AD9219-65EB Analog Devices Inc, AD9219-65EB Datasheet - Page 21

AD9219-65EB

Manufacturer Part Number

AD9219-65EB

Description

Quad 10-bit 65 MSPS Serial LVDS ADC EB

Manufacturer

Analog Devices Inc

Datasheet

1.AD9219ABCPZRL7-40.pdf (52 pages)

Specifications of AD9219-65EB

Number Of Adc's

Number Of Bits

Sampling Rate (per Second)

40M

Data Interface

Serial

Inputs Per Adc

2 Single

Input Range

2 Vpp

Power (typ) @ Conditions

378mW @ 1.8 V

Voltage Supply Source

Single Supply

Operating Temperature

-40°C ~ 85°C

Utilized Ic / Part

AD9219

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

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For best dynamic performance, the source impedances driving

VIN + x and VIN − x should be matched such that common-

mode settling errors are symmetrical. These errors are reduced

by the common-mode rejection of the ADC. An internal

reference buffer creates the positive and negative reference

voltages, REFT and REFB, respectively, that define the span of

the ADC core. The output common-mode of the reference buffer

is set to midsupply, and the REFT and REFB voltages and span

are defined as

It can be seen from these equations that the REFT and REFB

voltages are symmetrical about the midsupply voltage and, by

definition, the input span is twice the value of the VREF voltage.

Maximum SNR performance is achieved by setting the ADC to

the largest span in a differential configuration. In the case of the

AD9219, the largest input span available is 2 V p-p.

Differential Input Configurations

There are several ways to drive the AD9219 either actively or

passively; however, optimum performance is achieved by driving

the analog input differentially. For example, using the

differential driver to drive the AD9219 provides excellent perfor-

mance and a flexible interface to the ADC (see Figure 51) for

baseband applications. This configuration is commonly used

for medical ultrasound systems.

For applications where SNR is a key parameter, differential

transformer coupling is the recommended input configuration

(see Figure 48 and Figure 49), because the noise performance of

most amplifiers is not adequate to achieve the true performance

of the AD9219.

Regardless of the configuration, the value of the shunt capacitor,

C, is dependent on the input frequency and may need to be

reduced or removed.

REFT = 1/2 (AVDD + VREF)

REFB = 1/2 (AVDD − VREF)

Span = 2 × (REFT − REFB) = 2 × VREF

1V p-p

0.1μF

120nH

Figure 51. Differential Input Configuration Using the AD8332 with Two-Pole, 16 MHz Low-Pass Filter

0.1μF

22pF

18nF

INH

LMD

274Ω

LNA

LON

LOP

AD8332

0.1μF

Rev. D | Page 21 of 52

VIP

VIN

VGA

VOH

VOL

2V p-p

Single-Ended Input Configuration

A single-ended input may provide adequate performance in cost-

sensitive applications. In this configuration, SFDR and distortion

performance degrade due to the large input common-mode swing.

If the application requires a single-ended input configuration,

ensure that the source impedances on each input are well matched

in order to achieve the best possible performance. A full-scale

input of 2 V p-p can be applied to the ADC’s VIN + x pin while the

VIN − x pin is terminated. Figure 50 details a typical single-

ended input configuration.

2V p-p

187Ω

65Ω

Figure 48. Differential Transformer-Coupled Configuration

16nH

Figure 49. Differential Transformer-Coupled Configuration

680nH

1kΩ

68pF

LPF

49.9Ω

AVDD

49.9Ω

0.1μF

1kΩ

Figure 50. Single-Ended Input Configuration

0.1µF

AVDD

33Ω

ADT1-1WT

1:1 Z RATIO

AVDD

1:1 Z RATIO

AVDD

0.1µF

ADT1-1WT

for Baseband Applications

1kΩ 25Ω

1kΩ

0.1μF

10kΩ

for IF Applications

AVDD

0.1μF

1kΩ

499Ω

AVDD

16nH

1kΩ

DIFF

DIFF IS OPTIONAL

DIFF

DIFF IS OPTIONAL

33Ω

2.2pF

33Ω

VIN + x

VIN – x

AD9219

1kΩ

ADC

VIN + x

VIN – x

VIN + x

AD9219

ADC

AD9219

VIN + x

VIN – x

AD9219

AGND

ADC

AD9219-65EB Analog Devices Inc, AD9219-65EB Datasheet - Page 21

AD9219-65EB

Specifications of AD9219-65EB

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