VCA2613Y BURR-BROWN [Burr-Brown Corporation], VCA2613Y Datasheet - Page 13

VCA2613Y

Manufacturer Part Number

VCA2613Y

Description

Dual, VARIABLE GAIN AMPLIFIER with Low-Noise Preamp

Manufacturer

BURR-BROWN [Burr-Brown Corporation]

Datasheet

1.VCA2613Y.pdf (16 pages)

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Current page: 13 of 16
Download datasheet (341Kb)

PGA POST-AMPLIFIER—DETAIL

Figure 18 shows a simplified circuit diagram of the PGA

block. As described previously, the PGA gain is programmed

with the same MGS bits which control the VCA maximum

attenuation factor. Specifically, the PGA gain at each MGS

setting is the inverse (reciprocal) of the maximum VCA

attenuation at that setting. Therefore, the VCA + PGA overall

gain will always be 0dB (unity) when the analog VCA

input is set to 0V (= maximum attenuation). For VCA

3V (no attenuation), the VCA + PGA gain will be controlled

by the programmed PGA gain (24 to 45 dB in 3dB steps). For

clarity, the gain and attenuation factors are detailed in Table

III.

TABLE III. MGS Settings.

FIGURE 18. Simplified Block Diagram of the PGA section within the VCA2613.

VCA2613

SETTING

SBOS179D

MGS

000

001

010

100

101

011

110

111

VCA

OUT

ATTENUATOR GAIN

VCA

–24dB to 0dB

–27dB to 0dB

–30dB to 0dB

–33dB to 0dB

–36dB to 0dB

–39dB to 0dB

–42dB to 0dB

–45dB to 0dB

CNTL

= 0V to 3V

DIFFERENTIAL

PGA GAIN

24dB

27dB

30dB

33dB

36dB

39dB

42dB

45dB

+In

ATTENUATOR +

DIFF. PGA GAIN

0dB to 24dB

0dB to 27dB

0dB to 30dB

0dB to 33dB

0dB to 36dB

0dB to 39dB

0dB to 42dB

0dB to 45dB

CNTL

www.ti.com

The PGA architecture consists of a differential, program-

mable-gain voltage to current converter stage followed by

transimpedance amplifiers to create and buffer each side of

the differential output. The circuitry associated with the volt-

age to current converter is similar to that previously de-

scribed for the LNP, with the addition of eight selectable PGA

gain-setting resistor combinations (controlled by the MGS

bits) in place of the fixed resistor network used in the LNP.

Low input noise is also a requirement of the PGA design due

to the large amount of signal attenuation which can be

inserted between the LNP and the PGA. At minimum VCA

attenuation (used for small input signals) the LNP noise

dominates; at maximum VCA attenuation (large input sig-

nals) the PGA noise dominates. Note that if the PGA output

is used single-ended, the apparent gain will be 6dB lower.

Circuitry

To Bias

–In

Circuitry

To Bias

VCA

OUT

VCA2613Y BURR-BROWN [Burr-Brown Corporation], VCA2613Y Datasheet - Page 13

VCA2613Y

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