EVAL-AD73360LEB Analog Devices Inc, EVAL-AD73360LEB Datasheet - Page 26

EVAL-AD73360LEB

Manufacturer Part Number

EVAL-AD73360LEB

Description

BOARD EVAL FOR AD73360L

Manufacturer

Analog Devices Inc

Type

ADC + DAC, Codec, Front Endr

Datasheets

1.AD73360LARZ-REEL.pdf (35 pages)

2.EVAL-AD73360LEB.pdf (32 pages)

Specifications of EVAL-AD73360LEB

Rohs Status

RoHS non-compliant

Contents

Evaluation Board

For Use With/related Products

AD73360L

Lead Free Status / RoHS Status

Not Compliant

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AD73360

Digital Interface

As there are a number of variations of sample rate and clock

speeds that can be used with the AD73360 in a particular appli-

cation, it is important to select the best combination to achieve

the desired performance. High speed serial clocks will read the

data from the AD73360 in a shorter time, giving more time for

processing by at the expense of injecting some digital noise into

the circuit. Digital noise can also be reduced by connecting

resistors (typ <50 Ω) in series with the digital input and output

lines. The noise can be minimized by good grounding and lay-

out. Typically the best performance is achieved by selecting the

slowest sample rate and SCLK frequency for the required appli-

cation as this will produce the least amount of digital noise.

Figure 28 shows combinations of sample rate and SCLK fre-

quency which will allow data to be read from all six channels in

one sample period. These figures correspond to setting DMCLK =

MCLK.

Grounding and Layout

Since the analog inputs to the AD73360 are differential, most of

the voltages in the analog modulator are common-mode volt-

ages. The excellent common-mode rejection of the part will

remove common-mode noise on these inputs. The analog and

digital supplies of the AD73360 are independent and separately

pinned out to minimize coupling between analog and digital

sections of the device. The digital filters on the encoder section

will provide rejection of broadband noise on the power supplies,

except at integer multiples of the modulator sampling frequency.

The digital filters also remove noise from the analog inputs

provided the noise source does not saturate the analog modula-

tor. However, because the resolution of the AD73360’s ADC is

high, and the noise levels from the AD73360 are so low, care

must be taken with regard to grounding and layout.

The printed circuit board that houses the AD73360 should be

designed so the analog and digital sections are separated and

confined to certain sections of the board. The AD73360 pin

configuration offers a major advantage in that its analog and

digital interfaces are connected on opposite sides of the package.

This facilitates the use of ground planes that can be easily sepa-

rated, as shown in Figure 29. A minimum etch technique is

generally best for ground planes as it gives the best shielding.

Digital and analog ground planes should be joined in only one

place. If this connection is close to the device, it is recommended

to use a ferrite bead inductor as shown in Figure 29.

NOTE: SOME COMBINATIONS OF SCLK AND SAMPLE RATE WILL NOT

BE SUFFICIENT TO READ DATA FROM ALL SIX CHANNELS IN THE

ALLOTTED TIME. THESE ARE DEPICTED AS NO.

2MHz

4MHz

8MHz

16MHz

Figure 28. SCLK and Sample Rates

8KSPS

YES

SAMPLE RATE

16KSPS

YES

32KSPS

YES

64KSPS

YES

–26–

Avoid running digital lines under the device for they will couple

noise onto the die. The analog ground plane should be allowed

to run under the AD73360 to avoid noise coupling. The power

supply lines to the AD73360 should use as large a trace as pos-

sible to provide low impedance paths and reduce the effects of

glitches on the power supply lines. Fast switching signals such as

clocks should be shielded with digital ground to avoid radiating

noise to other sections of the board, and clock signals should

never be run near the analog inputs. Traces on opposite sides of

the board should run at right angles to each other. This will

reduce the effects of feedthrough through the board. A microstrip

technique is by far the best but is not always possible with a

double-sided board. In this technique, the component side of

the board is dedicated to ground planes while signals are placed

on the other side.

Good decoupling is important when using high speed devices.

All analog and digital supplies should be decoupled to AGND

and DGND respectively, with 0.1 µF ceramic capacitors in

parallel with 10 µF tantalum capacitors. To achieve the best

from these decoupling capacitors, they should be placed as close

as possible to the device, ideally right up against it. In systems

where a common supply voltage is used to drive both the AVDD

and DVDD of the AD73360, it is recommended that the system’s

AVDD supply be used. This supply should have the recom-

mended analog supply decoupling between the AVDD pins of

the AD73360 and AGND and the recommended digital supply

decoupling capacitors between the DVDD pin and DGND.

DSP Programming Considerations

This section discusses some aspects of how the serial port of the

DSP should be configured and the implications of whether Rx

and Tx interrupts should be enabled.

DSP SPORT Configuration

Following are the key settings of the DSP SPORT required for

the successful operation with the AD73360:

• Configure for external SCLK.

• Serial Word Length = 16 bits.

• Transmit and Receive Frame Syncs required with every word.

• Receive Frame Sync is an input to the DSP.

• Transmit Frame Sync is an:

• Frame Syncs occur one SCLK cycle before the MSB of the

• Frame Syncs are active high.

Input—in Frame Sync Loop-Back Mode

Output—in Nonframe Sync Loop-Back Mode.

serial word.

Figure 29. Ground Plane Layout

ANALOG GROUND

DIGITAL GROUND

REV. A

EVAL-AD73360LEB Analog Devices Inc, EVAL-AD73360LEB Datasheet - Page 26

EVAL-AD73360LEB

Specifications of EVAL-AD73360LEB

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