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Theory of Operation— 2213 Service

Internal Trigger Amplifier

The Internal Trigger A m plifier converts the differential

current input from the Trigger Pickoff circuit to a zero-

referenced,  single-ended output fo r use  by  the Trigger  Level
Comparator.  Differential  signals from  the  Pickoff Am plifier
circuit  are  connected  via  R421  and  R422  to  common-base
transistors  11421E  and  U421D  respectively.  Transistor

U421C and R428 constitute an inverting-feedback amplifier

that  converts  U421D  collector  current  to   a  voltage  at  the
collector  o f  U421C.  This  voltage  is added  in  phase w ith  the
voltage  drop  across  R427  produced  by the signal  current o f

U421E. The resulting sum is a single-ended voltage signal

that  is  applied  to  the  base  o f emitter-follower U421 A. The
em itter-follower  stage  provides  a  low-output-impedance
signal  source  th at  drives  both  the  X V   Am plifier  (through

R701) and emitter-follower U421B. The output signal from
U421B is applied to the Trigger Source Switching Diode

circuit at the cathode o f CR440 where it is available fo r
selection as the triggering signal.

Trigger Source-Switching Circuit

Trigger signal selection is accomplished by using the

SOURCE  switch  (S440)  to   enable  one  o f  three  triggering
signal  paths  (internal,  external,  or line)  to  the Trigger  Level
Comparator  circuit.  With  S440  set  to   INT,  the  inhibiting

voltage  is  removed  from   R438,  causing  both  U421B  and
diode  CR440  to   be  biased  on.  The  internal  trigger  signal  is
then  passed  from   the  emitter  o f  U421B  through  diode

CR440 to the Trigger Level Comparator and Auto Trigger

circuits.  The SOURCE  switch  prevents the  line and external
triggering  signals  from  reaching  the  Trigger  Level  Com
parator  by  reverse  biasing  diodes  CR444  and  CR448
and also  by  reverse biasing Q414  and  CR418 through  R417.

When S440 is set to LINE, U421B and CR418 are biased

o ff  through  R438  and  R417  respectively,  while  CR444  is
enabled  by  removal  o f  the  inhibiting  voltage  from  R446.
Similarly,  w ith  S440  set  to  EXT,  the external  trigger signal

is selected by biasing o ff CR444 and U421B through
resistors R444 and R438 respectively and by enabling Q414

through the removal o f the inhibiting voltage from R417.

External Trigger Amplifier

The External Trigger A m plifier provides a means o f

triggering  the  instrument  from   an  externally supplied signal
that  can  be  applied  to   the  EXT  INPUT  connector.  Input
coupling  to   the  A m plifier is selectable  by  the three-position

EXT COUPLING switch, S401. In the AC position, the

dc  component  o f  the  external  trigger  signal  is  blocked  by
coupling  the  signal  through  C402.  In  the  DC  position,  all
components  o f  the  signal  are  coupled  directly  to   the  gate
o f  Q411A   through  an  input divider composed o f  R404  and

R408. Resistors R402 and R403 form a voltage-divider

network that attenuates the signal by a factor o f 10 when

ever S401 is set to DC-MO.

Field-effect transistors Q411A and Q411B are a matched

pair.

Source-follower Q411A provides a high input

impedance fo r the external trigger signal. Current-source

transistor Q411B causes Q411A to operate at zero gate-to-
source bias, so the device functions w ith no dc offset

between the input and output signals. The output signal
from the source o f Q411A drives the base o f emitter

follow er  Q414.  The  em itter-follower  stage  lowers  the
output  impedance  o f  the  Trigger  Am plifier  and  functions
as  part o f the Trigger Source Switching circuitry.

Auto Trigger Circuit

When either AUTO or TV FIELD triggering is selected,

the  A uto  Trigger circuit  detects positive and  negative peaks
o f  the  input  trigger  signal  and  produces  o utp ut  voltages
that  set  the  TRIGGER  LEVEL  control  range  to   w ithin
the  peak-to-peak  amplitude  o f  the  triggering  signal.  The
peak  detectors are disabled when S611  is set to   NORM, and
fixed  voltage  levels  are  applied  to   both  ends  o f  TRIGGER

LEVEL potentiometer R455.

In either AUTO or T V FIELD , the TRIGGER MODE

switch (S611) opens the A uto Disable signal line to allow

CR503 and CR504 to become reverse biased. This action
isolates the voltage divider network (composed o f R525,

R527, R528, R526, and Q519) from the + inputs o f
U507A and U507B. The peak detectors (composed o f

Q503 fo r the positive peak and Q504 fo r the negative peak)
become enabled when the A u to Disable signal is removed.

The trigger signal is applied to the bases o f Q503 and

Q504 via R444. Positive trigger signal peaks bias Q503 into

conduction,  causing  its  em itter  voltage  level  to   rise  to   the
peak  level  of  the  trigger  amplitude  minus  the  base-to-
emitter voltage  drop.

Capacitor C503 charges up to the positive emitter

voltage  level.  The  charge  is  retained  between  trigger  pulses
due  to   the  long  RC  time  constant  o f  R505  and  C503. The
comparator  voltage  is  applied  to  U507A  pin  3  which  is  a
voltage follow er and  level  shifter that sets the voltage at one
end  o f  the  TRIGGER  LEVEL  potentiometer  (R455).
Transistor  Q507  provides  the  feedback  path  fo r  U507A
and  thermally  compensates  fo r  Q503.  The  base-to-emitter
drop  o f  Q507  corrects  fo r  the  dc  offset  introduced  by

Q503, and potentiometer R511 is adjusted to balance out
dc offsets introduced from the trigger circuitry.

The negative peak detector operates in the same manner

the

positive

peak detector, w ith corresponding

components performing the identical circuit function on
the trigger-signal negative peaks.

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