OPA2684IDCNT Datasheet, PDF(18/34 Page) Texas Instruments – Low-Power, Dual Current-Feedback OPERATIONAL AMPLIFIER

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OPA2684IDCNT Datasheet, PDF (18/34 Pages) Texas Instruments – Low-Power, Dual Current-Feedback OPERATIONAL AMPLIFIER

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SINGLE-SUPPLY, HIGH GAIN DIFFERENTIAL

ADC DRIVER

Where a very low power differential I/O interface to a mod-

erate performance ADC is required, the circuit of Figure 11

may be considered. The circuit builds on the inverting differ-

ential I/O configuration of Figure 6 by adding the input

transformer and the output low-pass filter. The input trans-

former provides a single-to-differential conversion where the

input signal is still very low powerâit also provides a gain of

2 and removes any common-mode signal from the inputs.

This single +5V design sets a midpoint bias from the supply

at each of the noninverting inputs.

This circuit also includes optional 500â¦ pull-down resistors at

the output. With a 2.5V DC common-mode operating point

(set by VCM), this will add 5mA to ground in the output stage.

This essentially powers up the NPN side of the output stage

significantly reducing distortion. It is important for good 2nd-

order distortion to connect the grounds of these two resistors

at the same point to minimize ground plane current for the

differential output signal. Figure 12 shows the measured

2nd- and 3rd-harmonic distortion for the circuit of Figure 11

with and without the pull-down resistors.

Less than â65dBc distortion is possible through 5MHz with-

out the pull-down current while this extends to 10MHz using

the two 500â¦ pull-down resistors.

SYNTHETIC IMPEDANCE DSL LINE DRIVER

The need for very low power DSL line drivers is well sup-

ported by the OPA2684 with its high (> 100mA) output

current, low (< 1.2V) headroom, and low supply current

(3.4mA). To further improve power efficiency, simple differ-

ential line drivers are often modified to produce a portion

of the output impedance through positive feedback. This

reduces the voltage swing loss in the remaining discrete

matching resistor leaving more of the available voltage swing

at the input of the transformer. This typically will allow the

transformer turns ratio to be reduced, reducing the peak

output current required. All of this together can reduce the

power dissipated in the line driver while delivering a low

distortion DSL signal to the line.

DISTORTION vs FREQUENCY

â50

2Vp-p Output

3rd-Harmonic

â60

2nd-Harmonic

â70

â80

â90

No Pull-Down

3rd-Harmonic

2nd-Harmonic

5mA/ch Pull-Down

Frequency (MHz)

FIGURE 12. Measured Harmonic Distortion for the Circuit of

Figure 11.

See Figure 13 for an example design for a +12V single-

supply SHDSL4 line driver where only 27% of the output

impedance is implemented with the physical (18.2â¦) output

resistors with the remaining 73% implemented with positive

feedback. This synthetic output impedance circuit feeds back

the transformer input voltage to the opposite inverting nodes.

+5V

10kâ¦

VCM

0.1ÂµF

10kâ¦

1/2

OPA2684

50â¦

Source

200â¦

1:2

200â¦

14.7dB

Noise Figure

Gain = 8V/V

18.1dB

VCM

800â¦

1/2

OPA2684

Optional

500â¦

ADC

Optional

500â¦

FIGURE 11. Single-Supply Differential ADC Driver.

www.ti.com

OPA2684

SBOS239D

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