Applications
•Central office and end-user
equipment
•DSL Access Multiplexers
(DSLAM)
•ADSL PC NICs
•ADSL access for routers
•DLC upgrade
•ADSL line cards for ATM
switches and multiplexers
Features
• 4th generation Alcatel ADSL
• Compatible with MTK-20131
• Highest integration on the
market
- 2 chips plus line driver
- Direct ATM interface
• Complete modem package
- No dependency on external
processor
- Easy to use command inter-
face
- Full reference design
- Full embedded ADSL control
• Combining the power of dedi-
cated DSP blocks with the
flexibility of an embedded
controller
• Highest performance
- Fully rate-adaptive
- Operation up to 26 kft (24
AWG), 18 kft (26 AWG)
- More than 8 Mbps/820kbps
up to 5 kft (26 AWG,
6dBmargin)
- More than 3 Mbps/720kbps
up to 12 kft (26 AWG,6dB
margin) or 15.5 kft (24
AWG, 6 dB margin)
•Support for multiple standards
- ANSI T1.413 Issue 2
- ITU G.dmt
- UAWG and G.lite
- ADSL over ISDN
General Description
The MTK-20140 is a complete ADSL
modem solution consisting of an integra-
ted Analog Front-End (MTC-20144) and
a digital chip (MTC-20146) integrating
the DMT/ATM digital modem (MTC-
20135) and a dedicated ADSL Trans-
ceiver Controller with associated FW.
The MTK-20140 therefore provides all
the active functions required to imple-
ment a complete ATM-based, rate
adaptive DMT ADSL modem.
As shown in figure 1, the chipset inter-
faces have been defined to allow direct
integration into systems design, redu-
cing both time-to-market and implemen-
tation risks.
The data interface is implemented as an
ATM Utopia interface. A HW /FW
command and control interface (CTRLE),
to communicate with external manage-
ment entities, is directly provided,
without need for glue logic.
MTK-20140
“DynaMiTe™” Rate Adaptive
Asymmetrical Digital Subscriber
Line (ADSL) Modem Chipset
Rev. 1 - January 1999
ATM MTC-20146 MTC-20144
Analog
Front-end
UTOPIA 2
- DTM Modem
- ATM Framer
- Controller
POTS
Splitter
FEPROM RAM
Line
A/B
XX
Management
Entity
Control
CTRLE
X
Fig. 1: General Block Diagram
Product Brief
Analog Front End
MTC-20144
RS-coder
RS-coder
RS-decoder
RS-decoder
ATM
UTOPIA
Interleaver
De-Interleaver
MONITOR
MAPPER
DEMAPPER
ROM
RAM
IFFT
FFT
ADSL Modem /ATM Framer/Embedded Controller
MTC-20146
PISO
SIPO
Tx Filter
TEQ
+
.
.
.
Echo
Filter
Interpolator
Decimator
+
+
ADC
DAC
AGC &
Tx Filter
AGC &
Rx Filter
Line Driver
POTS
Splitter
Line
Hybrid
DMT Symbol
Buffer
DMT Symbol
Buffer
MUX
ATM
Bitstream
Controller
core
CTRLE
I/F
CTRLE
Control
Control Interface
Fig. 2: ADSL Chipset Block Diagram
The chipset employs Discrete Multitone
modulation as specified in ANSI
T1.413. It also complies with ITU G-dmt
and G-Lite standards through SW
upgrades. Additional Reed Solomon for-
ward error correction with or without
interleaving provides maximum noise
immunity.
The chipset can operate at either end of
the loop (in ATU-C and ATU-R modes)
with only changes in the controller code.
The MTK-20140 elements are further
detailed in the following documents:
MTC-20144 - Analog Front-End
MTC-20146 - DMT Modem and ATM
Framer with embedded
ADSL Tranceiver Controll-
er
CTRLE - Modem Control Interface
The Alcatel ADSL
Modem Chipset
MTK-20140 DynaMiTe ™ is a 2 chip
ADSL Modem Transceiver with embed-
ded transceiver controller.
The kit also includes the necessary
modem FW running on the Transceiver
Controller.
The chipset directly interfaces with ATM
systems to allow ATM traffic to be trans-
ported at high speed on copper pairs
with minimum overhead.
The Modem Environ-
ment
Although the required capabilities of the
transceiver at the network termination
and the local exchange points are not
the same (ADSL is an asymmetrical
transmission mode), the same chipset is
used at both sides of the link.
An external ADSL-compatible line driver
is used to drive the telephone twisted
pair. Finally, an analog POTS splitter is
needed to split the baseband analog
telephone signal from the modulated
ADSL signal. In G-Lite mode, the splitter
can be removed and replaced by distri-
buted POTS filters.
Brief characteristics of the system are
given in table 1. Table 2 shows speed
versus distance in upstream and downs-
tream directions.
The bitrate can be varied in steps of 32
kbits/s.
The Chipset Functions
The chip functions are depicted in the
block diagram of the ADSL modem pre-
sented in Fig. 2.
The functions included in each IC are as
follows:
•An Analog Front-end Circuit
(MTK-20140)
This CMOS IC contains the analog
functions required in the transceiver. In
order to cope with the high attenuation
of the line and in order to keep accep-
table noise level of the signal, automatic
gain control amplifiers have been imple-
mented at the analog front of the trans-
mission and reception paths. Then, the
signal is passed through low pass filters
to eliminate the echo signal and out-of-
band interferences. Depending on the
configuration, ATU-C or ATU-R, ups-
tream and downstream channel filter
may be exchanged between the trans-
mission and the reception channel.
2
MTK-20140
optional
3
MTK-20140
The AD and DA converters provide 12
bit resolution at 8.8 MHz sampling
rate.
Finally, for the transmission part, the
control of the external hybrid drivers is
done by an integrated highly linear line
pre-driver.
• Modem/Framer/Controller
(MTC-20146)
This CMOS IC contains all the digital
functional blocks required for the follo-
wing functions.
1. Discrete Multi Tone (DMT)
Modulation and Demodulation
The MTC-20146 implements digitally
the Quadrature-Amplitude Modulation
(QAM) mapper/ demapper which
allows up to 14 bits coding per tone (a
constellation of 16383 points).
The device implements the necessary
Inverse- and Fast Fourier Transform (IFFT,
FFT), the Time- and Frequency-Domain
Equalizer (TEQ, FEQ) plus timing units
and voltage controlled Xtal oscillator
(VCXO).
These last blocks implement efficient syn-
chronization algorithms to improve the
efficiency of the recovery of data.
2. Framing Functions
The MTC-20146 implements framing
functions for the generic and ATM Trans-
mission Convergence (TC) layers.
The generic TC consists of data scram-
bling and Reed-Solomon error correction
with and without interleaving.
The ATM TC includes cell level functions
(such as cell delineation, insertion/
extraction of idle cells, payload scram-
bling, HEC check) and data frame gene-
ration.
Several framing variants are imple-
mented (such as interleaved and non-
interleaved modes, full and reduced ove-
rhead) to ensure compliance with ANSI
T1.413 Issue 2 and ITU G-dmt and G-
Lite.
3. Interface to ATMF Standard
UTOPIA Bus
The IC contains the ATM-related func-
tions to interface with the ATM UTOPIA
bus and supports level 1 and level 2
modes.
4. Control of Transceiver Chip
Operations:
The MTC-20146 runs the FW controlling
the operations of the ADSL transceiver
(AFE, DMT modem, Framer). During
modem initialization, the controller com-
putes and sets up parameters for all pro-
grammable DMT functions, filters and
equalizers. The controller is able to run
in different rate-adaptive modes as defi-
ned by the operator and can run pro-
grams for the ATU-C (master mode) or
for the ATU-R (slave-mode) sides. The
controller also implements the EOC and
AOC protocols. ITU G-hs and G-PLOAM
will also be implemented through SW
upgrades.
During operation, the MTC-20146 per-
forms continuous line monitoring and ini-
tiates consecutive actions as specified
by the operator (e.g. bit-swapping,
dynamic bit-rate adaptation, fast
retrain...) and collects performance and
error information for use by manage-
ment entities.
5. Interface to Management Entities
The MTC-20146 also runs the communi-
cation protocol to interface with external
management entities.
A specific ADSL modem control inter-
face has been defined to ease the inte-
gration with both systems HW and FW.
This so-called CTRLE communication
channel is used to transfer information
and commands between modem and
management entities. These commands/
responses are fully described in the
“CTRLE specification” document and
can be categorized as follows :
•Configuration of a modem line
•De-allocation of a modem line
•Operational Data Retrieval
•Performance Data Retrieval
•Defect Retrieval
The MTC-20146 provides direct HW
connection to external components (pro-
cessors, SARs, Muxes,...) through an 8-
bit parallel or bus.
4
MTK-20140
Table 2: Performance Measurements
MTC-20144
4.3 kHz tone spacing
ADC 12 bit resolution, 8.832 MHz sampling rate
DAC 12 bit resolution, 8.832 MHz sampling rate
Analog/tunable low-pass filters
Upstream channel fc 138 kHz, <1dB ripple
Downstream channel fc 1100 kHz, <1dB ripple
AGC range: 0..31 dB in steps of 1 dB (Rx)
-15..0 dB in steps of 1 dB (Tx predriver)
Package: 64 TQFP
MTC-20146
DMT modulation
max. number of bit per tone: 14 bits (16383 constellation points)
max. number of tones: 256 tones
Max. clock speed: 36 MHz
Max. tone spacing: 4.325 kHz
RS encoder: max codeword 256 bytes
ATM Processor:
ATM cell buffering
Cell counting
Insert/Extract, Idle/Unassigned ATM cells (rate adaptation)
ATM HEC generation module (CCITT I.432)
ATM payload scrambler: payload width: 48 bytes
UTOPIA Level 2 Interface
Embedded ARM microcore
Modem Command interface
parallel 8bit bus
serial bus (SPI)
dual port RAM Mailbox
Packages: TQFP 176 or PQFP 208
Table 1 : Summary of Characteristics ADSL Chips
Distances Data rate at 6 dB margin
0.5 mm Upstream Downstream
24 AWG
0.9 km - 3 kft 820 kbit/s 8 Mbit/s
2.7 km - 9 kft 820 kbit/s 7 Mbit/s
3.6 km - 12 kft 820 kbit/s 5.2 Mbit/s
4.5 km - 15 kft 768 kbit/s 3.2 Mbit/s
6.3 km - 21 kft 640 kbit/s 800 kbit/s
Building Systems with
MTK-20140
Great care has been taken in defining
the MTK-20140 to ease its integration
into system designs. In particular, this is
achieved :
•at HW level : by using standard inter-
faces both for data transfer (ATM Uto-
pia) and for control (8-bit parallel)
•at FW level: by clearly separating the
modem FW, run on the embedded
Transceiver Controller from other sys-
tems related and application-specific
functions. The boundary between the
two domains is provided by means of a
simple modem control protocol (CTRLE).
This “packaged modem” approach pro-
vides a self-contained ADSL modem
solution, allowing system manufacturers
to concentrate on system issues.
Designs using the MTK-20131 can be
readily adapted to support the MTK-
20140. External interfaces remain the
same so that there is no impact on exter-
nal system HW and SW elements.
The MTK-20140 comes in a full packa-
ge with full FW, schematics, Bill of
Material and layout information for the
ADSL modem part.
It is further supported by a full develop-
ment environment comprising:
•Evaluation boards for ATU-C and
ATU-R sides
•Interface card for easy connection of
CTRLE to a PC (e.g. through RS232)
•PC FW driver for CTRLE
•ADSL test and control FW running on
PC with GUI
5
MTK-20140
Fig. 3: MTK-20140 Modem Package
Utopia
CTRLE
Discr
Discrete
ete
Analog
Analog
RAM
RAM
SW
SW
MTC-20144
MTC-20144 MTC-20146
MTC-20146
Line
signal
MTK-20140 reference design
Data
ATM
function
Manag.
entity
MTK-20140
11/98 PB0271a
Alcatel Microelectronics acknowledges the trademarks of all companies referred to in this document.
This document contains information on a new product.
Alcatel Microelectronics
reserves the right to make
changes in specifications at any time and without notice.
The information furnished by
Alcatel Microelectronics
in this
document is believed to be accurate and reliable.
However, no responsibility is assumed by
Alcatel
Microelectronics
for its use, nor for any infringements of
patents or other rights of third parties resulting from its use.
No licence is granted under any patents or patent rights
of
Alcatel Microelectronics
.
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