OPA2694ID Datasheet, PDF(12/28 Page) Texas Instruments – Dual, Wideband, Low-Power, Current Feedback Operational Amplifier

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OPA2694ID Datasheet, PDF (12/28 Pages) Texas Instruments – Dual, Wideband, Low-Power, Current Feedback Operational Amplifier

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OPA2694

SBOS320D â SEPTEMBER 2004 â REVISED APRIL 2013

ADC DRIVER

Most modern, high-performance analog-to-digital

converters (ADCs), such as Texas Instruments ADS522x

series, require a low-noise, low-distortion driver. The

OPA2694 combines low-voltage noise (2.1nV/âHz) with

low harmonic distortion. Figure 3 shows an example of a

wideband, AC-coupled, 12-bit ADC driver.

One OPA2694 is used in the circuit of Figure 3 to form a

differential driver for the ADS5220. The OPA2694 offers

> 150MHz bandwidth at a differential gain of 5V/V, with a

2VPP output swing. A 2nd-order RLC filter is used in order to

limit the noise from the amplifier and provide some

attenuation for higher-frequency harmonic distortion.

WIDEBAND INVERTING SUMMING AMPLIFIER

Since the signal bandwidth for a current-feedback op amp

can be controlled independently of the noise gain (NG),

which is normally the same as the noninverting signal

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gain), wideband inverting summing stages may be

implemented using the OPA2694. The circuit in Figure 4

shows an example inverting summing amplifier, where the

resistor values have been adjusted to maintain both

maximum bandwidth and input impedance matching. If

each RF signal is assumed to be driven from a 50Î© source,

the NG for this circuit will be (1 + 100Î©/(100Î©/5)) = 6. The

total feedback impedance (from VO to the inverting error

current) is the sum of RF + (RI â¢ NG). where RI is the

impedance looking into the inverting input from the

summing junction (see the Setting Resistor Values to

Optimize Performance section). Using 100Î© feedback (to

get a signal gain of â2 from each input to the output pin)

requires an additional 30Î© in series with the inverting input

to increase the feedback impedance. With this resistor

added to the typical internal RI = 30Î©, the total feedback

impedance is 100Î© + (60Î© â¢ 6) = 460Î©, which is equal to

the required value to get a maximum bandwidth flat

frequency response for NG = 6.

Powerâsupply decoupling not shown.

+5V

1/2

25Î© OPA2694

50Î©

1:2 100Î©

100Î©

500Î©

SingleâtoâDifferential

Gain of 10

1/2

OPA2694

25Î©

â5V

V+

VCM

0.1Î¼F

12âBit

40MSPS

ADS5220

Vâ

Figure 3. Wideband, AC-Coupled, Low-Power ADC Driver

50Î©

+5V

DIS

1/2

OPA2694

30Î©

100Î©

â5V

50Î©

VO = â(V1 + V2 + V3 + V4 + V5)

RGâ58

50Î©

100MHz, â1dB Compression = 15dBm

Figure 4. 200MHz RF Summing Amplifier

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