SLWS132 Datasheet, PDF(14/46 Page) Texas Instruments

English

English German Russian Spanish Italian Polish Chinese Japanese Korean French Portuguese	Language :

SLWS132 Datasheet, PDF (14/46 Pages) Texas Instruments – QUAD RECEIVER CHIP

◁

GC4014 QUAD RECEIVER CHIP

DATA SHEET REV 0.6

3.3.6 Real Mode

The PFIR will output either complex or real data. Complex data is output at a rate equal to FCK/(4N) or

FCK/(8N) in the decimate by 4 mode. If the output samples are real, then the filter translates the output spectrum up

by multiplying the filtered data by the complex sequence +1, -j, -1, +j, â¦, and then outputting the real part at a rate

equal to FCK/2N. The real output mode can be used to create double sided signals out of single sideband data. The

real outputs are packed into complex words for output. The first sample of a real pair is put into the I-half and the

second is put into the Q-half. Note that the decimate by 4 mode is invalid in the real mode.

3.4 FINAL GAIN ADJUSTMENT

The final gain of each channel is adjusted by multiplying each output sample by G/32, where G is a 10bit

2âs complement gain word. Since G can range between -512 and +511, the gain adjustment will range from -16.0

to +15.98. Setting G to zero clears the channel. This provides a final gain adjustment range from -â to +24 dB in

approximately 0.28 dB steps. A different gain can be specified for each channel. Note that the overall gain of the

chip is also a function of the amount of decimation programmed into the chip (N), the scale circuit setting in the CIC

filter, the coarse gain setting, the narrow mode in the CFIR, and the sum of the PFIR coefficients. The overall gain

is shown below where the first term in braces is fixed for all four channels and must be less than or equal to unity.

The terms in square brackets can be different for each channel. NARROW is â1â in the narrow CFIR mode, â0â

otherwise. See Section 7.9 for a discussion on properly setting the chipâs gain.

GAIN

{ N 4 2 ( SCALE

BIG_SCALE

56 ) } [

2 COARSE ] { 1.0

NARROW

0.97

}

{

P---F--I-R---_--S--U---M--

65536

}

[

-G----

]

3.5 SUMMATION MODES

The chip can be programmed to output the four individual channels, the sum of pairs of channels, or the

sum of all four channels.These modes are used to process four real input signals, two complex input signals, or one

beamformed signal. When processing two complex input signals, the I inputs are put in channels A and C, and the

Q inputs are put in channels B and D. The summation mode then adds channels A and B together and channels C

and D together.

Summation is disabled in Sum Mode 0. In Sum Mode 1 the channel A output is replaced by the sum of

channels A and B, the channel B output is replaced by the sum of channels C and D, and the channel C and D

outputs are left alone. In Sum Mode 2 the channel A output becomes the sum of all four channels and channels B,

C and D are left alone. These modes are summarized in the following table:

Table 1: Output Summation Modes

SUM MODE

OUTA

CHANNEL OUTPUT

OUTB

OUTC

OUTD

CHA

CHB

CHC

CHA + CHB

CHC + CHD

CHC

CHA + CHB + CHC + CHD

CHB

CHC

CHD

GRAYCHIP, INC.

-9-

APRIL 27, 1999

This document contains information which may be changed at any time without notice

▷