AD7661 Analog Devices, AD7661 Datasheet - Page 19

AD7661

Manufacturer Part Number

AD7661

Description

Manufacturer

Analog Devices

Datasheet

1.AD7661.pdf (28 pages)

Specifications of AD7661

Resolution (bits)

16bit

# Chan

Sample Rate

100kSPS

Interface

Par,Ser,SPI

Analog Input Type

Diff-Uni

Ain Range

(Vref) p-p,2.5V p-p,Uni (Vref),Uni 2.5V

Adc Architecture

SAR

Pkg Type

CSP,QFP

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Current page: 19 of 28
Download datasheet (2Mb)

•

The OP184,

usually appropriate for almost all applications. As an alternative,

in very high speed and noise-sensitive applications, the

with an external 10 pF compensation capacitor can be used.

This capacitor 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 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 AD7661. The noise

coming from the driver is filtered by the AD7661 analog

input circuit 1-pole low-pass filter made by R1 and C2 or

by the external filter, if one is used. The SNR degradation

due to the amplifier is

where:

For example, the OP184 driver, which has an equivalent

input noise of 4 nV/√Hz and a noise gain of +1 when

configured as a buffer, degrades the SNR by only 0.11 dB.

The driver needs to have a THD performance suitable to

that of the AD7661. Figure 15 gives the THD versus

frequency that the driver should exceed.

The

and gain of +1 is present. The

applications where high frequency (above 100 kHz)

performance is not required. In gain of +1 applications, it

requires an 82 pF compensation capacitor. The

an option when low bias current is needed in low

frequency applications.

–3dB

AD8022

is the input bandwidth, in MHz, of the AD7661 (0.82)

or the cutoff frequency of the input filter, if one is

used.

configuration).

is the equivalent input noise voltage of the op amp, in

nV/√Hz.

SNR

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

OP162

LOSS

could also be used if a dual version is needed

AD8519

log

⎛

⎜

⎝

784

meet these requirements and are

AD829

−

is an alternative in

(

)

AD8610

⎞

⎟

⎠

AD8021

Rev. 0 | Page 19 of 28

Voltage Reference Input

The AD7661 allows the choice of either a very low temperature

drift internal voltage reference or an external 2.5 V reference.

Unlike many ADCs with internal references, the internal

reference of the AD7661 provides excellent performance and

can be used in almost all applications.

To use the internal reference along with the internal buffer,

PDREF and PDBUF should both be LOW. This will produce

1.2 V on REFBUFIN which, amplified by the buffer, will result

in a 2.5 V reference on the REF pin.

The output impedance of REFBUFIN is 11 k

the internal reference is enabled. It is necessary to

REFBUFIN with a ceramic capacitor greater than 10 nF. Thus

the capacitor provides an RC filter for noise reduction.

To use an external reference along with the internal buffer,

PDREF should be HIGH and PDBUF should be LOW. This

powers down the internal reference and allows the 2.5 V

reference to be applied to REFBUFIN.

To use an external reference directly on REF pin, PDREF and

PDBUF should both be HIGH.

PDREF and PDBUF power down the internal reference and the

internal reference buffer, respectively. Note that the PDREF and

PDBUF input current should never exceed 20 mA. This could

eventually occur when input voltage is above AVDD (for

instance at power up). In this case, a 100 Ω series resistor is

recommended.

The internal reference is temperature compensated to 2.5 V ±

20 mV. The reference is trimmed to provide a typical drift of

3 ppm/°C . This typical drift characteristic is shown in Figure

22. For improved drift performance, an external reference, such

as the AD780, can be used.

The AD7661 voltage reference input REF has a dynamic input

impedance; it should therefore be driven by a low impedance

source with efficient decoupling between the REF and

REFGND inputs. This decoupling depends on the choice of the

voltage reference but usually consists of a low ESR tantalum

capacitor connected to REF and REFGND with minimum

parasitic inductance. A 10 µF (X5R, 1206 size) ceramic chip

capacitor (or 47 µF tantalum capacitor) is appropriate when

using either the internal reference or one of these

recommended reference voltages:

•

The low noise, low temperature drift

The low power

The low cost

AD1582

ADR291

ADR421

Ω (minimum) when

decouple

and

AD7661

AD780

AD7661 Analog Devices, AD7661 Datasheet - Page 19

AD7661

Specifications of AD7661

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