INA102 Burr-Brown Corporation, INA102 Datasheet - Page 7

INA102

Manufacturer Part Number

INA102

Description

Low Power INSTRUMENTATION AMPLIFIER

Manufacturer

Burr-Brown Corporation

Datasheet

1.INA102.pdf (13 pages)

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Other gains between 1 and 10, 10 and 100, and 100 and 1000

can also be obtained by connecting an external resistor

between pin 6 and either pin 2, 3, or 4, respectively (see

Figure 6 for application).

G = 1 + (40/R

two inverting inputs of the input op amps. At high gains,

where the value of R

(i.e., relays or sockets) in the R

gain error. Care should be taken to minimize this effect.

OPTIONAL OFFSET ADJUSTMENT PROCEDURE

It is sometimes desirable to null the input and/or output offset

to achieve higher accuracy. The quality of the potentiometer

will affect the results; therefore, choose one with good

temperature and mechanical-resistance stability.

The optional offset null capabilities are shown in Figure 3. R

adjustment affects only the input stage component of the

offset voltage. Note that the null condition will be disturbed

when the gain is changed. Also, the input drift will be

affected by approximately 0.31 V/ C per 100 V of input

offset voltage that is trimmed. Therefore, care should be

taken when considering use of the control for removal of

other sources of offset. Output offset correction can be

accomplished with A

to Common (pin 10) through a buffer amplifier. This buffer

limits the resistance in series with pin 10 to minimize CMR

error. Resistance above 0.1

rejection to fall below 100dB. Be certain to keep this resist-

ance low.

FIGURE 3. Optional Offset Nulling.

It is important to not exceed the input amplifiers’ dynamic

range. The amplified differential input signal and its associ-

ated common-mode voltage should not cause the output of

or nonlinear operation will result. To protect against mois-

ture, especially in high gain, sealing compound may be used.

Current injected into the offset pins should be minimized.

or A

to exceed approximately 12V with 15V supplies,

INA102

100k

–V

) where R

Input Offset Adjust

, R

becomes small, additional resistance

OPA27

, R

is the total resistance between the

±15mV adjustment at the output.

, and R

will cause the common-mode

circuit will contribute to a

, by applying a voltage

Output Offset

Adjust

+15VDC

–15VDC

100k

OPTIONAL FILTERING

The INA102 has provisions for accomplishing filtering with

one external capacitor between pins 11 and 13. This single-

pole filter can be used to reduce noise outside the signal

bandwidth, but with some degradation to AC CMR.

When it is important to preserve CMR versus frequency

(especially at 60Hz), two capacitors should be used. The

additional capacitor is connected between pins 8 and 10. This

will maintain a balance of impedances in the output stage.

Either of these capacitors could also be trimmed slightly, to

maximize CMR, if desired. Note that their ratio tracking will

affect CMR over temperature.

OPTIONAL COMMON-MODE REJECTION TRIM

The INA102 is laser-adjusted during manufacturing to assure

high CMR. However, if desired, a small resistance can be

added in series with pin 10 to trim the CMR to an improved

level. Depending upon the nature of the internal imbalances,

either positive or negative resistance value could be required.

The circuit shown in Figure 4 acts as a bipolar potentiometer

and allows easy adjustment of CMR.

FIGURE 4. Optional Circuit for Externally Trimming CMR.

TYPICAL APPLICATIONS

Many applications of instrumentation amplifiers involve the

amplification of low-level differential signals from bridges

and transducers such as strain gages, thermocouples, and

RTDs. Some of the important parameters include common-

mode rejection (differential cancellation of common-mode

offset and noise, see Figure 1), input impedance, offset

voltage and drift, gain accuracy, linearity, and noise. The

INA102 accomplishes all of these with high precision at

surprisingly low quiescent current. However, in higher gains

(>100), the bias current can cause a large offset error at the

output. This can saturate the output unless the source imped-

ance is separated, e.g., two 500k paths instead of one 1M

unbalanced input. Figures 5 through 16 show some typical

applications circuits.

Procedure:

1. Connect CMV to both inputs.

2. Adjust potentiometer for near zero at the output.

INA102

Common

OPA177

CMR

Adjust

INA102 Burr-Brown Corporation, INA102 Datasheet - Page 7

INA102

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