CONTROL DATA

(1)

INPUT/OUTPUT SPECIFICATIONS FOR

CONTROL DATA

8092 TeleProgrammer

(2)

INPUT/OUTPUT SPECIFICATIONS FOR

CONTROL DATA

8092 TeleProgrammer

(3)

REVISION

A

3/11/64 Manual printed.

Publication No.

36810500A

REVISION RECORD

DESCRIPTION

-

Address comments concerning this manual to:

Control Data Corporation Technical Publications 4201 N. Lexington Ave.

St. Paul, Minnesota 55112

(4)

C O N T E N T S

Page TELEPROGRAMMER INPUT/OUTPUT SPECIFICATIONS 1

Interrupt 2

Select Codes 3

Communication Lines 7

Normal Input/Output 10

Buffered Input/Output 13

TELEPROGRAMMER COMMUNICATION CIRCUITS 19

Input Circuits 19

Output Circuits 20

Cable Connectors 22

FIGURES

1 8092 TeleProgrammer (Photograph) IV

2 Block Diagram 8092 TeleProgrammer System 2

3 Normal Input 8092 12

4 Normal Output 8092 12

Sa Buffered Input 8092 15

5b Buffered Output 8092 15

6 Maximul1) PE?rmissible Transfer Rates Using Buffer Channel 16

7 Input Amplifier Circuit 20

8 Output Amplifier Circuit 22

TABLES 1 Communication Lines, Output Cable 2 Communication Lines, Input Cable 3 Cable Designations

4 Pin Assignments

5 6 7 9

(5)

--

^~ ^...

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\.,~_J! !,\._.L __ J. 7~-J l - - j !J. - J. "'~::'iJ-__ )

!L_.t __ J. _ _ J

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Figure 1 - 8092 TeleProgrammer

(6)

The input/output (I/O) specific ations for the CO N TRO L DA T A*

8092 TeleProgl'arnmer apply to all device9 which connect with the TelePrograrnmer. This specification is written to allow a minimum data exchange time consistent with accepted engineering practices and moderate hardware requirements.

The 8092 has a four-level interrupt and a buffered I/O. The latter permits the TelePrograrnmer to continue high-speed computation while communicating with external equipment. The minImum system may be expanded to include the following external equipment:

Additional magnetic tape stations I/O typewriters

Punched card readers, punches, arid low speed line printers

High speed printers - 1000 lines/minute Plotting and digital display equipment

Analog to digital and digital to analog equipment

Two or more CONTROL DATA TelePrograrnmers operating in a satellite- system

All information is measured as binary "1" and "0" voltage levels, nominal ground level (-0.5v) constituting a "1", and -16v a "0".:>',0:<

Voltage is measured at the output terminals of the TelePrograrnmer and the external equipment.

* Registered Trademark of Control Data Corporation

** See page 18 for tolel"ances on these voltage levels.

(7)

INTERRUPT

Certain internal and external conditions arise which make it desirable for the main program to be notified of their presence.

An interrupt is the program signal which transfers computer control to some fixed location in memory without losing the information needed to return to the main program.

Z REGISTER

-'"'"

NORMAL INPUT

LINES NORMAL OUTPUT

. r-

^I I--3 LINES

r?

BFR BUSY

) - BFR BUSY

BUFFER .

./ ^~. ^BUFFER

~

^.^'-.^. ^BUFFER

INPUT UNES

·T

,. REGISTE"R OUTPUT LINES

INPUT OUTPUT

.BUFFER BUFFER

ACTIVE ACTIVE

Figure 2 8092 Input/Output System

(8)

The 8092 has four interrupt lines: two internal, 10 and 20, and two external, 30 and 40. When an external equipment generates an interrupt the TeleProgrammer may enter the interrupt routine if the interrupt lockout is not on. The TeleProgrammer program may send a status request to all equipment which might have gen-

erated the interrupt to determine which interrupted. This status request is a signal to the external equipment to turn off the interrupt, or the signal in the external device may be turned off by a function response.

SELECT CODES

The TeleProgrammer selects the external equipment for I/O operation by the use of select code~. The I/O operation is

initiated by a 75 instruction which selects a 12-bit code and places it on the output lines with a function ready signal. The upper 6 master bits (unit designator) select the external equipment, and the lower 6 bits (function designatGr) designate the function.

Master bits for select codes must be umque for each 8092 I/O equipment. Master bits given below are in octal and quartic

(base 4) notation, and represent devices currently available. It.

is recommended that the 8092 Engineering Department of Control Data Corporation be consulted before assigning master bits for select codes on new equipment. This will minimize the chance of

select code duplication through future expansion of an existing system.

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Octal Code 07

11 12 13 10 11 12 13 30 35 36 41 42 43 45 53 63 01XX 02XX

SELECT CODE ASSIGNMENTS

Equipment

166-2 Printer (with 8294 adaptor)

162 Mag. Tape Systems {6-bit transfer)

8293 Mag. Tape Synchronizer

170 Card Punch Control Unit

8295 Records Transmission Control Panel 8061, 8062, 8064, 8065 OCT

Reader and Punch

161 Typewriter or Model 33 Page Printer 167-2 and 177 Card Readers

Exchange Unit (with 8294 adaptor) 8294 Peripheral Equipment Adaptor 8155 Multiplexer

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TABLE 1. COMMUNICATION LINES Output Cable

TELEPROGRAMMER TO EXTERNAL EQUIPMENT

External Master Clear Static "1 I' signal appears on the line

(Pin U) whenever Load/Clear switch at 8092

console is set to Clear. Signal IS

available to clear external equipment attached to the TeleProgrammer.

Function Ready (Pin T)

Information Ready (Pin R)

Static "1" signal is produced on the line when external function code is present on output data lines for

examination and translation by external equipment. Signal IS removed by output resume signal from external equipment.

Static "1" signal accompanies each word of output inform ation. Signal IS

turned off by output resume signal from external equipm ent.

EXTERNAL EQUIPMENT TO TELEPROGRAMMER Output Resume

(Pin S)

Interrupt 30, 40 (Pins, Y, Z)

Static "1" indicates external equipment has accepted word of information or external function code. Signal turns off information ready or function ready signal at Tel~Programmer. Output resume drops when function ready or information ready drops.

Static "1" signal notifies 8092 that interrupt is generated. 8092 enters interrupt routine and sends status request code which signifies that the interrupt should be turned off.

OUTPUT DATA AND EXTERNAL FUNCTION LINES (Pins A,B,C,D,E,F,H,J,K,L,M,

and N)

The 8 lines which carry output data information when. accompanied by information ready. signal, output word from 8092. External equipment samples these lines to ready the output word.

The 12 lines which carry external function information when accompanied by function ready signal, hold EF code which selects operational mode within ' external equipment.

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TABLE 2. COMMUNICATION LINES Input Cable

TeleProgrammer to External Equipment

Input Request (Pin S)

External Equipment to TeleProgrammer

Input Ready (Pin R)

Disconnect (Pin V)

Input Data and Status Lines (Pins A,B,C,D,E,F,H,

J)

Static "1" signal is produced when TeleProgrammer IS ready to receIve an input word. Signal drops on receipt of input ready signal.

Static "1" signal produced when information, In a state which Teleprogram- mer may sample, is present in input register of external equipment. Signal IS dropped when TeleProgrammer drops input request signal.

Static "1" signal is produced when input device has transmitted final word of input data and the Tele- Programmer transmits an additional Input Request. Upon receipt of signal, TelePrograminer drops Input Request and resumes main program with no further delay. Signal is dropped when TeleProgrammer drops input request signal. ( Generally, input instruction establishes a storage field of greater capacity than the anticipated input data block.)

The 8 lines which carry input data and status information perform as follows:

1) Following a normal input mode selection, lines hold content of external equipment input r.egister which TeleProgrammer samples. Data is removed from lines when input request is dropped from TeleProgrammer.

2) Following request for status from TeleProgrammer, lines contain external equipment response. (Input instruction is programmed to ascertain status response. )

(12)

TABLE 3. CABLE DESIGNATIONS 8092 INPUT/OUTPUT EQUIPMENT

Input Cable

Output Cable

Buffer Input Cable

Buffer Output Cable

COMMUNICATION LINES

Cable Number"

J01 J03 J02 J04 J05 J07 J06 J08

Of the four communication cables between the TeleProgrammer and all external equipment, two carry normal I/O signals and two carry buffer I/O signals. Each input cable contains 8 data lines plus various control lines, and each has two connectors. Each output cable contains 12 data lines (i.e. 12 for EF and 8 for data) and various control lines and each has two connectors. C abies from

external equipment enter the TeleProgrammer through the rectangular opening in the bottom. The front door of the TeleProgrammer permits access to jack locations found on the lower portion of the m"ain chassis.

(Jack numbers for I/O lines are given in table 3.)

Every external unit must be connected to the output cable because the external function code (carried on data lines of output cable) must be available to both input and output devices.

(13)

The total number of devices attached to one line is limited by maximum cable length and power capacities of the transistors on the amplifier cards. Five pieces ·of equipment may be attached to the normal channel . and five to the buffer· channel.

Equipment attached to the buffer lines may be addressed directly if no buffer operation IS in progress. Consequently anyone of up to ten external pieces of equipment may be addressed by normal I/O if the buffer is not busy.

(14)

TABLE 4. PIN ASSIGNMENTS, INPUT/OUTPUT CABLES

BitO 1 2 3 4 5 6 7

Normal Input

and Buffer Input Cable Pin input status and information A

B C D E F H J K L M N P

Input Ready R

Input Request

Disconnect

I/O sequence} Used by Paper Tape Load Mode Reader Only

Ground

S T U V W X Y

Z a b

Normal Output

and Buffer Output Cable Bit

o

output fup.ction and information

1 2 3

4 ~ Data 5

6 :> External

7 ...

8 9 10 11

Function

Information Ready Output Resume

Function Ready Master Clear

Interrupt 30 Interrupt 40

Ground

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NORMAL INPUT/OUTPUT

Sequence of Events in Normal Input (Refer to figure 3)

1. The TeleProgrammer executes, a 75 instruction and sends out an external function code (EF), together with a function ready signal to select external equipment. The time required for initiating the EF code is 12 usec.

2. The external equipment receives the EF code at its own rate, and sends back an output resume, turning off the function ready signal. (Termination of the function ready signal in the Tele- programmer must turn off the output resume in the external equipment within 4 usec.)

3. The TeleProgrammer takes 12 usec. to set up the input instruction (72), after which an input request signal is issued.

4. The external equipment accepts the input request signal, places a word on the data lines, and returns an input ready signal which turns off the input request in the TeleProgrammer.

The external equipment delivers the word to the TeleProgrammer at its own rate. (Termination of the input request signal

must turn off the input ready signal in the external device within 4 usec.)

When the TeleProgrammer receives an input ready signal, it initiates a store sequence and issues another input request if more information is desired. Steps 3 and 4 repeat until the last word is received in the TeleProgrammer. Termination

(16)

of data input may originate in the TeleProgrammer through failure to issue an input request or in the external equipment through an input disconnect.

Sequence of Events in Normal Output (Refer to figure 4) 1. Same as normal input.

2. Same as normal input.

3. In 16 usec, the TeleProgrammer sets up the output instruction and delivers the first word to the data lines along with an information ready signal to indicate that data is available to the external equipment.

4. The external equipment recognizes the information ready signal after a 2 usec. delay, stores the data at its own rate, and returns an output resume signal to the TeleProgrammer.

5. The TeleProgrammer accepts the output resume signal and turns off the information ready signal. Termination of the information ready signal must turn off the output resume ^In the external equipment within 4 usec. At that time, the

TeleProgrammer reads another word ^In 8 usec., generates an information ready signal, and repeats step 4 until all

words are transferred into the external equipment. Transfer of output data is terminated by failure of the TeleProgrammer to issue an information ready signal.

(17)

FUNCTION REAOY LINE'

OUTPUT *

RESUME LINE

INPUT REQUEST LINE

INPUT READY LINE

INPUT REQUESt LINE (WORD 2) INPUT READY LINE

INFO READY LINE

r - -

2 1'0' delay due to H card lag

- 12 p.s--I (

:+:

~~c~~~t. ^f

i I

ExternaL equipmel)t receives

I

L... ________________________________________ _

EF code and sends Resume :

~----~~r--~----~rnl---~r_---~--- _'1 _" _{- -}

' - 1 7 p.s--I : Set up input , I instruction

i

,DBC seQuence

f----;l'---____ _

Equipment recop,nize, input request : and delivers word (accompanied by I

JJ

Input Ready) at own'rate ~

~I---'---

This sequence of events repeats until no more input requests are issuen

8 f'S to store first! word S'C' ~equence

':L _,

_I

,

I

~--~!.'~f---~~---~

Figure 3. Nor~al Input B092 releProgrammer

, 1

1 Lli p.s set up outpllt , instruction and I

• i

deliver word 1 I ODCe

,

OUTPUT •

RESUME ~---~Jrt---~---J

LINE 12.8p.S

Read word 2 INFO'

READY LINE

B'C'sequence

tL

Word "2 and all after

~~~~~~~~~~ ______________ _,---~---~·Store

Figure 4. Normal Output B092 TeleProgrammer

*

Signals generated by external equipment

(18)

BUFFERED INPUT/OUTPUT

Sequence of Events in Buffered Input {Refer to figure Sa}

3. The TeleProgrammer reads the 70 instruction in 4 usee. It then generates an input request, releasing the TeleProgrammer for computation.

4. The external equipment accepts the input request signal, places a word on the data lines, and generates an input ready signal.

S. The TeleProgrammer accepts the input ready signal and stores the word. ':' Recognition of the input ready signal terminates the input request which turns off the input ready signal in the external equipment. {Termination of the input request signal must turn off the input ready signal within 4 msec.}

6. The TeleProgrammer Issues another input request and steps 4 and S repeat until all words are buffered into the TeleProgram- mer.

Sequence of Events in Buffered Output {Refer to figure" Sb}

':' It may take the TeleProgrammer up to 18 usec. to recognize the input ready and store the word, depending on which cycle the TeleProgrammer is in when the input ready signal occurs.

(19)

3. The TeleProgrammer reads the 71 instruction in 4 usec.

and initiates a buffer cycle to place the first word on the data lines and issue an information ready signal. The Tele- Programmer is then free for computation.

4. The external equipment accepts the information ready signal and data at its own rate and returns an output resume signal.

5. Recognition of the output resume signal initiates another buffer cycle and terminates the information rea?y signal.

*

6. Termination of the information ready signal in the TeleProgrammer turns off the output resume signal in external equipment.

(Output resume must turn off within 4 msec.)

7. Steps 3-5 are repeated for each word until all words are buffered out of the TeleProgrammer.

*

^Itmay take the TeleProgrammer up to 18 usec. to recognize the output resume and put the next word on the output lines, depending on which cycle the TeleProgrammer is in when the output resume occurs.

(20)

FUNCTION

READY

LINE

OUTPUT ..

RESUME

LINE

INPUT

REQUEST

LINE

INPUT "

READV

LINE

INPUT REClUEST LINE

INPUT ..

READY

LINE

INFO READY I.lNE

•

12 P.s

7S instructionl

,r---

^2J.l.s delay due to ^Mcard lap, or.-- ~ ;.----1 ~r

---:--'v .

Dec' sequence 1 ^.IJ

I I

I L+J---~--- I ,

I l :ea/I

r-_____

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⁷⁰

.JJ : 4 slset Buffer FF and I ~ I for computation

release 8082

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______________________________ _

r

n

r---~J/~---~~I L -_ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _

I I I

"lord 2

:

.. I

,lSJ.l.S max •

. 6 J.l.s min.

n

~---~JJ~/---~--~---~ ~--- Figure Sa. Buffered Input, 8092 TeleProgrammer

WOTd I

~

OUTPUT" .

I.:

n

RESUME

LINE ^I I

,

I

.,

INFO Word 2 ^I

REAOY . LINE

c

18J4!1 !'lax.

OUTPUT • 6 JLs min.

n

RESUME ⁽

LINE

J

Figure

Sb.

Buffered Output, 8092 TeleProgramnier

*

Signals generated by external equipment

(21)

MAl(. BFR

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SP£ED, COMPUTER HI.ftG lI'

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MAX. BFR SPEED, PflOGRAM WITHOUT

A a B ^CYCLES

10.3

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28.3 11.33 11,3311.33 11.3<>1'

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INITIATE RVJIT /II£SIJtIE II£AnY/MQUEST 'ROM EX1DIIW.

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EQUlPIIIE!fT AT TELE'PROGRAMMER

12.0)JSEC

BP1tCYCLE

I

PROOftN' CYCLE

I

PRoeM"" CYCLE

4.0 4.0 4.0

3.83 1^1•311.3 11.311.3 I

0

• •

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• I

CARD DELAY

5.0 MAX .

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BUfFER WAITS

l'ObK'

an cYCLE

I

4.0

I ^83KC

• - Sampling of incoming signals occurs at 1.33 Jlsec intervals during all machine cycles.

* This resync period may start earlier with a shorter card delay (at previous sample time ';0").

Figure 6 Maximum Permissible Transfer Rates Using:Buffer Channel

(22)

TELEPROGRAMMER COMMUNICATION CIRCUITS

(23)

(24)

TELEPROGRAMMER COMMUNICATION CIRCUITS

In communicating with external devices the TeleProgrammer signals undergo a level change to minimize effects of cable impedance. The TelePrograrnmer signals are refepred to as logic levels, the cable signals as line levels. The binary representation for the two levels are:

Logic "1" -3.0v

(±

0.2Sv)

"0" -O.Sv

(±

0.2Sv) Line "1" -O.Sv

(+

0.2Sv»:'

"0" -16v

(±

^2.Sv)

Both line and logic levels are encountered in the input and output amplifier cards. All external equipment control signals are resyn-

1

chronized upon entering the TeleProgrammer.

INPUT CIRCUITS

In the schematic diagram of the input amplifier circuit (figure 7),

resistor R01 and the -20v supply hold the input to the circuit (point a) to line 110" when no input signal is supplied, or when no data or control line is tied to the circuit. If a line 11111 is supplied to the input pin, the base of Q01 (point b) rises due to the voltage divider action of R02, R06, and ROB. Subsequently 001 stops conducting, and the output to the computer circuits represents a logic 11111.

):~ Tolerances given are for Control Data equipment. When other equipment is connected to Control Data TeleProgrammers, the following variation may be tolerated on the "1" line level:

+

O. Sv, -2. Sv.

(25)

Conversely, if a line "0" is applied to the circuit, 001 conducts and the output to the computer circuits approaches -0.5v (logic "0").

Stated simply, the input amplifier inverts the signal electrically, but not logically.

INPUT ROI 2200

RO.

• (a) 6800

CROI R03

ROC 1000

IzOo

-20V

RO.

2200

CR04

ROe 220 R07 22000

TP

CR02

CR03

+2OV -=

Figurl3 7. Input Amplifier Circuit

TO COMPUTER LOGIC

Maximum steady-state current drawn by an input amplifier circuit does not exceed 10 rna. If the wire to the input pin is disconnected, the effect is as though a line "0" were present continually. The current waveform has a slope which does not exceed 5 rna per usec.

OUTPUT CIRCUITS

In the output amplifier circuit (figure 8), resistor ROl and the -20v supply hold the input to the circuit (Point a) at a logic "1" when no signal is applied, or when no data or control line is tied to the clr- cuit. The collector of transistor 001 IS connected to its base through a 150uuf capacitor (COl) which integrates this output of 001.

(26)

When a logic 111" is applied to either input pin, aOl turns on,

placing a low impedance between ground and the output line. C apa- citor COl tends to oppose the initial conduction of QOl by feeding back a signal less positive than that initially placed on the base.

When COl is fully charged, 001 reaches full conduction and the output rises to -0. Sv (line "1 II}. If a logic "0" is applied to this circuit, the voltage divider action of the circuit turns off Q01, and the output stabilizes at -16v (line 110 11 ). Stated simply, the output amplifier inverts the signal electrically, but not logically.

The output amplifier need supply no more than IO rna to any input amplifier in another piece of equipment. Transition time of the

signal waveform from the output amplifier circuit is 2 usec. minimUm, 4 usec. maximum. Total line capacity may vary between 0 and 0.002 ufo

Voltage level rise and fall rates are Bv/usec.; d-c resistance of cable ground return must not exceed O. 5 ohm. All data lines are stable before information is sampled.

(27)

-20V -20V TP

ROI 6800

ROll

(a) 1000

OUTPUT

"ROM CROI I COMPUTER

LOGIC _2OV

f

.~~

^I

I

0--- ...

*-

1

CR02 R04

12000

+ 20V

--

Figure 8. Output Amplifier Circuit

CABLE CONNECTORS

All data and signal connections between the 8092 TeleProgrammer and peripheral equipment are made using 24-pin Amphenol twist- lock connectors. The Amphenol part numbers are given for the male (p) connectors used on all cable ends and the female (S) connectors used for panel mounting.

67-06P-18-24P (cable) 67 -02E-18-24S (panel)

(28)

CABLE CONNECTORS

All data and signal connections between the 8092 TeleProgrammer and peripheral

equip~ent are made using 24-pin Amphenol twist-lock connectors. The Amphenol part numbers are given for the male (P) connectors used on all cable ends and the female (S) connectors used for panel mounting.

67-06P-l8-24p 67-02E-l8-24S

(cable) (panel)

(29)

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PUBLICATION NO. _ _ 3_6_8_1_0_5_0_0 _ _ _ _ _ REVISION _ _ A _ _ _ _ _

FROM: NAME: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ BUSINESS

ADDRESS: __________________________________________ __

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(30)

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CORPORATION

8100 34th AVE. SO., MINNEAPOLIS, MINN. 55440

CONTROL DATA

CONTROL DATA

8092 TeleProgrammer

CONTROL DATA

8092 TeleProgrammer

REVISION RECORD

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