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Tektronix 7613 User Manual

Tektronix 7613
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Circuit
Description—-7613/R7613
Service
NOTE
Logic
symbols
used
on
the
diagrams
depict
the
logic
function
and
may
differ
from
the
manufacturer’s
data.
Logic
Polarity
All
logic
functions
are
described
using
the
positive
logic.
Positive
logic
is
asystem
of
notation
where
the
more
positive
of
two
levels
(HI)
is
called
the
true
or
1-state;
the
more
negative
level
(LO)
is
called
the
false
or
O-state.
The
HI-LO
method
of
notation
is
used
in
this
logic
description.
The
specific
voltages
which
constitute
a
Hi or
LO
state
vary
be-
tween
individual
devices.
NOTE
The
HI-LO
logic
notation
can
be
conveniently
con-
verted
to
1-0
natation
by
disregarding
the
first
letter
of
each
step.
Thus:
Hi=17
LO=0
Wherever
possible,
the
input
and
output
lines
are
named
to
indicate
the
functions
that
they
perform
when
at
the
HI
(true)
state.
For
example,
the
line
labeled,
“Display
B
Command”
means
that
the
B
Time-Base
unit
will
be
displayed
when
this
line
is
Hi
or
true.
Likewise,
the
line
labeled
“‘X-Compensation
Inhibit’
means
that
the
X-
Compensation
function
is
inhibited
or
disabled
when
this
line
is
HI.
Input/Output
Tables
Input/output
(truth)
tables
are
used
in
conjunction
with
the
logic
diagrams
to
show
the
input
combinations
which
are
of
importance
to
a
particular
function,
along
with
the
resultant
output
conditions.
This
table
may
be
given
either
for
an
individual
device
or
for
a
complete
logic
stage.
For
examples
of
input/output
tables
for
individual
devices,
see
Table
3-1.
Non-Digital
Devices
It
should
be
noted
that
not
all
of
the
integrated
circuit
devices
in
this
instrument
are
digital
fogic
devices.
The
function
of
non-digital
devices
will
be
described
indi-
vidually
using
operating
waveforms
or
other
techniques
to
illustrate
their
function.
MAIN
INTERFACE
Diagram
1
shows
the
plug-in
interface
and
the
intercon-
nections
bétween
the
plug-in
compartments,
circuit
boards,
etc.
of
this
instrument.
3-6
LOGIC
CIRCUIT
The
Logic
Circuit
develops
control
signals
for
use
in
other
circuits
within
this
instrument
and
in
the
associated
plug-in
units.
These
output
signals
automatically
determine
the
correct
instrument
operation
in
relation
to
the
plug-in
installed
and/or
selected,
ptug-in
control
settings,
and
the
7613
control
settings.
A
schematic
of
this
circuit
is
shown
on
diagram
2
at
the
rear
of
this
manual.
Logic
Block
Diagram
A
block
diagram
of
the
Logic
Circuit
is
shown
in
Fig.
3-2.
This
diagram
shows
the
source
of
the
input
control
signals,
the
output
signals
produced
by
this
circuit,
and
the
basic
interconnections
between
blocks.
The
interconnec-
tions
shown
are
intended
only
to
indicate
inter-relation
between
blocks
and
do
not
indicate
a
direct
connection
or
that
only
a
single
connection
is
made
between
the
given
blocks.
Details
of
the
inter-relationship
between
stages
within
this
circuit
are
given
in
the
circuit
description
which
follows.
The
operation
of
each
of
these
stages
is
discussed
relating
the
input
signals
and/or
levels
to
the
output,
with
consideration
given
to
the
various
modes
of
operation
that
may
affect
the
stage.
A
logic
diagram
is
also
provided
where
applicable.
These
diagrams
are
not
discussed
in
detail,
but
are
provided
to
aid
in
relating
the
function
performed
by
a
given
stage
to
standard
logic
techniques.
It
should
be
noted
that
these
logic
diagrams
are
not
an
exact
representation
of
the
circuit
but
are
only
a
logic
diagram
of
the
function
performed
by
the
stage.
An
input/output
table
is
given,
where
applicable,
for
use
along
with
this
circuit
description
and
logic
diagram.
These
input/output
tables
document
the
combination
of
input
conditions
which
are
of
importance
to
perform
the
prescribed
function
of
an
individual
stage.
Z-Axis
Logic
The
Z-Axis
Logic
stage
produces
an
output
current
which
sets
the
intensity
of
the
display
on
the
CRT.
The
level
of
this
output
current
is
determined
by the
setting
of
the
front-panel
INTENSITY
control,
an
external
signal
from
the
rear
panel
EXT
Z
AXIS
input
connector,
or
signals
from
the
plug-in
compartments.
The
Vertical
Chopped
Blanking
from
U55
is
applied
to
this
stage
to
blank
the
CRT
display
during
vertical
trace
switching.
The
Intensity
Limit
input
from
the
horizontal
plug-in
compart-
ment
provides
protection
for
the
CRT
phosphor
at
slow
sweep
rates.
The
Z-Axis
Logic
stage
consists
of
transistor
108,
dual-transistor
Q90
and
integrated
circuit
U99,
which
is
a
five-transistor
array.
A
simplified
schematic
of
the
Z-Axis
7613

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Tektronix 7613 Specifications

General IconGeneral
BrandTektronix
Model7613
CategoryTest Equipment
LanguageEnglish

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