ltc6910-2 Linear Technology Corporation, ltc6910-2 Datasheet - Page 15

ltc6910-2

Manufacturer Part Number

ltc6910-2

Description

Digitally Controlled Programmable Gain Amplifiers In Sot-23

Manufacturer

Linear Technology Corporation

Datasheet

1.LTC6910-2.pdf (24 pages)

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PI FU CTIO S

Where AGND does not connect to a ground plane, as in

Figures 1 and 3, it is important to AC-bypass the AGND pin.

This is especially true when AGND is used as a reference

voltage for other circuitry. Also, without a bypass capaci-

tor, wideband noise will enter the signal path from the

internal voltage divider resistors that set the DC voltage on

AGND. This noise can reduce SNR by 3dB at high gain

settings. The resistors present a Thévenin equivalent of

approximately 5k to the AGND pin. An external capacitor

from AGND to the ground plane, whose impedance is well

below 5k at frequencies of interest, will suppress this

noise. A 1 F high quality capacitor is effective in suppress-

ing resistor noise for frequencies down to 1kHz. Larger

capacitors extend this suppression to proportionately

lower frequencies. This issue does not arise in symmetri-

cal dual supply applications (Figure 2) because AGND

goes directly to ground.

In applications requiring an analog ground reference other

than halfway between the supply rails, the user can over-

ride the built-in analog ground reference by tying the

AGND pin to a reference voltage within the AGND voltage

range specified in the Electrical Characteristics table. The

AGND pin will load the external reference with approxi-

mately 5k returned to the mid-supply potential. AGND

should still be capacitively bypassed to a ground plane as

noted above. Do not connect the AGND pin to the V

IN (Pin 3): Analog Input. The input signal to the amplifier

in the LTC6910-X is the voltage difference between the IN

and AGND pins. The IN pin connects internally to a digitally

controlled resistance whose other end is a current sum-

ming point at the same potential as the AGND pin (Fig-

ure 4). At unity gain (digital input 001), the value of this

input resistance is approximately 10k and the IN voltage

range is rail-to-rail (V

(digital input 010 or higher), the input resistance falls.

Also, the linear input voltage range falls in inverse propor-

tion to gain. (The higher gains are designed to boost lower

level signals with good noise performance.) Tables 1, 2,

and 3 summarize this behavior. In the “zero” gain state

(digital input 000), analog switches disconnect the IN pin

internally and this pin presents a very high input resis-

to V

–

). At gain settings above unity

–

pin.

tance. The input may vary from rail to rail in the “zero” gain

setting but the output is insensitive to it and remains at the

AGND potential. Circuitry driving the IN pin must consider

the LTC6910-X’s input resistance and the variation of this

resistance when used at multiple gain settings. Signal

sources with significant output resistance may introduce

a gain error as the source’s output resistance and the

LTC6910-X’s input resistance form a voltage divider. This

is especially true at the higher gain settings where the

input resistance is lowest.

In single supply voltage applications at elevated gain

settings (digital input 010 or higher), it is important to

remember that the LTC6910-X’s DC ground reference for

both input and output is AGND, not V

gains, the LTC6910-X’s input voltage range for unclipped

output is no longer rail-to-rail but shrinks toward AGND.

The OUT pin also swings positive or negative with respect

to AGND. At unity gain (digital input 001), both IN and OUT

voltages can swing from rail to rail (Tables 1, 2, 3).

INPUT R ARRAY

LTC6910-2/LTC6910-3

Figure 4. Block Diagram

MOS-INPUT

10k

OP AMP

CMOS LOGIC

AGND

–

10k

FEEDBACK R ARRAY

LTC6910-1

–

. With increasing

–

6910 F04

6910123fa

OUT

ltc6910-2 Linear Technology Corporation, ltc6910-2 Datasheet - Page 15

ltc6910-2

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