AD7610BCPZ1 AD [Analog Devices], AD7610BCPZ1 Datasheet - Page 20

AD7610BCPZ1

Manufacturer Part Number

AD7610BCPZ1

Description

16-Bit, 250 kSPS, Unipolar/Bipolar Programmable Input PulSAR ADC

Manufacturer

AD [Analog Devices]

Datasheet

1.AD7610BCPZ1.pdf (32 pages)

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AD7610

DRIVER AMPLIFIER CHOICE

Although the AD7610 is easy to drive, the driver amplifier must

meet the following requirements:

•

For multichannel, multiplexed applications, the driver

amplifier and the AD7610 analog input circuit must be

able to settle for a full-scale step of the capacitor array at a

16-bit level (0.0015%). For the amplifier, settling at 0.1% to

0.01% is more commonly specified. This differs significantly

from the settling time at a 16-bit level and should be verified

prior to driver selection. The

low noise and high gain bandwidth and meets this settling

time requirement even when used with gains of up to 13.

The noise generated by the driver amplifier needs to be

kept as low as possible to preserve the SNR and transition

noise performance of the AD7610. The noise coming from

the driver is filtered by the external 1-pole low-pass filter

as shown in Figure 27. The SNR degradation due to the

amplifier is

where:

N is the noise factor of the amplifier (+1 in buffer

configuration).

The driver needs to have a THD performance suitable to

that of the AD7610. Figure 15 shows the THD vs. frequency

that the driver should exceed.

amp, in nV/√Hz.

SNR

–3dB

NADC

is the equivalent input voltage noise density of the op

is the cutoff frequency of the input filter (3.9 MHz).

LOSS

is the noise of the ADC, which is:

INp-p

SNR

log

⎛

⎜

⎜ ⎜

⎝

NADC

AD8021

−

(

op amp combines ultra-

)

⎞

⎟

⎟ ⎟

⎠

Rev. 0 | Page 20 of 32

The AD8021 meets these requirements and is appropriate for

almost all applications. The AD8021 needs a 10 pF external

compensation capacitor that should have good linearity as an

NPO ceramic or mica type. Moreover, the use of a noninverting

+1 gain arrangement is recommended and helps to obtain the

best signal-to-noise ratio.

The

and a gain of 1 is present. The

cations where high frequency (above 100 kHz) performance is not

required. In applications with a gain of 1, an 82 pF compensation

capacitor is required. The

current is needed in low frequency applications.

Since the AD7610 uses a large geometry, high voltage input

switch, the best linearity performance is obtained when using

the amplifier at its maximum full power bandwidth. Gaining

the amplifier to make use of the more dynamic range of the

ADC results in increased linearity errors. For applications

requiring more resolution, the use of an additional amplifier

with gain should precede a unity follower driving the AD7610.

See Table 8 for a list of recommended op amps.

Table 8. Recommended Driver Amplifiers

Amplifier

ADA4841-x

AD829

AD8021

AD8022

AD8610/AD8620

VOLTAGE REFERENCE INPUT/OUTPUT

The AD7610 allows the choice of either a very low temperature

drift internal voltage reference, an external reference or an external

buffered reference.

The internal reference of the AD7610 provides excellent perfor-

mance and can be used in almost all applications. However, the

linearity performance is guaranteed only with an external reference.

AD8022

can also be used when a dual version is needed

Typical Application

12 V supply, very low noise, low distortion,

low power, low frequency

±15 V supplies, very low noise, low frequency

±12 V supplies, very low noise, high frequency

±12 V supplies, very low noise, high

frequency, dual

±13 V supplies, low bias current, low

frequency, single/dual

AD8610

AD829

is an option when low bias

is an alternative in appli-

AD7610BCPZ1 AD [Analog Devices], AD7610BCPZ1 Datasheet - Page 20

AD7610BCPZ1

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