AD7678ASTZ Analog Devices Inc, AD7678ASTZ Datasheet - Page 17

AD7678ASTZ

Manufacturer Part Number

AD7678ASTZ

Description

IC ADC 18BIT SAR 100KSPS 48-LQFP

Manufacturer

Analog Devices Inc

Series

PulSAR®r

Datasheet

1.AD7678ASTZ.pdf (28 pages)

Specifications of AD7678ASTZ

Data Interface

Serial, Parallel

Number Of Bits

Sampling Rate (per Second)

100k

Number Of Converters

Power Dissipation (max)

26mW

Voltage Supply Source

Single Supply

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

48-LQFP

Resolution (bits)

18bit

Sampling Rate

100kSPS

Input Channel Type

Differential

Supply Voltage Range - Analog

4.75V To 5.25V

Number Of Elements

Resolution

18Bit

Architecture

SAR

Sample Rate

100KSPS

Input Polarity

Bipolar

Input Type

Voltage

Rated Input Volt

±4.096V

Differential Input

Yes

Power Supply Requirement

Analog and Digital

Single Supply Voltage (typ)

Single Supply Voltage (min)

4.75V

Single Supply Voltage (max)

5.25V

Dual Supply Voltage (typ)

Not RequiredV

Dual Supply Voltage (min)

Not RequiredV

Dual Supply Voltage (max)

Not RequiredV

Power Dissipation

26mW

Differential Linearity Error

-1LSB/1.75LSB

Integral Nonlinearity Error

±2.5LSB

Operating Temp Range

-40C to 85C

Operating Temperature Classification

Industrial

Mounting

Surface Mount

Pin Count

Package Type

LQFP

Input Signal Type

Differential

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

For Use With

EVAL-AD7678CB - BOARD EVALUATION FOR AD7678

Lead Free Status / Rohs Status

Compliant

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Current page: 17 of 28
Download datasheet (356Kb)

TYPICAL CONNECTION DIAGRAM

Figure 21 shows a typical connection diagram for the AD7678.

Different circuitry shown on this diagram is optional and is

discussed later in this data sheet.

Analog Inputs

Figure 22 shows a simplified analog input section of the

AD7678. The diodes shown in Figure 22 provide ESD protec-

tion for the inputs. Care must be taken to ensure that the analog

input signal never exceeds the absolute ratings on these inputs.

This will cause these diodes to become forward-biased and start

conducting current. These diodes can handle a forward-biased

current of 120 mA max. This condition could eventually occur

when the input buffer’s U1 or U2 supplies are different from

AVDD. In such a case, an input buffer with a short-circuit

current limitation can be used to protect the part.

This analog input structure is a true differential structure. By

using these differential inputs, signals common to both inputs

are rejected as shown in Figure 23, which represents typical

CMRR over frequency.

IN+

IN–

Figure 23. Analog Input CMRR vs. Frequency

AGND

Figure 22. Simplified Analog Input

AVDD

FREQUECY (kHz)

100

R+ = 3k

R– = 3k

1000

03084-0-028

03084-0-029

10000

Rev. A | Page 17 of 28

During the acquisition phase for ac signals, the AD7678 behaves

like a 1-pole RC filter consisting of the equivalent resistance,

R+, R–, and C

lumped components made up of a serial resistor and the on

resistance of the switches. C

consists of the ADC sampling capacitor. This 1-pole filter with a

–3 dB cutoff frequency of 900 kHz typ reduces any undesirable

aliasing effect and limits the noise coming from the inputs.

Because the input impedance of the AD7678 is very high, the

part can be driven directly by a low impedance source without

gain error.

Driver Amplifier Choice

Although the AD7678 is easy to drive, the driver amplifier

needs to meet the following requirements:



The driver amplifier and the AD7678 analog input circuit

have to be able to settle for a full-scale step of the capacitor

array at an 18-bit level (0.0004%). In the amplifier’s data

sheet, settling at 0.1% or 0.01% is more commonly

specified. This could differ significantly from the settling

time at an 18-bit level and, therefore, should be verified

prior to driver selection. The tiny op amp AD8021, which

combines ultralow noise and high gain-bandwidth, meets

this settling time requirement.

The noise generated by the driver amplifier needs to be

kept as low as possible in order to preserve the SNR and

transition noise performance of the AD7678. The noise

coming from the driver is filtered by the AD7678 analog

input circuit 1-pole low-pass filter made by R+, R–, and C

The SNR degradation due to the amplifier is

where:

(0.9 MHz).

N is the noise factor of the amplifiers (1 if in buffer

configuration).

nV/Hz.

For instance, for a driver with an equivalent input noise of

6 nV/Hz (e.g., AD8610) configured as a buffer, thus with

a noise gain of +1, the SNR degrades by only 0.65 dB.

The driver needs to have a THD performance suitable to

that of the AD7678.

–3dB

is the equivalent input noise voltage of each op amp in

is the –3 dB input bandwidth in MHz of the AD7678

SNR

. Resistors R+ and R– are typically 3 k and are

LOSS



log







is typically 60 pF and mainly

625





–

3dB

(

2 )

AD7678







AD7678ASTZ Analog Devices Inc, AD7678ASTZ Datasheet - Page 17

AD7678ASTZ

Specifications of AD7678ASTZ

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