ada4922-1 Analog Devices, Inc., ada4922-1 Datasheet - Page 15

ada4922-1

Manufacturer Part Number

ada4922-1

Description

High Voltage, Differential 18-bit Adc Driver

Manufacturer

Analog Devices, Inc.

Datasheet

1.ADA4922-1.pdf (20 pages)

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Manufacturer

Quantity

Price

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

ada4922-1ARDZ

Manufacturer:

HITTITE

Quantity:

1 100

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A more detailed view of the amplifier is shown in Figure 45.

Each amplifier is a 2-stage design that uses an input H-Bridge

followed by a rail-to-rail output stage (see Figure 46).

Figure 47 illustrates the open-loop gain and phase relationships

of each amplifier in the ADA4922-1.

INP

–100

–125

125

100

–25

–50

–75

100

Figure 47. Amplifier Gain/Phase Relationship

Figure 45. Internal Amplifier Architecture

Figure 46. Output Stage Architecture

MIRROR

OUT

10k

GAIN

FREQUENCY (Hz)

PHASE

MIRROR

100k

INN

INTERNAL

REF

OUTPUT

STAGE

10M

OUT

100M

OUT

Rev. 0 | Page 15 of 20

The architecture used in the ADA4922-1 results in excellent

SNR and distortion performance when compared to other

differential amplifiers.

One of the more subtle points of operation arises when the two

amplifiers are used to generate the differential outputs. Because

the differential outputs are derived from a follower amplifier

and an inverting amplifier, they have different noise gains and,

therefore, different closed-loop bandwidths. For frequencies up

to 1 MHz, the bandwidth difference between outputs causes

little difference in the overall differential output performance.

However, because the bandwidth is the sum of both amplifiers,

the 3 dB point of the inverting amplifier defines the overall

differential 3 dB corner (see Figure 48).

Small delay and gain errors exist between the two outputs

because the inverting output is derived from the noninverting

output through an inverting amplifier. The gain error is due to

imperfect matching of the inverting amplifier gain and feedback

resistors, as well as differences in the transfer functions of the

two amplifiers, as illustrated in Figure 48. The delay error is due

to the delay through the inverting amplifier relative to the

noninverting amplifier output. The delay produces a reduction

in differential gain because the two outputs are not exactly 180°

out of phase. Both of these errors combine to produce an overall

gain error because the outputs are completely balanced. This

error is very small at the frequencies involved in most

ADA4922-1 applications.

–2

–4

–6

10k

Figure 48. Closed-Loop AC Gain (Differential Outputs)

DIFFERENTIAL OUTPUT

100k

FREQUENCY (Hz)

OUT+

10M

ADA4922-1

OUT–

100M

ada4922-1 Analog Devices, Inc., ada4922-1 Datasheet - Page 15

ada4922-1

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