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AD20MSP415 データシート(PDF) 2 Page - Analog Devices

部品番号 AD20MSP415
部品情報  GSM/DCS1800/PCS1900 Baseband Processing Chipset
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メーカー  AD [Analog Devices]
ホームページ  http://www.analog.com
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AD20MSP415 データシート(HTML) 2 Page - Analog Devices

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ARCHITECTURE OVERVIEW
Analog Devices and The Technology Partnership (TTP) pro-
vide a cost effective and proven method of attaining the baseband
processing subsystem and protocol stack software. This data
sheet includes functional descriptions of the baseband process-
ing subsystem and the Protocol Stack Layer 1. The Technology
Partnership can provide licenses to software and reference de-
signs in all areas of a GSM handportable terminal.
For detailed information about the individual chipset compo-
nents, please refer to the AD6421 (VBC) and AD6422 (GSMP)
data sheets for electrical characteristics and timing information.
FUNCTIONAL DESCRIPTION
Figure 1 is a functional block diagram of the GSM baseband
processing chipset. The chipset can be viewed as a functional
block that contains a number of discrete functional units. The
electrical and functional interfaces to the rest of the system are
briefly described at the end of this section and described in
detail in the individual data sheets for each component.
VOICE
ADC
SPEECH
ENCODE
CHANNEL
ENCODE
INTER-
LEAVE
ENCRYPT
VOICE
DAC
SPEECH
DECODE
CHANNEL
DECODE
DEINTER-
LEAVE
DECRYPT
EQUALIZER
BASEBAND
ADC
CONTROL + MMI + I/O
VBC
GSMP
BASEBAND
DAC
Figure 1. Functional Block Diagram
Uplink
The uplink baseband processing functions include the following
operations:
Analog-to-Digital Voice Conversion (VBC)
A conventional microphone, connected directly to the VBC,
provides an analog input signal to the ADC. The analog voice
signal is sampled at 8 kHz, producing 13-bit linear values corre-
sponding to the magnitude of the input. The ADC includes all
required filtering to meet the GSM specifications. The sampled
voice data is passed to the GSMP through a dedicated serial
port.
Speech Encoding (GSMP)
The GSMP receives the voice data stream from the VBC and
encodes the data from 104 kb/s to 13 kb/s. The algorithm used is
Regular Pulse Excitation, with Long Term Prediction (RPE-
LTP) as specified in the 06-series of GSM Recommendations.
Channel Coding (GSMP)
The information received from the speech coder contains param-
eters that have different levels of priority. These are protected to
different levels within the channel coding. The encode protec-
tion process incorporates block coding and convolutional
encoding. In addition to the normal speech traffic channels, the
channel coding function also supports data transmission at full
rate and half rate. After the interleave process (if necessary) the
data is encrypted using the required A5/1 or A5/2 encryption
algorithm. Data is then formatted into bursts, with the required
timing and training sequences, and sent to the VBC through a
dedicated serial port.
GMSK Modulation and D/A Conversion (VBC)
The VBC receives data at 270 kb/s. The VBC uses an on-chip
lookup table to perform GMSK modulation. A pair of 10-bit
matched differential DACs convert the modulated data and pass
I and Q analog data to the transmit section of the radio subsystem.
Downlink
The downlink baseband processing functions include the follow-
ing operations:
Analog-to-Digital Conversion (VBC)
The receiver I and Q signals are sampled by a pair of ADCs at
270 kHz. The I and Q samples are transferred to the GSMP
through a dedicated receive path serial port.
Equalization (GSMP)
The equalizer recovers and demodulates the received signal and
establishes local timing and frequency references for the mobile
unit as well as RSSI calculation. The equalization algorithm is a
version of the Maximum Likelihood Sequence Estimation (MLSE)
using the Viterbi algorithm. Two confidence bits per symbol
provide additional information about the accuracy of each deci-
sion to the channel codec’s convolutional decoder. The equal-
izer outputs a sequence of bits including the confidence bits.
Channel Decoding (GSMP)
Data is decrypted as required, using the A5/1 or A5/2 decryption
algorithm prior to the deinterleave process. The deinterleave
process is an exact inversion of the interleave process used by
the transmit section. The decode function then performs convo-
lutional decoding and parity check. The convolutional decoder
uses a Viterbi algorithm, with two soft decision confidence bits
supplied by the equalizer. Error control mechanisms are used to
ensure adequate bad frame indication.
Speech Decoding (GSMP)
Encoded speech data is transferred at 20 ms intervals in blocks
of 260 bits plus the Bad Frame Indicator (BFI). The speech
decoder supports a Comfort Noise Insertion (CNI) function
that inserts a predefined silence descriptor into the decoding
process. The GSMP also implements control of talker side-tone
and short term echo cancellation. The resulting data, at 104 kb/s,
is transferred to the VBC through a dedicated serial path.
Voice Digital-to-Analog Conversion (VBC)
The Voice DAC function of the VBC operates at 8 kHz and
includes all the needed filtering. The analog signal can be con-
trolled in volume and directly drive a small earpiece as well as a
separate auxiliary output.


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