Philips TEA1118AT-C1, TEA1118AM-C1, TEA1118T-C2, TEA1118T-C1, TEA1118M-C2 Datasheet

DATA SH EET

Product specification
Supersedes data of 1996 Nov 26
File under Integrated Circuits, IC03

1997 Jul 14

INTEGRATED CIRCUITS

TEA1118; TEA1118A

Versatile cordless transmisssion
circuit

1997 Jul 14 2

Philips Semiconductors Product specification

Versatile cordless transmisssion circuit TEA1118; TEA1118A

FEATURES

• Low DC line voltage; operates down to 1.6 V (excluding
polarity guard)

• Voltage regulator with adjustable DC voltage

• Provides a supply for external circuits

• Symmetrical high impedance transmit inputs (62.5 kΩ)

with large signals handling capabilities [up to
1 V (RMS value) with less than 2% THD]

• Receive amplifier for dynamic, magnetic or
piezoelectric earpieces

• AGC line loss compensation for transmit and earpiece
amplifiers

• DTMF input with confidence tone (TEA1118A only)

• MUTE input for pulse or DTMF dialling (TEA1118A only)

• Transmit mute function, also enabling the DTMF input

(TEA1118A only).

APPLICATIONS

• Cordless telephone base stations

• Fax machines

• Answering machines.

GENERAL DESCRIPTION

The TEA1118 and TEA1118A are bipolar integrated
circuits that perform all speech and line interface functions
required in cordless telephone base stations. The ICs
operate at a line voltage down to 1.6 V DC (with reduced
performance) to facilitate the use of telephone sets
connected in parallel.

The TEA1118A offers in addition to the TEA1118
electronic switching between speech and dialling.
Moreover the transmit amplifier can be disabled during
speech condition by means of a transmit mute function.

All statements and values refer to all versions unless
otherwise specified.

QUICK REFERENCE DATA

I

line

= 15 mA; VEE=0V; R

SLPE

=20Ω; AGC pin connected to VEE; Z

line

= 600 Ω; f = 1 kHz; T

amb

=25°C;

unless otherwise specified.

SYMBOL PARAMETER CONDITIONS MIN. TYP. MAX. UNIT

I

line

line current operating range normal operation 11 − 140 mA

with reduced performance 1 − 11 mA

V

LN

DC line voltage 3.35 3.65 3.95 V

I

CC

internal current consumption VCC= 2.9 V − 1.15 1.4 mA

V

CC

supply voltage for peripherals IP=0mA − 2.9 − V

G

vtrx

typical voltage gain range

transmit amplifier (TEA1118A only) V

TX

= 200 mV (RMS) −−11.3 dB

transmit amplifier (TEA1118 only) V

TX

= 200 mV (RMS) 5.3 − 11.3 dB

receive amplifier V

IR

= 4 mV (RMS) 19 − 31 dB

∆G

vtrx

gain control range for transmit and
receive amplifiers with respect to
I

line

=15mA

I

line

=75mA − 5.8 − dB

1997 Jul 14 3

Philips Semiconductors Product specification

Versatile cordless transmisssion circuit TEA1118; TEA1118A

ORDERING INFORMATION

BLOCK DIAGRAMS

TYPE

NUMBER

PACKAGE

NAME DESCRIPTION VERSION

TEA1118M SSOP16

plastic shrink small outline package; 16 leads; body width 4.4 mm

SOT369-1

TEA1118T SO14

plastic small outline package; 14 leads; body width 3.9 mm

SOT108-1

TEA1118AM SSOP16

plastic shrink small outline package; 16 leads; body width 4.4 mm

SOT369-1

TEA1118AT SO14

plastic small outline package; 14 leads; body width 3.9 mm

SOT108-1

Fig.1 Block diagram (TEA1118).

handbook, full pagewidth

AGC

CIRCUIT

CURRENT

REFERENCE

LOW VOLTAGE

CIRCUIT

IR

TX+

TX−

V

EE

AGC

SLPE

TEA1118M

TEA1118T

GAR

QR

LN

V

CC

REG

GAT

MBH273

V−>I

V−>I

1997 Jul 14 4

Philips Semiconductors Product specification

Versatile cordless transmisssion circuit TEA1118; TEA1118A

Fig.2 Block diagram (TEA1118A).

handbook, full pagewidth

ATTENUATOR

DTMF

TRANSMIT

MUTE

AGC

CIRCUIT

CURRENT

REFERENCE

LOW VOLTAGE

CIRCUIT

IR

TX+

TX−

TMUTE

V

EE

AGC

SLPE

TEA1118AM

TEA1118AT

GAR

QR

LN

V

CC

REG

MUTE

MBH272

V−>I

V−>I

V−>I

V−>I

1997 Jul 14 5

Philips Semiconductors Product specification

Versatile cordless transmisssion circuit TEA1118; TEA1118A

PINNING

SYMBOL

TEA1118 TEA1118A

DESCRIPTION

SO14 SSOP16 SO14 SSOP16

LN 1111positive line terminal
SLPE 2222slope (DC resistance) adjustment
REG 3333line voltage regulator decoupling
GAT 4 4 −−transmit gain adjustment
TMUTE −−4 5 transmit mute input
DTMF −−5 6 dual-tone multi-frequency input
MUTE −−6 8 mute input to select speech or dialling mode
IR 7979receive amplifier input
AGC 8 10 8 10 automatic gain control/line loss compensation
TX− 9 11 9 11 inverting transmit amplifier input
TX+ 10 12 10 12 non-inverting transmit amplifier input
V

EE

11 13 11 13 negative line terminal
QR 12 14 12 14 receive amplifier output
GAR 13 15 13 15 receive gain adjustment
V

CC

14 16 14 16 supply voltage for speech circuit and peripherals
n.c. 5 and 6 5 to 8 − 4 and 7 not connected

1997 Jul 14 6

Philips Semiconductors Product specification

Versatile cordless transmisssion circuit TEA1118; TEA1118A

Fig.3 Pin configuration (TEA1118T).

handbook, halfpage

TEA1118T

MBH269

1
2
3
4
5
6
7

14
13
12
11
10

9
8

SLPE GAR

REG QR

GAT

V

EE
n.c. TX+
n.c. TX−

IR AGC

LN

V

CC

Fig.4 Pin configuration (TEA1118M).

handbook, halfpage

TEA1118M

MBH268

1
2
3
4
5
6
7
8

16
15
14
13
12
11
10

9

SLPE GAR

REG QR

GAT

V

EE
n.c. TX+
n.c. TX−

n.c. AGC
n.c. IR

LN

V

CC

Fig.5 Pin configuration (TEA1118AT).

handbook, halfpage

TEA1118AT

MBH271

1
2
3
4
5
6
7

14
13
12
11
10

9
8

SLPE GAR

REG QR

TMUTE

V

EE
DTMF TX+
MUTE TX−

IR AGC

LN

V

CC

Fig.6 Pin configuration (TEA1118AM).

handbook, halfpage

TEA1118AM

MBH270

1
2
3
4
5
6
7
8

16
15
14
13
12
11
10

9

SLPE GAR

REG QR

n.c.

V

EE

TMUTE TX+

DTMF TX−

n.c. AGC

MUTE IR

LN

V

CC

1997 Jul 14 7

Philips Semiconductors Product specification

Versatile cordless transmisssion circuit TEA1118; TEA1118A

FUNCTIONAL DESCRIPTION

All data given in this chapter are typical values, except
when otherwise specified.

Supplies (pins LN, SLPE, V

CC

and REG)

The supply for the TEA1118 and TEA1118A and their
peripherals is obtained from the telephone line.

The ICs generate a stabilized reference voltage (V

ref

)
between pins LN and SLPE. This reference voltage is
equal to 3.35 V, is temperature compensated and can be
adjusted by means of an external resistor (RVA). It can be
increased by connecting the RVA resistor between
pins REG and SLPE (see Fig.11), or decreased by
connecting the RVA resistor between pins REG and LN.
The voltage at pin REG is used by the internal regulator to
generate the stabilized reference voltage and is decoupled
by a capacitor (C

REG

) which is connected to VEE.
This capacitor, converted into an equivalent inductance
(see Section “Set impedance”), realizes the set impedance
conversion from its DC value (R

SLPE

) to its AC value
(RCC in the audio-frequency range). The voltage at pin
SLPE is proportional to the line current. Figure 7 illustrates
the supply configuration.

The ICs regulate the line voltage at pin LN, and it can be
calculated as follows:

VLN=V

ref+RSLPE

× I

SLPE

I

SLPE=Iline

− ICC− IP− I* = I

sh

where:

I

line

: line current
ICC: current consumption of the IC
IP: supply current for peripheral circuits
I*: current consumed between LN and V

EE

Ish: the excess line current shunted to SLPE (and VEE)
via LN.

The preferred value for R

SLPE

is 20 Ω. Changing R

SLPE

will
affect more than the DC characteristics; it also influences
the transmit gain and the DTMF gain (TEA1118A only), the
gain control characteristics, the sidetone level and the
maximum output swing on the line.

The internal circuitry of the TEA1118 and TEA1118A is
supplied from pin VCC. This voltage supply is derived from
the line voltage by means of a resistor (RCC) and must be
decoupled by a capacitor C

VCC

. It may also be used to
supply peripheral circuits such as dialling or control
circuits. The VCC voltage depends on the current
consumed by the IC and the peripheral circuits as shown

by the formula (see also Figs 8 and 9). R

CCint

is the
internal equivalent resistance of the voltage supply point,
and I

rec

is the current consumed by the output stage of the

earpiece amplifier.
VCC=V

CC0

− R

CCint

× (IP− I

rec

)

V

CC0=VLN

− RCC× I

CC

The DC line current flowing into the set is determined by
the exchange supply voltage (V

exch

), the feeding bridge

resistance (R

exch

), the DC resistance of the telephone line

(R

line

) and the reference voltage (V

ref

). With line currents
below 7.5 mA, the internal reference voltage (generating
V

ref

) is automatically adjusted to a lower value.
This means that more sets can operate in parallel with DC
line voltages (excluding the polarity guard) down to an
absolute minimum voltage of 1.6 V. At currents below

7.5 mA, the circuit has limited transmit and receive levels.
This is called the low voltage area.

Set impedance

In the audio frequency range, the dynamic impedance is
mainly determined by the R

CC

resistor. The equivalent

impedance of the circuits is illustrated in Fig.10.

Transmit amplifier (pins TX+, TX− and GAT)

The TEA1118 and TEA1118A have symmetrical transmit
inputs. The input impedance between pins TX+ and TX− is
equal to 62.5 kΩ; the input impedance between pins
TX+/TX− and V

EE

is equal 36.5 kΩ. The voltage gain from

pins TX+/TX− to pin LN is set at 11.3 dB.
Automatic gain control is provided on this amplifier for line

loss compensation.
The gain of the TEA1118 can be decreased by connecting

an external resistor R

GAT

between pins GAT and REG.

The adjustment range is equal to 6 dB. A capacitor C

GAT

connected between pins GAT and REG can be used to
provide a first-order low-pass filter. The cut-off frequency
corresponds to the time constant C

GAT

×(R

GATint

// R

GAT

).

R

GATint

is the internal resistor which sets the gain with a

typical value of 27 kΩ.

Transmit mute (pin TMUTE; TEA1118A only)

The transmit amplifier can be disabled by activating the
transmit mute function. When TMUTE is LOW, the normal
speech mode is entered, depending on the level on MUTE.
When TMUTE is HIGH, the transmit amplifier inputs are
disabled while the DTMF input is enabled (no confidence
tone is provided). The voltage gain between LN and
TX+/TX− is attenuated; the gain reduction is 80 dB.

1997 Jul 14 8

Philips Semiconductors Product specification

Versatile cordless transmisssion circuit TEA1118; TEA1118A

Receive amplifier (pins IR, GAR and QR)

The receive amplifier has one input (IR) and one output
(QR). The input impedance between pins IR and VEE is
20 kΩ. The voltage gain from pin IR to pin QR is set at
31 dB. The gain can be decreased by connecting an
external resistor R

GAR

between pins GAR and QR; the

adjustment range is 12 dB. Two external capacitors C

GAR

(connected between GAR and QR) and C

GARS

(connected

between GAR and VEE) ensure stability.

The C

GAR

capacitor provides a first-order low-pass filter.
The cut-off frequency corresponds to the time constant
C

GAR

× (R

GARint

// R

GAR

). R

GARint

is the internal resistor
which sets the gain with a typical value of 100 kΩ. The
condition C

GARS

=10×C

GAR

must be fulfilled to ensure

stability.
Automatic gain control is provided on this amplifier for line

loss compensation.

Fig.7 Supply configuration.

h

andbook, full pagewidth

I

sh

I

SLPE

REG

LN

SLPE

V

EE

V

CC

R

CC

C

VCC

I

CC

C

REG

R

SLPE

V

exch

R

exch

I

line

R

line

TEA1118

TEA1118A

I

*

I

p

peripheral

circuits

100 µF

4.7 µF

20 Ω

619 Ω

MBH274

from preamp