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PDF TEA1095T Data sheet ( Hoja de datos )
| Número de pieza | TEA1095T | |
| Descripción | Voice switched speakerphone IC | |
| Fabricantes | NXP Semiconductors | |
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INTEGRATED CIRCUITS
DATA SHEET
TEA1095
Voice switched speakerphone IC
Product specification
Supersedes data of 1996 Mar 22
File under Integrated Circuits, IC03
1997 Nov 25
1 page  
Philips Semiconductors
Voice switched speakerphone IC
Product specification
TEA1095
PINNING
SYMBOL PIN
DESCRIPTION
MUTERX 1 receiver channel mute input
RXIN
2 receiver amplifier input
n.c. 3 not connected
GARX
4 receiver gain adjustment
RXOUT 5 receiver amplifier output
GND
6 ground reference
VBB
VOL
7 supply voltage input
8 receiver volume adjustment
SWR
9 switching range adjustment
STAB
10 reference current adjustment
SWT
11 switch-over timing adjustment
IDT 12 idle mode timing adjustment
PD 13 power-down input
TXGND
14 ground reference for the transmit
channel
MUTETX 15 transmit channel mute input
TXOUT 16 transmit amplifier output
GATX
17 transmit gain adjustment
TXIN
18 transmit amplifier input
RNOI
19 receive noise envelope timing
adjustment
RENV
20 receive signal envelope timing
adjustment
RSEN
21 receive signal envelope sensitivity
adjustment
TNOI
22 transmit noise envelope timing
adjustment
TENV
23 transmit signal envelope timing
adjustment
TSEN
24 transmit signal envelope sensitivity
adjustment
handbook, halfpage
MUTERX 1
RXIN 2
24 TSEN
23 TENV
n.c. 3
22 TNOI
GARX 4
21 RSEN
RXOUT 5
20 RENV
GND 6
VBB 7
VOL 8
19 RNOI
TEA1095
18 TXIN
17 GATX
SWR 9
16 TXOUT
STAB 10
15 MUTETX
SWT 11
14 TXGND
IDT 12
13 PD
MBG349
Fig.2 Pin configuration.
1997 Nov 25
5
5 Page 
Philips Semiconductors
Voice switched speakerphone IC
Product specification
TEA1095
DECISION LOGIC: PINS IDT AND SWT
The TEA1095 selects its mode of operation (transmit,
receive or idle mode) by comparing the signal and the
noise envelopes of both channels. This is executed by the
decision logic. The resulting voltage on pin SWT is the
input for the voice-switch.
To facilitate the distinction between signal and noise, the
signal is considered as speech when its envelope is more
than 4.3 dB above the noise envelope. At room
temperature, this is equal to a voltage difference
VENV−NOI = 13 mV. This so called speech/noise threshold
is implemented in both channels.
The signal on TXIN contains both speech and the signal
coming from the loudspeaker (acoustic coupling). When
receiving, the contribution from the loudspeaker overrules
the speech. As a result, the signal envelope on TENV is
formed mainly by the loudspeaker signal. To correct this,
an attenuator is connected between TENV and the
TENV/RENV comparator. Its attenuation equals that
applied to the transmit amplifier.
When a dial tone is present on the line, without monitoring,
the tone would be recognized as noise because it is a
signal with a constant amplitude. This would cause the
TEA1095 to go into the idle mode and the user of the set
would hear the dial tone fade away. To prevent this, a dial
tone detector is incorporated which, in standard
application, does not consider the input signals at RXIN as
noise when they have a level greater than 42 mV (RMS).
This level is proportional to RRSEN.
As can be seen from Fig.8, the output of the decision logic
is a current source. The logic table gives the relationship
between the inputs and the value of the current source. It
can charge or discharge the capacitor CSWT with a current
of 10 µA (switch-over). If the current is zero, the voltage on
SWT becomes equal to the voltage on IDT via the high
ohmic resistor RIDT (idling). The resulting voltage
difference between SWT and IDT determines the mode of
the TEA1095 and can vary between −400 mV and
+400 mV.
Table 1 Modes of TEA1095
VSWT − VIDT (mV)
<−180
0
>180
MODE
transmit mode
idle mode
receive mode
The switch-over timing can be set with CSWT, the idle mode
timing with CSWT and RIDT. In the basic application given in
Fig.12, CSWT is chosen at 220 nF and RIDT at 2.2 MΩ.
This enables a switch-over time from transmit to receive
mode or vice-versa of approximately 13 ms (580 mV
swing on SWT). The switch-over time from idle mode to
transmit mode or receive mode is approximately 4 ms
(180 mV swing on SWT).
The switch-over time from receive mode or transmit mode
to idle mode is equal to 4 × RIDT CSWT and is
approximately 2 s (idle mode time).
The inputs MUTETX and MUTERX overrule the decision
logic. When MUTETX goes HIGH, the capacitor CSWT is
charged with 10 µA resulting in the receive mode. When
the voltage on pin MUTERX goes HIGH, the capacitor
CSWT is discharged with 10 µA resulting in the transmit
mode.
VOICE-SWITCH: PINS STAB AND SWR
A diagram of the voice-switch is illustrated in Fig.9. With
the voltage on SWT, the TEA1095 voice-switch regulates
the gains of the transmit and the receive channel such that
the sum of both is kept constant.
In the transmit mode, the gain of the transmit amplifier is at
its maximum and the gain of the receive amplifier is at its
minimum. In the receive mode, the opposite applies. In the
idle mode, both transmit and receive amplifier gains are
halfway.
The difference between maximum and minimum is the so
called switching range. This range is determined by the
ratio of RSWR and RSTAB and is adjustable between
0 and 52 dB. RSTAB should be equal to 3.65 kΩ and sets
an internally used reference current. In the basic
application diagram given in Fig.12, RSWR is equal to
365 kΩ which results in a switching range of 40 dB. The
switch-over behaviour is illustrated in Fig.10.
In the receive mode, the gain of the receive amplifier can
be reduced using the volume control. Since the
voice-switch keeps the sum of the gains constant, the gain
of the transmit amplifier is increased at the same time (see
dashed curves in Fig.10). In the transmit mode however,
the volume control has no influence on the gain of the
transmit amplifier or the gain of the receive amplifier.
Consequently, the switching range is reduced when the
volume is reduced. At maximum reduction of volume, the
switching range becomes 0 dB.
1997 Nov 25
11
11 Page | ||
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