Features
•
•
•
•
•
•
•
•
•
•
•
16 Multiplier-Accumulators
16 Bit Data and 12 Bit Coefficients, 32 Bit Internal Accuracy
16 Banks of 12 Bit Coefficients
16 Taps at 33 MHz
Up to 32 Taps for Symmetrical or Interleaved Zeroed Coefficient Filters at 33 MHz
Up to 63 Taps for Symmetrical Halfband Filters at 33 MHz
Programmable Decimation by 2, 4, 8 or 16
Cascadable Keeping Symmetry Advantages
Output Gain Multiplier
Programmable Microprocessor Interface
208-pin QFP Package
Programmable
FIR Filter
AT76C002
Description
The AT76C002 FIR filter contains 16 multiplier-accumulators which enable it to imple-
ment a 16th order non-symmetrical FIR filter or a 32nd order symmetrical FIR filter,
operating at 33 MHz. Furthermore, it can be configured to implement a 64th order
filter where the even order coefficients are zero, also running at 33 MHz. The incom-
ing samples are 16 bit coded, the coefficients are 12 bit coded and the internal accu-
racy is 32 bits.
The AT76C002 contains 16 banks of 2 bit coefficients that can be selected in one
clock cycle. These banks can also be used to perform decimation by 2, 4, 8 or 16
using FIR filters from 32 taps up to 256 taps. In decimation mode, the symmetry
capabilities cannot be used.
In order to implement long FIR filters at the highest frequency (i.e. 33 MHz) the circuit
can be cascaded, with no limits except the internal accuracy. Symmetry properties
can be used in cascade mode. This halves the number of cascaded circuits to imple-
ment symmetrical filters.
In order to increase the accuracy of the intermediate results, the AT76C002 includes
an output gain multiplier which enables the whole 12 bit dynamic of the coefficients to
be used. Cascadability cannot be used in decimation mode.
The AT76C002 includes a 16 bit microprocessor interface that can be configured to
be Intel or Motorola compatible.
Applications
•
•
•
•
High sample rate digital filtering
Image processing
Video processing
Matrix multiplication
Block Diagram
BXN
Mux
BXP
Backward Delay Line
FXP
Forward Delay Line
FXN
ALU
Register
Coeffic-
ient
Bank
Register
Coeffic-
ient
Bank
ALU
Register
Coeffic-
ient
Bank
Register
Adder Array
ALU
Register
Coeffic-
ient
Bank
Register
ALU
Register
Register
Control Unit
CLOCK
RESET
ADR
RD
DATA
WR/DS
CS
Configuration
Register
Output Gain
Register
Decimation
Control
Timing and
Control
Micro
Interface
PRA
Mux
Decimat-
ion
Dual-Port
RAM
Register
Mux
Register
Register
0 to
8-bit
Down
Shifter
Mux
Register
8-bit
Down
Shifter
GAIN
Register
Mux
DOUT
Internal Structure
FIR Structure
Decimation
The AT76C002 is built around an array of 16 17x12 multi-
plier-accumulators, a forward and a backward delay line
which enable FIR filters of up to 32 taps to be implemented
with odd and even symmetry. FIR filters with interleaved
zeroed coefficients (such as half-band filters) are handled
in an efficient way since a 64 tap half-band symmetrical
FIR can be implemented in only one device.
Coefficient Banks
Using these coefficient banks, the AT76C002 can imple-
ment decimation filters by 2, 4, 8 or 16, the output rate
being 2, 4, 8 or 16 times lower than the input rate. The
value of the decimation is programmed in an internal con-
figuration register using the microprocessor interface. Us-
ing the SEN Sample Enable input signal, the circuit can
handle a variable incoming data rate.
Cascadability
The AT76C002 contains 16 banks of 12 bit coefficients
that can be selected by writing to an internal register. The
12 bit coefficients are loaded using the 16 bit microproces-
sor data bus where the least significant 12 bits are for the
coefficient and the most significant 4 bits are for the ad-
dress within the bank. The bank number is selected by
writing to a configuration register.
The ATC76C002 can be cascaded in order to implement
long high-rate FIR filters. Even in a cascaded structure,
the AT76C002 can efficiently handle symmetrical and in-
terleaved zeroed coefficient FIR filters, by cascading both
forward and backward delay lines. In that way, a 128 tap
symmetrical FIR filter or a 256 tap symmetrical half-band
FIR filter would only require two cascaded AT76C002 de-
vices.
2
AT76C002
AT76C002
Pin Description
Name
V
CC
GND
CLOCK
Function
Supply voltage
Ground
Clock input
Arithmetic Precision
The AT76C002 includes several features to tune the dy-
namic of the output results. First of all, the 32 bit output of
the FIR structure can be divided by 256 (8 bit down
shifter), divided by 1 to 256 (0 to 8 bit down shifter), and
then bits 23 to 8 of the data can be multiplied by a 10 bit
gain. All features are accessible via the microprocessor
bus. These features are useful in cascade mode be-
cause, in long filters, most of the coefficients are very low
compared with the central ones. Consequently, in a cas-
cade chain, for a device which implements a part of the
filter with low coefficients, the coefficients can be tuned in
order to use as much as possible the whole 12 bit dy-
namic. The result is then re-tuned before being transmit-
ted to the next device in the cascade chain.
CKEN_SYNC Synchronous clock enable input
CKEN
RESET
ADR
DATA
RD
WR/DS
CS
MOTO/
nINTEL
SEN
FXP
FXN
BXP
BXN
PRA
SF
DOUT
OUT_DEN
ENA0
ENA0_N
ENA1
ENA1_N
Asynchronous clock enable input
Master reset input
3 bit microprocessor interface input address bus
16 bit microprocessor interface bidirectional data bus
Microprocessor interface read input
Microprocessor interface write/data strobe input
Microprocessor interface chip select input
Microprocessor interface configuration selection input
Sample enable input
16 bit forward delay line input (for cascadability)
16 bit forward delay line output (for cascadability)
16 bit backward delay line output (for cascadability)
16 bit backward delay line input (for cascadability)
32 bit intermediate result input bus (for cascadability)
2 bit output configuration input bus
32 bit filter output bus
Output data valid
Least significant 16 bit data out enable (active high)
Least significant 16 bit data out enable (active low)
Most significant 16 bit data out enable (active high)
Most significant 16 bit data out enable (active low)
Microprocessor Interface
The AT76C002 contains a 16 bit microprocessor interface
which can be configured, using the MOTO/nINTEL input,
to have a Motorola or Intel compatible protocol. In Mo-
torola mode, the protocol uses CS (Chip Select), DS (Data
Strobe) and RDW (Read/nWrite) signals. In Intel mode,
the protocol uses CS (Chip Select), DS/WR (Write) and
RDWR (Read) signals.
3
Electrical Specifications
Absolute Maximum Ratings
Symbol
V
DD
V
I
V
O
+-IIk
+-IOk
I
OL
MAX
I
OH
MAX
T
SH
T
A
T
SG
Parameter
DC supply
voltage
DC input
voltage
DC output
voltage
DC input diode
current
DC output
diode current
Continuous
output current
Continuous
output current
Time of
outputs shorted
Temperature
range
Storage
temperature
-40
-65
Min
-0.5
-0.5
-0.5
Max
5.5
V
DD
+
0.5V
V
DD
+
0.5V
10
20
10
10
5
+85
+150
Unit
V
V
V
mA
mA
mA
mA
sec
C
C
Industrial
or see +-IIk
or see +-IOk
V
I
< -0.5V
V
I
> V
DD
+ 0.5V
V
O
< -0.5V
V
O
> V
DD
+ 0.5V
Industrial
Industrial
I
OZ
Conditions
DC Characteristics
Symbol
I
IH
I
IL
Parameter
Input leakage,
no pullup
Input leakage,
no pullup
High-
impedance
output current
bi-directional
pins
Low level input
voltage
High level
input voltage
Low level
output voltage
High level
output voltage
Input
capacitance
V
DD
-
0.5V
7
70%
V
DD
0.5
Min
-1.0
-1.0
Max
+1.0
+1.0
Unit
µA
µA
Conditions
V
IN
= V
DD
=
5.5V
V
IN
= 0
V
DD
= 5.5V
-1.0
+1.0
µA
V
DD
= 5.5V
V
IL
V
IH
V
OL
V
OH
C
IN
30%
V
DD
V
V
V
V
pF
CMOS inputs
and bi-dir
CMOS inputs
and bi-dir
I
OL
= 5.0 mA
I
OH
= 5.0 mA
Recommended Operating Conditions
Symbol
V
DD
V
I
V
O
T
A
T
R
T
F
Parameter
DC supply
voltage
DC input
voltage
DC output
voltage
Temperature
range
Input rise time
Input fall time
Min
4.5
0
0
-40
Typ
5.0
5.0
5.0
Max
5.5
V
DD
V
DD
+85
15
15
Unit
V
V
V
C
ns
ns
Industrial
10% - 90%
CMOS
10% - 90%
CMOS
Conditions
© Copyright Atmel Corporation 1996.
Atmel Corporation assumes no responsibility for the use of any circuitry other than circuitry embodied in an
Atmel Corporation product. No other circuit patent licenses are implied. Atmel Corporation’s products are not
authorized for use as critical components in life support devices or systems.
Atmel Headquarters, 2325 Orchard Parkway, San Jose, CA 95131, TEL (408) 441-0311, FAX (408) 487-2600
Atmel Colorado Springs, 1150 E. Cheyenne Mtn. Blvd., Colorado Springs, CO 80906, TEL (719) 576-3300, FAX (719) 540-1759
Atmel Rousset, Zone Industrielle, 13106 Rousset Cedex, France, TEL (33) 42 53 60 00, FAX (33) 42 53 60 01
Terms and product names in this document may be trademarks of others.
Printed on recycled paper.
0676A/76C002-A-9/96/15M
京公网安备 11010802033920号
EEWORLD
