Philips TEA1083AT-C1, TEA1083A-C1, TEA1083-C1 Datasheet

DATA SH EET

Product specification
File under Integrated circuits, IC03A

March 1994

INTEGRATED CIRCUITS

TEA1083; TEA1083A

Call progress monitor for line
powered telephone sets

March 1994 2

Philips Semiconductors Product specification

Call progress monitor for line powered
telephone sets

TEA1083; TEA1083A

FEATURES

• Internal supply
– Optimum current split-up
– Low constant current (adjustable) in transmission IC
– Nearly all line current available for monitoring
– Stabilized supply voltage

• Loudspeaker amplifier with a fixed gain of 35 dB

• Volume controlled by potentiometer

• Power-down input (TEA1083A only)

• Loudspeaker enable input.

GENERAL DESCRIPTION

The TEA1083/83A is a bipolar IC which has been
designed for use in line powered telephone sets. It is
intended to offer a monitoring facility of the line signal via

a loudspeaker during on-hook dialling. The TEA1083/83A
is intended for use in conjunction with a transmission
circuit of the TEA1060 family. The device uses a part of the
available line current via the internal supply circuit.
The loudspeaker amplifier, which consists of a preamplifier
and a power amplifier, amplifies the received line signals
from the transmission circuit when enabled via the LSE
input. The loudspeaker amplifier can also be used to
amplify dialling tones from the dialler IC. The power
amplifier contains a push-pull output stage to drive the
loudspeaker in a Single Ended Load (SEL) configuration.
The internal voltage stabilizer can be used to supply
external devices. By activating the power-down (PD) input
of the TEA1083A, the current consumption of the circuit
will be reduced, this enables pulse dialling or flash (register
recall).
An internal start circuit ensures normal start-up of the
transmission IC.

QUICK REFERENCE DATA

ORDERING INFORMATION

Notes

1. SOT97-1; 1998 Jun 18.

2. SOT38-1; 1998 Jun 18.

3. SOT162-1; 1998 Jun 18.

SYMBOL PARAMETER CONDITIONS MIN. TYP. MAX. UNIT

I

SUP

input current range 3.0 − 120 mA

V

BB

stabilized supply current − 2.95 − V

I

SUP

current consumption PD = HIGH; TEA1083A only − 50 −µA

G

v

voltage gain of loudspeaker amplifier − 35 − dB

I

SUP

minimum input current PO = 10 mW (typ) into 50 Ω− 10 − mA

T

amb

operating ambient temperature range −25 −+75 °C

EXTENDED TYPE

NUMBER

PACKAGE

PINS PIN POSITION MATERIAL CODE

TEA1083 8 DIL PLASTIC SOT97D

(1)

TEA1083A 16 DIL PLASTIC SOT38

(2)

TEA1083AT 16 SOL PLASTIC SOT162AG

(3)

March 1994 3

Philips Semiconductors Product specification

Call progress monitor for line powered
telephone sets

TEA1083; TEA1083A

Fig.1 Block diagram (TEA1083).

handbook, full pagewidth

MGR045

SUPPLY

PRE-

AMPLIFIER

START-

CIRCUIT

POWER

AMPLIFIER

ENABLE
CIRCUIT

2

3

8

SUP

SREF

1
4

LSI1

5

LSI2

6

LSE

7

QLS

V

SS

V

BB

TEA1083

Fig.2 Block diagram (TEA1083A/AT).

handbook, full pagewidth

MGR046

SUPPLY

PD

PRE-

AMPLIFIER

START-

CIRCUIT

POWER

AMPLIFIER

ENABLE
CIRCUIT

2

3

16

SUP

3, 5, 6, 7,
10, 11, 14

n.c.

SREF

12
1

PD

8

LSI1

9

LSI2

13

LSE

15

QLS

V

SS

V

BB

TEA1083A

TEA1083AT

March 1994 4

Philips Semiconductors Product specification

Call progress monitor for line powered
telephone sets

TEA1083; TEA1083A

Fig.3 Pin configuration (TEA1083).

handbook, halfpage

1
2
3
4

8
7
6
5

MGR047

TEA1083

V

BB
QLSSUP
LSE

LSI2

LSI1

SREF

V

SS

Fig.4 Pin configuration (TEA1083A/AT).

handbook, halfpage

TEA1083A

TEA1083AT

MGR048

1
2
3
4
5
6
7
8

16
15
14
13
12
11
10

9

V

SS

SUP

n.c.

SREF

n.c.
n.c.
n.c.

LSI1

LSI2

n.c.

n.c.

PD

LSE

n.c.

QLS

V

BB

PINNING

SYMBOL

PIN

DIL16

PIN

DIL8

DESCRIPTION

V

SS

1 1 negative supply terminal
SUP 2 2 positive supply terminal
n.c. 3 − not connected
SREF 4 3 supply reference input
n.c. 5 − not connected
n.c. 6 − not connected
n.c. 7 − not connected
LSI1 8 4 loudspeaker amplifier input 1
LSI2 9 5 loudspeaker amplifier input 2
n.c. 10 − not connected
n.c. 11 − not connected
PD 12 − power-down input
LSE 13 6 loudspeaker enable input
n.c. 14 − not connected
QLS 15 7 loudspeaker amplifier output
V

BB

16 8 stabilized supply voltage

March 1994 5

Philips Semiconductors Product specification

Call progress monitor for line powered
telephone sets

TEA1083; TEA1083A

Table 1 Comparison of the TEA108X family.

PRODUCT CONDITIONS TEA1083 TEA1083A TEA1085/85A

Application area note 1 call progress monitoring listening-in
PD facility − XX
MUTE or LSE facility note 2 X X X
Dynamic limiter −− X
Howling limiter −− X
V

BB

setting −− X
SEL note 3 X X X
BTL note 3 −− X
Number of pins note 4 8 16 24

Notes

1. A call progress monitor is recommended by the
European Telecommunications Standards Institute
(ETSI) for telephone sets with automatic on-hook
dialling facilities so that audible, or visual, progress of
a call attempt can be monitored. In accordance with
the ETSI (at a frequency of 440 Hz and a line level of
20 dBm (600 Ω)), a minimum level of 50 dBA shall be
guaranteed at a distance of 50 cm from the set. This
corresponds to a minimum level of approximately
100 mV (RMS) (PO≥ 0.2 mW) across a loudspeaker;
Philips type AD2071/Z50.

A listening-in set has to offer the user more facilities
e.g. howling limiting to reduce annoying loudspeaker
and line signals. Dynamic limiting of the loudspeaker
signal, with respect to supply conditions, can also be
required. Acoustic output levels for listening-in sets are
approximately 70 to 75 dBA. This corresponds to a
loudspeaker level of approximately 1 mV (RMS)
(PO≈ 20 mW).

2. The MUTE function of the TEA1085A has a logic input;
the MUTE function of the TEA1085 has a toggle input.

3. SEL: loudspeaker connected in a single-ended-load
configuration
BTL: loudspeaker connected in a bridge-tied-load
configuration

4. Consult the product specification for the package
outline/s.

FUNCTIONAL DESCRIPTION

The TEA1083/83A is normally used in conjunction with a
transmission circuit of the TEA1060 family. The circuit
must be connected between the positive line terminal
(pin 2) and pin SLPE of the transmission IC. The
transmission characteristics (impedance, gain settings,
etc.) are not affected.
An interconnection between the TEA1083/83A and a
member of the TEA1060 family is illustrated in Fig.5.

Supplies SUP, SREF, V

BB

and V

SS

In Fig.6 the line current is divided into ITR for the
transmission IC and I

SUP

for the monitoring circuit

TEA1083/83A.
ITR is constant:
ITR=V

int

/ R20

I

SUP=Iline

− ICC− I

TR

Where:

• V

int

is an internal temperature compensated reference

voltage of 500 mV (typ) between pins SUP and SREF

• R20 is a resistor connected between SUP and SREF

• ICC is the internal current consumption of the TEA106X

(approximately 1 mA).

A practical value for resistor R20 is 150 Ω; this produces a
current of approximately 3.3 mA (typ) for ITR and I

SUP

is

approximately equal to I

line

− 4.3 mA.

March 1994 6

Philips Semiconductors Product specification

Call progress monitor for line powered
telephone sets

TEA1083; TEA1083A

The circuit stabilizes its own supply voltage at VBB.
Transistor TR1 provides the supplies for the internal
circuits. Transistor TR2 is used to minimize signal
distortion on the line by momentarily diverting the input
current to VSS whenever the instantaneous value of the
voltage at V

SUP

drops below the supply voltage VBB. VBB is
fixed to a typical value of 2.95 V.
The supply at VBB is decoupled with respect to VSS by a
220 µF capacitor (C20).

The DC voltage (V

SUP

− VSS) is determined by the

transmission IC and V

int

; thus

V

SUP

− VSS = V

LN−SLPE

+ V

int

.
The reference voltage of the transmission IC has to be
adjusted to a level where V

SUP

− V

BB (max)

is greater than
400 mV. The minimum voltage space between SUP and
VBB (400 mV) is required to maintain a 'high' efficiency of
the internal supply for mean speech levels. V

BB (max)

is the

specified maximum level.
The internal current consumption of the TEA1083/83A

(I

SUP0

) is typically 2.5 mA (where V

SUP

− VSS= 3.6 V).

The current I

SUP0

consists of currents I

BIAS

(approximately

0.4 mA) for the circuitry connected to SUP and I

BB0

(approximately 2.1 mA) for the internal circuitry connected
to VBB(see Fig.6).

LOUDSPEAKER AMPLIFIER (LSI1/LSI2 and QLS)

The TEA1083/83A has symmetrical inputs at LSI1 and
LSI2. The input signal is normally taken from the earpiece
output of the transmission circuit (see Fig.5) and/or from
the signal output of the DTMF generator via a resistive
attenuator.
The attenuation factor must be chosen in accordance with
the output levels from the transmission IC and/or DTMF
generator and, in accordance with the required output
power and permitted signal distortion from the
loudspeaker signal.

The output QLS drives the loudspeaker as a single-ended
load. The output stage has been optimized for use with a
50 Ω loudspeaker (e.g. Philips type AD2071). The
loudspeaker amplifier is enabled when the LSE input goes
HIGH. The gain of the amplifier is fixed at 35 dB.

Volume control of the loudspeaker signal can be obtained
by using a level control at the input (see Fig.5).

The maximum voltage swing at the QLS output is
V

O(p-p)

= 2.5 V (typical with 50 Ω load). The input level

V

LSI

is approximately 16 mV(rms) and the supply current

I

SUP

> 11 mA. In this condition the signal is limited by the
available voltage space (VBB). Higher input levels and/or
lower supply currents will result in an increase of the
harmonic distortion due to signal clipping.

With a limit of 2.5 V (p-p), the maximum output swing is
dependent on the supply current and loudspeaker
impedance. It can be approximated, for low distortions, by
the following equation:

V

O(p-p)

=2×(I

SUP

− I

SUPO

) ×π×R

LS

Where;

• V

O(p-p)

= the peak-to-peak level of the loudspeaker

• RLS= the loudspeaker impedance

• I

SUPO

= 2.5 mA (typ.)

POWER-DOWN INPUT (PD)

During pulse dialling or register recall (timed loop break)
the telephone line is interrupted, thereby breaking the
supply current to the transmission IC. The capacitor
connected to V

BB

provides the supply for the

TEA1083/83A during the supply breaks.
By making the PD input HIGH during the loop break, the

requirement on the capacitor is eased and, consequently,
the internal current consumption I

BB0

(see Fig.5) is
reduced from 2.1 mA to 400 µA typically. Transistors TR1
and TR2 are inhibited during power-down and the bias
current is reduced from approximately 400 µA to
approximately 50 µA with V

SUP

= 3.6 V in the following

equation:
I

SUP(PD)

= I

BIAS(PD)

= (V

SUP

− 2Vd)/Ra

Where 3.6 < V

SUP

< VBB+ 3V

2Vd is the voltage drop across 2 internal diodes
(approximately 1.3 V)

Ra is an internal resistor (typical 50 kΩ)

LOUDSPEAKER ENABLE INPUT (LSE)

The LSE input has a pull-down structure. It switches the
loudspeaker amplifier, in the monitoring condition, by
applying a HIGH level at the input. The amplifier is in the
standby condition when LSE is LOW (input open-circuit or
connected to V

SS

).