AD9200LQFP-EVAL AD [Analog Devices], AD9200LQFP-EVAL Datasheet - Page 8

AD9200LQFP-EVAL

Manufacturer Part Number

AD9200LQFP-EVAL

Description

Complete 10-Bit, 20 MSPS, 80 mW CMOS A/D Converter

Manufacturer

AD [Analog Devices]

Datasheet

1.AD9200LQFP-EVAL.pdf (24 pages)

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AD9200

Modes

TOP/BOTTOM

CENTER SPAN AIN

Differential

External Ref

AD876

Figure 14. Input Bias Current vs. Input Voltage

–12

–15

–18

–21

–24

–27

–25

–10

–15

–20

–3

–6

–9

1.0E+6

–5

Figure 13. Full Power Bandwidth

0.5

Input

Connect

AIN

AIN Is Input 1

REFTS and

REFBS Are

Shorted Together

for Input 2

AIN

10.0E+6

1.0

INPUT VOLTAGE – V

FREQUENCY – Hz

1.5

Input

Span

1 V

2 V

1 V

2 V

1 V

2 V

2 V max AVDD

2 V

100.0E+6

2.0

REFBS = 0.5V

REFTS = 2.5V

CLOCK = 20MHz

MODE

AVDD

AVDD/2 Short VREF and REFSENSE Together

AVDD/2 AGND

AVDD/2 Short VREF and REFSENSE Together

AVDD/2 AGND

AGND

Float or

AVSS

2.5

1.0E+9

Table I. Mode Selection

3.0

REFSENSE

Short REFSENSE, REFTS and VREF Together

AGND

AVDD

–8–

APPLYING THE AD9200

THEORY OF OPERATION

The AD9200 implements a pipelined multistage architecture to

achieve high sample rate with low power. The AD9200 distrib-

utes the conversion over several smaller A/D subblocks, refining

the conversion with progressively higher accuracy as it passes

the results from stage to stage. As a consequence of the distrib-

uted conversion, the AD9200 requires a small fraction of the

1023 comparators used in a traditional flash type A/D. A

sample-and-hold function within each of the stages permits the

first stage to operate on a new input sample while the second,

third and fourth stages operate on the three preceding samples.

OPERATIONAL MODES

The AD9200 is designed to allow optimal performance in a

wide variety of imaging, communications and instrumentation

applications, including pin compatibility with the AD876 A/D.

To realize this flexibility, internal switches on the AD9200 are

used to reconfigure the circuit into different modes. These modes

are selected by appropriate pin strapping. There are three parts

of the circuit affected by this modality: the voltage reference, the

reference buffer, and the analog input. The nature of the appli-

cation will determine which mode is appropriate: the descrip-

tions in the following sections, as well as the Table I should

assist in picking the desired mode.

REF

Short REFTS and VREF Together

No Connect

REFTS

AVDD/2

Span = REFTS

– REFBS (2 V max)

Short to

VREFTF

Short to

VREFTF

REFBS

AGND

AVDD/2

Short to

VREFBF

Short to

VREFBF

Figure

21, 22

REV. E

AD9200LQFP-EVAL AD [Analog Devices], AD9200LQFP-EVAL Datasheet - Page 8

AD9200LQFP-EVAL

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