INA2126E Burr-Brown Corporation, INA2126E Datasheet - Page 8

INA2126E

Manufacturer Part Number

INA2126E

Description

MicroPOWER INSTRUMENTATION AMPLIFIER Single and Dual Versions

Manufacturer

Burr-Brown Corporation

Datasheet

1.INA2126E.pdf (9 pages)

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INPUT BIAS CURRENT RETURN

The input impedance of the INA126/2126 is extremely

high—approximately 10

vided for the input bias current of both inputs. This input

bias current is typically –10nA (current flows out of the

input terminals). High input impedance means that this input

bias current changes very little with varying input voltage.

Input circuitry must provide a path for this input bias current

for proper operation. Figure 3 shows various provisions for

an input bias current path. Without a bias current path, the

inputs will float to a potential which exceeds the common-

mode range and the input amplifiers will saturate.

If the differential source resistance is low, the bias current

return path can be connected to one input (see the thermo-

couple example in Figure 3). With higher source impedance,

using two equal resistors provides a balanced input with

advantages of lower input offset voltage due to bias current

and better high-frequency common-mode rejection.

FIGURE 3. Providing an Input Common-Mode Current Path.

INPUT COMMON-MODE RANGE

The input common-mode range of the INA126/2126 is

shown in typical performance curves. The common-mode

range is limited on the negative side by the output voltage

swing of A

on an external pin. The output voltage of A

pressed as:

Microphone,

Hydrophone

Thermocouple

etc.

(Voltages referred to Ref terminal, pin 5)

= 1.25 V

, an internal circuit node that cannot be measured

47k

INA126, INA2126

–

– (V

10k

Center-tap provides

bias current return.

. However, a path must be pro-

47k

– V

–

INA126

) (10k /R

can be ex-

)

(2)

The internal op amp A

swing is limited to typically 0.7V from the supply rails.

When the input common-mode range is exceeded (A

output is saturated), A

respond to changes in the non-inverting input voltage. The

output voltage, however, will be invalid.

LOW VOLTAGE OPERATION

The INA126/2126 can be operated on power supplies as low

as 1.35V. Performance remains excellent with power sup-

plies ranging from 1.35V to 18V. Most parameters vary

only slightly throughout this supply voltage range—see

typical performance curves. Operation at very low supply

voltage requires careful attention to ensure that the common-

mode voltage remains within its linear range. See “Input

Common-Mode Voltage Range.”

The INA126/2126 can be operated from a single power

supply with careful attention to input common-mode range,

output voltage swing of both op amps and the voltage

applied to the Ref terminal. Figure 4 shows a bridge ampli-

fier circuit operated from a single +5V power supply. The

bridge provides an input common-mode voltage near 2.5V,

with a relatively small differential voltage.

INPUT PROTECTION

The inputs are protected with internal diodes connected to

the power supply rails. These diodes will clamp the applied

signal to prevent it from exceeding the power supplies by

more than approximately 0.7V. If the signal source voltage

can exceed the power supplies, the source current should be

limited to less than 10mA. This can generally be done with

a series resistor. Some signal sources are inherently current-

limited and do not require limiting resistors.

CHANNEL CROSSTALK—DUAL VERSION

The two channels of the INA2126 are completely indepen-

dent, including all bias circuitry. At DC and low frequency

there is virtually no signal coupling between channels.

Crosstalk increases with frequency and is dependent on

circuit gain, source impedance and signal characteristics.

As source impedance increases, careful circuit layout will

help achieve lowest channel crosstalk. Most crosstalk is

produced by capacitive coupling of signals from one channel

to the input section of the other channel. To minimize

coupling, separate the input traces as far as practical from

any signals associated with the opposite channel. A grounded

guard trace surrounding the inputs helps reduce stray cou-

pling between channels. Carefully balance the stray capaci-

tance of each input to ground, and run the differential inputs

of each channel parallel to each other, or directly adjacent on

top and bottom side of a circuit board. Stray coupling then

tends to produce a common-mode signal that is rejected by

the IA’s input.

can still be in linear operation and

is identical to A

and its output

’s

INA2126E Burr-Brown Corporation, INA2126E Datasheet - Page 8

INA2126E

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