Elenco Electronics XK-550 Instruction Manual Download Page 10

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Transistor Q5 is called the pass transistor.

controls the current reaching the output. Transistor
Q3 and Q4 are emitter followers. Their function is to
raise the impedance of the pass transistor. Note that
transistor Q2, Q3, Q4, Q5 and resistor R1 form a
close loop. Also note that the feedback to the base
of Q2 is negative, that is, when the base of Q2 goes
positive, the output at emitter Q5 goes negative.
Now if the 2V output voltage goes down because of
current drain at the output, the base of Q2 will drop
forcing the the collector voltage of Q2 to go higher.
This will bring the output voltage back to 2V. This is
the basis of all negative feedback regulators.

Another feature of the LM-317 regulator is to protect
the IC against overload and output shorts. If the IC
is overloaded, the junction of an overload transistor
will overheat.

A transistor will sense this

overheating and shut down transistor Q5.

The LM-317 IC basically is a 1.25 volt regulator. To
be able to vary the output from 0 to 20V, you stack
the IC on the negative 1.25VDC voltage as shown in
Figure 6A. When VR1 equals 0, the output voltage
is 0 volts.

THE NEGATIVE VOLTAGE REGULATOR

The theory of the voltage regulator is the same as
the previously discussed positive regulator.

The

basic difference is that diodes D1 and D3 are
reversed producing a negative voltage across
capacitor C1. The LM-337 IC is designed to operate
from a negative supply.

THE DATA SWITCHES

There are eight data switches labeled SW1 to SW8.
The circuit is very simple. To perform the desired
functions there is a double throw-double pole
switch. One end is connected to the 5V, the other to
ground and the center lug is connected to the
output.

THE LOGIC SWITCHES

The logic switches perform the same function as the
data switch, that is, they produce high or low states.
But there is one big difference. When switching the
data switches, many pulses may be produced due
to bouncing of the contacts.

In the logic switches, only one pulse is produced, no
matter how many times the contacts bounce. This
is extremely important if you are producing pulses
for counting circuits. Figure 7 shows the wiring of
the logic switch.

The two NAND gates are

connected so that when X input is grounded the
output X goes high.

Opening and closing the

ground at X will not change the output. Only when
X is grounded will the output change to low. Thus,
only one output change is produced with one
movement of the X switch. There are two outputs
from logic switch, X and X or Y and Y.

THE FUNCTION GENERATOR

The function generator frequencies are produced by
an XR-2206 integrated circuit. This IC is capable of
producing high quality sine, square, and triangle
waveform of high stability and accuracy. Figure 8
shows the block diagram of the XR-2206 IC.

0V - 20V

VR1

LM-317