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MT9162 Datasheet, PDF (3/17 Pages) Mitel Networks Corporation – ISO2-CMOS 5 Volt Single Rail Codec
Advance Information
MT9162
Overview
The 5V single rail Codec features complete Analog/
Digital and Digital/Analog conversion of audio
signals (Filter/Codec) and an analog interface to a
standard analog transmitter and receiver (Analog
Interface). The receiver amplifier is capable of
driving a 20k ohm load.
Functional Description
Filter/Codec
The Filter/Codec block implements conversion of the
analog 0-3.3 kHz speech signals to/from the digital
domain compatible with 64 kb/s PCM B-Channels.
Selection of companding curves and digital code
assignment are programmable. These are ITU-T
G.711 A-law or µ-Law, with true-sign/Alternate Digit
Inversion.
The Filter/Codec block also implements a transmit
audio path gain in the analog domain. Figure 3
depicts the nominal half-channel for the MT9162.
The internal architecture is fully differential to provide
the best possible noise rejection as well as to allow a
wide dynamic range from a single 5 volt supply
design. This fully differential architecture is
continued into the analog interface section to provide
full chip realization of these capabilities for the
external functions.
A reference voltage (VRef), for the conversion
requirements of the Codec section, and a bias
voltage (VBias), for biasing the internal analog
sections, are both generated on-chip. VBias is also
brought to an external pin so that it may be used for
biasing external gain setting amplifiers. A 0.1µF
capacitor must be connected from VBias to analog
ground at all times. Likewise, although VRef may only
be used internally, a 0.1µF capacitor from the VRef
pin to ground is required at all times. The analog
ground reference point for these two capacitors must
be physically the same point. To facilitate this the
VRef and VBias pins are situated on adjacent pins.
The transmit filter is designed to meet ITU-T G.714
specifications. An anti-aliasing filter is included. This
is a second order lowpass implementation with a
corner frequency at 25 kHz.
The receive filter is designed to meet ITU-T G.714
specifications. Filter response is peaked to
compensate for the sinx/x attenuation caused by the
8 kHz sampling rate.
Companding law selection for the Filter/Codec is
provided by the A/ µ companding control pin. Table
1 illustrates these choices.
Code
+ Full Scale
+ Zero
-Zero
(quiet code)
- Full Scale
ITU-T (G.711)
µ -Law
A-Law
1000 0000
1010 1010
1111 1111
1101 0101
0111 1111
0101 0101
0000 0000
0010 1010
Table 1: Law Selection
Analog Interfaces
Standard interfaces are provided by the MT9162.
These are:
• The analog inputs (transmitter), pins AIN+/AIN-.
The maximum peak to peak input is 3.667Vpp
µ−law and across AIN+/AIN- 3.8Vpp A-law.
• The analog outputs (receiver), pins AOUT+/
AOUT-. This internally compensated fully
differential output driver is capable of driving a
load of 20k ohms.
PCM Serial Interface
A serial link is required to transport data between the
MT9162 and an external digital transmission device.
The MT9162 utilizes the strobed data interface found
on many standard Codec devices. This interface is
commonly referred to as Simple Serial Interface
(SSI).
The required mode of operation is selected via the
CSL2-0 control pins. See Table 2 for selections
based in CSL2-0 pin settings.
Quiet Code
The PCM serial port can be made to send quiet code
to the decoder and receive filter path by setting the
RxMute pin high. Likewise, the PCM serial port will
send quiet code in the transmit path when the
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