MC145481SD Freescale Semiconductor, MC145481SD Datasheet - Page 2
MC145481SD
Manufacturer Part Number
MC145481SD
Description
IC CODEC-FILTER PCM 3V 20-SSOP
Manufacturer
Freescale Semiconductor
Type
PCM Codec/Filterr
Datasheet
1.MC145481DW.pdf
(24 pages)
Specifications of MC145481SD
Data Interface
PCM Audio Interface
Resolution (bits)
6 b
Number Of Adcs / Dacs
1 / 1
Sigma Delta
No
Voltage - Supply, Digital
2.7 V ~ 5.25 V
Operating Temperature
-40°C ~ 85°C
Mounting Type
Surface Mount
Package / Case
20-SSOP
Lead Free Status / RoHS Status
Contains lead / RoHS non-compliant
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
ing the human voice. These devices are used primarily for
the telephone network to facilitate voice switching and trans-
mission. 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 analog–to–digital
converter (ADC) used to digitize voice, and ‘‘DECoder’’ for
the digital–to–analog converter (DAC) used for reconstruct-
ing voice. A codec is a single device that does both the ADC
and DAC conversions.
ratio of about 30 dB over a dynamic range of about 40 dB.
This may be accomplished with a linear 13–bit ADC and
DAC, but will far exceed the required signal–to–distortion
ratio at larger amplitudes than 40 dB below the peak ampli-
tude. This excess performance is at the expense of data per
sample. Two methods of data reduction are implemented by
compressing the 13–bit linear scheme to companded
pseudo–logarithmic 8–bit schemes. The two companding
schemes are: Mu–255 Law, primarily in North America and
Japan; and A–Law, primarily used in Europe. These com-
panding schemes are accepted world wide. These compand-
ing 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 voltage
weighting. As the voltage of the analog input increases, the
four step bits increment and carry to the three chord bits
2
A PCM Codec–Filter is used for digitizing and reconstruct-
To digitize intelligible voice requires a signal–to–distortion
V AG Ref
RO -
PO +
PO -
V DD
V SS
V AG
TI -
TI +
TG
PI
DEVICE DESCRIPTION
-
+
- 1
Figure 1. MC145481 3 V PCM Codec–Filter Block Diagram
-
+
Freescale Semiconductor, Inc.
1
For More Information On This Product,
FREQ
V SS
V DD
Go to: www.freescale.com
R*
R*
FREQ
which increment. When the chord bits increment, the step
bits double their voltage weighting. This results in an effec-
tive resolution of six bits (sign + chord + four step bits) across
a 42 dB dynamic range (seven chords above 0, by 6 dB per
chord).
properly sample a continuous signal, it must be sampled at a
frequency higher than twice the signal’s highest frequency
component. Voice contains spectral energy above 3 kHz, but
its absence is not detrimental to intelligibility. To reduce the
digital data rate, which is proportional to the sampling rate, a
sample rate of 8 kHz was adopted, consistent with a band-
width 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 analog–to–
digital converter.
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
are called aliasing components, which need to be attenuated
to obtain the desired signal. The low–pass filter used to at-
tenuate these aliasing components is typically called a re-
construction or smoothing filter.
presampling and reconstruction filters, and a precision volt-
age reference on–chip.
In a sampling environment, Nyquist theory says that to
The digital–to–analog conversion process reconstructs a
The MC145481 PCM Codec–Filter has the codec, both
SHARED
0.886 V
DAC
ADC
REF
DAC
SEQUENCE
REGISTER
TRANSMIT
REGISTER
CONTROL
RECEIVE
SHIFT
SHIFT
AND
DR
FSR
BCLKR
Mu/A
PDI
MCLK
BCLKT
FST
DT
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