Circuit
Description
—
Type
535A
This
“sample'' of the vertical signal is also ac-coupled
through
Vertical
Signal Out
C. F., V593B
and C599, to a
front-panel binding
post labeled VERT.
SIG. OUT.
Delay
Line
The
output
signal from the Vertical Amplifier is coupled
through
the
balanced Delay
Line to
the vertical deflection
plates
of
the crt. The function of the Delay Line is to retard
the
arrival of
the waveform at the deflection plates until
the
crt has been unblanked and the horizontal sweep has
started.
This
delay, as mentioned, insures that
the very
“front”
of fast vertical signals can be observed. The line
is
adjusted, by means
of the variable capacitors connected
across
the
line, for optimum transient response.
HORIZONTAL
DEFLECTION SYSTEM
Time-Base
Trigger
General
The Time-Base Trigger develops a
pulse which will initiate
a
cycle of action in the Time Base Generator. To display
signals
below five
megacycles, a TRIGGERING MODE switch
allows
the operator to
select
the
type of triggered operation
most
suitable for the waveform to be displayed. A second
switch,
the TRIGGER SLOPE switch, allows the operator to
select
the “slope", either positive or negative, which will
cause
triggered operation of
the sweep.
To
display signals
above
five
megacycles,
the Time Base Trigger is bypassed,
and
the signal
is applied to the Sweep-Gating Multivibrator
in the
Time-Base
Generator.
No
choice of triggering slope is
available in this
mode.
Trigger-Input
Amplifier
Triggering
signals may
be developed from several sources.
The
most common source of triggering signals utilizes the
internal
circuitry
of the oscilloscope to sample the signal
present
in
the
vertical amplifier. Using an internal source
of
triggering signal,
either triggered operation in the
various
triggering
modes, or
synchronized operation, is available.
Triggered or
synchronized operation of
the time-base
circuitry
may
also be effected from external sources. Opera
tion
in any of the available modes is possible with external
signals.
In
the +Line or —Line positions
of
the TRIGGER SLOPE
switch
a voltage at the power line frequency is used to
develop
the triggering signal.
The
Trigger-Input Amplifier
is polarity-inverting, cathode-
coupled
amplifier. It
serves
two basic functions
in the
Time-
Base
Trigger.
First, it
provides a source of negative-going
signal
to drive the following stage. Secondly, by means of
the
TRIGGERING LEVEL control, it enables the operator to
select
the signal level at
which triggered operation of the
Time-Base will
occur.
To
trigger
from a negative-going signal, the grid
of the
V24A
section
is connected to the input
signal source. The
grid
of the V24B
section is
connected to a dc bias source,
which is
adjustable with the TRIGGERING LEVEL control.
This bias voltage
establishes the voltage present at the plate
under no-signal
conditions.
The
voltage at the grid of V24A and the voltage at the
plate
of
V24B are in
phase
with each other; that is, they
both
go through ac zero in the same direction at the same
time.
Thus,
the V24A section acts as a cathode-follower, and
the
signal voltage developed across the cathode resistor
becomes the
input signal to the V24B section.
To
trigger from a positive-going signal, the grid of
the
V24A
section is connected to the TRIGGERING LEVEL con
trol, and
the grid of
the V24B section is connected to the
input
signal. With this configuration, the voltage at the
plate of
the V24B
section will be 180 degrees out of phase
with
the input-signal voltage.
In
each of the cases outlined above, a negative-going
signal
is
produced
at the plate of the V24B
section of the
Trigger-Input
Amplifier irrespective of the polarity of the
input
signal.
Also,
the amplitude
of the triggering signal
necessary to
cause operation of
the following stage is determined by the
setting
of the TRIGGERING LEVEL control.
Trigger
Multivibrator
The Trigger Multivibrator is
a dc-coupled
multivibrator.
In
the quiescent
state,
ready to receive a signal, the V45A
section
is
conducting and the plate voltage is down. Since
the
plate is dc-coupled to the grid of
the V45B section, that
grid
is
held below cutoff. With the V45B section cut off its
plate voltage
is up and no output is developed.
The negative-going portion of
the signal from the Trigger-
Input
Amplifier is
required to drive the grid of the V45A
section
down.
As
the V45A section grid
is driven negative
the
current flow through the
tube is restricted, and the
voltage
at
the plate starts to
rise.
The
rise in
voltage at the plate
of the V45A section
carries
the grid of the V45B section in the positive direction.
The cathodes
of both sections are
coupled together, and
follow the
action of the grids. With the V45A section grid
going
in a positive direction,
and the cathode in a
negative
direction,
the V45B section starts to conduct. As
the V45B
section
starts to
conduct
the
cathodes
of
both sections follow
the
action of the V45B section grid; hence the cathode
voltage
starts to
rise.
As
the V45A section grid
goes down and its cathode goes
up
it
stops
conducting. As the V45B section conducts, its
plate voltage
drops, creating a
negative step at the output.
This
transition occurs rapidly, regardless of how slowly the
triode
grid
falls.
When
the signal applied to the grid of the V45A section
goes
in
a positive direction the action described in the
previous
paragraphs reverses
itself. That is,
the V45A sec-
4-3
Содержание 535A
Страница 2: ......
Страница 4: ...Type 535A ...
Страница 28: ...Circuit Description Type 535A 4 2 Fig 4 1 Simplified Type 535A Vertical Amplifier ...
Страница 30: ...Circuit Description Type 535A 4 4 Fig 4 2 Simplified Time Base Trigger Circuit ...
Страница 32: ...Circuit Description Type 535A Fig 4 3 Simplified Time Base Generator 4 6 ...
Страница 34: ...Circuit Description Type 535A 4 8 Fig 4 4 Simplified Delay Pickoff Circuit ...
Страница 38: ...Circuit Description Type 535A Fig 4 6 Simplified Alternate Trace Operation Circuitry 4 12 ...
Страница 39: ...Circuit Description Type 535A 4 13 ...
Страница 41: ...Circuit Description Type 535A Fig 4 8 Simplified Low Voltage Power Supply 4 15 ...
Страница 42: ...Circuit Description Type 535A 4 16 Fig 4 9 Simplified Calibrator Circuit ...
Страница 44: ...Circuit Description Type 535A Fig 4 10 Simplified Cathode Ray Tube Circuit 4 18 ...
Страница 126: ...MRU ll IG 61 O Z ...
Страница 138: ...C897 R896 R891 R890 R889 R888 R887 R886 R885 AMPLITUDE CALIBRATOR SWITCH Bottom View 535A A ...
Страница 140: ...C t Aao 3 ELEV 1 TERM 27 TERM 2e TIME BASE B CHA S5 S TYPE 3 5 C S C S C C P E R E A T ER WIRING DIAGRAM ...
Страница 143: ...FIG 1 FRONT SWITCHES TVDC COCA ocril I iCrODC ...
Страница 144: ...70 ...
Страница 145: ...1 FIG 3 SWEEP CHASSIS HIGH VOLTAGE BOARD DELAY SWEEP CHASSIS ...
Страница 146: ...1 FIG 4 POWER CHASSIS RECTIFIER MOUNTING PLATE A ...
Страница 147: ...3 34 79 ...
Страница 148: ...TYPE 535A OSCILLOSCOPE ...
Страница 149: ......
Страница 150: ...FIG 7 CABINET FRAME RAILS ...
Страница 152: ...FIG 8 STANDARD ACCESSORIES 6 TYPE 535A OSCILLOSCOPE ...