SCIENTIFIC PERIPHERAL INSTALLATION

INSTALLATION REQUIREMENTS FOR PERIPHERAL EQUIPMENT

FOR THE

UNIVAC SCIENTIFIC

GENERAL-PURPOSE COMPUTER SYSTEM

P X 44

DECEMBER 1956

DIVISION OF SPERRY RAND CORPORATION

1 902 WE S T MIN N E H A H A A V E. ST. P AU L W 4. MIN N E SOT A

TABLE OF CONTENTS

Tape-to-Card Convertero • ^{0 • • • • • 0 • • 0 • • •} Requirements for the Model With the Motor-Generator Set and Refrigeration-Type Air Conditioning Unit. ^{0 • •} Requirements for the Model With the Motor-Generator and Chilled-Water Air Conditioning Unit • . . . Requirements for the Model With the Internal Power Supply

and Chilled-Water Air Conditioning Unit Card-to-Tape Converter. ⁰

High-Speed Printer.

Univac Line Printer ⁰

Punched Card Input/Output System. . Bi-Octal Tape Preparation Equipment . Unityper II .

Oscilloscope Printer-Plottero .

PX 44 i i i

Page 1

3

7

11 19 23 29

31 33

35 35

Figure

I

2

3

4

5

6

7 8

9 10

11

LIST OF ILLUSTRATIONS

Tape-to-Card Converter ⁰

Floor Plan and Elevation of Univac Magnetic Tape- to-Card Converter Using Refrigeration-Type Air Conditioning Unit • • . • • . • . ⁰ • • • • • • • •

Floor Plan and Elevation of Univac Magnetic Tape- to-Card Converte"r Using Chilled-Water Air

Conditioning Unito . . . • . • . • ^{0 • • • •} Floor Plan and Elevation of Univac Magnetic Tape-to-Card Converter Using Chilled-Water Air Conditioning Unit and Internal Power Supply • • • . • . • . • • . . ^{0 • •} Equipment Layout and Detailed Dimensions for the Univac Magnetic Tape-to-Card Converter • Electrical Inter~Connection Diagram for the Univac Magnetic Tape-to-Card Converter • . Location of Equipment Supports

Layout of Plumbing Connections for Fan Bay of Tape-to-Card Converter.. . • ^{0 0} Card-to-Tape Converter

Suggested Arrangements of Units for Card-to-

Tape Converter . ^{0 • • • • •}

High-Speed Printer ⁰

PX 44 iv

vi

2

6

10

13

14 15

16 18

20 22

Figure 12

13

14 15 16

LIST OF ILLUSTRATIONS (Cont.)

Suggested Floor Plan for High-Speed Printer Installation. . . • . . . ^{0 0 • • • • 0 0 • •} Layout of Plumbing Connections for Power and Control Unit of High Speed Printer . .

Univac Line Printer • . .

Punched Card Input/Output System Bi-Octal Tape Preparation Equipment.

PX 44 v

25 26 28 30

32

TAPE-TO-CARD CONVERTER

The information contained in this section provides data considered to be useful to those concerned with the sale, rental, purchase, and installation of the Univac Magnetic Tape-to-Card Converter System manufactured by the Remington Rand Univac Division of Sperry Rand Corporatione

The installation of input power and cooling equipment for all peripheral units should be carefully scheduled by the customer so that power and refrig- eration services are available when needed by the Univac installation

personnel. In order to expedite installation the customer should appoint one person to coordinate the activities of his own company with Remington Rand Univaco He should submit complete layout plans to Remington Rand Univac so that the proper equipment may be suppliedo

By the time the equipment furnished by Remington Rand Univac arrives at the installation sitev all building modifications, including holes in the floor for piping and troughs for cables, should be completed.

If the customer wishes to add acoustically treated ceilings and viewing areas to the installation, he may visit other Univac installations to deter- mine which features can best be incorporated into his system.

The data set forth in the following pages deal primarily with the physical characteristics and installation requirements of three types of systemso This information should be considered prior to shipment of the equipment to insure that room facilitiesy elevator size, loading facilities, and door openings are adequate. The three systems are very similar, differing only in air condition- ing units and the presence or absence of motor-generator equipmento One

system, having an externally located motor-generator set, uses a refrigeration- type air conditioning unit manufactured by Frigidaireo The other two systems, one of which utilizes an externally located motor-generator set and the other an internal power supply, use a chilled-water air conditioning system manu- factured by Remington Rand Univaco An artist's sketch of the Tape-to-Card Converter is shown in Figure 1. Figures 2 through 8 provide installation dimensions and electrical wiring data on the various models of this equipmento

In the event this manual contains insufficient information to fulfill a particular customeris requirements, Remington Rand Univac will welcome the opportunity to provide further information suited to these individual requirements.

PX 44 1

---

A66001 (REF) TO MAIN POWER

DISCONNECT

F""~;; ^I "l' """,. ... ~)

11--:r---r-~;;;====l;~~~==;r;r=====;;;;;;;:;r;:====;;;;;~1

~ ^I irF1 ¹¹⁾ "'''''"."

I ^AIR FW

1m1\ -I ----( ...

I::

~ COND DUCT 1L-::=--;;::--IHI-\.\---IliL----=-:7:-::--IIL::-::-:--:---;~;;;\~"'E::t:=.:.-:·~6) I I APPROX WTBOO '\' TAPE READER -Jf

L ~iJ.:X. ~\\i Il··~·lwnLi L= -~j?'I~1' II , .,

J E~Tt

L221 I 314,...1_-oto~ _ _ _ _ _ _ _ ... - - . , . . - - - - 6 ' - I 1 ; . , . r - - - o t rz~·I, , , , I

I

A[1--1=-~-:fti-A---15'-5"---I5:~i (#~-:::.

h:=~ --::.JJJ

CABLES "2:"3 Bl"4 ~ DIA < 10'- 6' LG.

CABLES#I,#S S"6 ~DIA.XIO'-6·LG.

CABLES#7 I~ DIA < 7'-0" LG

VIEW'A-~'

CONDENSATE DRAIN I! I.PS FEMALE ELECTRICAL CONNECTIONS

A66002) A66001 (REF.) A66003

110

NOTES, FLOOR LINE

ALL WIRE· AND CONDUIT, EXCEPT CABLES"I THRU"7 TO B.E PROVIDED BY CUSlOMER.

2. ALL DIMENSIONS IN INCHES UNLESS OTHERWISE SPECIFIED

3. THIS SYSTEM UTILIZES A FRIGIDAIRE TYPE AIR-CONDITIONING UNIT. • 4. CABINET HARDWARE PROTRUDES I ~ BEYOND

GIVEN DIMENSIONS ON EACH END.

ELEVATION

M.G. CONTROL PANEL PROVIDED BY CUSTOMER

t CABLE#4 C~~S~gA~lRETNJ~n

I\.CABLES"S a~ BOTTOM AT REAR

FLOOR PLAN AND ELEVATION OF UNIVAC

MAGNETIC TAPE-TO-CARD CONVERTER USING

REFRIGERATION TYPE AIR CONDITIONING UNIT

REQUIREMENTS FOR THE MODEL WITH THE MOTOR-GENERATOR SET AND REFRIGERATION-TYPE AIR CONDITIONING UNIT

The maximum dimensions and approximate weight of the main equipment, including the air conditioning unit, are as followso

Dimensions:

Floor Space

The largest unit is 87" long, 32" wide, and 90" high (the height can be reduced to 80" for shipment by removing duct work)o This unit weighs approximately 1,450 Ibs.

Requirements: Electronic cabinets with air conditioning unIt, 190~

x 40"; Card Punch, 36" x 38"; Tape Reader, 23" x 30".

Cable Lengths: Electronic cabinet to punch, 7'; electronic cabinet to Tape Reader, 12'. These lengths are maximumo

Weight: Electronic cabinets with air conditioning unit, 3,025 Ibs; Card Punch, 800 Ibs; Tape Reader, 400 Ibs.

The maximum dimensions and approximate weight of the motor-generator set are as follows.

Height: 20"

Floor Space

Requirements: 18" x 56"

Weight: 600 Ibs.

The motor-generator set may be installed in a remote location; its noise makes this desirable.

The power requirements are as follows (all conduit and wiring are to b~

supplied and installed by customer).

Total Power Required:

Service Required:

Approximately 11.3 kw.

3-phase, 200 vac + 20 vac at 32 amps, or Single-phase 220 vac

+"

If only single-phase 220 vac power is available, the 3-wire, 32-amp line should be replaced with a 2-wire, 55-amp line. Minor internal wiring changes are required to accommodate the single-phase supply.

The approximate phase currents, when using a 3-phase system, depends upon whether or not the compressor in the air---conditionin9 unit is running.

PX 44

3

These currents are as follows:

Approximate Current in Amperes Phase No.

1 2 3

Compressor On 39

28 28

Compressor Off 23

12 28

Power wiring may be brought in from either the ceiling or floor; however. unless the manufacturer is directed otherwise (at least two months prior to equipment delivery) the input power conduit (A66001) will be installed to enter the cab- inet from the top so that a ceiling connection will be required.

The air conditioning unit cools room air down to 65°F maximum and blows it through the cabinets to cool the components. Air temperature is increased by approximately 15°F as it passes up through the cabinets. It is exhausted back into the room through grilles at the top of the cabinets. The room tem- perature should not be allowed to exceed 85°F.

The air conditioning unit must be supplied with ordinary tap water at a rate depending on water temperature, approximately as follows:

45°F 125 gals/hour 60°F 165 gals/hour 70°F 225 gals/hour 80°F 335 gals/hour 90°F 855 gals/hour

A floor drain system should be installed to remove condensate from the air conditioning unit. If this is not possible, a sump pump arrangement may be used, because condensate collects very slowly. Water input to the air con- ditioning unit may be from either the floor or the ceiling. All plumbing fac- ilities are to be supplied and installed by the customer.

It is recommended that, if possible, the equipment be arranged and connected as shown in Figures 2, 5, 6, and 7. Sufficient information is supplied by these figures so that floor loading and maximum point loading may be readily computed by the customer.

PX 44 4

'":r:I

~ ~.

:><CO

0' s::

~ ~

~ C'D

c.v

---~---~- ---

~ r:J:--,L---,----/HHI--r--~r "~~rf' 83'-736~-o"

I~STD_ GALV_ PIPES A66001 (REF) 1~S~N~~ER I

DRAIN OUTLET

FAN BAY BAU3 BAy.!'1

==:===i'"""7~L! 2~Ro~~H

:;; APPROX- WT. APPROX- WT. APPROX_ WI J139JI38 _-::~("6) I

k

1

90011' B75... 72511' J137JI36 ··::;1 i~ <D I L

-1 _ _ ---,--+.L-_ _ _ _ _ -L-_ _ _ _ +-!--.-t~ _ _ __L _ _ _ _ JI_35_....J •.. : i H ⁱ ~~~===::I

~-14'-I~\o---"---'6-'-"~·-=---=:klfL~: ~

CHILLED WATER OUTLET

II

o 10536

PLAN

A66002}

A66001 (REF.) A66003

110

0

ID

FLOOR LINE

ELEVATION

NOTE&

I. ALL WIRE a CONDUIT, EXCEPT CA8LES ... I THRU #7 TO BE PROVIDED BY CUSTOMER

2. ALL DIMENSIONS IN INCHES UNLESS OTHERWISE SPECIFIED_

3. THIS SYSTEM UTILIZES AN ERA TYPE AIR-CONDITIONING UNIT_ "

4. CABINET HARDWARE PROTRUDES 11 BEYOND GIVEN DIMENSIONS ON EACH END.

0 z V>~

~j

!~\N

00::: (,0

Ii

M_G_ CONTROL PANEL PROVIDED BY CUSTOMER

FLOOR PLAN AND ELEVATION OF UNIVAC

MAGNETIC TAPE-TO-CARD CONVERTER USING

CHILLED WATER AIR CONDITIONING UNIT

REQUIREMENTS FOR THE MODEL WITH THE MOTOR-GENERATOR AND CHILLED-WATER AIR CONDITIONING UNIT

The maximum dimensions and approximate weight of the main equipment, including the air conditioning unit, are as follows:

Dimensions:

Floor Space Requirements:

Cable Lengths:

Weight:

The largest unit is 87" long, 32" wide, and 83-1/2"

high (the height can be reduced to 80" for shipment by removing the hood). This unit weighs approximately 1,450 Ibs.

Electronic cabinets with air conditioning unit, 170"

x 33"; Card Punch, 36" x 38"; Tape Reader, 23" x 30".

Electronic cabinet to punch, 7'; electronic cabinet to Tape Reader, 12'. These lengths are maximum.

Electronic cabinets with air conditioning unit,

3,225 Ibs; Card Punch, 800 Ibs; Tape Reader, 400 Ibs.

The maximum dimensions and approximate weight of the motor-generator set are as follows.

Height:

Floor Space Requirements:

Weight:

20"

18" x 56"

600 Ibs.

The motor-generator set may be installed in a remote location; its noise makes this desirable.

The power requirements are as follows (all conduit and wiring are to be supplied and installed by the customer).

Total Power Required:

Service Required:

Approximately 8 kw.

3-phase, 200 vac + 20 vac at 21 amps, or

single-phase, 220 vac + 20 vac at 36 amps and single-phase, 120 vac at 12.5 amps.

If only single-phase 220 vac power is available, the 3-wire, 21-amp line should be replaced with a 2-wire, 36-amp line. Minor internal wiring changes are required to accommodate the single-phase supply.

The approximate phase currents when using a 3-phase system are as follows:

PX 44 7

Phase No. Approximate Current in Amperes

1 23

2 12

3 28

Power wiring may be brought in from either the ceiling or floor; however, unless the manufacturer is directed otherwise (at least two months prior to equipment delivery) the input power conduit (A66001) will be installed to enter the cabinet from the top, so that a ceiling connection will be required.

The air conditioning unit is a closed system, wherein air is cooled in the air conditioning unit, blown into the cabinets to cool the components, and then returned to the air conditioning unit to be recycled. Room temperature there- fore is not affectedo

Recommended Minimum Pressure Difference Through Cooling Unit:

Maximum Allowable Pressure:

Normal Operational Requirements Using 45°F Water:

Normal Operational Requirements Using 50°F Water:

30 psi at 16 gals/min.

100 psi.

4.5 gals/min.

7075 gals/min.

A floor drain system should be installed to remove condensate from the air conditioning unit. If this is not possible, a sump pump arrangement may be used, because condensate collects very slowly. Water input to the air condit- ioning unit may be from either the floor or the ceiling. All plumbing

facilities are to be supplied and installed by the customer.

It is recommended that, if possible, the equipment be arranged as shown in Figures 3, 5, 6, 7, and 8. Sufficient information is supplied by these figures so that floor loading and maximum point loading may be readily com- puted by the customer.

PX 44 8

...

o

A66001 (REF) 10 MAIN POWER DISCONNECT

~ -I. APPROX APPROX WT APPROX

I

BAY#3 BAY #2 BAY #1

~

-++-~7_2_5_#

~_W_T_7_2_5_#

~

jJ~ .. -

CHILLED WATER OUTLET---..

II

IFAN~BAY~BAY~BAYlh-iL*

j

PREFERRED -.-CD

ARRANGEMENT I ~

(]

PLAN

A66001 (REF)

~

DD

.. 0

ELEVATION NOTES

I ALL WIRE a CONDUIT, EXCEPT CABLES I THRU 7 TO BE PROVIDED BY CUSTOMER

2 ALL DIMENSIONS IN INCHES UNLESS OTHERWISE SPECIFIED

3 THIS SYSTEM UTI LlZES AN ERA TYPE AIR- CONDITIONING UNIT

4 CABINET HARDWARE PROTRUDES I f ' BEYOND GIVEN DIMENSIONS ON EACH END

31rm

= = = 1 (1) U)

v v

ABLE#7 ENTERS PLUG BD THRU BOTTOM

<t CABLE #4 CABLES #1J.12 a #3 ENTER TA,..E

<l CABLES # 5 a #6 READER THRU CABLES # I THRU '# 7

FLOOR PLAN AN D ELEVATION OF UNIVAC

BOTTOM AT REAR

MAGNETIC TAPE-TO-CARD CONVERTER USING

CHILLEO-WATER AIR CONDITIONING UNIT AND INTERNAL WATER SUPPLY

REQUIREMENTS FOR THE MODEL WITH THE INTERNAL POWER SUPPLY AND CHILLED-WATER AIR CONDITIONING UNIT

The maximum dimensions and approximate weight of the main equipment, including the air conditioning unit, are as follows.

Dimensions:

Floor Space Requirement s :

Cable Lengths:

Weight:

The largest unit is 87" long, 32" wide, and 83-1/2"

high (the height can be reduced to 80" for shipping by removing the hood). This unit weighs approximately 1,450 Ibs.

Electronic cabinets with air conditioning unit, 170"

x 33"; Card Punch, 36" x 38"; Tape Reader, 23" x 30".

Electronic cabinet to punch, 7'; electronic cabinet to Tape Reader, 12'. These lengths are maximum.

Electronic cabinets with air conditioning unit,

3,225 Ibs; Card Punch, 800 Ibs; Tape Reader, 400 Ibs.

The power requirements are as follows (all conduit and wiring are to be supplied and installed by the customer):

Total Power Required:

Service Required:

Approximately 8 kw.

3-phase, 220 vac

±

Single-phase, 220 vac + 20 vac, at 36 amps and Single-phase, 120 vac at 12.5 amps.

If only single-phase 220 vac power is available, the 3-wire, 21-amp line should be replaced with a 2-wire, 36-amp line. Minor internal wiring changes are required to accommodate the single-phase supply.

The approximate phase currents, when using a 3-phase system, are as follows:

Phase No. Approximate Current in Amperes

1 23

2 12

3 28

Power wiring may be brought in from either the ceiling or floor; however, unless the manufacturer is directed otherwise (at least two months prior to equipment delivery) the input power conduitlA6600l) will be installed to enter the cabinet from the top so that a ceiling connection will be required.

PX 44 11

The air conditioning unit is a closed system; wherein air is cooled, blown into the cabinets to cool the components, and then returned to the air conditioning unit to be recycled. Room temperature therefore is not affected.

Data on this unit are as follows~

Recommended Minimum Pressure Difference Through Cooling Unit:

Maximum Allowable Pressure:

Normal Operational Requirements Using 45⁰F Water:

Normal Operational Requirements Using 50⁰F Water:

30 psi, at 16 gals/min.

100 psi.

4.5 gals/minute 7.75 gals/minute

A floor drain system should be installed to remove condensate from the air conditioning unit. If this is not possible, a sump pump arrangement may be used because condensate collects very slowly. Water input to the air conditioning unit may be from either the floor or the ceiling. All plumbing facilities are to be supplied and installed by the customer.

It is recommended that, if possible, the equipment be arranged as shown in Figures 4, 5, 6, 7, and 8. Sufficient information is supplied by these figures so that floor loading and maximum point loading may be readily co~

puted by the customer.

PX 44

12

o

NOTES,

CA~h~ C::'~~~O:HE:~;~~~OR #AN3108B-Z8-IIS MAX. DlA

21' OTHER END PERMANENTLY fASTENED INSIDE TAPE READER.

2. {"DIA. CABLE AMPHENOL CONNECTOR #AN310BB-28-IIP MAX 01.11.

21" OTHER END PERMANENTLY fASTENED INSIDE TAPE READER.

3. r DIA. 3 WIRE RUBBER INS. GABI_E, BRYANT CONN.#9I1Z MAX.OIA 2' OTHER END PERMANENTLY FASTENED INSIDE TAPE READER.

4. r OIA 3 WIRE RUBBER INS. CABLf., BRYANT CONN.#9112 MAX. OIA 2" OTHER END AT PUNCH WITH HUBBELL CONN"7555 MAX OIA. li~

5. rOIA 3 WIRE RUBBER INS. CABLE, HUBBELL CONN. #7573 MAX.

01.11. Ii' OTHER END AT PUNCH WITH BRYANT CONN. #9114 MAX.

OIA. 2~

6.1"01.11.. CABLE PERMANENTLY FASTENED IN BAY I, OTHER END AT PUNCH WITH AMPHENOL CONN. -AN3108B-28-IIP MAX. DIA. 2l~

7. 6 CABLES FORMING ONE CABLE I f TOTAL 01.11.. PERMANENTLY FASTENED IN BAY I OTHER END ENDING IN PINS AT PLUGBOARD.

EQUIPMENT LAYOUT AND DETAILED DIMENSIONS FOR THE

UN IVAC MAGNETIC TAPE -TO- CARD CONVERTOR

FRONT

~

-30"---~

c:=

BAY I OF ELECTRONIC CABINET

VIEW AA

":rj

f-~'

~ ^to

f-' C

tJ:::>. iJ::::. ^{I-~ (0} iJ::::.

0'

, - - _ . _ - - - ----.--~---~-

MAIN

POWER BAY #3

DISCONNECT r - - -

j--1220v.A.C-35 AMP. -3 PH. I

\6600,,3;:::(:RE:F.:)

==

(l I I

I I

~ L.._

',---

A66003

8 GA.

8 GA.

16 GA.) 16 GA.

16 GA 16 GA 16 GA 16 GA.)

A66003~ ^J

I ~B GA~

:I!

PAaJIOEO :

+: ::::

CUST~YER ^{' \ .} I I I ^{I :}

~ I I I I

I I

I:

I IIIOV.A.C-20AMp' 1 I I

I ~12 GA.)---t· +-+-+0

I o--T---{ 12 GA. ) - '

I I

L __ -l A66001

POWER

DISCONNECT BAY"3

r--l ,----,

I o---r---< ^{4 GA.l} ! - ^~

' 1 - _ - . . . ; - + - - - ( 12 G ''-\f--'---++---{ 12 G 0+--1---1-+----( 12 G A A.

A6600 2~

~16G

16 G A.

D.C. GENERATOR RHEOSTAT

,--

!

r

I

I

I

I I

=_. ) I

I

J I ' ^I

~k;i"

I I~~~II

3 ~ REAR CONTACTS TZ

START STOP I

RESET

l

I I

I

I I I I I

I

I 1220VAC.-70AMP-IPH I ~E35 I ~4GA) I

I I I

I I 1I0V.A.C-20AMP I ~E3~ ~16 ^G

-r~M'1 11"'00'''--..

j ~~

i ~~ =~ ^{I III "}

A i ⁽ -_ , J

: : : : - - - A66005

! o---r--< ^{12 GA.)}

I-

I 0--+--<12 GA.) • 8 16 G _A. I ^{B GA}

L ^{I! " B GA}

L __ J L ___ J

J \.

r-______

~---{12 G

--1 I I

A.

A.

A.

I 1---

I

.-

L __ ~ ___

J

D.C. GENERATOR 200V.D.C.-IOAMP'-3500 R.P.M

16GA:~

16 GA.

16 GA.

/ A 6 6 0 0 6 16 GA.

16 GA

C 1-1-

r tr3 M2MII

" Iy

~B~C ~A ~-,\---i

A66005 I _I

A.C. MOTOR 5H.P-3500RPM-220VA.C -25AMP

I I

L _ _ _ _ _ -'

180 'V ALTERNATOR

120 VA.C.- 3 AMP. -IBOI 175'" -3 P.H. -3500 R.P.M.

ELECTRICAL INTER-CONNECTION DIAGRAM FOR THE

UNIVAC MAGNETIC TAPE TO CARD CONVERTOR

' - - - . - - - . - - - - . - - - -.... -~-... -~---

NOTE

I.A66001 THRU A66007 CONDUIT AS REQUIRED 2.QUANTITY OF WIRE a CONDUIT AS REQUIR.E[)

AT INSTALLATION.

3WIRE GAGES SHOWN FOR REFERENCE ONLY- SUBJECT TO LOCAL CODES._

4.1F THE M.G. IS LOCATED REMOTE FROM BAY 3, A MOTOR GENERATOR DISCONNECT SWITIi MAY BE REQUIRED AT THE REMOTE LOCATION FOR REASONS OF SAFETY.

o r

(") a"

("+

",,"0

'"00

... ><::s

CJl

FAN BAY

I

I X4 X ~THICK) -JACK PAD. {32' 8

SEE DETAIL A OF JACK SCREW CENTER

15916 II

to-

o Z

a: u.

FLOOR

RIGHT SIDE

OUTLET

-

INLET

~---6" _ _ _ _ _ ~

CONDENSATE DRAIN

-10

I. CONNECTING PIPES ARE STANDARD THREAD-I V4" AND PROTRUDE APPROX. 6" FROM PANEL.

2. DISTANCE OF DRAIN PIPE FROM FLOOR MAY VARY WITH HEIGHT OF FEET.

Figure 8. Layout of Plw.bing Connections for Fan Bay of Tape-To-Card CODYerter

PX 44 16

CARD - TO-TAPE CONVERTER

Ine Card-to-Magnetic Tape Converter consists of three units: a card feed, a High-Speed Tape Transport, and an electronic unit. These units should be placed in a floor area of approximately 260 square feet. The space around the units should be such that quick access is allowed to internal, external and extendible sections. A minimum space of four feet should be left between the individual units to accept swinging cabinet doors, cover removal, etco By allowing sufficient access space, the customer greatly facilitates operation and servicing of the units. A scaled drawing suggesting four layout arrange- ments is shown in Figure 10.

CABLES - The Converter has four interconnecting cables. Three ca~les connect the electronic unit to the card feed and can be run in one trougn The other cable connects the electronic unit to the High-Speed Tape Transport. No cable should exceed the 25-foot limit set by the manufacturer. This should be con- sidered in planning the installation. All cables should be placed in a trough or covered by a ramp.

POWER REQUIREMENTS - The Card-to-Tape Converter requires approximately 10 kva of single-phase, 3-wire, 60 cycle a-c. This power may be taken from 2 legs of a 3-phase system, either 208 vac or 230 vac. It is recommended that a Stabline Regulator be installed near the source to minimize line fluctuations.

COOLING REQUIREMENTS - The electronic unit of the Converter requires 14 gallons per minute of chilled water at 50°F ⁰ The pump should be capable of working into an 80-foot head. The cool-water input may be connected to the Univac cooling system or to any standard cooling system of about 3-ton minimum capacity. If a "closed-loop" water supply is used, the customer must provide a balance cock between the input and output connections to the Converter to assure adequate water pressure in the radiator coils of the air conditioning systemo In addition, each input and output should have a hand-controlled valve. A pan under the cooling coils permits the trapping of condensate water, and a floor drain or sump should be provided to remove such waste.

Information on water connections may be obtained by referring to Figure 13, since plumbing connections are identical to those on the High-Speed Printer Control Unit.

The High-Speed Tape Transport is ~ooled by its own blower and dissipates approximately 2 kw into the room when operating normally. This additional heat load must be accommodated by the room air conditioning equipment.

lComponent ICard Feed

H.S. Tape Transport

~lectronics .. Unit

PHYSICAL CHARACTEHISTICS OF THE UNITS

Depth Width 30" 30"

21 3/4" 29 1/4"

32" SO"

Hgt.

36"

60"

77"

PX 44 19

Approx.

Weight 320 lbs.

6SO Ibs • 2265 lbs.

Floor Area 6.2 sqo ft.

5.0 sq. ft.

11.1 sq. ft.

ELECTRONIC UNIT ELECTRONIC UNIT

CONTROL PANEL CONTROL PANEL

ERROR BIN

CARD FEED CARD FEED

( B) (A)

ELECTRONIC UNIT

Kl~

ERRORBINU I PLUG BOARD I

ELECTRONIC UNIT HIGH-SPEED

INPUT IlouTPUT TAPE-

CARD FEED I CONTROL PANEL I

TRANSPORT

ITAPE LOAD I

(D)

Figure 10. Suggested Arrangements of Units for Card-to-Tape Convertero

PX 44 20

::c ...

co

"'O=r

><CJ'J

tJ;::I."'O

.t.~

0..

"'0

.,

:::s

~ (1)

.,

-_._--- ----

.p"""

HIG H-SPEED PR INTER

The High-Speed Printer is housed in four cabinets. One cabinet contains the Paper-Feed System and the Printer itself= A second cabinet houses the Tape Transport mechanismo The other two cabinets contain the power supply and electronic circuits which control the Printing and Tape Transport mechanisms.

The four units are called: 1) Printer Unit, 2) High-Speed Tape Transport, 3) Power and Control Unit, and 4) Memory Unit. A space of about 400 square feet is recommended for efficient operation and maintenance of the four units (see Suggested Floor Plan for High-Speed Printer, Figure 12). Further in- formation, such as interconnecting ductwork, access areas, etc., may be ob- tained from drawing No. CSK 3344. Four casters support each unit; therefore~

floor-loading calculations should consider these concentrated loads. Floor plates may be put under each caster to distribute the load.

POWER REQUIREMENTS - The Printer requires 18 kva of single-phase, 3-wire, 60-cycle power. Power may be taken from a 208 volt source (across two legs of a 3-phase, 4-wire system), or a 230 volt source (across two legs of a 3-phase, 3-wire system). The use of a Stabline Regulator is recommended to minimize

line fluctuations. The equipment is furnished with a 25-foot power cable and a Russell and Stoll 100 ampere service with a circuit breaker conveniently

located near the power and control unit of the Printer.

COOLING REQUIREMENTS - The Memory Unit and the Power and Control Unit are cooled by a closed-loop chilled-water system. Each of the two units requires 14 gallons of water per minute at 50°F (total: 28 gpm)G The pump supplying this water should be capable of working into an 80-foot head. The chilled- water inputs may be supplied from the main cooling system of the computer, or

from any standard cooling system of approximately 5-ton minimum capacity.

If an external closed-loop water supply is used, the customer must provide a balance cock between the input and output connections to each unit requiring chilled water to assure adequate water pressure in the radiator coils of the air conditioning system. In addition, each input and output should have a hand-controlled valve. The equipment is furnished with 25-foot flexible hoses having quick disconnects at both ends. The intake and outlet pipes should have 1/2 inch female pipe-thread fittings for connecting to the hoses. A pan under the cooling coils permits the trapping of condensate water, and a floor drain or sump should be provided to remove such waste.

The Printer Unit dissipates approximately 1.4 kw into the room when oper- ating normally. This additional head load must be accommodated by the room air conditioning equipment. Information about cooling requirements for the Hjgh-Speed Tape Transport is given in the section on Card-to-Tape Converter.

PX 44

PHYSICAL CHARACTERISTICS OF UNITS

Approx.

Component Depth Width Hgt. Weight Floor Area

Printer Unit 31 7/8" 47 1/2" 48" 800 Ibs. 10.8 sq. ft.

H.S. Tape Transport 21 3/4" 29 1/4" 60" 650 Ibs. 5.0 sq. ft.

Power and Control Unit 50 3/4" 32 3/4" 68 3/16" 2000 Ibs. 11.1 sq. fto Memory Unit 50 3/4" 32 3/4" 68 3/16" 1200 Ibso 11.1 sq. fto

PX 44

24

,

PRINTER 800 LBS

CONTROL PANEL

I~

~

I-

(J)

w

I-

POWER SUPPLY 2000 LBS

UNISERVO 500 LBS

trAPE LOADl

1 = = = __

1

~~~

t

1= J LINES

I----}

Figure 12. Suggested Floor Plan for High-Speed Printer Installation

PX 44 25

'"rj

...

to s:::

'""

ro

t--'

':..v

::r::r ... ^~

t.O'<

::ro

I c en ^~

'"0 ct> 0 ct> ^I-+) 0..

''''0 '"0 ...

..,

... ·8 :::s 0"

c+ ...

ct> :::s

"'to

('1 0 :::s :::s

""0 ^('I) N >< ^{t j} c+

0- _A

...

A 0 :::s

rJ)

H) 0

..,

'"0 0 ~ ct>

..,

w :::s

0..

n 0 c+

~;

0 I-'

c:: :::s

...

f'+

0 H)

(J)

- 0 Om o

0'"

::0]>

-z m r

IN LET

MEMORY UN IT: INLET a OUTLET CONNECTIONS REVERSED.

OTHER SPECIFICATION S ARE AS SHOWN.

REAR BASE PANEL MUST BE REMOVED TO GAIN ACCESS TO PWMBING CONNECTIONS,

REAR BASE PANEL

OUTLET

~ _ 0

om

0 "

0 ] >

::oz

-m r

~---12 1/2-"----~~---24 3/41~'---~~---13 1/2~1I---~

N

FLOOR LEVEL

1/2" ELBOW

~ ^{1/2" ELBOW~}

DRAIN

~1/2" COUPLING

REAR VIEW

11- •

..

Figure 14. Univac Line Printer PX 44

28

UNIVAC LINE .PRINTER

The Univac Line Printer is contained in a single cabinet weighing approximately 1200 pounds (see Figure 14). The cabinet dimensions are 49 inches long, 30 inches wide, and 50 inches high. The input power to the Univac Line Printer is 220 volt, 3-phase, 60 cps. The maximum

power consumption is 2.4 kw at a power factor of 0.93 inductive. Internal supply units within the r.rinter are used to derive all the necessary d-c voltages.

For equipment cooling. five blowers pull in room air through the base of the cabinet and exhaust it through the top of the cabinet.

PX 44 29

o

CARD UNIT CONTROL

CARD UNIT

Figure 15. Punched Card Input/Output System PX 44

30

PUNCHED CARD INPUT / OUTPUT SYSTEM

The Punched Card Input/Output system consists of two pieces of equipment~ The Card Unit (a card punch and reader., and the Card Unit Control.

The units are connected to the computer and to each other by cables.

Provisions are made on the platform of the Univac Scientific so that the Card Unit rests on the platform, and the Card Unit Control is mounted either on the platform or on the floor adjacent to the computer.

Dimensions and approximate weights of the two equipments are as follows:

Width Depth Height Weight Card Unit 35" 3S" 50" SOO lbs.

Card Unit Control 30" 60" 54" 1000 lbs.

The power requirements are 4-wire, 208 vae, at 2.5 kw.

PX 44 31

"T]

co 1-'-

s:::

t-i CD

...

.

to 1-'- I

0 a

,+

PJ ...

'"0 1-:3

CJ.j >:: PJ

II\.:) '0

A CD A

'"0 t-i '0 CD

PJ t-i PJ r+

1-'- 0 ::s

t:r1 .0 s:::

1-'-

·0 9 CD

:::s

r+

L8801 0

BI-OCTAL TAPE PREPARATION EQUIPMENT

The Si-Octal Tape Preparati~n System consists of three major assemblies shown in Figure 16. From left to right, these are the Bi-Octal Printer, the Main Keyboard and the Motorized ^Punch. These three as·semblies are intercenneeted by cables and occupy a tabletop of approxi- mately six square feet. The three pieces of equipment

weigh approximately 75 pounds. This equipment operates from a 115 vac single-phase convenience outlet.

PX 44 33

UNITYPER n

The Unityper II is a machine incorporating a modified electric typewriter and a magnetic t?pe recording device all combined to form a single assembly occupying a space of about two square feet.

OSCILLOSCOPE PRINTER-PLOTTER

The current design for this unit allows for plug-in connection to the Cent ral Computer, thereby rest ricting

its usage to the vicinity of the Supervisory Control Panel.

The unit is equipped with wheels so that it may be removed from the Operator's Platform when not in use. Its physical dimensions are; height. 47 inches, width - 30 inches, depth - 27 inches.

PX 44 35