AD9252 Analog Devices, AD9252 Datasheet - Page 35

AD9252

Manufacturer Part Number

AD9252

Description

Octal, 14-Bit, 50 MSPS, Serial LVDS, 1.8 V ADC

Manufacturer

Analog Devices

Datasheet

1.AD9252.pdf (52 pages)

Specifications of AD9252

Resolution (bits)

14bit

# Chan

Sample Rate

50MSPS

Interface

LVDS,Ser

Analog Input Type

Diff-Uni

Ain Range

(2Vref) p-p,2 V p-p

Adc Architecture

Pipelined

Pkg Type

CSP

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Data Sheet

ALTERNATIVE ANALOG INPUT DRIVE

CONFIGURATION

The following is a brief description of the alternative analog

input drive configuration using the AD8334 dual VGA. If this

drive option is in use, some components may need to be populated,

in which case all the necessary components are listed in Table 17.

For more details on the AD8334 dual VGA, including how it works

and its optional pin settings, consult the

To configure the analog input to drive the VGA instead of the

default transformer option, the following components need to

be removed and/or changed.

•

In this configuration, L505 to L520 and L605 to L620 are populated

with 0 Ω resistors to allow signal connection and use of a filter if

additional requirements are necessary.

Remove R102, R115, R128, R141, R161, R162, R163, R164,

R202, R208, R218, R225, R234, R241, R252, R259, T101,

T102, T103, T104, T201, T202, T203, and T204 in the

default analog input path.

Populate R101, R114, R127, R140, R201, R217, R233, and

R251 with 0 Ω resistors in the analog input path.

Populate R152, R153, R154, R155, R156, R157, R158, R159,

R215, R216, R229, R230, R247, R248, R263, R264, C103,

C105, C110, C112, C117, C119, C124, C126, C203, C205,

C210, C212, C217, C219, C224, and C226 with 10 kΩ

resistors to provide an input common-mode level to the

ADC analog inputs.

Populate R105, R113, R118, R124, R131, R137, R151, R160,

R205, R213, R221, R222, R237, R238, R255, and R256 with

0 Ω resistors in the ADC analog input path to connect the

VGA outputs.

Remove R515, R520, R527, R532, R615, R620, R627, and

R632 on the AD8334 analog outputs.

Remove R512, R524, R612, and R624 to set the AD8334

mode and AD8334 HILO pin low. Some applications may

require this to be different. Consult the AD8334 data sheet

for more information on these functions.

AD8334

data sheet.

Rev. E | Page 35 of 52

In this example, a 16 MHz, two-pole low-pass filter was applied

to the AD8334 outputs. The following components need to be

removed and/or changed:

•

Figure 60. Example Filter Configured for16 MHz, Two-Pole Low-Pass Filter

(Analog Input Signal = −1.03 dBFS, SNR = 60.2 dBc, SFDR = 66.23 dBc)

Remove L507, L508, L511, L512, L515, L516, L519, L520,

L607, L608, L611, L612, L615, L616, L619, and L620 on the

AD8334 analog outputs.

Populate L507, L508, L511, L512, L515, L516, L519, L520,

L607, L608, L611, L612, L615, L616, L619, and L620 with

680 nH inductors.

Populate C543, C547, C551, C555, C643, C647, C651, and

C655 with a 68 pF capacitor.

16 MHz, Two-Pole Low-Pass Filter Applied to the AD8334 Outputs

–100

–120

–20

–40

–60

–80

Figure 61. AD9252 FFT Example Results Using

2.5

5.0

680nH

7.5

FREQUENCY (MHz)

10.0

12.5

AIN = 3.5MHz

AD8334 = MAX GAIN SETTING

SAMPLE

15.0

68pF

= 50MSPS

17.5

20.0

22.5

AD9252

25.0

AD9252 Analog Devices, AD9252 Datasheet - Page 35

AD9252

Specifications of AD9252

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