T--n 147
1371
1 38 1
1391
1 40 1
1411
_ TI21
1431
9157/91570
PUNCH COUPLER
Pdg(l
A.
,
I
I
F~
flo I
CARD
...
I
39
Dwg. No. 106557
"
-:z..OJ
pjN'PAGEI;)
I
2
3
I I
01
I
~
W
12
13
14
15
16
17
18
1_9
20
21
22
23
24
25
26
27
28
31
32
33
34
35
36
37
38
39
PINlpAGE PIN PAGE PIN ~GE'
1
2
3
4
5
6
7
I
I
2
2
e
~
2
7E
7 8
8
8
i
9
10
9
10
9
10
II
\I
1\
1\
12
12
II
II
9
9
7
7
14
14
7
7
7
14
14
7
7
II
1\
7
10
12
10
7
12
7
40
12
41
42
43
44
45
46
47
12
7
12
13
14
15
16
17
18
19
20
21
22
23
24
?S
26
27
28
29
30
31
32
33
34
35
36
37
38
39
3
4
5
6
7
7
7
7
7
40
41
42
43
44
45
7
47
FHI5
3
4
5
7
S 10
10
6
7
8
12
12
Ie
13
13
E
14
14
15
15
E
e 16
16
17 10 il 17 .
10
18
18
19
19
20
20
10
21
21
II
22
22
23
23
24
24
25
25
II
26 12 7 26
12 27
27
28
28
29
29
12
30
30
7
31
31
7
32
32
7
33
33
II
34
34
35
35
36
36
37
37
38
38
39
39
40
46
IK51
7
41
42
43
44
45
46
47
\I
GK51
i
e.
12
43J
PIN PAGE'
I
7
10
29
3Q.
LOC42J
3
4
5
6
7
8
9
10
4
5
6
7
8
9
10
41J
4IJJ
~--~---~--
12
13
14
15
16
17
18
19
7
7
8
8
6
20
!
12
7
7
10
21
22
23
24
25
26
27
28
29
30
31
32
33
8
e
,
8
34
35
36
37
8
C 44J LOC
PIN PA(.F
I
7.6
2
3
4
5
6
7
8
9
10
7 8
7
1\
I
.,:\1:)
39
40
40
40
41
42
43
44
45
46
41.
41
42
43
44
45
46
41
42
43
44
45
46
47
~1
:
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26 ~
27
28
29
30
31
32
33
34
37
38
39
GK51
,
!
7
8
8
8
I
8
8
!
!
I
6
7
36
38
Ie
~
;::..=..;:
e
__
FHI7
PIN ~6f
I
2
3
4
5
6
7
7
I
2
3
4
5
6
PIN PAuE
I
2
3
4
5
6
7
8
--
PiN
--
PAGE
PiN
Ra.6E
PiN
~E
iitN
I
1
I
I
2
3
4
5
6
7
8
2
2.
3
2
5
6
3
9
1
8
9
5
6
7
..
..
3
5
6
7
8
..
10
10
10
10
II
1\
II
II
I I
II
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
12
13
14
15
16
17
18
19
20
21
22
23
24
12
13
14
15
26
27
28
26
26
29
30
29
30
29
30
31
32
31
32
33
34
35
36
37
38
39
29
30
28
29
30
35
38
39
-4b
41
42
43
44
45
46
47
9
33
34
35
36
37
38
39
40
40
40
41
42
43
44
45
46
47
41
42
43
44
45
46
47
41
42
43
44
45
46
47
._--
PAGE
8
9
10
11
16
12
13
14
15
16 .
17
18
19
18
19
20
20
17
21
22
23
24
25
25
21
22
23
24
25
27
28
31
32
33
33
34
35
36
37
34
35
36
31
38
39
38
39
39
40
4'
42
43
44
45
46
47
40
41
42
43
44
45
46
47
ROW
J
27
31
32
31
32
33
34
35
36
37
38
l
3
9
10
37
-~
---r---
PIN PAGE
7
8
9
10
S-
36
I
45J--~
LOc
40
41
42
43
44
45
46
41 _ _
_L
FHl7
9157/91570
CARD PUNCH COUPLER
Page
A
40
Dwg. No. 106557
26J
27.1
28J Loc28 ,
~--~--~-- ~
PiNiPAGE- PIN PAGE PIN PAGE PIN ~GE
i,2
I:'
!2
13
I
I
I
12
9 I'
2
2
2
2
•
3
3
•5
6
1
8
9
1O
'-
4
;2
.12
6
.<::.
1
;4
9
10
II
12
13
14
15
16
I
t
II
It
i4
14
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
14
14
21
28
29
30
14
14
14
31
32
14
33
34
14
35
36
31
38
39
40
41
42
43
44
45
46
47
8
12
13
118
14
14
19
20
14
21
22 14
23
24 12 14
25
26
12
14
17
01
5
3
4
5
6
1
8
9
10
14
14
12 14
12 14
12
15
16
17 .
18
12
19
20
21
22
23
24
?5
26
21
28
29
30
31
32
12
1
12
33
34
35
36
37
38
39
40
41
42
43
44
45
13
12
12
12
12
12
41
OXI3
35
36
37
3
4
5
13
13
1
8
9
10
13
_6
13
IL
II
12
12
12
12
e
~
14
14
34
46
RK53
13
14
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
II
13
II
11
13
13
2
3
4
5
6
1
8
9
10
2
3
4
5
6
1
8
9
10
34
35
36
31
35
36
31
38
39
38
39
39
40
40
41
42
43
44
45
46
47
41
42
43
44
45
46
41
II
7
7
II
7
II
1CI2
"
"
12
13
II
14
13
15
II . 16
II
11
13
18
13
19
II
20
13
21
13
22
13
23
9
24
25
I
26
27
9
28
II
29
II
30
9
31
II
32
33
12
12
12
12
40
41
42
43
44
45
46
47
12
FHI5
I
!
2
I
3
6
4
10
5
6
1
8
9
10
8
8
II
II
9
9
12
13
14
15
16
11
18
19
20
21
22
23
24
25
26·
21
28
29
30
31
32
33
34
35
36
31
38
39
40
41
42
43
44
45
46
47
PIN F\GE
I
10
10
10
"
12
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
31
II
12
12
II
II
12
12
14
14
10
10
10
14
14
12
12
II
II
12
II
II
II
12
12
IK51
1
8
8
12
12
PIN PAGE
I
8
2
3
4
5
6
1
8
9
10
"
14
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
21
28
29
30
31
32
33
34
35
36
31
38
8
38
39
40
41
42
43
44
45
46
41
9
9
9
9
40
9
9
7
7
8
8
14
14
8
8
e
14
14
12
12
e
8
14
8
8
8
8
IK 51
10
10
9
10
10
10
12
13
13
13
10
13
13
13
9
9
12
1
12
10
,
,
1
39
41
42
43
44
45
46
47
i
!
10
GK52
PIN PAGE PIN PAGE
I
I
2
S
2
9
3
3
4
5
6
7
8
9
10
12
II
II
12
12
13
14
15
16
11
18
19
20
21
22
23
24
25
26
27
28
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
,
9
10
10
12
29
30
31
32
2
3
4
5
6
7
8
12
12
i2
4
5
6
7
8
9
10
i
PIN F\GE
I
12
12
12
12
12 .
14
14
12
9
14
8
II
8
II
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
21
28
29
14
14
12
12
13
14
15
.16
11
18
19
20
21
22
23
24
25
26
21
28
30
31
32
12
33
33
34 7 12 14 34
12
35
35
12
36
36
12
31
31
38
12.
38
39
39
'2
31
32
33
34
35
36
37
38
39
40
12.
40
41
42
43
44
45
46
47
14
14
14
41
42
43
44
45
46
47
GK5!
12
12
12
12
-
---
OXI3
--
14
10
30
12
9
9
9
PIN PAGE
I
2·
3
4
5
6
7
8
9
10
12
7
12
12
9
7.
33
12
12
10
10
34
35
36
37
38
39
9
'PiN
I
2
3
4
5
6
9
II
\I
21
22
23
24
25
26
21
28
29
14
10
30
31
32
33
34
35
36
31
38
39
40
40
40
41
42
43
44
45
46
47
41
42
43
44
45
46
47
41
42
43
44
45
46
47
9
IHII
10
-------
GK51
\-,-~,
7
8
12
13
8
14
8
15
~
16 . 10
7 .
17
10
18
10
19
20
14
10
7
1
8
9
10
II
29
30
31
32
38J
--PAGE
LOC
-
PIN PAGE
1
B
34
38
P53
II
II
30J-~C~ LOC
35J -....:.....::.--,.......-;:
32J LOC -----~-33J
36J LOC 37J
c 34J
~--~
PIN PAUE
I
ROW
J
7
10
10
12
12
7
10
12
10
12
12
;
7
10
7
7
_.--------'
SHIO
9157/91570
CARD PUNCH
Page 41
A
C~U?LER
Dwg. No. 106557
SECTION 5-3. ENGINEERING DRAWINGS AND MODULE LOCATION CHARTS
J
5-45
IJOTES: UIJLES5 OTHERWiSe: SPECIFIEO
o
5. Mgg}j/f:Afk~1! 5:fs t~f.cfO-'~~""o1ARY
A.
Rc"VERSE /::rJNER StlP,qy FOLIIRITY
11.5 INDICAT£D IN
900055".
SDS MANUAL
B. OPEN-CIRCUIT TtY'E COIL or TilE
IIDc RELAY
(OISCONNECT T/iE IVIRE 7l) TtY'E
COlt. AT T/iE RELAY, TIE BACJ:',
f LA8EL).
C. REVERSE POLARITY OF T/iE
RECTIFIER /N ;Va. I RELAY CIRCtllT
(/NTERCh'!lM;E
o
o
RELEASED
7?J Mm.
MATERIAL: CHASSIS - STEEL, CAD PLATED,
CLEAR CHROMATE: DIFPED.
HARDWARE-STEEL,CAD PlATeD.
I1JSTALL 11.1 LOCATICJIJ ';(.!IlR) W ASSOC/ATEO
9151/91510 CARD I
seRENoS
':;:'
L
• • • • M.&. _ _ _
.::.."'::_ 7'
-9/57/91570
".
.......
A
lJOT£S: UAlLESS OTHeRWISE: SPECIFIED
I. SEc MATERIAL UST 1047S4
o ~AlLf(::CO::
o
Ie;,
Rt:l£A:£D
lD MR>.
SHEET Z.
ft:~~ls FnARIZIU1i
MARK nnE,MODEL. IJC).. 4 SCRIAL uo.
Je HI6H AS SI/OWlJ;CLJt.OR-BL.ACK.
4.. REF LlJ61(" DIA&RAM,fJ(J. I06SST
5.
REF 1A/S;i4UATItUI DW6 U(J.
IO~8
S1!AU.!1"
.::..
'::"
_.-
.. -----
.=---=-
ASSEMBLY,
CARD PUNCH COUPLER
7"
- - 9157
D
---
"
~.{..t_
I
104758
_ .... ec-.. _ _
I ........ I OF 2
A
>
~
MATERIAL LIST
TITLE
§/O\S
< OVQ.
MOD ,
ASSY; CABI2 ;eUN~H COUPLER
0
z
ex>
r- I
• ~
0
:a
2
Q
"
~
.-.J
~
.
.
)
DWQ o T JTl .•:
ITF,~'
In
DWG.tlO.
ABsy, Coupler Chassia
.
,
r-=--.-I
,.
a."."y,."., DATA 8.8T. . . .
,
9157
"O.R!Q
104758
A
lH!tT 2
DAT( Z/27
RIMARIS
on
0'
CIT. 01810.
"
••••• _ _ 0
••
.
'-
~
,
-
3
ASBY, P. W. And Or Buffer
100164
I
BHIO
4
Assv. P. W. Universa.: F. F.
2
FHI7
10153S
5
6
ASBY. P. W. Diode Gate I
Assy. P. W. Diode Gate 2
101534
100246
100267
4I
GKSI
GKS2
100424
100425
7
Assy, P. W. Or Gate Inverter
100319
1
!HII
100321
8
ASBY. P. W. And Inverter
101540
I
I_CtZ
101541
9
10
Assy, P. W. Inverter AIllPl.
100388
3.
IKSI
100434
w. MtRil~lg¥~for
103932
2'
OXI3
103933
11
ASBv. P. W. Relav Driv_er
100905
21
RKS3
100906
12
Assv. P.
1010Z6
FH1S see DL 1010n
13
14
Pin. Polarizin~
Chart, Module Location
10654~
20
I.ZQ
x
15
Nameplate, Blank
101109
1
16
17
Dia~raIn.
Ins tallation Dwg
10'6557
106538
x
x
18
Assy, Cable Plug Mod.
10654()
I
Assvr.P.
w. c: . . .
n ..... ~r
F ... F.
Lo~ic
Ray
1
106543
,
ML
DWQ. NO.
-
100282
8e~
DLI00402
ref
ref
ref
.,
.
..
.
)
-
\
sos-~-lOb
-
2
~.'
REVISIONS
A
NO.
IIEQ.
DRAWING
NO.
Released to Mig
REFERENCE
MATERIAL
DRAWN
t. TOLaRANCD
•XX
%.030
.XXX :.010
CHECK I
ANGULAII
:v.-
a.
.REAIe ALL SHARP .DaD
.010 APPIIOX.
8.
MACH.SURPACEa
4.
ALL DIM. IN INCMU
D.T£LL
J!~1,-~~
ITEM
DESIGNATION
NO.
LIST
~K/64
IJ-'t·'+
~ iju
lilfil
SCIENTIPIC OATA SVSTEM •
SANTA
APPlt"fYJ: ~ 'fl
, &'" ~
MONICA.
CALIFORNIA
TITLE
S
7
A
I A'-PROVED
_JQ.L4t.'4
CJjj r~~~~~CHK I DATE
DESCRI,.TION
NOTES UNLESS SPECIFIED
1065~45_
DESCRIPTION
REV.
~
~
c
GHART ,MODULE
LOCATION, CARD PUNCH COUPLER
I-
MODEL NO.
SIZE
-I
CHANGI
DWG. NO.
LlTTla
A
9151
NEXT AS.V.
J04TSB
SCALE
..
'"
106545
'"
DO NOT SCALE DRAWING
.
r
A
SHEET
1 of 4
....
\
,
--./
-
.
,.
,;,
.
.
.
. ...
-.
.
.
24
23
2Z
21
Type .'
20
19 18
16
17
15
14
13
12
11
10
..
•
,
.
.
CONNECTOR LOCATION
25
,
9
8
-,
7
6
4
5
3
Z
1
~
.
Key
LOc.
.,
CONNECTOll LOCATION
45
44
43
42
41
40
39
38
37
36
35 34 33 _3Z
31
30
Z9
28
26
27
----o
o-----C>----o
o-----C>----o
35
6
5
14~
_ CR23- o
RI3
_R2·4
_R~.~
R4.4_
-
l_
RI.4
O!I
o! ~ ~}
u
O~ I I 6
a:
a:
U
_R2-]
R~-]
-
R4-3_
_RI-3
_RI2_
RII
_ CR22- o
Pin I
I
_ CR2I - o
_ CRI9- o
_ CR18- o
_ CR17 -o
_ CR16- o
O~I.,I
0~61~1
,I
«
>6
_CRI~-o
_ CR14- o
_ CRI3 - o
_VRI-~
RIO
_R9 _
_RI _
_R2-2_
_R~·2_
O~ii «9
- O~ul
- R4-2RI-2_
a:
I
0
U
CRI2-o
:CRII-o
_CR9~
1
_CR~-o
_ CR4
_
RI-I
-
R4-1
R~-I
R2-1
R6
R7_
OIII
I
O~
OJ: ~
U
I
a:
Connector End
_CRB-o
_CR7 -0
_ CR6 -o
::-o
_VRI-~
_ CR3- o
_ CR2 -o
_VRI-I-o
_CRI.-o
-
C2 - ( )
Pin 47
SDS 900107A
Model BH 10 Schematic
ITTI'" ill1"n ill1
41
40
37
30
3
9
4
2
38
33
31
POLARIZING PINS. 2 & "2
CR9
CRII
2~
26
CR8
27
+ 8V
23
RI
R2
CI
02
+
vRI
2~v
RI2
R9
Ril
R8
R~
CRI8
CRI9
CRI2
10
24
22
18
CRI~
CRI~
CRI3
16
I~
CR6
19
29
CR7
28
3"
ff1
I~
12
-=
-2~v
13
CiRCUIT
CIRCUIT
CIRCUIT
CIRCUIT
I
2
3
4
SIGNAL
NAME
+ 2~v
47
- 2Sv
460
+ BV
"5O-~+
GROUND
4~
R6
0--3(2
43
RT
.36
RIO
39
32
20
17
42
~
6
~
'3
a
~
~
RI3
21
Model BH 10 Parts List
Item
Description
Designator
Transistor
2N834
01,2
2
Diode
1N746
VR1
3
Diode
1N914A
CR1 through CR23
4
Capacitor, Mica 68pf ± 5%
C1
5
Capacitor, Tantalum 4.7!Jf ± 20%, 50v
C2
Oty.
8
Suppl ier Code
(See Index)
1,5,7,9,5
4
2,12,13,14
23
4,12, 13, 14
4
19,20,21
23,77
6
Resistor
560 ohms ± 2%
R1,3
8
16,17
7
Resistor
820 ohms ± 2%
R2
4
16,17
8
Resistor
3.9 k ohms ± 2%
R6 through R13
8
16,17
9
Resistor
10 k ohms ± 2%
R4
2
16, 17
10
Resistor
18 k ohms ± 2%
R5
4
16,17
NOTE: Unless otherwise noted, l/2-watt resistors may be used. To maintain specified
performance, use replacement types designated in SDS Suppliers Code Index.
© 1964
Scientific Doto Systems
Printed in U.S.A.
sll-Is
SCIENTIFIC DATA S~V~S~T~E~M~S=------------------------------------------------------------------------------------------------------
/
Universal Flip-Flop
FH17
Assy. No. 101534
This module contains four independent flip-flop circuits with
input gating that permits a wide range of applications. For a
binary counter, the Set Output of each flip-flop is connected
to the Clock Input of the next, causing it to toggle. A decade
counter (8, 4, 2, 1) is similar, but requires a connection from
Reset Output 4 to Set Input 2a, and instead of Set Output 3,
Set Output 1 drives Clock Input 4b. The Parallel Transfer Input
allows presetting of the flip-flops, and is connected to ground
if not used. Clock termination circuits are prewired on the
module, as are the comprehensive noise level control circuits.
Maximum Operating Frequency
Fan-In (Each aux. input)
Set, Reset Inputs
Clock Input
Common dc Reset Input
Parallel Transfer Input
Set Output
Reset Output
Output Delay (Typical)
+25 Volt Supply
+ 8 Volt Supply
-25 Volt Supply
Module Dissipation
True signals have no effect on the dc inputs which respond only
when false (O-volt) signals are applied.
lMc
10 terms
2 loads
3 loads
6 loads
Bloads
10 loads
10 loads
lOOns
140ma
54ma
3ma
4. 1 watts
Parallel Transfer Input 0.-......- - - - - - - - - - - - - - - - - . . - - - - - - - - - - - - . . _ - - - - - - - - - - - - - .
Set Input c
Set Input b
Set Input a
Aux Sel Input r::Jb'----I
Set Output
Reset Output
Clock Input Q!.!.--_~,.j
Aux Reset Input
0:.:.----...::..........
Reset Input a
CommondcReset
ot~~:::::::::::t::~--- -----~::::::::::::jt::~---~:::::::::::t::~---~:::::::::::J~
- R9-4 -
_ C2-4 _
- R15-4 -
I
I
I
0::
II::
0::
RI4-~ % ~ l
-RI3-4 _
_R8-4 -
_ RII-4 _
or
9 .¢.
_CR23-4-o
9
l':lO ::3 ! ., 1. 6 ~ 91
I
I
lol=R9-4_
-4-o
CR21
1~9~9O:I~911::'" ~
or
a:
6t
- R15-3 - R9-3 _ R14-3 _
_R8-3
_ C2-3
'"
-
_RI2-3 _
o-CRI8-3_
CRIO-3.,.
0- CRIO-2
~ t.D
0::
0::
9.¢. I I 9
F? '? ,., '? '? " ~
~ irn;;:t"I!!? 2t"1~ 9~ 9
U l>yuv:3 ' 5"u'" II:: '"
I,? I '?~6'? 1'?6!h 6~
0
.!.o"'~:
II::
II II II I'"
~
i7 ~I
I
:;: 0
II::
~
u
6_
I
5 5 0~ 5 ~
9
I
I
CI-3
_
0-~RIB-2-_
R12-2
I I
I
I ':'
_RB-2 - ':' ':' ~ 'l' 0
_ R13-2 _
:Q
II:: Il!
_ _ IIII111
a:
-RI4-2 _R9-2 _RI5-2 _
o-CRIO-I_
o-CRI8-I_
_RI2-1 RB-I
_RI3-1 _
_R9-1
i i
_-
_RI5-1.;..
_ RI7
':'
CD
~
N
0
0
!!:
-
-
CI-2 -
I I
N
N:::
ir ~
I
a: cr. ~ a:
CI-I
RIO-I
6_~RII-2
'f 'T 6
_
9-
IJ1
II::
-
;::
0::
~
I
I
I
I
~ ~ ~
'"i
CR21 2
'f OCR9-2 :
- <)
_CR23-2-o
I
......CR6~~I~1
-.r
CR12-1
~
.b IJ1t"1J-,_~
' - 9'
~~
N
"l 1~':3YUTu~UY5 N U
"1"6-;-6;;;'20~6!l! 6
~
[3:3 L.J
..
..
~_
C2-1
_
69
I
_ RII-I
I •
_
6
~
I
~
II::
u1.
>IU
Connector End
"
I
~6~ [36~ '0
a: a:
-;-.¢.
~
CR5-3 -o
:CRI3-3 -0
_CRI2-3 -o
_ RIO-3 _ OCRG-3 _
_CRII-3 -0
_CRII-2 <)
_RIO-2 .Q-CRG-2 CR12-2
~ I
I :CRI3-2:g
!l! ~ .,: 9'l' _CR5-2 <)
:l: '~6~o~
C2-2 -
IIII111
-0
~
~ 1~,:30~0:3I:30!b'l'~
~ ii
Q;
~
I
- "0""''' - ,
0 5 55
o::,},
_RI4-~
/
':' ':'
..,....
,II::,
9.¢.
-
~
-CR23-3{f1l-4 -0
o-CR9 3
I
I - J:R21-3 <)
_ RII-3 _
NO
I I I
'" '" '"
-RI3-~
6
6_
¢
5
:3 5 a: 5
,;,
Pin 1
9
III111 I"O~ I ... 'or~'r;:.,"lor6u!!!~.,
...
.,0
'~NV,....VID '" a:: 0" CR5-4
,},
~
~ ~
L.J
:'CRI3-4
_ R12-4 _
CR18-4 II::
II:: 0::
U
'¢"
,
I
I
CR12-4
I
CI-4 _
_RIO-4 _ OCRG-4 _
RIO -'L- I I I
-0
:CRI3-1:g
- CR5-1 -0
~
.II
...
U
I
I
~
_CR21-1 <)
'OCR9-1 _CR23-1 -0
Pin 47
_ RIG
SOS 900124A
Model FH 17 Schematic
RI6
47
+25V
fo 5.6v
POLARIZING
2 & 32
PINS:
RI1
-25V
A
Ria
... Bv
folV
45
GROUND
CR24
44
C;3
VR3
C;4
34
+Z5V
~
RI
R2
R3
~R4
l' 8V
R5
R6
R7
~
R9
R8
CRI
+ 5.6V
+ 5.6V
CR2
CR.3
CR~
CR5
~VRI
CRIO
CRII
CRI3
CRI2
CRI4
CRI5
VR2
~
CR1
RI3
RI2
-25V
~
cJ" ~ ~l?J
CI
RIO
CR6
~
+ IV
~f
CRe
CRle
RII
CR9
CR21
(R~2
l}"
(R23
RI5
RI4
+ IV
-25V
-25V
~TOA
0
CIRCUIT
I
2
.3
CIRCUIT 4
!
0
36
26
22
12
37
21
21
II
38
28
20
10
~
SIGNAL
NAUE
~
~
"-
'"Z
~
35
25
2.3
1.3
~
~
~
\oJ
\oJ
\oJ
'"
'"
'"
10
041
39
29
19
.31
17
7
9
..
0
'" u0'"
'"
)(
on
\oJ
\oJ
:::>
.,
0
0
42
32
15
6
43
33
14
4
~
~
~
\oJ
....
\oJ
....
~
:::>
0
:::>
~
41
31
17
5
40
30
18
8
\oJ
on
a:
V
ci
\oJ
a:
u
'" '"a:
U
~
u
:::>
\oJ
on
w
a:
....
z
..J
\oJ
0
..J
..J
2
:
~
u
:.
Model FH 17 Parts List
Description
Designator
Transistor
2N834
Ql,2
2
Diode
lN914A
CR 1 through CR24
3
Diode
lN746
VR1,2
4
Diode
lN3827
IN 1765
VR3
Item
Qty.
8
Suppl ier Code
(See Index)
1,5,7,95
93
4,12,13,14
8
2,12,13,14
2
6
5
Capacitor, Mica 330pf ± 5%
C1.,2
8
19,20,21
6
Capacitor, Mylar O.Oll-1f ± 10%
C3,4
2
74,27,26
7
Resistor
120 ohms ± 2%
Rl0,11
8
16,17
8
Resistor
470 ohms ± 2%
R8,9,18
9
16, 17
12
16,17
9
Resistor
3.9 k ohms ± 2%
Rl,2,7
10
Resistor
4.7 k ohms ± 2%
R16
11
Resistor
47 k ohms ± 2%
12
Resistor
100 k ohms ± 2%
R13,14
8
16,17
470 k ohms ± 2%
16, 17
R17
13
Resistor
R12,15
8
16,17
Resistor
5.6 k ohms ± 2%
R4,5
8
16,17
15
Resistor
10 k ohms ± 2%
R3,6
8
16,17
Data Systems
Unless otherwise noted, 1/2-watt resistors may be used. To maintain specified
performance, use replacement types designated in SOS Suppliers Code Index.
16,17
14
® 1964 Sc ientific
NOTE
Printed in U.S.A.
sll-Is
SCIENTIFIC DATA
S'~YS::-:T":":EM~S--------------------------
Diode Gate No.1
Gate Input
GK51
Assy. No .. 100246
Loading
Power Drain
2 unit loads
+25 Volt Supply 55 rna
o perati ng Frequency
Module Dissipation
to 4 Mc
1.4 watts
43
42
16
15
14
32
30
29
40
39
13
12
11
33
7
28
25
24
23
8
37
36
+25
~
~~3
+25
21
20
19
o--!-vw--I
SDS900165A
Modu Ie G K 51 Parts List
Item
Description
Designator
Supplier Code
(See Index)
Qty
-
Diode,
2
1N907A
1N914A
1N3063
1N3065
Resistor, ±2 %
,
CR 1 thru CR36
4
R1 thru R9
0
16, 17
9
+ 25V
47(r-ll
R8
R9
-)
2
+ 25 v
I
.a---.------------,
R6
R7
CRI7
22
25
CRI8
24
CRI9
CR20 CR24
23
17
CR21
21
CR22
20
CR23
19
18
14
16
15
13
12
10
II
6
g
+25V ~-,-------~r-----------------_r---------._-----------_,
RI
R2
CR2
41
©
Copyright J963
43
42
CR4
38
R4
R3
40
CRB
CR5
39
34
37
36
RS
CRIO
35
31
33
CRII
32
CRI2
CRIG
26
CRI3
30
CRI4
29
---------
4, 13
4, 12, 13,14
4,6
1/2 watt, 3 9 k ohms
POLARIZING PINS: 2 & 22
36
~--
(RIS
28
27
sl-·-Is
SCIENTIFIC DATA
S'~YS::":'T~EM~S-------------------------
Diode Gate No.2
Gate Input
GK52
Assy. No. 100267
Loading
Power Drain
2 unit loads
+25 Volt Supply
Operating Frequency
Module Dissipation
to 4 Mc
1.4 watts
23
33
43
42
41
40
37
36
35
11
:1r
14
21
19
....
32
9
7
12
+25V
o---vvv---I
22W
27
26
25
31
30
29
38
13
55 ma
20
+25V
8
+25V
6~
2
5
4
3
+25V
~
18~
17~ 16
15
+25V
10~
SDS900166A
Modu leG K 52 Parts List
Item
Diode,
2
Descri ption
Designator
Qty
1N907A
lN914A
lN3063
1N3065
CR 1 thru C R33
33
POLARIZING PINS:
2 & 20
f----r-----,--!",
16
22
21
19
mm
17
20
I~
16
1.3
II
12
16, 17
1" ~1'l'
0
+ 25v 47
4, 13
4,12,13, lit
4,6
4
9
R1 thru R9
Resistor, ±2%, 1/2 watt, 3.9 k ohms
Suppl ier Code
(See Index)
14
iRS
::;
6
1
9
.3
~25V~-r------------------_.-------------------.------------------~
R.3
R2
RI
R4
CRI
.39
:,~-/
Copyright 1963
4.3
42
41
40
.33
.38
.37
36
.35
.34
28
.31
.30
29
.32
2.3
27
26
25
24
sll-Is
SCIENTIFIC DATA S..
Y.....
S~TE~M-.S~-----------------------------------
OR Gate/Inverter (NOR)
IH11
Assy. No.1 00319
This module contains three 5-term OR gates, three 3-term OR
gates, one 2-term OR gate, and four inverter circuits. Since each
of the diode gate circuits is a complete OR structure, it may be
freely used with the inverters to implement NOR logic. Two pins
are avai lable to ground unused OR gat e inputs. Unused inverter
circuits may be used in conjunction with Gate Expander or FlipFlop modules.
Gate Inputs
n~
23
24
25
27
26
Gate Output
40
39
38~
41
_
_
_
RI3
o-CRII_
R12_
o-CRIO_
RII
o-CR9_
RIO_
o-CRB_
R9_
o-CR7_
60 ns
150 ma
38 ma
5 rna
3.6 watts
l~t=O
17
14 0
~
80
~
Inverter Input
:~
42
43
Mc
terms
loads
loads
19 0
:t=O
32
33
1
10
2
12
l:Etl
21
30
28
29~
31
J
Maximum Operating
Frequency
Fan-In
Gate Input
Output
Output Delay
(Typical)
+25 Volt Supply
+8 Volt Supply
-25 Volt Supply
Module Dissipation
--fR2Lo
JRI'L.o
_VRI-.i.o
~
Inverter Output
:q
-=
~
JR2z...o
Pin 1
_CR2Q..o
_CRIB-o
_VRI-Lo
o-CR6 _
_
_ R2-4
-
_RI-4
RB_
o-CR~ _
O~
-
_ R2-3_
O~
RI-3_
R7
O-C~-
R6
_R5 _
_
R4 _
R26
_RI-2_
_ R2-2_
O~
_R24 _
_R23_
_ RI-I
R2-1_
O~
_R22 _
_R21_
_R20_
_CRILo
_CRI~{)
JR~'-o
o-CR36_
_ CR5I
o-CR3~
_CR51Lo
_CR4i..()
o -CR 3L
R2~
-o
-o
_ CR14
o-CR3L
_ R27_
-
CI
JRI6...0
_ CRI5
o-CR2 _
o-CRI_
R3
_R2B_
0-
o-CR3_
JRI7-o
o-CR3L
o-CR3L
o-CR31 _
-o
Connector End
_C~fLo
_CR4!..<)
_CR4§...o
_ C~~
o-CR3Q....
_CR4i.<)
o -CR2 'L
_C~Lo
o-CR2L
_RI9_
-
RIB
o-CR2L
_R17
o -CR2i-.
_VRI-'-o
_VRI-La
--fR4~
RI6
o-CR2L
_RI5_
o -CR2 i...
_ CR4I
_c R4 <2..0
RI4
o-CR2L
_CR3'L<)
_ CR3 \l..()
-o
Pin 47
SDS 900133A
Model IH 11 Schematic
POLARIZING PI""
? &. If:,
+ 25V 470
- 25V 4,,0
'11
VRI
'0.1
R2
+2~V~'-----'-----,,-------r-----r-----r------~----~----~------~-----.
-25v
R4
R3
CRI
19 21
-
1
3943
1
-
(R16
RIO
R9
(R6
CR7
(R18
(R17
(R8
CRI9
RI3
RIZ
RII
CIRCuIT
CIRCUIT
CIRCUIT
(IR(UIT
(RI!
CR9
SIGNAL
(RZ2
(R20
I
2
3
4
37
35
12
10
-'3-4*'
~
cr
8
cr
5
w
NAME
~
16
15
RIB
RI9
8
R20
(R25
(R2&
CRn
(R2B
(R29
f-o-
'----
r--
----
r---
(R40
(R41
(R42
€R43
(R44
(R39
41
42
>R17
RI6
RIS
CR24
CR3B
(R15
R8
~
~
40
38
28 33
R21
(R30
(R31
f---
~
30
RZ3
R24
CR32
29
-
r---
(R47
R2S
CR34
CR33
-
(R46
(R4S
31
R22
-
26 27
R28
CR37
--
~
(R51
C~2
eRSO
24
Rn
(R30
CI<35
(R49
CR48
RZ6
23
6
ZZ
Model IH 11 Parts List
.
Description
Item
Transistor
2
Diode
2N834
Designator
01
1N746
VR1
1N914A
C R1 through C R52
3
Diode
4
Capacitor, Tantalum 4.7 ~f ± 20%, 50v
5
Resistor
820 ohms ± 2%
Rl
6
Resistor
3.9k ohms ± 2%
R23 through R28
Resistor
7
18k ohms ± 2%
Qty.
4
1,5,7,95
4
'), 12, 13,14
52
4, 12,13,14
23,77
C1
R2
Suppl ier Code
(See Index)
4
16,17
26
16,17
4
16,17
NOTE: Unless otherwise noted, 1/2-watt resistors may be used. To maintain specified
performance, use replacement types designated in SDS Suppl iers Code Index.
© 1964
tP
5
3
9
13
II
------.--
R 14
(R23
(RS
CR4
14 17
18
20
+25V~r--
I
(R14
CRI3
R7
R&
(R3
CRZ
(R12
R5
Scientific Data Systems
Printed in U.S.A.
I!II·-I~*~I-------------------------------------
SCIENTIFIC DATA SYSTEMS
IC12
AND Gate/lnverter
Assy. No. 101540
Max. Operating Freq.
Fan-In (Inverter Input)
Gate Input
Common Gate Input
Output
Output (With External
300 kc Gate Input)
Output Delay (Typical)
+25 Volt Supply
+8 Volt Supply
-25 Volt Supply
Module Dissipation
This mod u I e contains f 0 u r tee n inverter circuits, each with a
gated input.
The gating may be expanded by wiring additional terms to the Inverter Input from a suitable Gate Expander
module. These inverter circuits have a greater output capability
than the other inverter circuits of the series. Inverter circuits may
be used for NAND and NOR constructions or for improving the
fan-out of flip-flops. The input gating is prewired to facilitate
applications requiring decoding or selection operations, particularly when the inverter output is used to control fl ip-flop
"repeater" type inputs. The input gate loads on the Ie 12 module
are larger than normal loads. However the inverters operate satisfactorily at reduced output capability with standard gate inputs.
300 kc
10 terms
2 loads
8 loads
24 loads
9 loads
600 ns
96 ma
51 ma
9ma
3.1 watts
Common Gate Input
41
Gatelnput~
R7-2
-
a-s:Ri2-~ -
_RB-2 _
R12-2
-;5-2
o-CRIO-~
.J:R2-
N
~
-00 /::;.
RI7
CRI7 -0
~
- CR22 -o\D
o-CR23_
--_....,1
ON
-CR5-2-QT
~
i; ::r
~R4-I-o t;.
- R7-1 oCRI2-L
RB-I
;12-1 _-
0 i . ,.
.J:RII-I-o~
C onnec tor End
~
A
~R3-I-o
Q£RIO-L
- R6-1_
_RII-I _
0'
00 ci
SR9-I-OT
;j
.J:R2-I-o
oJ=RB-L
_R4-1 _~IO-I_
~
t
~
-CR7-I-o;{;
,
~
..J:RI-I
oJ=R6-1_
_R2-1 _ R9-1_
/::;.
Dt
SRI-
~R6-2_
_ RI-I _
-0
12
t
-CR7-2-0r
R4-2
;10-2 -
R3-1
-00 I"!.
~
oCR8-~
.
It
-:-CR9-2-0r
R3-2
_ R5-1 _
QN
QN
CR3-
_R6-2_
_ RII-2 _
_R2-2 _R9-2 _
/::;.
-CRII-2-Q ~
.t l
-
_ RI-2 _
CR4-~
-0
a:
>
I
~
-CR5-I-o,
-
~
>
Pin 47
1
SDS 9001478
Model 1C12 Schematic
POLARIZING PINS:
+ 8V + 25V
+25V
RI7
+2!)V
470
- 2!)V
.. 60
+ 8V
+ 25V
+ 25V
t 8V
+ 8V +25V
~
RI9
R25
RZ"
CRIB
RZ6
VR7
CR21
CR22 CR23
CRZ8 CR29
R30
+ BV 4!)~
.... o----T
GROUN 0
10 & 34
CI
-25V
6
8
+ 8V
+25V
+ ev
+25V
14
10
"
+ 8V
+25V
20 30
16
11
-25v
-25V
-25V
-25V
+ BV
+25V
35
33 37
29
+ BV
+Z5V
..
R5
RI
CR3
CRO
CRIO
RIO
-25V
CIRaJlT I .. ,
CIRaJlT 2 22
z
SIGNAL w
NAUE I-
«
\!)
43 34
38
21
I-
~
::l
Q:
W
I-
w
a::
t-
""t-
a:
w
>
~
Z
~
0
12
9
31 25
13
..
2
19
I-
~
~
....
z
z
Z
W
W
a:
t-
t-
36 28
32
15
23 18
::l
0
a:
w
«
\!)
a:
0-
w
w
\!)
a:
>
z
""z>
t-
.... "'"
a::
a::
w
21
a::
""
l-
a:
w
>
w
>
~
z
-2!iV
-2~V
-25V
-25V
::l
0
a:
W
....
cr
"'"
\!)
w
>
z
I
"'"
\!)
z
0
2
:I
24
3
""a:
l-
w
>
~
I-
::l
0
cr
!oJ
t-
p::
!oJ
>
~
Z
W
!oJ
D
Transistor
a:
.-""
t-
l-
"'"
"'"
cr
\!)
\!)
w
:>
z
Z
~
Model IC 12 Parts List
Item
42
39
26 40
1
Description
Designator
2N2538
2N2476
2N2848
Q 1 through Q 10
Qtyo
14
Suppl ier Code
(See Index)
1
7
3
2
Diode
IN746
VR 1 through VR 10
14
2,12,13,14
3
Diode
IN914A
C R1 through C R29
41
4,12,13,14
4
Capacitor, Tantalum 4.71-'f ± 20%, 50v.
C1
5
Resistor
3.9. k ohms ± 2%
R1,3,5,7, 13, 14, 17
19,21,23,26
15
16,17
6
Resistor
2.2 k ohms ± 2%
R2,4,6,8, 15, 18,20
22,24,25
14
16,17
7
Resistor
39 k ohms ± 2%
R9, 10, 11, 12, 16, 27
. 28, 29 , 30, 3 1
14
16,17
23,77
NOTE: Unless otherwise noted, l/2-watt resistors may be used. To maintain specified
performance, use replacement types designated in SDS Suppliers Code Index.
© i964
Scientific Data Systems
Printed in U.S.A.
sll-Is
SCIENTIFIC DATA S~VS~T~EM~S:-----------------------------
Inverter Amplifier
IK51
Assy. No. 100388
Operating Frequency
4.0 Mc, Maximum
Fan In
Inverter Input
Standard or High Power
Buffer Input
10 terms
Input
Loading
Inverter Input
Standard or High Power
Buffer Input
2 loads
2 loads
Output
Loading
Module Dissipation
2.8 watts
Delay (typical)
Inverter Output
Standard Buffer A or B
High Power Buffer A or B
12 loads, 200 pf
20 loads, 200 pf
60 loads, 400 pf
20 nsec
45 nsec
64 nsec
Power Drain
10 terms
+45 Volt Supply 35 ma
+ 8 Volt Supply 165 ma
-25 Volt Supply 25 ma
Inv Output
Inv. Input
36
39
Inv
Input
2<4>1
~::
9
lV I
33
0
4>1
~::
~
~~:
Inv
Input
32
Inv
Input
Inv 37
Input 0
Inv 11
0
Input
Inv 12
Input 0
[:G
[:G
[:G
13
0
15
Inv
Input
lnv 41
0
Input
10
0
38
Inv
Input
Buffer
Input
Buffer
Input
High
Power
Buffer
Input
Gate
Inputs
Gate
Inputs
[:G
42
40
0
Inv Output
Vi
021
16-[>1
Buffer Outputs
Buffer
Outputs
High
Power
Buffer
Outputs
020
lffi-6
~
2
22&
3
:
Inverter Output
Gate Output
+25
43~
. Gate Output
24
~
5DS900175A
. ,... w·
Modul elK 51 Parts List
Supplier Code
Description
Designator
Qty.
Transistor
2N2369
2N2501
Q 1 through Q 10
24
3
1
2
Diode
1 N746
VRl through VR6
15
2, 13, 14,32
3
Diode
1 N907A
1 N914A
1 N3063
1 N3065
CR1 through CR7
10
4, 13
4,12,13,14
4,6
4
4
Capacitor, Silver Mica, ± 5%, 68pf
5
Capacitor, Tantalum, ± 5%,
6
Resi stor, ± 2%, 1/2 watt, 560 ohms
7
Resistor, ± 2%
8
Resistor, ± 2%, 1/2 watt, 3.9 k ohms
9
Resistor, ± 2%
Item
4.7~f
C 1, 2, 3, 4
9
19,20,21
22,23, 77
C5
R11, 13, 16, 17, 12,
20, 21
R1, 3, 6, 9,12
(See Index)
16
16, 17
13
16, 17
R5, 8, 26
6
16, 17
1/2 watt, 10 k ohms
R14
3
16, 17
10
Resistor, ± 2%, 1/2 watt, 15 k ohms
R22
2
16, 17
11
Resistor, ± 2%
,
1/2 watt, 18 k ohms
R2, 4, 7, la, 15
13
16, 17
12
Resi stor, ± 2%
,
1/2 watt, 27 k ohms
R23, 24, 25
6
16, 17
13
Assy, Resi sti ve Term. 3 ea. 56-590-65/3B
AT1 through AT4
14
Resistor, ± 2%, 1/2 watt, 470 ohms
R18
,
,
1/2 watt, 820 ohms
11
2
72
16, 17
Modul e I K51 Schematic
POLARIZ ING
/
2 & 8
PINS:
+2fN41
-2!N
W
460
+8v 45~+
GROUND 44
o--=:r
R26
C5
43
CR3
CR~
CR4
CRG
CR7
RIB
3
4
24
23
22
+BV~-r---------------'
RII
-=
RI2
vRG
CI
R22
-25V
RI4
VR5
RI5
AT4
AT3
-25v·~~--------------~
CIRCUIT I
CIRCUIT ?
CIRC.U!T 3
-2~V
28
17
6
~
SIGNAL
NAME
110
29
IS
5
7
.....
§
a:
a::
~
u.
~
!fJ
5u.
~
~
:J
w
~
~
+Sv
RI
26
21
~
"
.....
a::
cr
w
u.
w
~
u.
~
+25v
R3
25
20
0
a5
CD
+SV
19
~
~
c
a::
~
~
27
~
+Bv
~8v
25v
R8
R5
QI
vR4
VR3
-25V
CIRCUIT I
CIRCUIT 2
CIRCUIT 3
SIGNAL
NNoIE
39
40
31
II
12
!
.....
a:
5
!
ffi
w
a:
~
©
Copyright 1963
CRI
42
Ir
~
!
a:
Ir
~
CR2
33
10
13
50
35
14
38
15
34
31
B
36
!
.....
!
.....
ffi
0
a:
a:
a:
w
rx
~
w
~
!
AT2
-25V
-25v
-25v
41
~
AT!
VR2
VRI
Ir
:J
0
w
Ir
~
!
~!
32
9
:::>
i
!
D
B
~
81 • .-~-.;;;;.~Yi;;..,.____________-..-_ _ _ _..-.~--=
SCIENTIFIC DATA SYSTEMS
OX13
One-Shot Multivibrator
Assy. No. 103932
The module contains three identical one-shot circuits. Each drcuit has a single output which is normally low, and becomes high
for a defined period following the application of an input. The
period can be adjusted. Both ac and dc input connections are provided, which must be driven by a stondard AND gate (also provided on the modu I e). When usirig the dc input, triggering occurs
when the gate is enabled for at least 100 ns. For the ac input, triggering occurs when the gate is disabled (inhibited), following a
period of the gate being enabled for at least 0.5 microseconds.
At duty cycles exceeding 40%, the nominal output pulse width is
reduced by a small amount from the theoretical value. With 20"/0
pulse width reduction, duty cytles up to 75% are permissible.
Gate Input
Output
Output pulse width (with
capacitors on module)
Maximum pulse width (with
47 fJf 35 v capacitor)
Continuous adjustment
Temperature sensitivity of
pulse width:
Below 20fJs
Above 20fJs
+25 Volt Supply
+8 Volt Supply
-25 Volt Supply
Module Dissipation
2 loads
20 loads
2fJs to 200 ms
10 seconds
4: 1 (Typical)
0.2% per 0c. (Typical)
0.3% per 0c. (Typical)
48 ma
31 ma
4 ma
1.6 watts
Gate Output < > i 5 J
Gate Input a<>32
Fine Adjust
Gate Input b<>31
Gate Input c <>
D.C. Input G-iL__
r---Ll
31
Output
15
Clock Input33O--4--_ _ _ _ _ _ _ _ _ _ _ _~--------------.l
Pin 1
Connector End
Pin 47
SDS 900242A
Model OX13 Schematic
"~6V
,...
+Z5V 47
....,
-25'1 46
0
/
1'17
POLARIZING
~;;ClO
GROUND 44
L
,
Cltl' :
~
r.
~CII
0
A2
R3
R4
R5
R6
+5.6V
+1V
.--..
I
R7
RI
Rt
--=::-
CR3
"
RII
Itll
~
CAl
CR.O
CRI3
CRII
C"',
'If
,
-25'1
+''1
3.
30
o
29
27
26
2:)
24
23
22
21
41
19
I
::>
...::>
~
!
u
g"
0
...
...
::l
.. ..
Q.
Q.
Q.
::l
~
~
...
...
..:J
..:J
~
~
::l
~
~
C
::l
SIGNAL NAIIE
37
18
•X
-
X
x x x
X
X
670 USEC - 2 "'SEC
2 "'SEC - 6.7 "'SEC
6.7 ",sEC- ZO "'S£C
x
20 USEC-67 UsEC
X
67 USEC- 200 USEC
x
X
X
x
x
X
X
X
x
X
X
X
x
EXA"'PLE:
TO OITA'N 300USEC DELAY, JUMPER COARSE ADJUST
PINS .,b AND d, AND VARY RIO rOR F'lNE ADJUSTMENT.
BY ADDING A CAPACITOR C, EXTERNALLY, rURTHER
DELAY RANGES (AN BE OITAINED AS rOLLOws:
.) JUMPER PIN. TO b AND CONNECT CAPACITOR
BETWEEN PINS. AND 9; THE DELAY RANGE THEN
15 20. ( TO 67. ( MILLISECONDS.
15 IN MI(ROrARAD5.)
b) CONNECT CAPACITOR BETWEEN PINS d AND g;
THE DELAY RANGE IS 67 • C TO ZOO, C MILLISECONDS. (c 15 IN MICRorARADS.)
«(
Model OX 13 Parts List
Item
Descrietion
Designator
Ot~.
Suppl ier Code
(See Index)
Transistor
2N2369
2N2501
2N2710
01,2
6
3, 11
1
95
2
Transistor
2N930
2N2483
03
3
3, 11
3
3
Diode
lN746
VR1,2
6
2, 12, 13, 14
4
Diode
1N914A
CRl throughCR16
46
4, 12, 13, 14
5
Diode
lN752
VR3
6
Capacitor, Mica 100pf ± 5%
7
2, 12, 13, 14
C6
3
19,20,21
Capacitor, Mica 220 pf ± 5%
C1
3
19,20,21
8
Capacitor, Mica 510pf ± 5%
C7
3
19,20,21
9
Capacitor, Mylar 1000pf ± 10%
C2
3
74,27
10
Capacitor, Mylar 0.01 fJf ± 10%
C3,9,11
5
74,27,26
11
Capacitor, Tantalum 0.1 fJf ± 20%, 50v
C4
3
23,77
23,77
12
Capacitor, Tantalum 1.0 fJf ± 20%, 50v
C5
3
13
Capacitor, Tantalum 4.7 fJf ± 20%, 50v
C8,1O
2
23,77
14
Potentiometer
2 k ohms ± 10%
RlO
3
35,44
15
Resistor
270 ohms ± 2%
R12
3
16,17
16
Resistor
470 ohms ± 2%
R9,18
4
16, 17
16,17
17
Resistor
820 ohms ± 2%
Rll
3
18
Resistor
1.0k ohms ± 2%
R7
3
16,17
19
Resistor
3.9k ohms ± 2%
Rl,8
6
16, 17
20
Resistor
4.7 k ohms ± 2%
R17
21
Resistor
15k ohms ± 2%
R2,4
6
16, 17
22
Resistor
47k ohms ± 2%
R13,16
6
16,17
23
Resistor
100 k ohms ± 2%
R15
3
16, 17
24
Resistor
220 k ohms ± 2%
R6
3
16,17
25
Resistor
470 k ohms ± 2%
R3,14
6
16, 17
26
Resistor
4.7 megohms ± 2%
R5
3
16, 17
16,17
NOTE: Unless otherwise noted~ 1/2-watt resistors may be used. To maintain specified
performance, use replacement types designated in SOS Suppliers Code Index.
: " 'IC,
U(Jto Systems
Printed in U,S.A.
sll-Is
SCIENTIFIC DATA
S~VS~T~EM~S~---------------------------
Relay Driver
RK53
Assy. No. 100905
Input
Loading
Operating Frequency
Input a, b, c
Auxi I iary Input
2 loads
2 loads
to 2 Kc
Power Drain
Output
Current
Clamp Voltage
Relay Voltage
Drop across Output Transistor
Switching Time
+25 Volt Supply 28 ma
+ 8 Volt Supply
0 rna
(worst case) 600 rna
-25 Volt Supply 22 rna
350 rna {max}
+60 volts {max}
+60 volts {max}
+ 2 volts (max)
60 J.lsec (typical)
Module Dissipation
4.8 watts (typical)
Input a
Lnput b
Input c
39
38
37
34 Clamp
, Voltage
30
29
28
32 Output
Aux
Input
36
22
21
26
40, 41 & 24
Common Return
r
-,
I
I
I
I
I
I
I
19
18
16
12
10
r
I
I
+Vs
I
L_-'- -
I
_ _ _ .-1
14
8
7
6
2
Typical Load Circuit
43
Ground
O----'l
4
SDS900183A
Module RK 53 Parts List
Item
Description
Transi stor,
2N2219
2N2404
Designator
Q ~y
Q 1,2,3
12
Supplier Code
(See Index)
1
29
2, 13, 14,32
2
Diode, Zener 1N746
VR1
3
Diode,
1N907A
1N914A
1N3063
1N3065
CR1,4,5,6,7,8,9
1N921
CR2,3
8
13, 15,28
4
4, 13
28
4, 12, 13, 14
4,6
4
4
Diode
5
Capaci tor, Mylar, ±5%, 3300 pf
C 1,4
8
26,27, 74
6
Capacitor, Mylar, ±5%,4700 pf
C2,3
8
26,27,74
7
Capaci tor, Tantalum, ±5%, 4.7 tJf
C5
8
22,23,77
8
Resistor, Metal Film, 1 watt, ±1%, 100 ohms
R3
4
36,38,73
9
Resistor, Metal Film, 1 watt, ±1%, 68 ohms
R4
4
36,38,73
10
Resistor, 1/2 watt, ±2%, 3.9 k ohms
R2
4
16, 17
11
Resistor, 1/2 watt, ±2%, 4.7 k ohms
R8
4
16, 17
12
Resistor, 1/2 watt, ±2%, 22 k ohms
R5,6
8
16, 17
13
Resistor, 1/2 watt, ±2%, 47 k ohms
R1,7
8
16, 17
CI
RI
+25V~~----~~------~------~--~~------~----------~--~
+8v
CRI
POLARIZING
PI NS
e,
CR2
22
R4
R5
R2
CR3
C2
+ 25V
470
- 25V
460
R6
CR4
vRI
+ ev
GROUND
CR5
CIRCUIT I
t
2
3
CIRCUIT 4
39
50
19
8
'II
SIGNAL
NAME
CR6
38
29
18
7
.l:I
CR7
CRB
R8
41,40 & 24
37
28
16
38
26
14
6
4
41,40 & 24
...:2
cr
:;)
....
:;)
....
II.
II.
II.
~
~
~
....
R7
:;)
II.
~
)(
:;)
c
I
34
21
22
10
I
12
2
Z
....
:J
a..
....
W
:J
....
cr
z
:J
0
W
l!)
4(
....
...J
0
>
0
a..
2
2
2
0
@ Copyright 1963
32
u
4(
...J
u
__ 1x»1~1~1_____________________________
SCIENTIFIC DATA SVSTf:MS
Counter FI ip-Flop
FH15
Assy. No. 101026
This module contain~ four flip-flop circuits which are independent
except for the Common Set and Reset Input Iines. The input gating
on the card provides for constructing binary or decimal unclocked
counters, and shift registers.
Either c locked or unclocked operation of the fI ip-flops is satisfactory. Clock termination circuits are prewired on the module,
as are the comprehensive noise level control circuits.
The Counter Flip-flop may be used in a unique "repeater" manner
which enables it to follow the true and false changes of a single
input logic signal connected to the Set Inhibit Input and the Reset
Input. This flip-flop may be used in gated RS, JK, Delay, or
Trigger configurations. Other applications include the mechanization of large, unusually efficient clocked counters.
Maximum Operating Frequency
Fan-In (Each aux. input)
Set, Reset Inputs
Clock Input
Common de Set, Reset Inputs
Common Set, Reset Inputs
Set Inhibit Input
Set Output
Reset Output
Output Delay (Typical)
+25 Volt Supply
+8 Volt SlJpply
-25 Volt Supply
Module Dissipation
I Mc
10 terms
2 loods
4100ds
6100ds
8100ds
4 loads
12 loods
8.loods
100 n.s
93 ma
54 ma
3 ma
2.9 watts
True signals have no effect on the de inputs which respond only
when false (O-volt) signals are applied.
......
Aux Set Input o:o~-Set Inhibit InDut
Aux Reset Input ()JJ'-------4
Pin!
Connector End
Pin 47
SDS 900122B
Model FH 15 Schematic
RI8
+Z5V 47
+5.6V
+25V
RI9
-25V 460
POLARIZING
A
VR3
RlO
C3
PINS:
8
&
30
RI7
II
Rli
+8V 45
+IV
CR27
GRZ6
GROUND 44
CRZ9
C4
36
43
17
19
20
30
38
+Z5V
RZ
RI
+8V
R3
R4
R7
+5.6V
R5
R6
R8
+5.6V
CRI
CR2
CR4
CR3
VR2
CRII
CR5
R9
CRI2
CRI3
t
2
3
CIRCUIT 4
SIGNAL
NAME
2
2
2
2
33
24
13
6
34 40
2529
14 21
4 9
35
26
15
5
~
.....
z
~
z ~
.....
.....
.....
&..I
II)
W
I/)
z
0
:2
:2
0
RI5
+IV
W
II)
)(
;:)
~
~
U
0
§
W
u
~
~
u
~
oC
.....
w
I/)
u
I/)
ci
+ IV
RI4
CR20
CR21
41
31
22
10
3
3
3
..... .....
;:)
;:)
z
~
0
0
.....
&..I
.....
w
..... .....
II)
I/)
w
w
I/)
I/)
w
a:
&..I
!oJ
a:
p:
)(
u
z
;:)
ci
0
:2
:2
0
..c:
Z
0
:2
:2
0
U
CR22
-25V
3
3937
28 27
18 16
8 7
.....
RI6
-Z5V
-25V
CRe
RIO
CRI9
CRI7
RII
-Z5V
CIRCUIT I
C2
CR7
42
32
23
12
~
.....
&..I
II)
&..I
a:
1\
II
II
II
z
.....
&..I
II)
W
a:
Z
0
:2
:2
0
v
U
Model FH 15 Parts List
Item
Data Systems
Desi~nator
Otr·
Transistor
2N834
01,2
Diode
lN914A
CRI through CR29 101
3
Diode
lN746
VR1,2
4
Diode
lN752
VR3
2
© 1964 Scientific
Descrietion
Suppl ier Code
(See Index)
8
8
1,5,7,95
4,12,13,14
2,12,13,14
2,12,13,14
5
Capacitor, Mica 330pf ± 5%
Cl,2
8
19,20,21
6
Capacitor, Mylar O.Oll-lf ± 10%
C3,4
2
74,27,26
7
Resistor
120 ohms :i 2%
R9, 10, 15, 16
8
Resistor
470 ohms ± 2%
R21,7,8
9
16,17
9
Resistor
3.9 k ohms ± 2%
RI,6,17
9
16, Ii
10
Resistor
4.7 k ohms ± 2%
RIB
11
Resistor
5.6 k ohms ± 2%
R3,4
8
16,17
12
Resistor
10 k ohms ± 2%
R2,5
8
16,17
13
Resistor
47 k ohms ± 2%
R19,20
2
16,17
16
16,17
16,17
14
Resistor
100 k ohms ± 2%
R12,13
8
16,17
15
Resistor
470 k ohms ± 2%
Rll,14
8
16,17
NOTE: Unless otherwise noted, 1/2-watt resistors may be used. To maintpin specified
performance, use replacement types designated in SDS Suppl iers Code Index.
Printed in U.S.A.
al'-I&
SUPPLIERS CODE INDEX
SCIENTIFIC DATA SYSTEMS
900036 (D)
Code
No.
Name
Address
I
Motorol a Sem iconductor
5005 E. Mc Dowell Road,
Phoenix, Arizona
Sil icon Transistors
2
Motorol a Sem iconductor
5005 E. Mc Dowell Road,
Phoenix, Arizona
Sil icon Diodes
3
Fairchild Semiconductor
545 Whisman Road,
Mountain View, Calif.
Si I icon Transistors
4
Fairchild Semiconductor
4300 Redwood Parkway,'
San Rafael, Cal if.
Sil icon Diodes
5
General EI ectric Company
Semiconductor Products
Dept., Syracuse, N.Y.
Sil icon Transistors
6
General EI ectric Company
Sem iconductor Products
Dept., Syrac use, N. Y •
Sil icon Diodes
7
RCA Semiconductor Division
Somervill e, New Jersey
Sil icon Transistors
8
Silicon Transistor Corporation
150 Glen Cove Road,
Carle Place, L. I., N.Y.
Si I icon Transistors
150 Glen Cove Road,
Carl e PI ac e, L.I. , N. Y.
Si I icon Di odes
Part Number
I
9
Sil icon Transistor Corporation
10
Hughes, Semiconductor Division
II
Texas Instruments, Inc.
P.O. Box 5012,
Dallas 22, Texas
Sil icon Transistors
12
Texas Instrum ents, Inc.
P.O. Box 5012,
Dallas 22, Texas
Sil icon Diodes
13
Pac ific Sem iconductors, Inc.
12955 Chadron Avenue,
Hawthorne, Cal if.
Sil icon Diodes
.500 Superior Avenue,
Newport Beach, Cal if.
J
5-77
Sil icon Transistors
SUPPLIERS CODE INDEX
r-----r--------------~--------.--__r_---.------.--.-----.--
.
1
Address
Part Number
1 - - - - - + - - - - - - - - - - - - - - - - + - - - - - - - - - - - + - - - - . - - - - - - - - - - - -...._-.-!
i
12515 Chadron Avenue,
Hawthorne, Cal if.
Si Iicon Diodes
Norwal k, Connecticut
Sil icon Diodes
I------t---------------+-----------+----~--------
550 High Street,
Bradford, Pennsylvania
... -.
C 20 Series
.
~-----+---------------+----------~-----------------j
3355 Edgecl iff Terra ee,
F 20 Series
Cleveland 11, Ohio
1
1-----+---------------+------------;--_·_----_·----·1
P.O. Box 5012,
CD 1/4F: Series
II
Dallas 22, Texas
I
1 - - - - - - + - - - - - - - - - - - - - - - + - - - - - - - - - - - ; - - - - - - - - - _ . _.. _--C iv\ '15 a Se rl e s
Community Drive,
Great Neck, N. Y.
------!>-------.-- - ...._-... ---- --I
1207 N. 11th Street,
Spri ngfi el d, III i noi s
I
C//\ 15 B Series
- - - + - - - - - - - - - - - - - - - - - r : - - - - - - - - - - - - - - ! - - - - - -... -- ..-...--... "'--"'-"-"
65 Gouverneur Street,
Newark 4, N. J.
C tv, is B ::~.·:?r; c-;
!
I
-_._---+----_._----.......... __ ... .
J -Serh;s
11901 Madison Avenue,
Cleveland I, Ohio
1 - - - - - + - - - - - - - - - - - - - - - - + - - - - - - - - - - - - - - + - - - - - - -.. -------.-.. -- '-""' ._-.,-23
Sprague Electric Company
481 Marshall Street,
150 D Sf'r;e~;
i
North
Adams,
Mass.
I
1?4
J
U.S. Semiconductor Products, Inc. 3540 W. Osborn Road,
TS K S~-ri-e-s----. -...--.--.~
[. _.-:.____
, 25
_ _ _ _ _ _ _ _ _ _ _ _ _ _-+_P_h_o_e_n_ix_,_A_ri_z_o_n_o_ _ _-+-_ _._.__ . _ .. ___ . __ ..._._ .. _.... _
Lecrrofi 1m '"
Capacitor Department i
General EI ectric Company
B Series
Hudson Falls, N. Y.
- - - - - - - - - 4 - - - - - - - - - - - - - - - - + - - - - - - - - - - - - t - - - - - - - - - -.....---.-.. _--'
IS8P Series
! 26
Sprague EI ectric Company
481 Marshall Street,
North Adams, Mass.
____-+-I- - - - - - - - - - - - - - - ; - - - - - - - - - - - - t - - - - - - - - - - - - - . .
i
27
I Sprague EI ectric Company
481 Marshall Street,
192 P Seri es
!
j
I
!
.
I
North Adams, Mass.
,
2_-_8.=t:he-e-m-s-em--ic--o-n-d-u-c-t-o-r-C-o-r-p-.---r-3S-0--E-l-Ii-s-S-t-re-e-t-,-----;---S--j-Ij-c-o-n-D-j-o--des
Mountain View, Calif.
!
29
!
30
t"I.-.--.
___
~
i
!
i
I
,!
·~-·l
National Semiconductor Corp.
P.O. Box 443,
Danbury, Connecticut
Silicon Transistors
.
General Instrument Corp.
65 Gouverneur Street,
Silicon Transistors
I
Newark, N. J.
!
5-78
I
SUPPLIERS CODE INDEX
Code
No.
Name
Address
Part Number
31
Sylvania EI ectric Products, Inc.
100 Sylvan Road,
Woburn, Mass.
Si Iicon Transistors
32
Western Sem iconductors
2200 S. Fairview Street,
Santa Ana, Cal if.
Silicon Diodes
33
Compurer Diode Corp.
250 Garibaldi Avenue,
Lodi, N. J.
Sil icon Diodes
34
Tungsol EI ectric, Inc.
1 Summer Avenue,
Newark, N. J.
Sil icon Diodes
35
Bourns, Inc.
6135 Magnol ia Avenue,
Riverside, Cal if.
Potenti om eters
36
Internat iona I Resistance Co.
401 N. Broad Street,
Philadelphia, Pa.
CEC/TO Type,
MEC/TO Type
37
General Resistance, Inc.
430 Southern Blvd.~
New York, N. Y.
Prec ision Resistors
16S32A8 Series
38
Sprague EI ectric Co.
481 Marshall St.
North Adam s, Mass.
420E/FC5 Type
39
Technitrol Engineering Co.
1952 E. Allegheny Ave.,
Philadelphia, Pa.
H Series
40
Technitrol Engineering Co.
1952 E. All egheny Ave.,
Ph iladelphia, Pa.
G Series
41
Del evan EI ectronics Corp.
77 Olean Road,
East Aurora, N. Y.
220-XX/R Series
42
Del evan EI ectroni cs Corp.
77 Olean Road,
East Aurora, N. Y.
1537 Series
2500 Series
43
Delco Radio Division, G.M.
700 E. Firmin Street,
Kokomo, Indiana
Sil icon Diodes
44
Atohm EI ectronics
7648 San Fernando Road,
Sun Valley, Calif.
Potentiometers
124 Series
45
Dale Electronics Inc.
1370 28th Avenue,
Col umbus, Nebraska
Power Resistors
46
Tepro EI ectric Corporation
5 St. Paul Street,
Rochester, N. Y.
Power Resi stors
47
Sage EI ectronics Corporation
Country Club Road,
E. Rochester, N. Y.
·Power Resi stors
5-79
SUPPLIERS CODE INDEX
Code
No.
i
Name
Littelfuse, Inc.
1865 Miner Street,
Des Plaines, Illinois
Fuses
49
Bussman Manufacturing Co.
University @ Jefferson,
St. Louis, Missouri
Fuses
50
So Ia EI ectric Company
1717 Busse Road,
EI k Grove, III inois
CVN Transformers
51
C inch-Jones Division
1026 S. Homan Avenue,
Chicago, Illinois
#142
Terminal Block
52
C inch-Jones Division
1026 S. Homan Avenue,
Chicago, III inois
#300 Series
Connector
53
Ohm ite Manufacturing Co.
3635 Howard Street,
Skokie, III inois
#VT2 Transformer
54
Cutler-Hammer Inc.
321 N. 12th Street,
Milwaukee, Wisc.
7360 K7
55
Centralab
900A E. Keefe Avenue,
Milwaukee, Wisc.
PA 2005
56
Eldema Corporation
1805 Belcroft Avenue,
EI Monte, Cal if.
36-3ACB-2H
Sprague EI ectric Co.
481 Marshall Street,
N. Adams, Mass.
Capacitors
36D Series
58
General EI ectric Co.
Capac itor Department,
Irmo, South Carol ina
Capac itors 43F
3000 Series
59
Sangamo EI ectric Company
1207 N. 11 th Street,
Springfield, Illinois
Capacitors
DCM Series
60
C inch-Jones Division
1026 S. Homan Avenue,
Chicago, III inois
#141
Terminal Block
61
C uti er-Hammer Inc.
321 N. 12th Street,
Milwaukee, Wisc.
8363-K8
62
Amelco, Inc.
341 Moffet Blvd.
Mountain View, Cal if.
Sil icon Transistors
63
Transitron EI ectronic Corp.
168-182 Albion St.
Wakefield, Mass.
Sil icon Diodes
5-80
I
I
57
I
I
Part Number
48
i
I
Address
SUPPLIERS CODE INDEX
/
Code
No.
Name
Address
Part Number
64
Hughes, Semiconductor
Division
500 Superior Ave. ,
Newport Beach, Cal if.
Silicon Diodes
65
Genera I Instrument Corp.
65 Gouverneur St.
Newark 4, N. J.
Silicon Diodes
66
American Semiconductor
Corporation
3940 N., Kilpatrick,
Ch icago, III inois
Silicon Diodes
67
Hoffman EI ectronics Corp.
Semiconductor Division
Box 471, 1001 N Arden
EI Monte, Cal if.
Sil icon Diodes
68
Delta Semiconductors, Inc.
835 Product ion PI.
Newport Beach, Ca I if.
S il icon Diodes
69
Pulse Engineering, Inc.
Santa Clara, Cal if.
Transformers
70
Nytronics, Inc.
550 Springfield Ave.
Berkeley He ights, NJ.
S, M and L
Series
71
Alladin Electronics Inc.
Nashville 10, Tenn.
Transformers
72
Ferroxcube Corp. of
America
Saugerties, N. Y.
Ferrite
Components
Ii
73
Electra Mfg. Co.,
Electronics, Division
4051 Broadway
Kansas City, Mo.
MFS 1/2 TO
Series
II
74
General Electric Co.
Capac itor Dept.
Hudson Falls, N. Y.
61F-AA
Seri es
i
75
U. S. Semiconductor
Products, Inc.
3540 W. Osborn Rd.
Phoen ix, Arizona
TSK6
Series
76
U. S. Semiconductor
Products, Inc.
3540 W. Osborn Rd.
Phoen ix, Arizona
TSK20
Series
77
U. S. Semiconductor
Products, Inc.
3540 W. Osb orn Rd.
Phoen ix, Ar izona
TSK50
Seri es
78
Ohmite Mfg. Co.
3635 Howard St.
Skokie, Illinois
Relays
79
All ied Control Co., Inc.
2 E. End Ave.
New York, N. Y.
Relays
80
Sprague Electric Co.
481 Marshall St.
No. Adams, Mass.
90P
Series
81
Sangamo Electric Co.
1207 No. 11th St.
Springfield, III.
5010
Series
5-81
I
i
I
SUPPLIERS CODE INDEX
II
Code
No.
Name
82
1
i
Address
Elco Corporation
Part Number
M St. below Erie Ave.
Ph iladel ph ia, Pa.
Connectors
I
!
83
Chicago Miniature
Lamp Works
1510 N. Ogden Ave.
Chicago, III.
Lamps
84
Generc I Electric Co.
Miniature Lamp Dept.
Nela Park
Cleveland 12, Ohio
Lamps
85
Tung-Sol Electric Co.
370 Orange Street
Newark 7, N. J.
Lamps
Automatic Electric
Sales Corp.
North Lake, III.
Relays
U. S. Semiconductor
Products, Inc.
3540 W. Osborn Rd.
Phoenix, Ariz.
TSK35
Series
Sage EI ectron ics Corp.
Country Club Rd.
E. Rochester, N. Y.
3550M
Series
Da Ie EI ectron ics Corp.
1370 28th Ave.
Columbus, Neb.
RH-50
Series
J. W. Miller Co.
5917 S. Main Street
Los Angeles, Calif.
9310/9210/9220
Series
I
i
i
i
----~----
86
I
I
I
-.-~~--~
87
!
I
I
i
j.
!
88
i
i
I
I
i
.......!
I.-I
89
90
j
r
I
1
l _____.
i
i
.-.-
-
401 N. Broad St.
Ph ila., Pa.
MEF/TO
Series
Electra Mfg.
4051 Broadway
Kansas City, Mo.
MFS 1/
Series
Sprague Electric
481 Marshall St.
North Adams, Mass.
421E/FC5
Series
Lansdale, Pa.
Semi conductors
I
Ph i Ico Corp.
Lansdale, Pa.
I
Amperex Electronic Corp.
Hicksville,
Long Island, N. Y.
Semiconductors &
Indi cat~rs
Silicon ix, Inc.
1140 W. Evelyn Ave.
Sunnyvale, Cal if.
Semiconductors
I
I
---
::3
Stanwyck Winding Co.
"+
.---_._.
95
--.- ---
I
i Int. Res istance Corp.
i
,
i
-.~
;
20000/40000/60000
Series
~ "J
.~
--
:
137 Walsh Ave.
Newburgh, N. Y.
I
I
--.-i J:"
. __ ._._.__ ..----
--.-----~
i
91
i
iI
i
I
-.~
--.----
TO
'--'.-.'
J
,
--•.
..
.,
:
... _--. ---4--
96
!
I
-.
9"7
-;
I
Ii
---t- Cont i nenta I Conn.
-)8
I
Corp.
Woodside 77,
:
5-82
N~
Y.
-J
I
i
i
Connectors
I
SUPPLIERS CODE INDEX
Code
No.
I."'
Address
Part Number
Sprague Electric Co.
481 Marshall St.
No. Adams, Mass.
261E
Series
100
Ohmite Mfg. Co.
3635 Howard St.
Skokie, I II inois
2TA-51FS
Series
101
Royal Electric Corp.
Pawtucket,
Rhode Island
Plugs and
ac cords
102
Harvey Hubbell, Inc.
Bridgeport, Conn.
Connectors
103
The Wiremold Co.
Hartford 10, Conn.
ac Wi remolds
104
Dial ight Corp.
60 Stewart Ave.
Brooklyn, N. Y.
Lamps
105
Heinemann Electric Co.
120 Brunswick Pike
Trenton, N. J.
Circuit
Breakers
106
Arrow-Hart & Hegeman
Electric Co.
103 Hawthorne St.
Hartford, Conn.
Switches
107
Allen-Bradley Co.
136 W. Greenfield Ave.
Milwaukee, Wisc.
Contactors
108
General Electric Co.
West Lynn, Mass.
Meters
109
Nytronics, Inc.
550 Springfield Ave.
Berkeley Heights, N. J.
WEE Series
Inductors
110
Winchester Electronics Inc.
Norwalk, Conn.
Connectors
111
Amp, Inc.
Harrisburg, Po.
Connectors
112
Grayhi II, Inc.
P.O. Box 373
561 Hillgrave Ave.
La Grange, III.
Switches
113
Controls Co.
9555 Soreng Ave.
Schiller Park, III.
Switches
114
Amphenol Borg Electronics
1830 S. 54 Ave.
Chicago, III.
Connectors
115
International Resistance Co.
401 N. Broad St.
Philadelphia, Po.
MEA Series
116
Internationcl Resistance Co.
401 N. Broad St.
Philadelphia, Pa.
MEF Series
99
,.
Name
5-83
SU PPLIERS CODE INDEX
Code
No.
117
Name
Address
I
II
Part Number
--,
Electra Mfg. Co.
Electronics Division
4051 Broadway
Kansas City, Mo.
MF 1/8 Series
118
Electra Mfg. Co.
Electronics Division
4051 Broadway
Kansas City, Mo.
MF 1 Series
119
Texas Instruments, Inc.
P.O. Box 5012
Dallas 22, Texas
Sensistor
I
120
Thermalloy Co.
4417 No. Central
Expressway
Dallas 5, Texas
!
i
f
I
I
I
1
Heat Sinks
1
I
II
I
1
_ .. _.l
121
~-
Ii
l
I
I
122
123
124
Astro Dynamics, Inc.
Tor Mfg. Co.
Wakefield Eng. Inc.
Bourns, Inc.
Second Avenue
Northwest Industrial Pk
Burl ington, Mass.
Heat Sinks
1533 E. Walnut St.
Pasadena, Cal ifornia
Heat Sinks
I
I
I
l
I
!
'9 Broadway
Wakefield, Mass.
Heat Sinks
6135 Magnol ia Ave.
Riverside, Cal ifornia
3250L Series
1!
-'--"·--1I
I
I
I
"
125
~
I
i
126
International Resistance Co.
401 N. Broad St.
Philadelphia, Pa.
201 -00 Series
Genera I Resi stance Inc.
430 Southern Blvd.
New York, N.Y.
10S30A6 Series
Erie Resistor Corp.
644 W. 12th Street
Erie, Pa.
503 Series
!
I
t-------
!
!
I
127
,
1
!
J
I
I
Centralab
900A E. Keefe Ave.
Milwaukee, Wise.
833 Series
129
General Resistance Inc.
430 Southern Blvd.
New York, N.Y.
8S24A4 Series
130
C.P.Clare & Co.
3101 Pratt Blvd.
Ch icago, III.
131
The Adams & Westlake Co.
N. Michigan St.
Elkhart, Indiana
I
--1
i
I
128
I
j
i
I·
i
I
;
Ii
1--I
i
j •• _ -
5-84
I
I
SUPPLIERS CODE INDEX
Code
No.
Address
Name
Part Number
132
133
134
Cannon Electric Co.
3208 Humbolt St.
Los Angeles 31, Cal if.
Connectors
135
Indiana General
Keasbey, New Jersey
Toroids
136
Sprague
481 Marsha II Street
North Adams, Mass.
137
Electro Cube
805 Fairview Ave.
So. Pasadena, Calif.
138
Monitor Products Inc.
Pasadena, California
Crystals
139
Rotron Mfg. Co.
Woodstock, N. Y.
Blowers
140
Digitran Co.
Pasadena, California
511 Series
141
Minneapolis Honeywell
2747 4th Ave. South
Minneapolis 8, Minn.
Silicon
Transformers
142
Babcock Relay, Inc.
1645 Babcock Ave.
Costa Mesa, Cal if.
BW Series
Relay
143
Simco Company
19th & Walnut St.
Lansdal e, Penn.
Bar-Stati c &
Power Suppl y
144
IMC Magneti c Corp.
570 Main St.
Westburg, N. Y.
Fans
145
Malco Mfg., Co.
4025 Westlake St.
Ch i cago, III.
Terminals
146
Drake, Mfg. Co.
4626 No. Olcott Ave.
Ch i cago, III.
HR 119
Neon Lamp
5-85
Source Exif Data:
File Type : PDF File Type Extension : pdf MIME Type : application/pdf PDF Version : 1.6 Linearized : No XMP Toolkit : Adobe XMP Core 4.2.1-c041 52.342996, 2008/05/07-21:37:19 Modify Date : 2017:06:17 08:45:05-07:00 Create Date : 2017:06:17 08:30:46-07:00 Metadata Date : 2017:06:17 08:45:05-07:00 Format : application/pdf Document ID : uuid:a6b4dd0e-60ec-a94b-8900-435cddb48a07 Instance ID : uuid:eba840dd-4959-f049-82ad-5bf727ff3c5d Producer : Adobe Acrobat 9.0 Paper Capture Plug-in Page Layout : SinglePage Page Count : 97EXIF Metadata provided by EXIF.tools