OPA111 Burr-Brown, OPA111 Datasheet - Page 8

OPA111

Manufacturer Part Number

OPA111

Description

Low Noise Precision Difet OPERATIONAL AMPLIFIER

Manufacturer

Burr-Brown

Datasheet

1.OPA111.pdf (12 pages)

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APPLICATIONS INFORMATION

OFFSET VOLTAGE ADJUSTMENT

The OPA111 offset voltage is laser-trimmed and will require

no further trim for most applications. As with most amplifi-

ers, externally trimming the remaining offset can change

drift performance by about 0.3 V/ C for each 100 V of

adjusted offset. Note that the trim (Figure 1) is similar to

operational amplifiers such as 741 and AD547. The OPA111

can replace most other amplifiers by leaving the external

null circuit unconnected.

INPUT PROTECTION

Conventional monolithic FET operational amplifiers require

external current-limiting resistors to protect their inputs

against destructive currents that can flow when input FET

gate-to-substrate isolation diodes are forward-biased. Most

BIFET amplifiers can be destroyed by the loss of –V

TYPICAL PERFORMANCE CURVES

FIGURE 1. Offset Voltage Trim.

Unlike BIFET amplifiers, The Difet OPA111 requires input

current limiting resistors only if its input voltage is greater

than 6V more negative than –V

will limit input current to a safe level with up to 15V input

levels, even if both supply voltages are lost.

= +25 C, V

= 15VDC unless otherwise noted.

OPA111

–V

10k to 1M trim potentiometer

(100k recommended).

±10mV typical trim range.

. A 10k

–150

150

–75

–1

25°C

series resistor

INPUT OFFSET VOLTAGE CHANGE

Time From Thermal Shock (Minutes)

85°C

DUE TO THERMAL SHOCK

FIGURE 2. Input Current vs Input Voltage with V

Static damage can cause subtle changes in amplifier input

characteristics without necessarily destroying the device. In

precision operational amplifiers (both bipolar and FET types),

this may cause a noticeable degradation of offset voltage and

drift. Static protection is recommended when handling any

precision IC operational amplifier.

GUARDING AND SHIELDING

As in any situation where high impedances are involved,

careful shielding is required to reduce “hum” pickup in input

leads. If large feedback resistors are used, they should also

be shielded along with the external input circuitry.

Leakage currents across printed circuit boards can easily

exceed the bias current of the OPA111. To avoid leakage

problems, it is recommended that the signal input lead of the

OPA111 be wired to a Teflon standoff. If the OPA111 is to

be soldered directly into a printed circuit board, utmost care

must be used in planning the board layout. A “guard” pattern

= 25°C to T

Air Environment

(CONT)

–1

–2

–15

= 85°C

Grounded.

–10

–5

Input Voltage (V)

Maximum Safe Current

Pins

OPA111 Burr-Brown, OPA111 Datasheet - Page 8

OPA111

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