LT1167CS8#PBF Datasheet LT1167CS8#PBF, LT1167CS8#TRPBF, LT1167AIS8#PBF | P7-P9

LT1167

7

1167fc

TYPICAL PERFORMANCE CHARACTERISTICS

Distribution of Input

Offset Voltage, T

A

= –40°C

Distribution of Input

Offset Voltage, T

A

= 25°C

Distribution of Input

Offset Voltage, T

A

= 85°C

Gain Nonlinearity, G = 1

Gain Nonlinearity, G = 1000

Gain Nonlinearity, G = 10

Gain Nonlinearity vs Temperature

Gain Nonlinearity, G = 100

Gain Error vs Temperature

OUTPUT VOLTAGE (2V/DIV)

NONLINEARITY (1ppm/DIV)

1167 G01

G = 1

R

L

= 2k

V

OUT

= ±10V

OUTPUT VOLTAGE (2V/DIV)

NONLINEARITY (10ppm/DIV)

1167 G02

G = 10

R

L

= 2k

V

OUT

= ±10V

OUTPUT VOLTAGE (2V/DIV)

NONLINEARITY (10ppm/DIV)

1167 G03

G = 100

R

L

= 2k

V

OUT

= ±10V

OUTPUT VOLTAGE (2V/DIV)

NONLINEARITY (100ppm/DIV)

1167 G04

G = 1000

R

L

= 2k

V

OUT

= ±10V

TEMPERATURE (°C)

–50

NONLINEARITY (ppm)

70

25

1167 G05

40

20

–25 0 50

10

0

80

60

50

30

75 100 150

G = 1000

G = 100

G = 1, 10

V

S

= ±15V

V

OUT

= –10V TO 10V

R

L

= 2k

TEMPERATURE (°C)

–50

GAIN ERROR (%)

–0.20

–0.10

–0.05

0

50

0.20

1167 G06

–0.15

0

–25

75

G = 1

25 100

0.05

0.10

0.15

V

S

= ±15V

V

OUT

= ±10V

R

L

= 2k

*DOES NOT INCLUDE

TEMPERATURE EFFECTS

OF R

G

G = 10*

G = 1000*

G = 100*

INPUT OFFSET VOLTAGE (μV)

–80

PERCENT OF UNITS (%)

20

30

1167 G40

10

0

–60 –40 –20 20 40 60

0

40

15

25

5

35

V

S

= ±15V

G = 1000

137 N8 (2 LOTS)

165 S8 (3 LOTS)

302 TOTAL PARTS

INPUT OFFSET VOLTAGE (μV)

–60 –40 –20 0 20 40 60

PERCENT OF UNITS (%)

20

25

30

1167 G41

15

10

0

5

V

S

= ±15V

G = 1000

137 N8 (2 LOTS)

165 S8 (3 LOTS)

302 TOTAL PARTS

INPUT OFFSET VOLTAGE (μV)

–80

PERCENT OF UNITS (%)

20

30

1167 G42

10

0

–60 –40 –20 20 40 60

0

40

15

25

5

35

V

S

= ±15V

G = 1000

137 N8 (2 LOTS)

165 S8 (3 LOTS)

302 TOTAL PARTS

LT1167

8

1167fc

TYPICAL PERFORMANCE CHARACTERISTICS

Distribution of Input Offset

Voltage Drift

Distribution of Output Offset

Voltage Drift Warm-Up Drift

Input Bias Current Input Offset Current

Input Bias and Offset Current

vs Temperature

Distribution of Output

Offset Voltage, T

A

= –40°C

Distribution of Output

Offset Voltage, T

A

= 25°C

Distribution of Output

Offset Voltage, T

A

= 85°C

OUTPUT OFFSET VOLTAGE (μV)

–400 –300 –200 –100 0 100 200 300 400

PERCENT OF UNITS (%)

20

30

1167 G43

10

0

40

15

25

5

35

V

S

= ±15V

G = 1

137 N8 (2 LOTS)

165 S8 (3 LOTS)

302 TOTAL PARTS

OUTPUT OFFSET VOLTAGE (μV)

– 200 –150 –100 –50 0 50 100 150 200

PERCENT OF UNITS (%)

20

30

1167 G44

10

0

15

25

5

V

S

= ±15V

G = 1

137 N8 (2 LOTS)

165 S8 (3 LOTS)

302 TOTAL PARTS

OUTPUT OFFSET VOLTAGE (μV)

–400 –300 –200 –100 0 100 200 300 400

PERCENT OF UNITS (%)

20

30

1167 G45

10

0

40

15

25

5

35

V

S

= ±15V

G = 1

137 N8 (2 LOTS)

165 S8 (3 LOTS)

302 TOTAL PARTS

INPUT OFFSET VOLTAGE DRIFT (μV/°C)

–0.4

0

PERCENT OF UNITS (%)

5

10

15

20

30

–0.3

–0.2 –0.1 0

1167 G46

0.1 0.2 0.3

25

V

S

= ±15V

T

A

= –40°C TO 85°C

G = 1000

137 N8 (2 LOTS)

165 S8 (3 LOTS)

302 TOTAL PARTS

OUTPUT OFFSET VOLTAGE DRIFT (μV/°C)

0

PERCENT OF UNITS (%)

5

10

15

20

40

012345–1–2–3–4–5

1167 G47

30

35

25

V

S

= ±15V

T

A

= –40°C TO 85°C

G = 1

137 N8 (2 LOTS)

165 S8 (3 LOTS)

302 TOTAL PARTS

TIME AFTER POWER ON (MINUTES)

0

10

12

S8

N8

14

34

1167 G09

8

6

12 5

4

2

0

CHANGE IN OFFSET VOLTAGE (μV)

V

S

= ±15V

T

A

= 25°C

G = 1

INPUT BIAS CURRENT (pA)

–100

PERCENT OF UNITS (%)

30

40

50

60

1167 G10

20

10

0

–60

–20

20

100

V

S

= ±15V

T

A

= 25°C

270 S8

122 N8

392 TOTAL PARTS

INPUT OFFSET CURRENT (pA)

–100

PERCENT OF UNITS (%)

30

40

50

60

1167 G11

20

10

0

–60

–20

20

100

V

S

= ±15V

T

A

= 25°C

270 S8

122 N8

392 TOTAL PARTS

TEMPERATURE (°C)

–50–75

–500

INPUT BIAS AND OFFSET CURRENT (pA)

–400

–200

–100

0

500

200

0

50

75

1167 G12

–300

300

400

100

–25 25

100

I

OS

125

V

S

= ±15V

V

CM

= 0V

I

B

LT1167

9

1167fc

TYPICAL PERFORMANCE CHARACTERISTICS

Positive Power Supply Rejection

Ratio vs Frequency Gain vs Frequency Supply Current vs Supply Voltage

Voltage Noise Density

vs Frequency

0.1Hz to 10Hz Noise Voltage,

G = 1

0.1Hz to 10Hz Noise Voltage,

Referred to Input, G = 1000

Input Bias Current

vs Common Mode Input Voltage

Common Mode Rejection Ratio

vs Frequency

Negative Power Supply Rejection

Ratio vs Frequency

COMMON MODE INPUT VOLTAGE (V)

–15

INPUT BIAS CURRENT (pA)

100

300

500

9

1167 G13

–100

–300

0

200

400

–200

–400

–500

–9

–3

3

–12 12

–6

0

6

15

–40°C

85°C

0°C

70°C

25°C

FREQUENCY (Hz)

0.1

COMMON MODE REJECTION RATIO (dB)

60

80

100

10k

1167 G14

40

20

0

110 1k

120

140

160

100k

G = 1000

G = 100

G = 10

G = 1

V

S

= ±15V

T

A

= 25°C

1k SOURCE

IMBALANCE

FREQUENCY (Hz)

0.1

NEGATIVE POWER SUPPLY REJECTION RATIO (dB)

60

80

100

10k

1167 G15

40

20

0

110 1k

120

140

160

100k

G = 1000

G = 100

G = 10

G = 1

V

+

= 15V

T

A

= 25°C

FREQUENCY (Hz)

0.1

POSITIVE POWER SUPPLY REJECTION RATIO (dB)

60

80

100

10k

1167 G16

40

20

0

110 1k

120

140

160

100k

G = 1000

G = 10

G = 1

V

–

= –15V

T

A

= 25°C

G = 100

FREQUENCY (kHz)

0

GAIN (dB)

10

30

50

60

0.01 1 10 1000

1167 G17

–10

0.1

100

40

20

–20

G = 1000

G = 100

G = 10

G = 1

V

S

= ±15V

T

A

= 25°C

SUPPLY VOLTAGE (V)

0

SUPPLY CURRENT (mA)

1.00

1.25

85°C

25°C

–40°C

20

1167 G18

0.75

0.50

5

10

15

1.50

FREQUENCY (Hz)

1

0

100

1000

10 100 1k 100k10k

1167 G19

10

VOLTAGE NOISE DENSITY (nV√Hz)

V

S

= ±15V

T

A

= 25°C

1/f

CORNER

= 10Hz

1/f

CORNER

= 9Hz

1/f

CORNER

= 7Hz

GAIN = 1

GAIN = 10

GAIN = 100, 1000

BW LIMIT

GAIN = 1000

TIME (SEC)

0

NOISE VOLTAGE (2μV/DIV)

8

1167 G20

2

4

5

10

6

1

3

9

7

V

S

= ±15V

T

A

= 25°C

TIME (SEC)

0

NOISE VOLTAGE (0.2μV/DIV)

8

1167 G21

2

4

5

10

6

1

3

9

7

V

S

= ±15V

T

A

= 25°C

LT1167CS8#PBF

LT1167CS8#PBF

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