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PBL38813 Datasheet, PDF (1/16 Pages) Ericsson – Voice-switched Speakerphone Circuit with built in loudspeaker amplifier
January 1998
PBL 388 13
Voice-switched Speakerphone Circuit
with built in loudspeaker amplifier
Description.
Key Features
The PBL 388 13 contains all the necessary circuitry, amplifiers, detectors, •
comparator and control functions to implement a high performance, voice-switched,
loudspeaking, ”hands-free ” telephone. The gain dynamics (attenuation between •
channels) is selectable (25dB or 50dB) via a separate pin. A background noise detector
in the transmitting channel reduces the influence of continuous external noise signals •
to the switching .
The PBL 388 13 is designed for telephone systems that are either powered from •
the telephone line or from a mains powered constant voltage dc. supply. The circuit
contains a transformerless audio power amplifier with a current supply circuitry
(patented) that eliminates the need of inductors. Automatic volume attenuation in the •
power amplifier extends the operating range at low line currents. A special feature in
this circuit is that the power amplifier volume control can be implemented either as an •
ac. potentiometer control or as a digital control by a µ-processor (dc. control).
Filtering is possible of both, the audio and the speech switching control signals,
in both transmitter and receiver channels.
•
•
•
17 18 19 20
Minimum of external components
needed for function.
Selectable gain dynamics. (25 or 50
dB)
Direct telephone line powered solution
(patented).
Low power consumption: ≈1mA at 3.3V
(typical) for speech switching, audio
power amplifier quiscent current ≈1mA.
Drives an 25 - 50 ohm loudspeaker
without a transformer.
Background noise compensation in the
transmitting channel with hold function
at receive.
Input amplifiers of both channels have
balanced inputs.
Exellent noise performance.
Encapsulated in 24 pin plastic ”skinny”
DIP and 24 pin SO .
22
–
+
21
4
24
15
+
F3
3
5
F2
1–
2
F1
+
7
23
16
PBL 388 13
11
Control
F6
12
10
F5
Ref.
6
8
9
– 14
F4
+
13
PBL 388 13
24 pin SO
PBL 388 13
24 pin DIP
Figure 1. Block diagram.
1