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Tektronix 7613 User Manual

Tektronix 7613
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limiting,
the
Intensity
Limit
input
goes
to
ground
level
in
the
plug-in
unit.
This
reduces
the
level
of
1,
at
the
base
of
US9D
and
therefore
reduces
|,
and
the
output
current
to
reduce
the
intensity
of
the
display.
At
the
same
time,
the
ground
level
from
the
Intensity
Limit
input
is
connected
to
the
emitter
of
O90B
through
R80.
This
connection
limits
the
maximum
level
to
which
the
INTENSITY
control
can
be
set
to
aid
in
obtaining
intensity
limiting
at
slow
sweep
rates.
The
collector
current
of
U99D
is
made
up
of
two
currents;
I,
and
lz
is
determined
by
divider
R92
and
R93.
When
the
Sweep
Gate
level
at
the
base
of
U99A
is
LO
(no
sweep
in
progress),
Iz
is
at
its
maximum
level
so
that
I,
is
minimum
to
provide
minimum
intensity
of
the
display
(I,
+
Iz
is
always
equal
to
I,).
During
sweep
time,
the
Sweep
Gate
level
at
the
base
of
U99A
as
established
by
INTENSITY
control
R102
determines
the
output
current.
As
the
INTENSITY
control
is
turned
toward
maximum,
the
level
of
Ip
decreases.
This
allows
|,
to
increase
to
produce
a
brighter
display.
The
Auxiliary
Z-Axis
Inputs
from
the
plug-in
compartments
and
the
intensity
modulating
signal
from
the
EXT
Z-AXIS
input
connector
are
connected
to
the
emitter
of
Q90B.
These
signals
modulate
the
level
of
Iz
to,
in
turn,
modulate
the
intensity
of
the
display.
Circuit
Description—7613/R7613
Service
When
readout
information
is
to
be
displayed
on
the
CRT,
the
Z-Axis
shutdown
goes
LO.
This
forward
biases
Q180,
and
it
saturates,
shunting
|,,
through
Q108
to
ground.
This
reduces
the
output
current
to
zero
during
the
readout
time.
Clock
Generator
One
half
of
integrated
circuit
U55
along
with
the
external
components
shown
in
Fig.
3-4A
make
up
the
Clock
Generator
stage.
R1,
Q1,
Q2,
and
Q3
represent
an
equivalent
circuit
contained
within
U55A.
This
circuit
along
with
discrete
components
C59,
R56, R57,
and
R59
comprise
a
two-megahertz
free-running
oscillator
to
provide
a
timing
signal
(clock)
for
mainframe
vertical
and
plug-in
chopping.
The
stage
operates
as
follows:
Assume
that
Q2
is
conducting
and
Q1
is
off.
The
collector
current
of
Q2
produces
a
voltage
drop
across
R1
which
holds Q1
off.
This
negative
level
at
the
collector
of
Q2
is
also
connected
to
pin
14
through Q3
(see
waveforms
in
Fig.
3-4B
at
time
To).
Since
there
is
no
current
through
Q1,
C59
begins
to
charge
towards
—15
volts
through
R56-R57.
The
emitter
of
Q1
goes
negative
as
C59
charges
until
it
reaches
a
level
about
0.6
volt
more
negative
than
the
level
at
its
base.
Then,
Q11
is
forward
biased
and
its
emitter
rapidly
rises
positive.
Since
[~~
2
MHz
Free-Running
|
|
Oscillator
|
+ + +
| |
|
R1
|
|
oa!
|
a
|
| |
|
02
|
15
|
|
Clock
1
las
12
cr
|
|
14
“16
|
|
|
|
cé60
| |
R6O
Delay
| |
Ramp
|
|
| |
|
—_
(A)
U55A
-16V
“NINN
.
»N
/
I
|
Pin
12
|
DN
Pin
14
Pin
16
/
Pin
15
Clock
|
|
|
a
(B)
Fig.
3-4.
(A)
Diagram
of
Clock
Generator
stage.
(B)
Idealized
waveforms
from
Clock
Generator
stage.
7613

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Tektronix 7613 Specifications

General IconGeneral
BrandTektronix
Model7613
CategoryTest Equipment
LanguageEnglish

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