HSP50216KIZ Intersil, HSP50216KIZ Datasheet - Page 15

HSP50216KIZ

Manufacturer Part Number

HSP50216KIZ

Description

IC DOWNCONVERTER DGTL 4CH 196BGA

Manufacturer

Intersil

Datasheet

1.HSP50216KIZ.pdf (58 pages)

Specifications of HSP50216KIZ

Function

Downconverter

Rf Type

W-CDMA

Package / Case

196-BGA

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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Filter Example #4 will be used to demonstrate this capability.

Symbol rate of 4.096 MSym. The desired output sample rate

is 8.192MSPS. Arrange the four back end sections as four

filters operating on the same CIC output at a rate of

65.536MHz/4=16.384MHz, where the factor of 4 is the CIC

decimation we have chosen.

Each channel computes the same sequence, offset by one

output sample from the previous sample (see IWA = *00Bh).

Each channel decimates down to 2.048M and then the

channels are multiplexed together in the output formatter to

get the desired 8.192MSPS. The input sample rate to the

final filter of each channel must meet Nyquist requirements

for the final output to assure that no information is lost due to

aliasing.

The number of FIR taps available for these requirements is

calculated as follows:

65536/2048 = 32 clocks

minus (8 writes + 1 wait + 1 jump = 10 clocks)

= 22 clocks

Therefore, the number of taps available is:

22 x 2 = 44 taps.

Multiplexing the four outputs gives a final output sample rate

of 8.192MSPS.

The impulse response is 44 taps at 16.384M or 22 output

samples (11 symbols at 4.096M).

The AGC loop filter output of channel 4 can be routed to

control the forward AGC gain control of all four channels.

This assures that the gains of the four back end sections are

the same. The gain error, however, is only computed from

every fourth output sample.

The back end processing sections of two or more HSP50216s

can be combined using the same polyphase approach, but

the AGC gain from one part cannot be shared with another

STEP

Wait for enough input samples (8 in this case)

FIR

type = even symmetry

44 taps

decimate by 8

compute one output

memory block size 64

memory block start at 0

coefficient block start at 64

step size 1

output to AGC

offset memory read pointers by 0, -2, -4, -6

Jump, Unconditional, to 0

SAMPLE FILTER #4 PROGRAM

INSTRUCTION

HSP50216

part (except via the μP interface), so polyphase filter using

multiple parts would typically usually use a fixed gain.

The filter sequencer is programmed via an instruction RAM

and several control registers. These are described below.

Instruction RAMs

The filter compute engine is controlled by a simple

sequencer supporting up to 32 steps. Each step can be a

filter or one of four sequence flow instructions - wait, jump

(conditional or unconditional), load loop counter, or NOP.

There are 128 bits per instruction word with each word

consisting of condition code selects, FIR parameters and

data routing controls. Not all of the instruction word bits are

used for all instruction types. The actual sequencer

instruction is only 9 bits. The rest of the bits are used for filter

parameters or for the loop counter preload. Each sequence

step is loaded in four 32-bit writes. The mapping of the bit

fields for the instruction types is shown in the instruction bit

field table that follows. These FIR instruction words can be

generated using software tools provided with the HSP50216

evaluation board.

When the filter is reset, the instruction pointer is set to 31

(the last instruction step). The read and write pointers are

initialized on reset, so a reset must be done when the

channel is initialized or restarted.

A fixed offset can be added to the starting read address of

one of the filters in the program. This function is provided to

offset the data reads of the filters in a polyphase filter bank --

all filters in the bank will write the same data to the same

RAM location. To offset the computations the RAM read

address is offset. See IWA = *00Bh for details.

The instruction word bits (127:0) are assigned to memory

words as follows:

31:0 to destination C C C C 0 0 0 1 0 x x x x x 0 0

63:32 to destination C C C C 0 0 0 1 0 x x x x x 0 1

95:64 to destination C C C C 0 0 0 1 0 x x x x x 1 0

127:96 to destination C C C C 0 0 0 1 0 x x x x x 1 1

where CCCC is the channel number and xxxxx is the

instruction sequence step number (0 - 31 decimal). Note the

μPHold bit in the filter compute engine control register (IWA

= *00Ah) must be set for the microprocessor to read from or

write to the instruction or coefficient RAMs.

August 17, 2007

FN4557.6

HSP50216KIZ Intersil, HSP50216KIZ Datasheet - Page 15

HSP50216KIZ

Specifications of HSP50216KIZ

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