AD6620S/PCB Analog Devices Inc, AD6620S/PCB Datasheet - Page 38

AD6620S/PCB

Manufacturer Part Number

AD6620S/PCB

Description

BOARD EVAL DUAL RCVR W/AD6620AS

Manufacturer

Analog Devices Inc

Datasheet

1.AD6620SPCB.pdf (44 pages)

Specifications of AD6620S/PCB

Rohs Status

RoHS non-compliant

Module/board Type

Evaluation Board

For Use With/related Products

AD6620

Current page: 38 of 44
Download datasheet (401Kb)

AD6620

APPLICATIONS

EVALUATION BOARD

An evaluation board is available for the AD6620. This evalua-

tion board comes complete with an AD6620 and interfaces to a

PC through the printer port. The evaluation board comes com-

plete with software to drive the evaluation board and to design

optimized filters for use with the AD6620. The evaluation board

includes a high speed data interface that mates directly with

evaluation boards for high performance converters such as the

AD6600 and AD6640, allowing digital receivers to be bread-

boarded with only an external RF/IF converter and an interface

to the DSP.

The control software allows access to all of the internal registers

to provide complete programming of the device in a lab setting.

The software can process high speed data as well as digitally

filtered data from the AD6620 allowing analysis of both pre and

post filter channel characteristics. The controlling software can

also be used to verify the filter performance by sweeping the NCO,

greatly simplifying verification of any given filter design.

As shown in the block diagram below, the high speed data into

the evaluation board is sent to both the AD6620 and the by-pass

latches. On the output of the AD6620, data is available in either

serial or parallel mode. In serial mode, data may be sent directly

to a DSP for system bread-boarding. In parallel mode, the data

may be sent to the on-board FIFO for spectral analysis by the

included software. For additional information, refer to the evalua-

tion board manual.

FILTER DESIGN

The AD6620 implements a pair of cascaded CIC filters with a

sum of products FIR filter. The frequency characteristics of the

CIC filters have already been documented. Additional reading

on this class of filters can be found in “An Economical Class of

Digital Filters for Decimation and Interpolation,” by Eugene B.

Hogenauer, IEEE Transactions on Acoustics, Speech, and Signal

Processing, Volume ASSP-29, Number 2, April 1981.

The characteristics of the FIR filter are fully programmable.

The coefficients of this filter may be generated in any number

of ways, using standard procedures such as Parks-McClellan.

Available software from Analog Devices that assists in the design

of filters for this product. This software allows comparison

between different distributions of decimation. The software

works independently of the evaluation board, but easily allows

transfer of design data directly to the evaluation board for

immediate verification of the designed filter.

The normal procedure for designing a filter for the chip is as

shown in the flow chart. First, the desired characteristics must

be determined based on the receive channel requirements. The

HI SPEED

DATA

LATCH

PC PRINTER PORT

TRANSCEIVER

AD6620

LATCH

HEADER

LATCH

FIFO

decimation rates for the CIC filters must then be selected such

that their performance is near that of the desired channel require-

ments. Finally, an algorithm such as the Parks-McClellan or

Remez exchange is used to compute the final spectral require-

ments, including droop correction for passband loss of the CIC

filters. If the designed filter meets the requirements, then the

filter is acceptable. If not, another combination of CIC filter

decimation must be examined. Tables III and IV greatly simplify

distribution and selection of CIC requirements. The filter

software available from Analog Devices helps to automate

this procedure.

SERIAL BUFFERING

The AD6620 serial outputs are designed to operate at very high

speed. As such, care must be taken when driving the serial output

lines. These high speed lines must be treated as transmission

lines. Critical lines include the SCLK, SDFS, SDFE, SDI and

SDO. It is recommended that these lines be series source termi-

nated with the characteristic impedance of the driven line. If the

lines are longer than a few inches, digital line buffers should be

used as shown below. Buffering in this manner will prevent

reflections on the serial lines from disrupting operation of the

AD6620. A good reference on transmission lines is found in the

“MECL System Design Handbook” by Motorola Inc., Stock

code HB205R1/D.

DSP/SHARC INTERFACING

With little effort, the AD6620 will interface to nearly all indus-

try standard DSPs, as shown in the figure below. The figures

below show operation in TDM applications as well as in serial

slave mode.

In TDM mode the first AD6620 is configured to be the master.

This chip is the first to access the serial data bus. When the

master has data available in its output shifters, it generates an

SDFS telling the DSP that serial data will follow. At this point,

REQUIREMENTS

SELECT FILTER

REJECTION

AD6620

RATE FOR CIC2

DECIMATION

SELECT

SCLK

SDFS

SDO

PROTECT ENOUGH

DOES CIC2 FILTER

BANDWIDTH?

PROTECT ENOUGH

DOES CIC5 FILTER

REMEZ EXCHANGE

DOES COMPOSITE

DESIGN RCF WITH

FILTER PROVIDE

RATE FOR CIC5

BANDWIDTH?

SCLK

SDO

SDFS

DECIMATION

THE DESIRED

YES

RESULTS?

YES

SELECT

YES

AD6620S/PCB Analog Devices Inc, AD6620S/PCB Datasheet - Page 38

AD6620S/PCB

Specifications of AD6620S/PCB

Related parts for AD6620S/PCB