lt1101amj8 Linear Technology Corporation, lt1101amj8 Datasheet - Page 11

lt1101amj8

Manufacturer Part Number

lt1101amj8

Description

Precision, Micropower, Single Supply Instrumentation Amplifier Fixed Gain = 10 Or 100

Manufacturer

Linear Technology Corporation

Datasheet

1.LT1101AMJ8.pdf (16 pages)

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Part Number:

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APPLICATIO S I FOR ATIO

Single Supply Applications

The LT1101 is the first instrumentation amplifier which is

fully specified for single supply operation, (i.e. when the

negative supply is 0V). Both the input common mode

range and the output swing are within a few millivolts of

ground.

Probably the most common application for instrumenta-

tion amplifiers is amplifying a differential signal from a

transducer or sensor resistance bridge. All competitive

instrumentation amplifiers have a minimum required

common mode voltage which is 3V to 5V above the

negative supply. This means that the voltage across the

bridge has to be 6V to 10V or dual supplies have to be used

(i.e., micropower) single battery usage is not attainable on

competitive devices.

The minimum output voltage obtainable on the LT1101 is

a function of the input common mode voltage. When the

common mode voltage is high and the output is low,

current will flow from the output of amplifier A into the

output of amplifier B. See the Minimum Output Voltage vs

Common Mode Voltage plot.

Similarly, the Single Supply Minimum Common Mode

Voltage vs Output Voltage plot specifies the expected

common mode range.

TYPICAL PERFOR A CE CHARACTERISTICS

120

100

Single Supply: Minimum

Common Mode Voltage vs

Output Voltage

OUTPUT VOLTAGE (V)

25°C

G = 100

G = 10

V + = 1.8V TO 15V

V – = OV

–55°C

125°C

–55°C

125°C

25°C

LT1101 • TPC21

Single Supply: Minimum Output

Voltage vs Common Mode

Voltage

V + = 1.8V TO 15V

V – = OV

NO LOAD

G = 100

MINIMUM OUTPUT VOLTAGE (mV)

–55°C

125°C

When the output is high and input common mode is low,

the output of amplifier A has to sink current coming from

the output of amplifier B. Since amplifier A is effectively in

unity gain, its input is limited by its output.

Common Mode Rejection vs Frequency

The common mode rejection ratio (CMRR) of the LT1101

starts to roll off at a relatively low frequency. However, as

shown on the Common Mode Rejection Ratio vs Fre-

quency plot, CMRR can be enhanced significantly by

connecting an 82pF capacitor between pins 1 and 2. This

improvement is only available in the gain 100 configura-

tion, and it is in excess of 30dB at 60Hz.

Offset Nulling

The LT1101 is not equipped with dedicated offset null

terminals. In many bridge transducer or sensor applica-

tions, calibrating the bridge simultaneously eliminates the

instrumentation amplifier’s offset as a source of error. For

example, in the Micropower Remote Temperature Sensor

Application shown, one adjustment removes the offset

errors due to the temperature sensor, voltage reference

and the LT1101.

60 70

25°C

G = 10

LT1101 • TPC22

125°C

25°C

100

2.5

2.0

1.5

1.0

0.5

–50

Minimum Supply Voltage vs

Temperature

COMMON-MODE RANGE

AT MINIMUM SUPPLY

OUTPUT SWING

AT MINIMUM SUPPLY

–25

TEMPERATURE (°C)

MINIMUM

SUPPLY VOLTAGE

LT1101

LT1101 • TPC23

100

–

= 0V

1101fa

125

lt1101amj8 Linear Technology Corporation, lt1101amj8 Datasheet - Page 11

lt1101amj8

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