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ML145564-6P Datenblatt(PDF) 3 Page - LANSDALE Semiconductor Inc.

Teilenummer ML145564-6P
Bauteilbeschribung  PCM Codec-Filter
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Hersteller  LANSDALE [LANSDALE Semiconductor Inc.]
Direct Link  http://www.lansdale.com
Logo LANSDALE - LANSDALE Semiconductor Inc.

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LANSDALE Semiconductor, Inc.
ML145554, ML145557, ML145564, ML145567
DEVICE DESCRIPTION
A codec–filter is used for digitizing and reconstructing the-
human voice. These devices were developed primarily for the
telephone network to facilitate voice switching and transmis-
sion. Once the voice is digitized, it may be switched by digital
switching methods or transmitted long distance (T1,
microwave, satellites, etc.) without degradation. The name
codec is an acronym from “COder” (for the A/D used to digi-
tize voice) and “DECoder” (for the D/A used for reconstruct-
ing voice). A codec is a single device that does both the A/D
and D/A conversions.
To digitize intelligible voice requires a signal–to–distortion
ratio of about 30 dB over a dynamic range of about 40 dB.
This can be accomplished with a linear 13–bit A/D and D/A,
but will far exceed the required signal–to–distortion ratio at
amplitudes greater than 40 dB below the peak amplitude. This
excess performance is at the expense of data per sample.
Methods of data reduction are implemented by compressing
the 13–bit linear scheme to companded 8–bit schemes. There
are two companding schemes used: Mu–255 Law specifically
in North America, and A–Law specifically in Europe. These
companding schemes are accepted world wide. These com-
panding schemes follow a segmented or “piecewise–linear”
curve formatted as sign bit, three chord bits, and four step bits.
For a given chord, all sixteen of the steps have the same volt-
age weighting. As the voltage of the analog input increases, the
four step bits increment and carry to the three chord bits which
increment. When the chord bits increment, the step bits double
their voltage weighting. This results in an effective resolution
of six bits (sign + chord + four step bits) across a 42 dB
dynamic range (seven chords above zero, by 6 dB per chord).
Tables 3 and 4 show the linear quantization levels to PCM
words for the two companding schemes.
In a sampling environment, Nyquist theory says that to prop-
erly sample a continuous signal, it must be sampled at a fre-
quency higher than twice the signal’s highest frequency com-
ponent. Voice contains spectral energy above 3 kHz, but its
absence is not detrimental to intelligibility. To reduce the digi-
tal data rate, which is proportional to the sampling rate, a sam-
ple rate of 8 kHz was adopted, consistent with a bandwidth of
3 kHz. This sampling requires a low–pass filter to limit the
high frequency energy above 3 kHz from distorting the
in–band signal. The telephone line is also subject to 50/60 Hz
power line coupling, which must be attenuated from the signal
by a high–pass filter before the A/D converter.
The D/A process reconstructs a staircase version of the
desired in–band signal, which has spectral images of the
in–band signal modulated about the sample frequency and its
harmonics. These spectral images, called aliasing components,
need to be attenuated to obtain the desired signal. The
low–pass filter used to attenuate these aliasing components is
typically called a reconstruction or smoothing filter.
The ML145554/57/64/67 PCM Codec–Filters have the
codec, both presampling and reconstruction filters, and a pre-
cision voltage reference on–chip, and require no external com-
ponents.
PIN DESCRIPTION
DIGITAL
FSR
Receive Frame Sync
This is an 8 kHz enable that must be synchronous with
BCLKR. Following a rising FSR edge, a serial PCM word at
DR is clocked by BCLKR into the receive data register. FSR
also initiates a decode on the previous PCM word. In the ab-
sence of FSX, the length of the FSR pulse is used to deter-
mine whether the I/O conforms to the Short Frame Sync or
Long Frame Sync convention.
DR
Receive Digital Data Input
BCLKR/CLKSEL
Receive Data Clock and Master Clock Frequency Selector
If this input is a clock, it must be between 128 kHz and
4.096 MHz, and synchronous with FSR. In synchronous appli-
cations this pin may be held at a constant level; then BCLKX
is used as the data clock for both the transmit and receive
sides, and this pin selects the assumed frequency of the master
clock (see Table 1 in
Functional Description).
MCLKR/PDN
Receive Master Clock and Power–Down Control
Because of the shared DAC architecture used on these
devices, only one master clock is needed. Whenever FSX is
clocking, MCLKX is used to derive all internal clocks, and the
MCLKR/PDN pin merely serves as a power–down control. If
MCLKR/PDN pin is held low or is clocked (and at least one of
the frame syncs is present), the part is powered up. If this pin
is held high, the part is powered down. If FSX is absent but
FSR is still clocking, the device goes into receive half–channel
mode, and MCLKR (if clocking) generates the internal clocks.
MCLKX
Transmit Master Clock
This clock is used to derive the internal sequencing clocks; it
must be 1.536 MHz, 1.544 MHz, or 2.048 MHz.
BCLKX
Transmit Data Clock
BCLKX may be any frequency between 128 kHz and 4.096
MHz, but it should be synchronous with MCLKX.
DX
Transmit Digital Data Output
This output is controlled by FSX and BCLKX to output the
PCM data word; otherwise this pin is in a high–impedance state.
FSX
Transmit Frame Sync
This is an 8 kHz enable that must be synchronous
with BCLKX. A rising FSX edge initiates the transmission of a
www.lansdale.com
Page 3 of 18
Issue A


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