AD6624AABC Analog Devices Inc, AD6624AABC Datasheet - Page 20

AD6624AABC

Manufacturer Part Number

AD6624AABC

Description

IC RCVR SGNL PROC QUAD 196CSPBGA

Manufacturer

Analog Devices Inc

Series

AD6624r

Datasheet

1.AD6624AABC.pdf (40 pages)

Specifications of AD6624AABC

Rohs Status

RoHS non-compliant

Rf Type

Cellular, CDMA2000, EDGE, GPRS, GSM

Number Of Mixers

Voltage - Supply

3 V ~ 3.6 V

Package / Case

196-CSPBGA

Current - Supply

Frequency

Gain

Noise Figure

Secondary Attributes

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AD6624A

Bit 11 of this register is used to invert the external exponent

before internal calculation. This bit should be set HIGH for

gain-ranging ADCs that use an increasing exponent to represent

an increasing signal level. This bit should be set LOW for gain-

ranging ADCs that use a decreasing exponent for representing

an increasing signal level.

In applications that do not require the features of the rCIC2,

it may be bypassed by setting the L/M ratio to 1/1. This effectively

bypasses all circuitry of the rCIC2 except the scaling, which

is still effectual.

FIFTH ORDER CASCADED INTEGRATOR COMB FILTER

The third signal processing stage, CIC5, implements a sharper

fixed-coefficient, decimating filter than CIC2. The input rate to

this filter is f

tion 9. N

otherwise N

can be increased, N

(reference fractional rate input timing described in the Input

Timing section).

The decimation ratio, M

(all integer values). The frequency response of the filter is given

by Equation 10. The gain and passband droop of CIC5 should

be calculated by these equations. Both parameters may be com-

pensated for in the RCF stage.

The scale factor, S

between 0 and 20. It serves to control the attenuation of the

data into the CIC5 stage in 6 dB increments. For the best

dynamic range, S

(lowest attenuation) without creating an overflow condition.

This can be safely accomplished using Equation 11, where

to this filter stage. This value is output from the rCIC2 stage,

then pipelined into the CIC5.

The output rate of this stage is given by Equation 12.

H z

H f

rCIC2

SAMP

CIC

( )

is the largest fraction of full scale possible at the input

≤

ceil

CIC

equals two for Diversity Channel Real input mode;

SAMP2

CIC

SAMP

CLK

(

CIC

equals one. In order to satisfy this equation, M

log (

CIC5

. The maximum input rate is given by Equa-







(







CIC5

sin

–

sin

CIC

should be set to the smallest value possible

–

can be reduced, or f







CIC

–

is a programmable unsigned integer







CIC5

–

CIC

)







CIC

SAMP

, may be programmed from 2 to 32

rCIC



















) –

)

CLK

can be increased

CIC2

(10)

(11)

(12)

(9)

CIC5 Rejection

Table IV illustrates the amount of bandwidth in percentage of

the clock rate that can be protected with various decimation

rates and alias rejection specifications. The maximum input rate

into the CIC5 is 80 MHz when the rC1C2 decimates by one.

As in Table III, these are the 1/2 bandwidth characteristics of

the CIC5. Note that the CIC5 stage can protect a much wider

band than the CIC2 for any given rejection.

This table helps to calculate an upper bound on decimation,

RAM COEFFICIENT FILTER

The final signal processing stage is a sum-of-products decimat-

ing filter with programmable coefficients (see Figure 27). The

data memories I-RAM and Q-RAM store the 160 most recent

complex samples from the previous filter stage with 20-bit

resolution. The coefficient memory, CMEM, stores up to 256

coefficients with 20-bit resolution. On every CLK cycle, one tap

for I and one tap for Q are calculated using the same coefficients.

The RCF output consists of 24-bit data bits.

CIC5

Table IV. SSB CIC5 Alias Rejection Table (f

, given the desired filter characteristics.

–50 dB –60 dB –70 dB –80 dB –90 dB –100 dB

10.227 8.078

7.924

6.213

5.068

4.267

3.68

3.233

2.881

2.598

2.365

2.17

2.005

1.863

1.74

1.632

1.536

1.451

1.375

1.307

1.245

1.188

1.137

1.09

1.046

1.006

0.969

0.934

0.902

0.872

0.844

0.818

6.367

5.022

4.107

3.463

2.989

2.627

2.342

2.113

1.924

1.765

1.631

1.516

1.416

1.328

1.25

1.181

1.119

1.064

1.013

0.967

0.925

0.887

0.852

0.819

0.789

0.761

0.734

0.71

0.687

0.666

6.393

5.11

4.057

3.326

2.808

2.425

2.133

1.902

1.716

1.563

1.435

1.326

1.232

1.151

1.079

1.016

0.96

0.91

0.865

0.824

0.786

0.752

0.721

0.692

0.666

0.641

0.618

0.597

0.577

0.559

0.541

5.066

4.107

3.271

2.687

2.27

1.962

1.726

1.54

1.39

1.266

1.162

1.074

0.998

0.932

0.874

0.823

0.778

0.737

0.701

0.667

0.637

0.61

0.584

0.561

0.54

0.52

0.501

0.484

0.468

0.453

0.439

4.008

3.297

2.636

2.17

1.836

1.588

1.397

1.247

1.125

1.025

0.941

0.87

0.809

0.755

0.708

0.667

0.63

0.597

0.568

0.541

0.516

0.494

0.474

0.455

0.437

0.421

0.406

0.392

0.379

0.367

0.355

SAMP2

3.183

2.642

2.121

1.748

1.48

1.281

1.128

1.007

0.909

0.828

0.76

0.703

0.653

0.61

0.572

0.539

0.509

0.483

0.459

0.437

0.417

0.399

0.383

0.367

0.353

0.34

0.328

0.317

0.306

0.297

0.287

= 1)

AD6624AABC Analog Devices Inc, AD6624AABC Datasheet - Page 20

AD6624AABC

Specifications of AD6624AABC

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