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PBL38541 Datasheet, PDF (8/14 Pages) Ericsson – Universal Speech Circuit
PBL 385 41
11
3
(a)
RA
CA
11
3
(b)
RA
CA
(a and b)
attn. = RTI//(RTI+RA)
CB
no attn. = RA = 0
11
3
CC
(d)
RA
CA
11
3
(e)
RA
CA
RB
attn.without dc.
RB
CB
attenuation
11
3
(c)
RA
CA
RB
attenuation
11
3
(f)
CC
RA
CA
RB
CB
attn.without dc.
(a),(c), (d)
(b),(e)
big CA
small CA
(f)
Figure 11. Possible network types between microphone amplifier and transmitter.
Receiver amplifier
The receiver amplifier consists of three
stages, the first stage being an input buffer
that renders the input a high impedance.
The second stage is a gain regulated diffe-
rential amplifier and the third stage a
balanced power amplifier. The power
amplifier has a differential output with low
DC- offset voltage, therefore a series
capacitor with the load is normally not
necessary. The receiver amplifier uses at
max. swing 4-6 mA peak. This current is
drawn from the +Line. The driving capa-
city of the power stage can be optimized by
a resistor at pin 16, an other method is to
connect a resistor in series with the
earphone itself fig.12 b.). The gain and
frequency response is set at the input RI
with a RC-network. The receiver gain can
be regulated. The range of regulation
from the input to the output is 5 ± 2 dB (19
to 24dB). The balanced earphone amplifier
can not be loaded to full (both current and
signal level ) single ended.The signal would
be distorded when returned to ground. A
methode is shown in fig.12 d. how to
connect a light load (5k ac. or DC wise) to
the output. It is preferred that both outputs
are loaded the same. The receiver has, as
a principal protection, two series diodes
anti parallel across its output to limit the
signal to the earphone and thus preven-
(a)
PBL 38 5 41
17
+
+ Rx
(b)
(c)
PBL 38 5 41
+
+
Rx
18
Figure 12. Receiver arrangements.
ting an acoustical shock. A resistor in
series with the output can very well be
used to increase the protection level. Note,
that the noise in the receiver is allways
transmitter noise that has been more or
less well balanced out by the side tone
network.
The RC - network (optional) at the
output is to stabilize against the inductive
load that an earphone represents.
(d)
PBL 38 5 41
17
17
+
+
Rx
-
(C)
Z
Z
18
18
(C) Z > 5k
The capacitor C is optional
Gain regulation.
Both the receiver and transmitter are
gain regulated (line loss compensated).
There is a fixed default compensation
on the chip that can be adjusted or or set
to constant high or low gain mode. The
input impedance at the gain regulation
pin 6 is 5.5k ± 20%. The default regulation
pattern is valid when the input is left open.
Fig.13 shows a typical transmitter or
receiver gain pattern versus line length.
The following will show, what to alter, to
change the look of the curve.
a). Adjustable with the divider R4,R5
for the transmitter and with R12 for the
receiver.
b). The attack point of the regulator is
adjusted with the divider R1,R2a and R2b
to either direction, up or down, on the line
current axis.
c). The angle of elevation of the curve
is mainly set by the value of R6 but is also
adjustable with R2b. If the DC-characteris-
tics is set according to the line parameters
and a correct value for R6 is chosen the
angle is mostly correct but it can be adjusted
with R6. The adjustement will affect the
DC-characteristics aswell as most of the
other parameters. This is why the DC-
characteristic is set early in the design
phase.
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