AD962711-105EBZ Analog Devices Inc, AD962711-105EBZ Datasheet - Page 24

AD962711-105EBZ

Manufacturer Part Number

AD962711-105EBZ

Description

EVAL For 11bit 105 Dual 1.8V

Manufacturer

Analog Devices Inc

Datasheet

1.AD9627BCPZ11-105.pdf (72 pages)

Specifications of AD962711-105EBZ

Number Of Adc's

Number Of Bits

Sampling Rate (per Second)

105M

Data Interface

Serial

Inputs Per Adc

1 Differential

Input Range

1 ~ 2 Vpp

Power (typ) @ Conditions

600mW @ 105MSPS

Voltage Supply Source

Analog and Digital

Operating Temperature

-40°C ~ 85°C

Utilized Ic / Part

AD962711

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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AD9627-11

The output common-mode voltage of the AD8138 is easily set

with the CML pin of the AD9627-11 (see Figure 46), and the

driver can be configured in a Sallen-Key filter topology to

provide band limiting of the input signal.

1V p-p

For baseband applications where SNR is a key parameter,

differential transformer coupling is the recommended input

configuration. An example is shown in Figure 47. To bias the

analog input, the CML voltage can be connected to the center

tap of the secondary winding of the transformer.

The signal characteristics must be considered when selecting

a transformer. Most RF transformers saturate at frequencies

below a few megahertz (MHz). Excessive signal power can also

cause core saturation, which leads to distortion.

At input frequencies in the second Nyquist zone and above, the

noise performance of most amplifiers is not adequate to achieve

the true SNR performance of the AD9627-11. For applications

where SNR is a key parameter, differential double balun coupling

is the recommended input configuration (see Figure 49).

2V p-p

0.1µF

Figure 46. Differential Input Configuration Using the AD8138

Figure 47. Differential Transformer-Coupled Configuration

49.9Ω

499Ω

523Ω

0.1µF

AD8138

499Ω

ANALOG INPUT

2V p-p

0.1µF

Figure 50. Differential Input Configuration Using the AD8352

Figure 49. Differential Double Balun Input Configuration

AD9627-11

0Ω

VIN+

VIN–

VIN+

VIN–

CML

AVDD

CML

AD8352

Rev. A | Page 24 of 72

0.1µF

8, 13

0.1µF

25Ω

0.1µF

An alternative to using a transformer-coupled input at frequencies

in the second Nyquist zone is to use the AD8352 differential driver.

An example is shown in Figure 50. See the

for more information.

In any configuration, the value of Shunt Capacitor C is dependent

on the input frequency and source impedance and may need to

be reduced or removed. Table 10 displays recommended values to

set the RC network. However, these values are dependent on the

input signal and should be used only as a starting guide.

Table 10. Example RC Network

Frequency Range (MHz)

0 to 70

70 to 200

200 to 300

>300

Single-Ended Input Configuration

A single-ended input can 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 source impedances on each input are matched, there should

be little effect on SNR performance. Figure 48 shows a typical

single-ended input configuration.

0.1µF

1V p-p

200Ω

0.1µF

10µF

0.1µF

49.9Ω

Figure 48. Single-Ended Input Configuration

VIN+

VIN–

0.1µF

AD9627-11

10µF

0.1µF

AD9627-11

AVDD

VIN+

VIN–

1kΩ

AVDD

CML

R Series

(Ω Each)

CML

AD8352

C Differential (pF)

Open

VIN+

VIN–

AD9627-11

data sheet

AD962711-105EBZ Analog Devices Inc, AD962711-105EBZ Datasheet - Page 24

AD962711-105EBZ

Specifications of AD962711-105EBZ

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