AD7985 Analog Devices, AD7985 Datasheet - Page 17

AD7985

Manufacturer Part Number

AD7985

Description

16-Bit, 2.5 MSPS PulSAR 11 mW ADC in QFN

Manufacturer

Analog Devices

Datasheet

1.AD7985.pdf (28 pages)

Specifications of AD7985

Resolution (bits)

16bit

# Chan

Sample Rate

2.5MSPS

Interface

Ser,SPI

Analog Input Type

SE-Uni

Ain Range

(Vref) p-p,Uni (Vref)

Adc Architecture

SAR

Pkg Type

CSP

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DIGITAL INTERFACE

Although the AD7985 has a reduced number of pins, it offers

flexibility in its serial interface modes.

In CS mode, the AD7985 is compatible with SPI, MICROWIRE,

QSPI, and digital hosts. In CS mode, the AD7985 can use either

a 3-wire or a 4-wire interface. A 3-wire interface that uses the

CNV, SCK, and SDO signals minimizes wiring connections,

which is useful, for example, in isolated applications. A 4-wire

interface that uses the SDI, CNV, SCK, and SDO signals allows

CNV, which initiates conversions, to be independent of the

readback timing (SDI). This is useful in low jitter sampling

or simultaneous sampling applications.

In chain mode, the AD7985 provides a daisy-chain feature that

uses the SDI input for cascading multiple ADCs on a single data

line similar to a shift register. Chain mode is available only in

normal mode (TURBO is low).

The mode in which the part operates depends on the SDI level

when the CNV rising edge occurs. CS mode is selected if SDI

is high, and chain mode is selected if SDI is low. The SDI hold

time is such that when SDI and CNV are connected together,

chain mode is always selected.

In normal mode operation, the AD7985 offers the option of

forcing a start bit in front of the data bits. This start bit can be

used as a busy signal indicator to interrupt the digital host and

trigger the data reading. Otherwise, without a busy indicator,

the user must time out the maximum conversion time prior to

readback.

Rev. A | Page 17 of 28

The busy indicator feature is enabled in CS mode if CNV or

SDI is low when the ADC conversion ends (see Figure 29 and

Figure 33). TURBO must be kept low for both digital interfaces.

When CNV is low, readback can occur during conversion or

acquisition, or it can be split across acquisition and conversion,

as described in the following sections.

A discontinuous SCK is recommended because the part is selected

with CNV low, and SCK activity begins to clock out data.

Note that in the following sections, the timing diagrams indicate

digital activity (SCK, CNV, SDI, and SDO) during the conversion.

However, due to the possibility of performance degradation, digi-

tal activity should occur only prior to the safe data reading time,

that can correct for an incorrect bit decision during this time.

From t

results may be corrupted.

Similarly, t

the rising edge of CNV, must remain free of digital activity.

The user should configure the AD7985 and initiate the busy

indicator (if desired in normal mode) prior to t

It is also possible to corrupt the sample by having SCK near the

sampling instant. Therefore, it is recommended that the digital

pins be kept quiet for approximately 20 ns before and 10 ns after

the rising edge of CNV, using a discontinuous SCK whenever

possible to avoid any potential performance degradation.

DATA

, because the AD7985 provides error correction circuitry

DATA

QUIET

to t

CONV

, the time from the last falling edge of SCK to

, there is no error correction, and conversion

DATA

AD7985

AD7985 Analog Devices, AD7985 Datasheet - Page 17

AD7985

Specifications of AD7985

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