LT1169CS8 View Datasheet(PDF) - Linear Technology

Part Name

Description

MFG CO.

LT1169CS8

Dual Low Noise, Picoampere Bias Current, JFET Input Op Amp

Linear Technology 

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TYPICAL PERFOR A CE CHARACTERISTICS

LT1169

THD and Noise vs

Frequency for Noninverting Gain

1

ZL = 2k15pF

VO = 20VP-P

AV = 1, 10, 100

0.1 MEASUREMENT BANDWIDTH

= 10Hz TO 80kHz

0.01

AV = 100

0.001

0.0001

20

AV = 10

AV = 1

NOISE FLOOR

100

1k

FREQUENCY (Hz)

10k 20k

LT1169 • TPC22

THD and Noise vs

Frequency for Inverting Gain

1

ZL = 2k15pF

VO = 20VP-P

AV = –1, –10, –100

0.1 MEASUREMENT BANDWIDTH

= 10Hz TO 80kHz

AV = –100

0.01

AV = –10

0.001

AV = –1

0.0001

20

NOISE FLOOR

100

1k

FREQUENCY (Hz)

10k 20k

LT1169 • TPC23

THD and Noise vs Output

Amplitude for Inverting Gain

1

ZL = 2k15pF

fO = 1kHz

AV = –1, –10, –100

0.1 MEASUREMENT BANDWIDTH

= 10Hz TO 22kHz

0.01

AV = –100

AV = –10

0.001

0.0001

0.3

AV = –1

NOISE FLOOR

1

10

30

OUTPUT SWING (VP-P)

LT1169 • TPC24

THD and Noise vs Output

Amplitude for Noninverting Gain

1

ZL = 2k15pF

fO = 1kHz

AV = 1, 10, 100

0.1

MEASUREMENT BANDWIDTH

= 10Hz TO 22kHz

AV = 100

0.01

0.001

AV = 10

AV = 1

0.0001

0.3

NOISE FLOOR

1

10

30

OUTPUT SWING (VP-P)

LT1169 • TPC25

CCIF IMD Test (Equal Amplitude

Tones at 13kHz, 14kHz)*

1

TA = 25°C

VS = ±15V

RL = 2k

0.1

AV = ±10

0.01

0.001

0.0001

0.02

0.1

1

10 30

OUTPUT SWING (VP-P)

LT1169 • TPC26

* SEE LT1115 DATA SHEET FOR DEFINITION OF

CCIF TESTING

APPLICATI S I FOR ATIO

LT1169 vs the Competition

With improved noise performance, the LT1169 dual in the

plastic DIP directly replaces such JFET op amps as the

OPA2111, OPA2604, OP215, and the AD822. The combi-

nation of low current and voltage noise of the LT1169

allows it to surpass most dual and single JFET op amps.

The LT1169 can replace many of the lowest noise bipolar

amps that are used in amplifying low level signals from

high impedance transducers. The best bipolar op amps

will eventually lose out to the LT1169 when transducer

impedance increases due to higher current noise.

The extremely high input impedance (1013Ω) assures that

the input bias current is almost constant over the entire

common mode range. Figure 1 shows how the LT1169

stands up to the competition. Unlike the competition, as the

input voltage is swept across the entire common mode

range the input bias current of the LT1169 hardly changes.

As a result the current noise does not degrade. This makes

the LT1169 the best choice in applications where an

amplifier has to buffer signals from a high impedance

transducer.

7

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