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Mitel Networks Corporation - Programmable FIR Filter

Numéro de référence PDSP16256A
Description Programmable FIR Filter
Fabricant Mitel Networks Corporation 
Logo Mitel Networks Corporation 





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PDSP16256A fiche technique
PDSP16256/A
Programmable FIR Filter
DS3709
Issue 7.1
June 1999
Features
q Sixteen MACs in a Single Device
q Basic Mode is 16-Tap Filter at up to 25MHz
Sample Rates
q Programmable to give up to 128 Taps with
Sampling Rates Proportionally Reducing to
3·125MHz
q 16-bit Data and 32-bit Accumulators
q Can be configured as One Long Filter or Two
Half-Length Filters
q Decimate-by-two Option will Double the Filter
Length
q Coefficients supplied from Host System or local
EPROM
Applications
q High Performance Digital Filters
Ordering Information
Commercial (0°C to 170°C)
PDSP16256A/C0/AC 25MHz, PGA package
Industrial (240°C to 185°C)
PDSP16256 B0/AC 20MHz, PGA package
PDSP16256 B0/GC 20MHz, QFP package
Military (255°C to 1125°C)
PDSP16256 MC/AC1R 20MHz, MIL-STD-883*
(latest revision), PGA package
PDSP16256 MC/GC1R 20MHz, MIL-STD-883*
(latest revision), QFP package
*See notes following Electrical Characteristics for further
information on MIL-STD-883 screening
Associated Products
PDSP16350 I/Q Splitter/NCO
PDSP16510A FFT Processor
Description
The PDSP16256 contains sixteen multiplier -
accumulators, which can be multi cycled to provide
from 16 to 128 stages of digital filtering. Input data
and coefficients are both represented by 16-bit
two’s complement numbers with coefficients
converted internally to 12 bits and the results being
accumulated up to 32 bits.
In 16-tap mode the device samples data at the
system clock rate of up to 25MHz. If a lower sample
rate is acceptable then the number of stages can be
increased in powers of two up to a maximum of 128.
Each time the number of stages is doubled, the
sample clock rate must be halved with respect to the
system clock. With 128 stages the sample clock is
therefore one eighth of the system clock.
In all speed modes devices can be cascaded to
provide filters of any length, only limited by the
possibility of accumulator overflow. The 32-bit
results are passed between cascaded devices
without any intermediate scaling and subsequent
loss of precision.
The device can be configured as either one long
filter or two separate filters with half the number of
taps in each. Both networks can have independent
inputs and outputs.
Both single and cascaded devices can be operated
in decimate-by-two mode. The output rate is then
half the input rate, but twice the number of stages
are possible at a given sample rate. A single device
with a 20MHz clock would then, for example,
provide a 128-stage low pass filter, with a 5MHz
input rate and 2·5MHz output rate.
Coefficients are stored internally and can be down
loaded from a host system or an EPROM. The latter
requires no additional support, and is used in stand
alone applications. A full set of coefficients is then
automatically loaded at power on, or at the request
of the system. A single EPROM can be used to
provide coefficients for up to 16 devices.

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