Tektronix 4010 User manual
Tektronix, Inc.
070-1183-01
4010
AND
4010-1
MAINTENANCE
MANUAL
P.O. Box
500
Beaverton, Oregon
97077
872
4010/4010-1
TABLE
OF
CONTENTS
SECTION 1 INSTALLATION AND Page SECTION 3 SERVICING Page
OPERATION Introduction
3-1
Introduction
1-1
Troubleshooting Information
3-1
Installation
1-1
Disassembly and Assembly 3-3
Indicators and Controls 1-2 Access
to
the
Display Unit
Operating Modes 1-5 Circuitry 3-3
ASCII Code Chart 1-7 Keyboard Information 3-3
First-Time Operation 1-8 Pedestal Information 3-4
Preliminary 1-8 Power Transformer Information 3-4
Alpha Mode 1-9 Display Filter Removal,
Graph Mode 1-10 Cleaning, Installation 3-4
Gin Mode 1-11 CRT and Deflection Yoke
Hard Copy Mode 1-11 Removal and Installation 3-5
Coordinate Conversion Chart 1-12
SECTION 4 PER FORMANCE
CH
ECK/ADJUSTMENT
SECTION 2
CHA~ACTE
RISTI
CS
Performance Check
4-1
Introduction
2-1
Adjustment 4-4
Alphabetic Listing
2-1
Introduction 4-4
Tables 2-8 Equipment Required 4-4
Control Character Effect on Index
of
Adjustments 4-4
Terminal 2-8 Preliminary Procedure 4-6
Alpha Mode Specifications 2-9 Detailed Procedure 4-9
Graph Mode Specifications 2-10
Graph Mode Vector Drawing 2-11 ELECTRICAL PARTS LIST
Bytes Required For Graphic SECTION 5
Addressing 2-11
Gin Mode Specification 2-12 SECTION 6 CIRCUIT DESCRIPTION
Local Operation Specification 2-14
Hard Copy Mode Specification 2-14
Display Unit Specification 2-15 SECTION 7 DIAGRAMS
Power Supply Specification 2-15
Physical Characteristics 2-16
Environmental Specification 2-16 SECTION 8 MECHANICAL PARTS LIST
Strappable Options
of
Basic
4010/4010-1 2-16
Accessories For the 4010/4010-1 2-17 CHANGE INFORMATION
REV.
B, APR. 1976
Fig. 1-1.
4010
Computer
Display
Terminal.
4010
Maintenance
Section
1-4010
Maintenance
INSTALLATION
AND
OPERATION
This manual
is
C!
part
of
the
following set
of
documents
which describe
the
4010/4010-1
Computer
Display Ter-
minal:
OPERATOR'S HANDBOOK "Talking
To
The
Com-
puter";
TEKTRONIX Part
No_
062-1445-00_
Contents-A
general explanation
of
what
the
Ter-
minal
is
and how
it
works.
4010
AND 4010-1 USERS MANUAL; TEKTRONIX
Part No. 070-1225-00.
Contents-An
explanation of how
to
operate
and
program
the
Terminal.
4010
AND 4010-1 MAINTENANCE MANUAL;
TEKTRONIX Part No. 070-1183-01.
Contents-A
comprehensive explanation
of
the
Ter-
minal.
It
includes operation, characteristics, servicing,
adjustment, circuit diagrams, circuit descriptions, and
parts lists.
Optional items used with
the
4010/4010-1 Terminal are
explained
in
separate manuals.
Introduction
The
4010
Computer Display Terminal interfaces between
man and
computer
by permitting inputs through
an
integral
keyboard and providing a display (alphanumeric or graphic)
of
computer
output
data.
In
addition, the Terminal can
relay data bi·directionally between peripheral devices and a
computer.
An
Interface Unit must
be
installed
in
the
Terminal and connected
to
the
computer
-either directly
or through a modem
(modulator-demodulator}-to
permit
information interchange. The 4010-1 has
all
the features of
the
4010,
plus
the
ability
to
have copies made of its
display,
via
a Hard Copy Unit.
INSTALLATION
General
The
two
main sections of
the
4010
are
the
pedestal and
the
display unit. The pedestal section provides
support
for
the display section, and contains
the
power supply, control
circuits, and optional circuits. The display section contains
the
keyboard, the display storage CRT, and related circuits.
REV.
B,
APR. 1976
Desk-Top Operation
The display section can be detached from
the
pedestal
and placed on a desk
as
far
as
four feet away from
the
pedestal. However,
the
pedestal section should remain
in
its
upright position, and should have an air space
at
the
bottom
as
shown, for proper cooling.
To
remove
the
display section from
the
pedestal section,
proceed
as
follows, referring
to
Fig. 1-2
as
necessary.
1. Remove the four phillips-head screws
that
hold the
display section
to
the pedestal.
2. Carefully push
the
display section back until
the
safety catch on
the
pedestal
is
free from
the
retainer slot.
3. Lift
the
display section up and away from the
pedestal, guiding the extender cable
as
the
display section
is
placed at
the
desired location.
Fig.
'·2.
Display
Mounting.
1-1
Installation and
Operation-4010
Maintenance
4.
To
re-install
the
display section, reverse
the
procedure. For
correct
storage of
the
extender
cable, feed it
down into
the
storage bin
as
far
as
possible;
then
double it
back and forth
in
the
storage bin as
the
display section
is
placed on
the
pedestal.
Strappable Options
Strap
options
on circuit cards
in
the
pedestal should be
placed
in
the
desired position
upon
installation. Refer
to
Table 2-13 for details.
Interfacing
Connect
the
Interface Unit
to
the
computer
or
modem,
as
appropriate. The Interface Unit
is
installed
in
the
pedestal section
of
the
Terminal and
the
interconnecting
cable(s) and plug(s) egress
through
the
back of
the
pedestal
unit. The configuration varies with
the
type
of
Interface
Unit. The standard
4010
or
4010-1 contains a Data
Communication Interface No. 021-0065-00. The Optional
Data Communication Interface
No.021-0074-00
or
the
TTY
Port
Interface may be supplied as
options
in
place
of
the
Standard Data
Communication
Interface. Refer
to
the
appropriate Interface
documentation
for specific installa-
tion instructions.
Optional Accessories
Refer
to
the
documentation
on
the
specific accessory for
installation instructions.
Operating Power
The Terminal
is
intended
to
be
operated
from a
single-phase power source which has one
of
its current-
carrying
conductors
(the neutral
conductor)
at
ground
(earth) potential.
Operation
from
other
power sources
where both current-carrying
conductors
are live with
respect
to
ground (such
as
phase-to-phase on a multi-phase
system,
or
across
the
legs of a
117-234
V single-phase
three-wire system)
is
not
recommended,
as
only
the
line
conductor
has over-current (fuse)
protection
within
the
instrument.
The Terminal
is
provided with a three-wire power
cord
with a three-terminal polarized plug for
connection
to
the
power source. The grounding terminal
of
the
plug
is
directly
connected
to
the
instrument
frame
as
recom-
mended by national and international safety codes.
NOTE
The
power cord on Tektronix instruments
may
conform to either
of
the fol/owing two electrical
codes:
USA (NEC)
Conductor &
Canada
IEC
Line Black Brown
Neutral White Light Blue*
Safety-Earth Green w/yel/ow Green w/yel/ow
stripe stripe
*
Tinned
copper
conductor.
'-2
Fig. 1-3.
Transformer
terminals
and
fuse clip locations. (The fuse is
contained
on
the
pedestal
front
cover.)
The Terminal can be
operated
from
either
110
or
220-volt nominal line voltage source. A clip-in fuse and a
jumper arrangeme'nt
on
the
transformer
permits
the
Terminal
to
be modified
to
suit
the
supply. The fuse
is
mounted
on
the
inside
of
the
pedestal
front
cover,
providing a cover interlock. The
transformer
and fuse clip
are located
in
the
bottom-right
of
the
pedestal, as shown
in
Fig. 1-3. Fuse size
is
indicated on
the
transformer
shield,
and
the
wiring instructions are
contained
on
the
inside
of
the
front
cover. Wiring instructions are repeated
in
Fig. 1-4
for convenience. Fuse size
is
2 A slo-blo for 110-volt
operation and
1.25
A slo-blo for 220-volt
operation.
When
changing fuses,
the
fuse should be pushed (rather than
pulled) through
the
fuse holder.
I
WARNING
I
Dangerous potentials exist
at
several places in the
pedestal. Disconnect the Terminal from the power
source before changing transformer connections.
INDICATORS
AND
CONTROLS
General
With the exception
of
the
Power switch and
the
Hard
Copy Intensity
adjustment
knob,
the
indicators and
controls are located
on
the
keyboard section of
the
display
unit,
as
shown
in
Fig. 1-5. The Power switch
is
located on
the
upper
right corner
of
the
pedestal, immediately below
the
display unit. The Hard Copy Intensity
adjustment
knob
is
on
the
right side
of
the
display unit.
REV.
B,SEPT.1975
8 0
o
o
o
Ll
4
0---
o
o
L2
10---
8 0
o
o
o
II
4
0---
o
o
1 o-~
Indicators
Power lamp
Indicator 1
Indicator 2
Switches
Power
LOCAL/LINE
®
LINE
CORD
ALWAYS
ATTACHED TO 1 & 4
VOLTAGE
+
10"70
Installation and
Operation-4010
Maintenance
JUMPER ARRANGEMENT
100 110 120
200 220
240
TERMINAL
NO.
1-8
1-2
1-7
5-8
2-3
6-7
4-5
4-3 4-6
TWO
JUMPERS REQUIRED
ONE
JUMPER
REQUIRED
(A)
Below serial
number
B020256.
JUMPER
ARRANGEMENT
LINE
CORD
ALWAYS
ATTACHED TO 1 & 4
VOLTAGE
+
10"70
100
115
120
200 220 230 240
TERMINAL
NO.
1-8
1-2 1-7
5-8
5-7
2-3
6-7
4-5
3-4
4-6
TWO
JUMPERS REQUIRED
ONE
JUMPER REQUIRED
(B)
Serial
number
B020256 and above.
Fig. 1-4. Transformer terminals
and
jumper
arrangement.
Illuminated by
the
+5 V supply
when
the
Power switch
is
turned
on.
Multiple use lamps whose functions
are determined by
the
accessories
and optional
equipment
used with
the
Terminal.
Applies power
to
the
Terminal.
Located
at
the
top-right corner on
the
front
of
the
pedestal.
A two-position rocker switch.
LOCAL position isolates
the
Ter-
minal from
the
computer
and
permits keyboard inputs
to
be
displayed or otherwise executed by
the
Terminal. LINE position per-
mits communication with
the
computer,
and keyboard inputs are
not
displayed
or
otherwise exe-
cuted
by
the
Terminal unless
echoing
is
being
done
by
the
Interface Unit,
modem,
or
computer.
Switch 1
Switch 2
Switch 3
Adjustments
Hard Copy
Intensity
Thumbwheels
Two-position rocker switches
whose functions are determined by
the
accessories and optional equip-
ment
used with
the
Terminal.
A
momentary-type
switch which
is
labeled MAKE COPY on
the
4010-1.
If
a Hard Copy Unit
is
attached
to
the
4010-1,
the
switch
initiates making
of
a hard
copy
of
the
Terminal display.
An
adjustment
knob located on
the
right side
of
the
Display Unit
on
4010-1 Terminals. For hard
copy
operation,
turn
the
control up
to
the
point
where
the
Hard Copy
Unit scanning signal stores on
the
4010-1 screen;
then
back
off
the
adjustment
to
a
point
just below
the
storing level.
These are located on
the
right side of
the
keyboard
section. They position
the
crosshair cursor which
is
displayed
in
Gin (Graphic Input) Mode.
1-3
Installation and
Operation-4010
Maintenance
Reserved
for
Accessories
or
Options
Indicator
Indicator Switch Switch
No. 1 No. 2 No. 1
No_
2
Space
Bar
Fig_
1-5.
4010
Keyboard section.
NOTE
Switch
No.3
This
switch
is labeled
"MAKE
COpy"
on
4010-1
Cross-hair
Cursor
Controls
Keyboards with SN B055575 and up
will
not
have
the
TTY
codes (WRU, TAPE,
.:r-AflE-,
TAB, X
OFF,
EaT,
and
FORM) on the keycaps.
The
'FORM'
label over the
'L'
is
replaced
by
/. Both keyboards function in the
same
manner.
Keys
The keyboard (shown
in
Fig. 1-5)
is
a TTY-type and
is
similar
to
a
typewriter
keyboard. It
is
designed
for
single
key
entry,
dual key
entry,
and triple key
entry.
These are
explained
in
the
following paragraphs.
Single
Key
Entry
PAGE
ALT MODE
LINE FEED
'-4
Causes transmission
of
ASCII-coded
characters as
i"dicated
on
the
indi-
vidual keys, with exceptions
as
listed here. Where
two
characters
are shown
on
the
key,
the
lower
one applies.
All
letters are
sent
as
upper
case.
Does
not
cause transmission,
but
erases
and
resets
the
Terminal
to
Alpha Mode,
at
home
position.
Sends
the
ASCII code for closing
brace.
Sends
the
ASCII-coded control
character
LF.
RETURN
CTRL
RUB
OUT
RESET
BREAK
SHIFT
Space Bar
Sends
the
ASCII-coded control
character
CR.
Has
no
effect
when used alone.
Used for dual key and triple key
entry.
Sends
the
ASCII
code
for DEL.
Does
not
cause transmission,
but
resets
the
Terminal
to
Alpha Mode,
home
position.
Sends an
interrupt
signal
to
the
interface unit.
The
signal
sent
to
the
computer
is
interface
dependent.
Resets
the
display from hold
to
view
status
in
Alpha Mode. Has no
other
effect
when used alone. Used
for dual key and triple key
entry.
Transmits ASCII-coded SP signal.
REV.
B,
APR.
1976
Dual Key
Entry
Using
SHIFT
Key
The
Shift
key can be used with
any
one
of
a
number
of
other
keys.
The
ASCII-coded characters
sent
are
then
as indicated
on
the
upper
section
of
the
keys
as
shown in Fig.
1-5.
E,
R,
T,
I,
S,
D,
and
L are
exceptions
to
this.
The
SHIFT
L
key
combination
sends
the
ASCII
code
for
a reverse slant line.
SHIFT
plus
any
of
the
following keys
sends
the
same
character
as
the
key
alone: E, R,
T,
I,
S,
and
D;
the
name
on
the
upper
portion
of
these
keys refers
to
the
TTY
name
for
the
code
which
is
sent
when
the
key
is
used with
the
CTR L key.
Dual Key
Entry
Using CTRL Key
The
CTRL key can be used with
anyone
of
the
alphabet
keys
to
change
their
transmitted
code
to
that
required
for
ASC
II
control
characters.
The
keys are
shown
in
Fig. 1-5,
and
listed in Table
1-1
along with
the
ASCII-coded
character
that
is
sent
when
the
key
is
pushed
while
the
CTRL
key
is
held
down.
Triple Key
Entry
Certain ASCII
control
character
codes require
that
the
CTRL
and
SH I
FT
keys
both
be held
down
before
they
can be
transmitted
in
response
to
pressing a
third
key.
The
key
combination
and
resultant
characters are as listed in Table 1-2.
OPERATING MODES
General
Normal
operation
of
the
Terminal
is
achieved with
the
keyboard
LOCAL/LINE switch
at
LINE position.
The
following
operations
are
then
possible:
®
Transmitting
-ASCII-coded
data
is
transmitted
to
the
computer
as
entered
at
the
keyboard.
Receiving -Alpha Mode causes
alphanumeric
char-
acters
to
be
written
as
received;
control
characters are
executed
as received; Terminal goes
into
a reduced
intensity
status
(Hold)
after
approximately
90
seconds
of
inactivity; Terminal returns
to
View
status
upon
keyboard
entry
or
upon
receipt
of
data
from
the
computer.
Graph Mode causes received
data
to
be
interpreted
as specific addresses
for
the
X
and
Y registers
within
the
Terminal, resulting in moving
the
display
unit
beam
to
specific positions;
the
basic address positions
are shown in Fig. 1-6. Control characters are
executed
as
received.
Installation
and
Operation-4010
Maintenance
TABLE 1-1
Dual Key
Combinations
vs ASCII
Control
Characters
Key ASCII
Combination
Character
Comment
CTRLA
SOH
CTRL
B STX
CTRLC
ETX
CTRL
D EOT
CTRL
E (WRU) ENO WRU =Who are
you?
CTRL
F ACK
CTRLG
BEL
CTRL
H
BS
CTRL
I (TAB) HT TAB =Horizontal
Tab
CTRLJ
LF
CTRL
K VT
CTRL
L (FORM) FF FORM =Form Feed
CTRL
M CR
CTRL
N SO
CTRLO
SI
CTRLP
DLE
CTRLO
DCl
CTRL
R (TAPE) DC2
Commonly
used
to
start
a
tape
punch
unit.
CTRL
S
(X
OFF)
DC3
X
OFF
= Transmission Off.
Commonly
used
to
stop
a
tape
reader unit.
CTRL
T (T;8;PE)
DC4
Commonly
used
to
stop
a
tape
punch
unit.
CTRL
U NAK
CTRL
V SYN
CTRLW
ETB
CTRLX
CAN
CTRL
Y
EM
CTRL
Z SUB
TABLE 1-2
Triple Key
Combinations
vs ASCII
Control
Characters
Key
Combination
Character
CTRL
SHIFT
K ESC
CTRL
SHIFT
L FS
CTRL
SHIFT
M GS
CTRL
SHIFT
N RS
CTRL
SHIFT
0
US
CTRL
SHIFT
P NUL
1-5
Installation
and
Operation-4010
Maintenance
•
ox,
780Y
512X,
390Y
(Center)
1023X,
780Y
•
Y
axis •
•
OX,OY
1023X,
OY
•
X axis
..
Fig. 1-6. Basic address positions
on
the
display screen.
Interactive -Graphic
Input
(Gin) Mode causes
the
Terminal
to
automatically send its
status
and/or
the
address
of
the
display beam
to
the
computer
in
response
to
commands
from
the
computer.
A crosshair cursor
may be displayed
in
Gin Mode
as
a
preparatory
status.
Local
operation
occurs when
the
keyboard LOCAL!
LINE switch
is
placed
in
the
LOCAL position.
The
Terminal
is
then
isolated from
the
computer
and keyboard
entries are displayed
or
otherwise
executed
by
the
Ter-
minal.
4010-1 Terminals have a Hard Copy Mode which permits
a hard
copy
reproduction
of
the
display
to
be made if a
Hard Copy Unit
is
connected
to
the
Terminal.
The
mode
can be initiated by
computer
command,
by a MAKE COPY
key on
the
Terminal keyboard,
or
by
a switch on
the
Hard
Copy Unit.
Transmitting
If
the
keyboard switch
is
at
LI
NE position,
data
entered
at
the
keyboard
is
transmitted
in
ASCII-coded form
to
the
computer.
The keyboard generates an eighth bit which
is
always
either
high or low, depending
upon
a
strap
option
in
the
keyboard. This may be sent
as
set
at
the
keyboard, or
may be determined by
the
interface unit.
Except
for closing
brace (ALT MODE)
or
DEL (RUBOUTl,
the
keyboard
is
not
capable
of
sending
data
from
the
last
two
columns on
the
right
in
the
ASCII code
chart
shown
in
Fig. 1-7.
Receiving
General. The Terminal receiving circuits are essentially
divorced from
the
keyboard and transmitting circuits while
the
keyboard switch
is
at
LINE position. Data
is
then
'-6
received
as
a result of transmission from
the
computer,
including
data
being echoed by
the
computer
or
modem.
However,
data
entered
at
the
keyboard
is
applied
to
the
receiving circuits if an ECHO signal
is
being asserted by
the
interface unit. ECHO
is
controlled by a switch or a strap
option,
depending
upon
the
type
of
interface.
The
ECHO
signal creates a situation referred
to
as echoplexing.
The
Terminal response
to
signals
thus
received
is
essentially
the
same
in
either case, and
depends
upon
the
operating mode.
Alpha Mode. The Alpha Mode
is
the
initial
condition
of
the
receiving circuits.
In
addition,
it
occurs
in
response
to
receiving a US, CR, or
ESC
FF. It
is
also initiated by
entering PAGE
or
RESET
at
the
keyboard. A pulsating
cursor indicates
the
writing position
of
the
next
character.
Alphanumeric characters are
written
on
the
display screen;
control characters are
executed
by
the
Terminal. Lower
case characters are written
as
upper
case; Grave Accent
(opening single
quotation
mark)
is
written
as
Commercial
At; and Opening Brace
is
written as an Opening Bracket.
Space causes spacing
only.
The
4010
does
not
respond
to
Vertical Line, Closing Brace,
or
Overline (Tilde).
Rubout
(DEL)
is
accepted and
sent
as
a
character,
but
does
not
cause a space
or
print. Control characters and control char-
acter sequences cause effects
as
listed
in
Table 2-1. Op-
tional accessories may respond
to
other
commands
or
se-
quences
as
determined by
the
optional accessory. Refer
to
Table 2-2 for a listing
of
Alpha Mode specifications.
Graph
Mode_
Control
character
GS
puts
the
Terminal
in
Graph Mode.
Then
the
Terminal
draws vectors (either
written or
unwritten)
in response
to
graphic address inputs
as
explained
in
Tables 2-4 and 2-5. The Terminal can still
respond
to
control
characters and
control
character
se-
quences
as
explained
in
Table 2-1. Graph Mode ends
and
Alpha Mode occurs
upon
receipt
of
control
characters US,
CR, or
control
character
sequence ESC
FF.
Graph Mode
also ends
upon
receipt
of
ESC SUB, which sets Gin Mode
and
displays
the
crosshair cursor. Graph Mode can also be
ended
by pressing PAGE
or
RESET
at
the
keyboard. Refer
to
Table 2-3 for Graph Mode specifications.
Interactive
Gin Mode. Gin Mode occurs
in
response
to
receipt
of
ESC ENQ
at
any
time
the
Terminal
is
"on
line". It also
occurs
in
response
to
an ESC SUB which
turns
on
the
crosshair cursor.
ESC
SUB should
not
be
entered
at
the
keyboard
while
"on
line"
because immediate and erroneous
transmission may occur. Receipt
of
ESC ENQ while
in
Alpha Mode results
in
immediate transmission
of
the
Terminal
status
and
the
address
of
the
point
at
the
lower
left
corner
of
the
Alpha cursor.
CR
or
CR and EOT will
automatically
be
transmitted
immediately
after
the
address,
if selected by a strap
option
on TC-2. (EOT can
not
be
sent
®I
Installation and
Operation-4010
Maintenance
ASCII
CODE
fUNCTIONS
B
B7
JJ
",
JJ
JJ
1 1 1 1
I B6
",
~
1 1
fJ fJ
1 1
T B5
If
1
fJ
1 B 1
JJ
1
S
HIGH
X &Y
B4 B3
CONTROL
GRAPHIC
INPUT
LOW
X
LOWY
B2
B1
1 16 32 48 64
8.
96 112
fJ
JJ
fJ
If
NUL
DLE
SP
~
@ P \ P
1 17 33
49
65
81
97 113
fJ fJ
~
1
SOH
DC1
! 1 A Q a q
2 18 34 50 88 82 98 114
fJ
~
1
fJ
STX
DC2
" 2 B R b r
3 19 35
51
67 83 99 115
fJ
fJ
1 1
ETX
DC3
# 3 C S c S
4
2"
36 52 68 84
1/1/1
116
If 1
~ ~
EOT
DC4
$ 4 D T d t
5
21
37 53 69 85 1,,1 117
fJ
1
fJ
1
ENQ
NAK
% 5 E U e u
6 22 38 54
7/1
86 112 118
JJ
1 1 B
ACK
SYN
& 6 F V f v
7 23 39 55
71
87
1/13
119
fJ
1 1 1
BEL
ETB
I 7 G W 9 w
.
BELL
8 24 40 56 72 88
1"4
121
1
fJ
~
~
BS
CAN
( 8 H X h X
BACKSPACE
9 25
41
57 73 89
1"5
121
1
fJ
fJ
1
HT
EM
) 9 I V i Y
1_ 26 42 58 74
9/1
1/16
122
1 If 1
fJ
LF
SUB
* · J Z j z
·
11
27 43 59 75
91
1/17
123
1
fJ
1 1
VT
ESC
+ · K [ k {
,
12 28 44 60 76 92
1"8
124
1 1 S B
FF
FS
< L \ I I
, •
13 29 45
61
77 93
1.9
125
1 1 B 1
CR
GS
--M ] m }
-
RETURN
14
31
46 62 78 94
1111'
126
1 1 1 B
SO
RS
. > N
/\
n
~
15
31
47 63 79 95 111 127
1 1 1 1
SI
US
/ ? 0 0 RUBOUT
-(DEL)
Fig. 1-7. ASCII
Code
Chart.
REV.
B,
SEPT.
1975
1-7
Installation
and
Operation-4010
Maintenance
without
CR.) Echoplexing
is
suppressed
during
Gin Mode.
Gin Mode
ends
upon
completion
of
transmission. If CR
is
transmitted
during Gin Mode AND
is
echoed
by
the
computer,
the
Terminal will
return
to
full
Alpha
Mode
upon
completion
of
the
transmission.
If
CR
is
not
echoed,
the
Terminal
must
be reset by
one
of
the
following
before
character
writing can
occur:
BEL, BS,
CR,
ESC ETB, ESC
FF,
HT, LF, US,
or
VT.
Note
that
if CR
is
echoed,
or
if
any
command
affecting
the
display position
is
sent
to
the
Terminal,
it
will cause
the
cursor
to
move away from
the
position which was referenced
in
Gin Mode; use BEL
or
US
if
the
display
position
is
to
be
left
undisturbed.
Receipt
of
ESC ENQ while in Graph Mode also causes
Gin Mode, sending
the
Terminal
status
and
address
of
the
Graph Mode beam position
to
the
computer.
The
computer
or
modem
may
not
echo
Gin Mode
data
back
to
the
Terminal if Graph Mode
and
beam
position
are
to
be
retained
after
an ESC ENQ. (CR
echoed
will reset
the
Terminal
to
Alpha Mode, and will move
the
cursor
to
the
left margin; echoing
the
status
and address bytes will
change
the
beam address
to
a
point
different
from
that
sent
to
the
computer.)
Gin Mode
ends
automatically
upon
completion
of
transmission,
and
the
Terminal
returns
to
full Graph Mode
if
CR
is
not
echoed.
Receipt
of
ESC SUB sets Gin Mode
and
turns
on
the
crosshair
cursor
as a
preparatory
step
in
transmitting
an
address
to
the
computer.
The
thumbwheels
(located
on
the
keyboard)
can
be used
to
position
the
crosshair
cursor
anywhere
in
the
display area.
The
address
at
the
crosshair
intersection
is
sent
to
the
computer
in
response
to
an ESC
ENQ from
the
computer,
or
in
response
to
entry
of
any
keyboard
character.
The
Terminal
returns
to
full Alpha
Mode
upon
completion
of
transmission if CR
is
sent
and
echoed.
If
CR
is
not
echoed,
one
of
the
following
must
be
sent
before
the
Terminal can again
write:
BEL, BS, CR,
ESC ETB, ESC
FF,
HT, LF, US,
or
VT. Refer
to
Table 2-6
for
Gin Mode specifications.
Local
Operation
with
the
LOCAL/LIN E switch
at
LOCAL
is
much
the
same as just described
for
LINE
operation.
However,
the
following
exceptions
exist: (1)
The
Terminal
is
isolated
from
the
computer;
(2)
data
entered
at
the
keyboard
while
in
Alpha Mode results in writing
or
executing
data
at
the
Terminal;
(3)
data
entered
at
the
keyboard
while in Graph Mode results in drawing vectors
or
executing
control
characters
at
the
Terminal;
(4)
the
crosshair
cursor
appears in response
to
CTRL
SH
1FT K
and
CTR L Z, and can be
positioned
by
the
thumbwheels
-
but
it
can
only
be removed
by
entering RESET
or
PAGE.
1-8
FIRST-TIME
OPERATION
This
operation
procedure
is
intended
to
acquaint
a user
with
the
operating
features
of
the
Terminal.
It
can also be
used as a Terminal
check-out
procedure.
Although
the
Terminal
is
not
connected
to
a
modem
or
computer,
all
modes
are exercised.
Computer
echoing
is
simulated by a
local
echo
feature. Responses are
explained
for
all
options.
Preliminary
The
Terminal
should
not
be
connected
to
a
power
source,
modem,
or
computer
at
this
time.
line
Voltage. If
the
Terminal
is
being initially installed,
check
that
the
line voltage agrees with
the
voltage
written
on
the
tag which
is
attached
to
the
Terminal.
If
it does
not,
remove
the
front
cover
of
the
pedestal
after
removing
the
screws, and change
the
transformer
wiring
and
fuse size so
that
they
agree with
the
power
source. Wiring
instructions
appear
inside
the
pedestal cover; fuse sizes are
written
on
the
transformer
cover plate.
The
tag
information
should
be
changed
when
the
wiring
is
changed.
Replace
the
front
cover.
Power. Plug
the
power
cord
into
the
power
source
and
turn
the
Terminal Power switch ON.
The
switch
is
located
on
the
front
at
the
top
of
the
pedestal, just
below
the
display
unit.
Power
lamp.
Check
that
the
Power lamp
on
the
left
of
the
keyboard
illuminates,
and
the
display screen
becomes
bright.
Data
Transmission. With
the
keyboard
switch
at
LINE,
keyboard
data
is
sent
to
the
computer.
It goes
to
the
Terminal receiving circuits
only
if
it
is
presented
to
them
by
one
of
the
following
methods:
(1) Echoed by
the
computer
or
modem;
(2) Echoed
by
the
Terminal's
interface
unit.
With
the
keyboard
switch
at
LOCAL,
the
Terminal
is
isolated
from
the
computer;
data
entered
at
the
keyboard
is
applied
to
the
Terminal receiving circuits in a
manner
similar
to
that
which occurs
when
the
keyboard
switch
is
at
LINE and
the
interface
unit
is
echoing
data.
LOCAL
provides a dual advantage. It
permits
an evaluation
of
the
data
being
transm
itted
by
the
keyboard,
and
at
the
same
time
tests
the
Terminal receiving circuits.
For
these reasons,
LOCAL
operation
is
used
for
most
of
this
procedure.
Discrepancies
between
LOCAL
and
LINE
operation
are
mentioned
wherever
they
occur.
IT
SHOULD BE
KEPT
IN
MIND
THAT
THE
KEYBOARD'S
PRIMARY
FUNCTION
IS
TO
ACT
AS
A SOURCE FOR THE COMPUTER; THE
RECEIVING CIRCUIT'S
PRIMARY
FUNCTION IS
TO
®I
RESPOND
TO
DA
TA
FROM THE COMPUTER; THE
KEYBOARD
IS SIMPL Y BEING USED
AS
A SOURCE OF
DATA
FOR THE RECEIVING CIRCUITS WHILE
IN
LOCAL OPERA TlON.
Initialization
Press
the
PAGE key
to
erase
the
display screen. The
screen
must
be initialized by erasing it each
time
the
Terminal
is
turned
on.
PAGE also selects Alpha Mode and
places
the
beam
at
the
upper-left
corner
of
the
display
(Alpha Mode
"home"
position).
Alpha Mode
Character Transmission and
Character
Effect. Press each
key
in
the
keyboard cluster and note
the
effect. Most of
them
will cause
character
writing, permitting a
check
of
the
code being transmitted by
the
keyboard and a check
of
the
dot
pattern
being presented by
the
character
generator
in
the
receiving circuits. Keys which are an exception
to
this
are
as
follows:
PAGE-Causes
no transmiSSion. A direct
connection
to
the
receiving circuits causes Alpha Mode
to
be
selected. It also causes erasing and places
the
Alpha
cursor
to
the
top-left
corner
of
the
display (Alpha Mode
"home"
position).
ALT
MODE-Causes
neither writing nor spacing,
although
the
keyboard transmits
the
ASCII
character
for
closing brace.
LINE
FEED-Transmits
the
control
character
LF.
At
the
receiving circuits, LF causes
the
Alpha cursor
to
move
down
to
the
next
line. The cursor may also move
to
the
left margin if
the
"LF
Causes Carriage
Return"
strap
option
on
TC-1
is
at
IN
position.
RETURN-Transmits
the
control
character
CR.
At
the
receiving circuits, it causes
the
Alpha cursor
to
move
to
the
left margin. There are
two
"left"
margin
positions. One
is
vertically aligned with
the
"home"
position and
is
referred
to
as
"Margin
~".
The second
is
near
the
horizontal
center
of
the
screen, and
is
referred
to
as "Margin 1
".
Margin 1
is
automatically selected each
time
the
Terminal line-feeds past
the
35th
(last) line
while Margin
~
exists. Margin
~
is
selected when
the
Terminal line-feeds past
the
35th
line while Margin 1
exists, and
is
also selected when ESC FF
is
received or
when PAGE
or
RESET
is
entered
at
the
keyboard.
®I
CTR
L-Has
no
effect
as
a single key
entry.
It causes
the
keyboard
to
transmit
control
characters when used
Installation and
Operation-4010
Maintenance
with
other
keyboard keys. For example, entering a G
while
the
CTRL key
is
held
down
rings
the
bell, since it
transmits
the
control
character BEL; and
the
receiving
circuits
accept
that
as
the
command
to
ring
the
bell.
As
a
second example, holding
down
CTRL and
SHIFT
and
pressing K transmits
the
control
character
ESC. No
reaction
is
evident
at
the
Terminal, since
the
receiving
circuits recognize it as an arming
command,
and
wait
for
a second
command
before
they
act. Now
enter
CTRL L
and note
that
the
control character FF
is
transmitted,
accepted by
the
receiving circuits, causes
the
display
to
erase and
the
Alpha cursor
to
go
home.
FF alone
cannot
do
it. It
must
be preceded immediately by ESC. A
complete
listing
of
control
character effects appears
in
Table 2-1.
RUBOUT
-This
key sends
the
ASCII
code
for DEL.
The
receiving circuits
accept
it,
but
it causes no spacing,
writing.
RESET
-Causes
no transmission. A direct
connection
to
the
receiving circuits causes Alpha Mode
to
be
selected and causes
the
Alpha cursor
to
move
to
the
home
position.
BREAK-Sends
a break signal
to
the
interface unit,
which may
then
transmit
a break signal
to
the
computer.
Has no
effect
upon
the
receiving circuits.
SH
IFT
-Its
only
effect
as
a single key
entry
is
to
restore View
condition
without
otherwise affecting
transmission or
the
receiving circuits. When used with
other
keys, it causes
the
shifted (upper)
character
to
be
transmitted
as
indicated on each key. Exceptions
to
this
occur
on
the
E, R,
T,
I,
S,
D,
and L keys, where
the
upper
inscription indicates
the
TTY
character
which
is
sent
when
those
keys are pressed while CTRL
is
held
down.
Except
for
L,
those
keys send
the
same character
while
the
SHIFT
key
is
held
down
as
they
do
when
pressed alone. The L key sends a reverse slant line
if
pressed while
the
SHIFT
key
is
held
down.
Automatic
Line Feed and Carriage
Return.
By
now, it
probably has been noticed
that
the
Terminal receiving
circuits automatically
perform
a carriage
return
and line
feed each time
the
last (74th)
character
in
a line
is
written.
If
it
hasn't
been
noticed,
enter
a full line of characters
and
observe
the
effect. Note
that
the
Alpha Cursor returns
to
the
effective margin
position-Margin
aor Margin 1.
Margins. Enter a PAGE
command
and
note
the
cursor
position
at
the
left edge
(Margin~)
of
the
display. Enter
LINE FEED
commands
until
the
cursor disappears past
the
bottom
of
the
display screen, and
note
that
it re-appears
at
1-9
Installation and
Operation-4010
Maintenance
the
top-center of
the
display, in Margin 1 position. Enter
enough LINE FEED commands
to
again send
the
cursor
past
the
bottom
of
the
display; it will re-appear
at
the
top
in
Margin
~
position. THE EFFECTIVE
MARGIN
CON-
DITION
CHANGES EACH TIME THE DISPLAY
LlNE-
FEEDS PAST THE
LAST
(35TH) LINE.
Again arrive
at
the
Margin 1 position and
enter
several
SP characters
at
the
Space bar. Then
enter
CTRL M
to
send
a
CR
to
the
receiving circuits. Note
that
the
cursor returns
to
the
effective margin position,
in
this case Margin 1. Now
enter enough characters
to
space past
the
end
of
the
line.
Note
that
the
cursor returns
to
Margin 1. CR, RETURN,
OR
AUTOMATIC CARRIAGE RETURN SET THE
CURSOR BACK
TO
THE EFFECTIVE
MARGIN
POSITION.
Press RESET
to
set Margin
~.
Now
enter
characters until
they
cause spacing past
the
end
of
the
line and subsequent
line feed and carriage return. Note
that
character writing
ignores Margin 1 position or Margin 1 information while
Margin t exists.
If
two-column formatting
is
to
occur,
Margin
~
information must be
kept
to
36
characters
or
less.
View/Hold. Wait
about
90
seconds and note
that
the
Terminal automatically enters a reduced intensity condition
referred
to
as
Hold. This condition prolongs
tube
life, and
occurs
in
Alpha Mode only. Therefore,
the
Terminal should
always be placed
in
Alpha Mode when energized,
but
not
in
use.
Graph Mode
Note the position of
the
Alpha Cursor. Then send
GS
(CTRL SHIFT
M)
to
the
receiving circuits and
note
that
the
Alpha cursor disappears. Send
the
address 383Y, 512X
to
place
the
beam near
the
center
of
the
screen. The required
bytes can be determined from Fig. 1·8 through 1-11. They
equate
to
+
DE
L
~
@
in
ASCII code. Enter + RUBOUT
~
@
at
the
keyboard. (RUBOUT transmits DEL.)
Unwritten Vector. No obvious results occur
in
response
to
the just·entered commands, because it
is
the
first address
to
be received after a GS, and the beam
is
blanked while
the
movement occurs.
Written Vector. Enter @ again. It will execute a second
vector, which
will
be written. This vector appears
as
a
dot
near
the
center of
the
screen, since no change
in
position
was commanded. (The @ contains
the
code for a Low X
byte, which causes vector execution.) Now send
the
address
for 32Y, 32X. This equates
to
SP DEL SP _ and
is
entered
at
the
keyboard
as
SP RUBOUT SP _
to
draw
the
vector.
Note
that
nothing happens until
the
Low X (last)
command
1-10
is-entered,
but
then
a vector
is
drawn from
the
center
to
the
lower left corner.
Resetting With US. Now go back
to
Alpha Mode,
without
otherwise disturbing
the
receiving circuits, by
sending a
US
to
the
Terminal. Do it by entering a CTRL
SHIFT 0
at
the
keyboard. Note
that
the
Alpha cursor
appears with its lower left corner
at
the
end
of
the
vector,
since
US
causes no change
in
the
Terminal position'register
contents. Now send ten SP commands
to
the
Terminal by
pressing
the
keyboard Space bar. Note
that
the
cursor
moves away from
the
end
of
the
vector.
Graph Memory.
Put
the
Terminal back in Graph Mode
by sending it a
GS
(CTRL SHIFT M). Then send the same
Low X command
as
was last used, by again entering _
at
the
keyboard. The beam
will
move unseen back
to
the
end
of
the
vector because of
the
Graph Mode memory circuits.
This can be confirmed by entering a second _
at
the
keyboard,
to
again send the Low X command
to
the
receiving circuits. Note
that
the
same Low X command
as
contained
in
the
last address must be used, or
the
beam
position will differ by
the
amount
of difference between
the
two
Low X bytes.
Resetting With CR. Now switch from Graph Mode
to
Alpha Mode by sending a
CR
to
the receiving circuits. This
can be
done
by pressing
the
RETURN key or entering a
CTRL M
at
the keyboard. This places
the
Alpha cursor
at
the
left margin,
in
line with
the
last graphic position
of
the
beam.
Resetting With
ESC
FF.
Send a
GS
to
the
receiving
circuits by entering a CTR L
SH
I
FT
M
at
the
keyboard.
Enter
two
_ commands
to
confirm
that
the
Terminal
is
back
in
Graph Mode, and
is
at
the
end of
the
drawn vector.
Then send an
ESC
FF sequence
to
the
receiving circuits. Do
this by entering CTR L
SH
1FT
K and then CTR L
L.
Note
that
this erases
the
display, selects Alpha Mode, and homes
the
Alpha cursor. This can also be
done
locally by pressing
the
PAGE key, regardless
of
the position of
the
LOCAL/LINE switch.
Resetting With RESET. Send
another
GS
(CTRL SHIFT
M)
to
the
receiving circuits,
enter
_
to
return
to
the last
graphic address, and then draw a vector
to
32Y,
1023X.
This translates
to
SP DEL ? _ which can be sent by
entering SP RUBOUT ? _ at
the
keyboard. Now press
the
RESET key
at
the
keyboard. Note
that
the
Alpha Mode
is
restored, and the Alpha cursor appears
at
the
top
left
corner
of
the
screen. No erasing occurs. This particular
operation can only be accomplished from
the
keyboard. No
program command equivalent
to
RESET can be sent.
®I
Shortened
Addresses.
The
sequence
in
Table 1-3
illustrates
the
ability
of
the
receiving circuits
to
respond
to
various graphic
commands
of
less
than
four
bytes.
The
missing bytes remain
as
sent
in
the
last address which
contained
them.
Table 2-5 specifies
the
minimum bytes
that
can be
sent
in
anyone
situation.
TABLE 1-3
Shortened
Address Illustration
Send
Address &
Comment
ASCII Keyboard
543Y,
543X.
(I
nitial
flDEL'1_
fif'
RUBOUT fif'-
address; send 4 bytes.)
543Y, 512X.
(Lo X @ @
changes; send only Lo
X,)
541Y,
512X.
(Lo Y ) @ ALTMODE@
changes; send Lo Y, Lo
X.)
29Y,
512X.
(Hi
Y
SP@ SP@
changes; send
Hi
Y, Lo
X.)
29Y,
OX.
(Hi
X )
SP@
ALTMODE SP @
changes; send Lo Y,
Hi
X, Lo X,)
543Y,
OX.
(Hi
Y and
fif'
DEL @ oRUBOUT@
Lo Y change; send
Hi
Y, Lo Y, Lo X.)
31Y,
543X.
(Hi
Y,
Hi
SP
DELfif'_
SP
RUBOUT fif'-
X, and Lo X change;
send
four
bytes.)
View/Hold.
The
Hold feature
is
over-ridden while
the
Terminal
is
in
Graph Mode.
The
Terminal should always be
returned
to
Alpha Mode when energized,
but
not
in
use.
Gin Mode
Crosshair Cursor. Enter CTRL
SHIFT
K and CTRL Z
and note
that
a crosshair cursor appears. (If
the
horizontal
thumbwheel
is
in
either limit,
the
vertical line may be
the
only line
to
appear; with
the
vertical
thumbwheel
at
the
lower limit,
the
horizontal line may be
the
only line
to
appear. Move
both
thumbwheels
out
of
their
limits
to
present
both
lines.) Check
that
the
cursor can be moved via
the
thumbwheels. Press any key
except
PAGE
or
RESET
and note
that
they
have no effect. Press PAGE
or
RESET
and
note
that
the
crosshair cursor disappears and
the
Alpha
®
Installation
and
Operation-4010
Maintenance
cursor returns. THE RECEIVING CIRCUITS
ARE
IN-
SENSITIVE
TO
SIGNALS FROM THE KEYBOARD
WHILE
IN
LOCAL WITH THE CROSSHAIR CURSOR
DISPLA
YED.
IT
SHOULD ALSO BE NOTED
THAT
THE
CROSSHAIR CURSOR CANNOT BE CALLED INTO
VIEW
BY
THE KEYBOARD WHILE ON
LINE;
IN
NORMAL
OPERA
TlON,
AN
ESC
SUB FROM THE
COM-
PUTER COMMANDS
IT
TO
APPEAR.
Gin Mode Transmissions. These
cannot
be
demonstrated
with
the
keyboard switch
at
LOCAL position. Refer
to
the
Operating Modes information
at
the
beginning
of
this
section
and/or
refer
to
Table 2-6 for details concerning
"on-line"
Gin Mode
operation.
View/Hold. The Hold feature
is
disabled while
the
crosshair cursor
is
displayed. Therefore,
the
Terminal
should always be reset
to
Alpha Mode when energized,
but
not
in
use,
to
prolong
tube
life.
First Time Operation procedure has been
completed
for
a
4010
Terminal.
Continue
with
the
next
step only if a
4010-1 Terminal
is
being used.
Hard Copy Mode
This
mode
applies
to
4010-1 Terminals only. A Hard
Copy Unit
must
be
connected
to
the
Terminal and must be
energized before
the
Hard Copy Mode can be exercised.
Switch
the
Terminal's LOCAL/LINE
control
to
LOCAL.
Enter a
number
of
alphanumeric characters
at
the
keyboard
to
create a display.
Transmit
an ESC ETB signal
to
the
receiving circuits by
entering CTRL
SHIFT
K and
CTRL
W
at
the
keyboard.
(Pressing
the
MAKE
COpy
button
on
the
keyboard,
or
pressing
the
Copy
button
on
the
Hard Copy Unit will
achieve
the
same effects.) A scanning bar
shOUld
appear
and
scan
the
display. A few seconds
after
scanning
is
completed,
the
Hard Copy Unit should eject a hard
copy
of
the
display.
If
the
paper
is
blank,
or
if information
dropout
occurred,
the
Hard Copy Intensity
control
on
the
right side
of
the
Terminal may be set
too
low. On
the
other
hand,
if
the
scanning bar caused storing on
the
display,
the
Hard Copy
Intensity control may be set
too
high. Readjust
the
control
while
copy
making
is
occurring, selecting a
point
just below
that
where
the
scanning bar stores.
Then
press PAGE,
enter
more characters
on
the
display, and make
another
copy.
If
the
adjustment
was made properly, a clear
copy
of
the
display should result.
1-11
Installation
and
Operation-4010 Maintenance
Low
Order
X
ASCII
DEC.
@ 64 0
32
64
A
65
1 33
65
B 66 2 34 66
C
67
3
35
67
D
68
4 36
68
E
69
5
37
69
F 70 6
38
70
G
71
7
39
71
H 72 8 40
72
I 73 9
41
73
J 74
10
42
74
K 75
11
43
75
L 76
12
44 76
M
77
13
45
77
N 78
14
46
78
0 79
15
47
79
P 80
16
48 80
Q
81
17
49
81
R 82
18
50
82
S 83
19
51
83
T 84 20 52 84
U 85
21
53
85
V 86
22
54 86
W
87
23 55
87
X 88 24 56
88
Y 89
25
57
89
Z 90 26 58 90
[
91
27
59
91
\ 92
28
60 92
1 93
29
61
93
A 94 30
62
94
95
31
63
95
t
L-
32
33 34
SP
! "
Xor Y Coordinate
96
128
97
129
98 130
99
131
100
132
101
133
102
134
103
135
104
136
105
137
106 138
107
139
108
140
109
141
110
142
111
143
112
144
113
145
114 146
115
147
116
148
117
149
118
150
119
151
120
152
121
153
122
154
123
155
124 156
125
157
126
158
127
159
35
36
# $
High
Order X & Y
160
192
224
161
193 225
162
194 226
163
195
227
164 196 228
165
197
229
166
198
230
167
199
231
168
200 232
169
201
233
170 202 234
171
203 235
172
204 236
173 205 237
174 206 238
175
207
239
176 208 240
177
209
241
178
210 242
179
211
243
180 212 244
181
213 245
182
214 246
183 215
247
184 216 248
185
217 249
186 218 250
187
219
251
188
220 252
189
221
253
190 222 254
191
223 255
37
38
39
% & ,
Low
Order
y
ASCII
DEC.
, 96
a
97
b 98
c 99
d 100
e
101
f
102
g 103
h 104
i
105
j 106
k
107
I
108
m
109
n 110
0
111
p
112
q 113
r 114
s
115
t 116
u
1"17
v 118
w 119
x 120
y
121
z
122
{ 123
, 124
,
}
125
~
126
RUBOUT
WL)
127
t
Fig. l-S.
Coordinate
conversion
chart,
part
1
of
4. INSTRUCTIONS:
Find
coordinate
value in
body
of
chart;
follow
that
column
to
bottom
of
chart
to
find
decimal value
or
ASCII
character
which represents
the
High Y
or
High X
byte;
go
to
the
right in
the
row
containing
the
coordinate
value
to
find
the
Low
Y
byte,
or
go
the
left
to
find
the
Low X
byte.
EXAMPLE:
200Y,
4SX equals & h ! P in ASCII
code
and
also equals
3S
104
33
SO
in decimal
code.
.
1-12 REV. B, SEPT.
1975
low
Order
X
ASCII
DEC.
@ 64
A
65
B 66
C
67
D
68
E
69
F 70
G
71
H 72
I 73
J 74
K 75
L 76
M
77
N 78
0 79
P 80
Q
81
R 82
S 83
T 84
U 85
V 86
W
87
X 88
Y 89
Z 90
[
91
\ 92
J 93
A 94
95
-t L
256
257
258
259
260
261
262
263
264
265
266
267
268
269
270
271
272
272
274
275
276
277
278
279
280
281
282
283
284
285
286
287
40
(
X or Y Coordinate
288 320 352 384
289
321
353 385
290
322
354 386
291
323 355
387
292 324 356 388
293 325
357
389
294 326 358 390
295
327
359
391
296 328 360
392
297 329
361
393
298 330 362 394
299
331
363
395
300
332
364 396
301
333 365
397
302 334 366 398
303 335
367
399
304 336 368 400
305
337
369
401
306 338 370 402
307
339
371
403
308 340 372 404
309
341
373 405
310
342
374 406
311
343 375 407
312
344 376 408
313 345
377
409
314 346 378 410
315
347
379
411
316 348 380 412
317
349
381
413
318 350 382 414
319
351
383 415
41
42
43
44
) * +
High
Order X & Y
installation and Operation-4010 Maintenance
416 448 480
417
449
481
418 450 482
419
451
483
420 452 484
421
453 485
422 454 486
423 455 487
424 456 488
425
457
489
426 458 490
427 459
491
428 460 492
429
461
493
430 462 494
431
463 495
432 464 496
433 465
497
434 466 498
435
467
499
436 468 500
437
469
501
438 470 502
439
471
503
440 472 504
441
473 505
442 474 506
443 475 507
444 476 508
445
477
509
446 478 510
447 479
511
45
46
47
-/
low
Order
y
ASCII
DEC.
, 96
a
97
b 98
c
99
d 100
e
101
f
102
g 103
h 104
i 105
j 106
k
107
I
108
m 109
n 110
0
111
p
112
q 113
r 114
s 115
t 116
u
117
v 118
w 119
x 120
y
121
z
122
{ 123
, 124
,
} 125
~
126
RUBOUT
WL)
127
I
Fig. 1-9.
Coordinate
conversion
chart,
part
2
of
4.
(Refer
to
part
1
for
interpretation
instructionsJ
REV.
B, SEPT.
1975
1-13
Installation
and
Operation-4010 Maintenance
low
Order
X
ASCII
@
A
B
C
D
E
F
G
H
I
J
K
L
M
N
0
P
Q
R
S
T
U
V
W
X
Y
Z
[
\
1
A
-
t
DEC
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
L
512 544 576
513 545 577
514 546 578
515 547 579
516 548 580
517 549
581
518 550 582
519
551
583
520 552 584
521
553 585
522 554 586
523 555 587
524 556 588
525 557 589
526 558 590
527
559
591
528 560 592
529
561
593
530 562 594
531
563 595
532 564 596
533 565 597
534 566 598
535 567 599
536 568 600
537 569
601
538 570 602
539
571
603
540 572 604
541
573 605
542 574 606
543 575
607
48
49
50
0 1 2
X or Y Coordinate
608 640
609
641
610
642
611
643
612 644
613 645
614 646
615
647
616 648
617
649
618 650
619
651
620 652
621
653
622 654
623 655
624 656
625
657
626 658
627
659
628 660
629
661
630 662
631
663
632
664
633 665
634 666
635
667
636 668
637
669
638 670
639
671
51
52
3 4
High
Order X & Y
672
704 736
673 705 737
674 706 738
675 707 739
676 708 740
677
709
741
678 710 742
679
711
743
680 712 744
681
713 745
682 714 746
683 715 747
684 716 748
685 717 749
686 718 750
687
719
751
688 720 752
689
721
753
690 722 754
691
723 755
692
724 756
693 725 757
694 726 758
695 727 759
696 728 760
697
729
761
698 730 762
699
731
763
700 732 764
701
733 765
702 734 766
703 735 767
53 54 55
5 6 7
low
Order
y
ASCII
DEC.
, 96
a
97
b
98
c
99
d 100
e
101
f
102
g 103
h 104
i
105
j 106
k
107
I
108
m 109
n 110
0
111
p
112
q 113
r 114
5 115
t 116
u
117
v 118
w 119
x 120
y
121
z
122
{ 123
, 124
,
}
125
~
RUBOUT
126
~L)
127
t
Fig. 1-10.
Coordinate
conversion
chart,
part
3
of
4.
(Refer
to
part
1
for
interpretation
instructions.)
1-14
REV.
B, SEPT.
1975
Low
Order
X
ASCII
DEC.
@ 64
A
65
B 66
C
67
D
68
E
69
F 70
G
71
H
72
I 73
J 74
K 75
L 76
M
77
N 78
0 79
P 80
Q
81
R 82
S 83
T 84
U 85
V 86
W 87
X 88
Y 89
Z 90
[
91
\
92
1 93
1\
94
t
9L
768
769
770
771
772
773
774
775
776
777
778
779
780
781
782
783
784
785
786
787
788
789
790
791
792
793
794
795
796
797
798
799
56
8
X or Y Coordinate
800 832 864 896
801
833 865 897
802 834 866 898
803 835 867 899
804 836 868 900
805 837 869
901
806 838 870 902
807 839
871
903
808 840 872 904
809
841
873 905
810 842 874 906
811
843 875 907
812 844 876 908
813 845 877 909
814 846 878 910
815 847 879
911
816 848 880 912
817 849
881
913
818 850 882 914
819
851
883 915
820 852 884 916
821
853 885 917
822 854 886 918
823 855 887 919
824 856 888 920
825 857 889
921
826 858 890 922
827 859
891
923
828 860 892 924
829
861
893 925
830 862 894 926
831
863 895 927
57
58 59
60
9 , <
High
Order X & Y
Installation and Operation-4010 Maintenance
928 960 992
929
961
993
930 962 994
931
963 995
932 964 996
933 965 997
934 966 998
935 967 999
936 968 1000
937 969
1001
938 970 1002
939
971
1003
940 972 1004
941
973 1005
942 974 1006
943 975 1007
944 976 1008
945 977 1009
946 978 1010
947 979
1011
948 980 1012
949
981
1013
950 982 1014
951
983 1015
952 984 1016
953 985 1017
954 986 1018
955 987 1019
956 988 1020
957 989
1021
958 990 1022
959
991
1023
61
62
63
= > ?
Low
Order
y
ASCII
DEC.
, 96
a
97
b
98
c
99
d 100
e
101
f
102
9 103
h 104
i
105
j 106
k
107
I
108
m
109
n 110
0
111
p
112
q 113
r 114
s
115
t 116
u
117
v 118
w
119
x 120
y
121
z
122
{ 123
, 124
,
}
125
~
126
RUBOUT
127
~L)
Fig. 1-11.
Coordinate
conversion
chart,
part
4
of
4.
(Refer
to
part
1
for
interpretation
instructions.)
REV.
B, SEPT.
1975
1-15
Other manuals for 4010
1
This manual suits for next models
1
Table of contents
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