MOTOROLA MC92300CG

MOTOROLA
Current [email protected]/ADC
SEMICONDUCTOR TECHNICAL DATA
MC92300
Product Preview
VITERBI Decoder for Digital TV
DTVVIT
This product preview describes a high performance device, a Viterbi Decoder, for
Digital-TV applications according to the EBU defined DVB transmission standard for
satellite and cable Set-Top systems.
RESET_N
VDCLK
SYMCLK
VTSTI[1:0]
Viterbi Decoder - Capability Specification
•
•
•
•
•
•
•
VO
VLCK
VFF
VEF
SR[2:0]
Operates at max. 50MBits/s output rate to work with all present DVB channels
Implements K=7, (1718,1338) Viterbi decoder for rates 1/2, 2/3, 3/4, 5/6 and 7/8
with a survivor depth of 96
Code rate and synchronization control programmable via I2C standard serial bus
Automatic rate selection and signal quality output (qval)
Full/empty flag generation of input FIFO for system monitoring of VDCLK/BITCLK
ratio
Simplified system design with internal PLL for the generation of output BITCLK
from the incoming VDCLK for all depuncturing modes
Available in a 128QFP package
SDA
DSA[6:0]
SCL
Ordering Information
Device
Package
MC92300CG
128QFP
VEF
VFF
VC1[2:0]
VC2[2:0]
VDCLK
BITCLK
VC0,VC1[2:0]
Synchronizer
Viterbi
Core
Depuncturing
FIFO
VO
APLL
SYMCLK
RESET_N
VLCK
SR
QVAL
I2C
2
VTSTI[1:0]
BITCLK
Interface
7
SCL DSA SDA
Figure 1. Viterbi Decoder Block Diagram
This document contains information on a new product.
Specifications and information herein are subject to change without notice.
 MOTOROLA, INC. 1997
5/28/97
Product Description
The Viterbi Decoder contains the Viterbi core logic,
which operates the K=7 convolutional code and generates
a lock indication after successful acquisition. The core
works with the main clock BITCLK, which provides the output data VO (output of the Viterbi). This clock is generated
by the integrated bit clock generator circuit and is adjusted
according to the programmed depuncturing rate.
The input to the chip are 3 bit soft decision data VC0/1
from the QPSK demodulator together with the associated
demodulator clock VDCLK. Rate adjustment in accordance
with the several depuncturing rates is achieved with the input FIFO. The data is read into the depuncturing logic with
the internally generated BITCLK.
The Viterbi block employs a method known as Syndrom
Based Node Synchronization to achieve both I & Q symbol
and punctured rate synchronization.
The theory of the Syndrom Based Node Synchronization is
based on the observation that the product of the incoming
data and a syndrom is zero if there are no errors If errors are
present in the data, the probability of 0’s and 1’s in the product increases.
The possible states that the synchronizer has to deal with
are a combination of the following factors:
1.The phasing of the received symbols.
I & Q input streams can either be processed as-is or
can be rotated 90o to account for constellation
rotation in the receiver.
2. Determination of the framing of the I and Q bit
streams so as to extract the correct symbol. There
are four possible ways to frame the two bit stream
and the synchronizer must determine the correct
one.
Generator Polynomials
The Viterbi decoder is designed to decode bit streams
encoded using the DVB standard generator polynomials
(1718, 1338).
Punctured Codes
The Viterbi Decoder is able to decode a basic rate 1/2
convolutional code and the “standard” punctured codes for
a k=7 constraint length. The punctured codes are shown in
the table below. Specific bits of the original rate 1/2 code sequence are periodically deleted prior to transmission according to the entries in the table, where a 0 means that the
bit is deleted and a 1 means that the bit is transmitted.
Table 1 Deletion Map For Punctured Rate 1/2 Codes
Coding
Rate
Puncture
Map
1/2
1
1
2/3
11
10
3/4
110
101
5/6
11010
10101
7/8
1111010
1000101
I2C Interface
The internal registers of the VITERBI are accessible
via the I2C interface. After reset, default values are preprogrammed, so that no more configuration is necessary.
APLL
In order to allow a simple system design, a Analogue
PLL is integrated for generation of the output Bit Clock. The
following output frequencies Ro are generated for a given
DVB transponder Bandwidth TBW respectively for a given
input symbol rate Rs .
TBW[MHz]
36
33
30
27
26
Rs[MHz]
Ro[MHz] for rates
1/2 2/3 3/4 5/6
7/8
38.3
28.3 37.7 42.4 47.2 49.5
20.5
20.5 27.3 30.7 34.2 35.9
Rs/Ro
1
4/3
3/2
5/3
7/4
Application
Synchronization
Prior to outputting valid data the Viterbi decoder block
must synchronize to the input data stream, i.e. remove any
phase ambiguity in the received symbols and determine the
punctured code rate transmitted
MOTOROLA
2
The MC92300 is used in satellite receiver implementation for DVB.
Packaging
The MC92300 is available in a 128-pin Plastic Quad
Flat Pack (128QFP) package.
MC92300
Rev.1.3
Viterbi Decoder Pin Description
R
E
S
VV E
T T RT
S SE_
PV T T SA
OE T I I E S
V V NS [ [ T Y
SSI T 1 0 _ N
S S DO ] ] NC
VDD
OVDD
VC1[2]
OVSS
VC1[1]
OVSS
VC1[0]
OVSS
SYMCLK
OVSS
VSS
VDD
OVDD
VC0[2]
OVSS
VC0[1]
OVSS
VC0[0]
OVSS
OVSS
VSS
VDD
OVDD
VDCLK
OVSS
VDCLK_DIV2
O
O
VV VV
DDSS
DDSS
O
O
V V VV
D DSS
D DSS
T
E
ST
TE
_ S
MT
O_
DS
EE
O
VV
DD
DD
VSS
OVSS
OVDD
VDD
VSS
OVSS
BITCLK
OVDD
OVSS
VLCK
OVSS
VO
OVDD
VDD
VSS
OVSS
VFF
OVDD
VEF
OVSS
SR[2]
SR[1]
SR[0]
OVDD
VDD
128QFP
OVSS
VSS
TESTSEL
FREF
TESTOUT
V V O S S D D O V V OD D D DD
C D V D CS S V S DV S S S S S
O D D A L A A S S DD A A A A A
D[ [ [ [ [
C D
[ [ S
T
0 1
234 56
L
] ]
] ] ] ] ]
SYMCLK
BITCLK
VDCLK
VDCLK_DIV2
RESET_N
VLCK
VFF
VEF
SR[2:0]
VO
VC0,VC1[2:0]
SDA
DSA[6:0]
SCL
TESTSEL,
FREF,
TESTOUT,
VCOCTL
MC92300
Rev.1.3
- System Clock (input clock)
- System Clock (output clock)
- Input Clock
- VDCLK/2
- Asynchronous Reset
- Viterbi Decoder in Lock
- FIFO Full Flag
- FIFO Empty Flag
- Selected Rate
- Viterbi Decoder Output
- Soft Decision Input
- Data Bus of I2C-interface
- Slave Address of I2C-interface
- Clock Line of I2C-interface
OVVO
V SDV
S SDD
S
D
OV
VS
SS
S
VTSTI[1:0]
VTSTO
RESET_ASYNC
TEST_SE
TEST_MODE
- Test pins
- Test output
- Teset for Scan Test
- Test pin for Scan Mode
- Test pin for Scan Mode
MOTOROLA Device Test Pins:
51, 56-62, 105, 110-115, 120
(don’t connect these pins)
NOT CONNECTED Pins:
27, 33, 34, 88-94, 99-102
- APLL pins
MOTOROLA
3
Motorola reserves the right to make changes without further notice to any products herein. Motorola makes no warranty, representation or guarantee regarding the
suitability of its products for any particular purpose, nor does Motorola assume any liability arising out of the application or use of any product or circuit, and
specifically disclaims any and all liability, including without limitation consequential or incidental damages. “Typical” parameters which may be provided in Motorola
data sheets and/or specifications can and do vary in different applications and actual performance may vary over time. All operating parameters, including
“Typicals” must be validated for each customer application by customer’s technical experts. Motorola does not convey any license under its patent rights nor the
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applications intended to support or sustain life, or for any other application in which the failure of the Motorola product could create a situation where personal injury
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fees arising out of directly or indirectly, any claim of personal injury or death associated with such unintended or unauthorized use, even if such claim alleges that
Motorola was negligent regarding the design or manufacture of the part. Motorola and
are registered trademarks of Motorola, Inc. Motorola, Inc. is an Equal
Opportunity/Affirmative Action Employer.
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TM
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3-14-2 Tatsumi Koto-Ku, Tokyo 135, Japan. 81-3-3521-8315
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51 Ting Kok Road, Tai Po, N.T., Hong Kong. 852-26629298
MC92300