TEA1067T NXP Semiconductors, TEA1067T Datasheet - Page 7
TEA1067T
Manufacturer Part Number
TEA1067T
Description
Manufacturer
NXP Semiconductors
Datasheet
1.TEA1067T.pdf
(28 pages)
Specifications of TEA1067T
Operating Supply Voltage (typ)
2.4/3.2V
Max Transmitter Gain
53dB
Receiver Gain (max)
38dB
Operating Temp Range
-25C to 75C
Package Type
SO
Pin Count
20
Operating Current
1mA
Operating Temperature Classification
Commercial
Mounting
Surface Mount
Operating Supply Voltage (min)
2.2V
Lead Free Status / Rohs Status
Not Compliant
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Philips Semiconductors
Automatic gain control input (AGC)
Automatic line loss compensation is achieved by
connecting a resistor (R6) between AGC and V
automatic gain control varies the gain of the microphone
amplifier and the receiving amplifier in accordance with the
DC line current. The control range is 5.9 dB. This
corresponds to a line length of 5 km for a 0.5 mm diameter
copper twisted-pair cable with a DC resistance of
176 /km and an average attenuation 1.2 dB/km. Resistor
R6 should be chosen in accordance with the exchange
supply voltage and its feeding bridge resistance (see
Fig.13 and Table 1). The ratio of start and stop currents of
the AGC curve is independent of the value of R6. If no
automatic line loss compensation is required the AGC may
be left open-circuit. The amplifiers, in this condition, will
give their maximum specified gain.
Power-down input (PD)
During pulse dialling or register recall (timed loop break)
the telephone line is interrupted. During these interruptions
the telephone line provides no power for the transmission
circuit or circuits supplied by V
will bridge these gaps. This bridging is made easier by a
HIGH level on the PD input which reduces the typical
supply current from 1 mA to 55 A and switches off the
voltage regulator preventing discharge through LN. When
PD is HIGH the capacitor at REG is disconnected with the
effect that the voltage stabilizer will have no switch-on
delay after line interruptions. This minimizes the
contribution of the IC to the current waveform during pulse
dialling or register recall. When this facility is not required
PD may be left open-circuit.
June 1990
Low voltage versatile telephone
transmission circuit with dialler interface
CC
. The charge held on C1
EE
. The
7
Side-tone suppression
The anti-sidetone network, R1//Z
(see Fig.5) suppresses transmitted signal in the earpiece.
Compensation is maximum when the following conditions
are fulfilled:
(a) R9
(b) (Z
If fixed values are chosen for R1, R2, R3, and R9 then
condition (a) will always be fulfilled when R8//Z
To obtain optimum side-tone suppression condition (b)
has to be fulfilled resulting in:
Z
k = (R8/R1)
The scale factor (k), dependent on the value of R8, is
chosen to meet the following criteria:
(a) Compatibility with a standard capacitor from the E6 or
E12 range for Z
(b) Z
ensuring correct anti-sidetone bridge operation
(c) Z
gain
In practice Z
length. The value chosen for Z
an average line length thus giving optimum setting for
short or long lines.
bal
= (R8/R1) Z
bal
bal
bal
/ [Z
//R8 << R3 to fulfil condition (a) and thus
R2 = R1 (R3
R8 >> R9 to avoid influencing the transmitter
bal
line
bal
varies considerably with the line type and
line
R8]) = (Z
= k.Z
[R8//Z
line
line
where k is a scale factor;
/ [Z
bal
bal
line
]);
line
should therefore be for
, R2, R3, R9 and Z
Product specification
R1])
TEA1067
bal
<< R3.
bal
,
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