AD9280-EB Analog Devices Inc, AD9280-EB Datasheet - Page 15

AD9280-EB

Manufacturer Part Number

AD9280-EB

Description

BOARD EVAL FOR AD9280

Manufacturer

Analog Devices Inc

Datasheet

1.AD9280ARSZ.pdf (24 pages)

Specifications of AD9280-EB

Rohs Status

RoHS non-compliant

Number Of Adc's

Number Of Bits

Sampling Rate (per Second)

32M

Data Interface

Parallel

Inputs Per Adc

1 Single Ended

Input Range

2 Vpp

Power (typ) @ Conditions

95mW @ 32MSPS

Voltage Supply Source

Single Supply

Operating Temperature

-40°C ~ 85°C

Utilized Ic / Part

AD9280

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DIFFERENTIAL INPUT OPERATION

The AD9280 will accept differential input signals. This function

may be used by shorting REFTS and REFBS and driving them

as one leg of the differential signal (the top leg is driven into

AIN). In the configuration below, the AD9280 is accepting a

1 V p-p signal. See Figure 29.

AD876-8 MODE OF OPERATION

The AD9280 may be dropped into the AD876-8 socket. This

will allow AD876-8 users to take advantage of the reduced

power consumption realized when running the AD9280 on a

3.0 V analog supply.

Figure 30 shows the pin functions of the AD876-8 and AD9280.

The grounded REFSENSE pin and floating MODE pin effec-

tively put the AD9280 in the external reference mode. The

external reference input for the AD876-8 will now be placed

on the reference pins of the AD9280.

The clamp controls will be grounded by the AD876-8 socket.

The AD9280 has a 3 clock cycle delay compared to a 3.5 cycle

delay of the AD876-8.

CLOCK INPUT

The AD9280 clock input is buffered internally with an inverter

powered from the AVDD pin. This feature allows the AD9280

to accommodate either +5 V or +3.3 V CMOS logic input sig-

nal swings with the input threshold for the CLK pin nominally

at AVDD/2.

REV. E

1.0 F

Figure 29. Differential Input

0.1 F

Figure 30. AD876 Mode

AVDD/2

10 F

AVDD/2

AVDD

0.1 F

REFTS

REFBS

AIN

VREF

REFSENSE

MODE

AD9280

REFTF

REFBF

AIN

REFTS

REFTF

REFBF

REFBS

MODE

REFSENSE

CLAMP

CLAMPIN

OTR

AD9280

VREF

0.1 F

10 F

0.1 F

–15–

The pipelined architecture of the AD9280 operates on both

rising and falling edges of the input clock. To minimize duty

cycle variations the recommended logic family to drive the clock

input is high speed or advanced CMOS (HC/HCT, AC/ACT)

logic. CMOS logic provides both symmetrical voltage threshold

levels and sufficient rise and fall times to support 32 MSPS

operation. The AD9280 is designed to support a conversion rate

of 32 MSPS; running the part at slightly faster clock rates may

be possible, although at reduced performance levels. Conversely,

some slight performance improvements might be realized by

clocking the AD9280 at slower clock rates.

The power dissipated by the output buffers is largely propor-

tional to the clock frequency; running at reduced clock rates

provides a reduction in power consumption.

DIGITAL INPUTS AND OUTPUTS

Each of the AD9280 digital control inputs, THREE-STATE

and STBY are reference to analog ground. The clock is also

referenced to analog ground.

The format of the digital output is straight binary (see Figure

32). A low power mode feature is provided such that for STBY

= HIGH and the clock disabled, the static power of the AD9280

will drop below 5 mW.

THREE-

(D0–D9)

STATE

ANALOG

OUTPUT

DATA

CLOCK

INPUT

DATA

Figure 33. Three-State Timing Diagram

Figure 32. Output Data Format

OTR

Figure 31. Timing Diagram

–FS

–FS+1LSB

DHZ

IMPEDANCE

HIGH

+FS–1LSB

+FS

DEN

AD9280

DATA 1

25ns

AD9280-EB Analog Devices Inc, AD9280-EB Datasheet - Page 15

AD9280-EB

Specifications of AD9280-EB

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