LT1493CS#PBF Datasheet LT1492CS8#TRPBF, LT1492CS8#PBF, LT1493CS#PBF | P7-P9

7

LT1492/LT1493

TYPICAL PERFORMANCE CHARACTERISTICS

UW

INPUT OFFSET VOLTAGE (µV)

–200

PERCENT OF UNITS (%)

20

30

200

1492/93 G01

10

0

–100

0

100

–150

–50

50

150

40

15

25

5

35

V

S

= 5V, 0V

LT1492 N8, S8 PACKAGES

LT1493 S16 PACKAGE

INPUT OFFSET VOLTAGE (µV)

–400

PERCENT OF UNITS (%)

20

30

400

1492/93 G03

10

0

–200

0

200

–300

–100

100

300

40

15

25

5

35

V

S

= ±15V

LT1492 N8,

S8 PACKAGES

LT1493 

S16 PACKAGE

OFFSET VOLTAGE DRIFT WITH TEMPERATURE (µV/°C)

–2.5

PERCENT OF UNITS (%)

30

40

50

1.5

1492/93 G02

20

10

0

–1.5

–0.5

0.5

–2 2

–1

0

1

2.5

V

S

= 5V, 0V

LT1492 N8, S8 PACKAGES

LT1493 S16 PACKAGE

Distribution of Offset Voltage Drift

with TemperatureDistribution of Input Offset Voltage Distribution of Input Offset Voltage

Voltage Gain, Phase vs Frequency Slew Rate vs Temperature

FREQUENCY (Hz)

1k

20

VOLTAGE GAIN (dB)

PHASE SHIFT (DEG)

30

40

50

60

10k 100k 1M 10M

1492/93 G04

10

–400

–10

–20

70

80

0

20

40

60

80

–20

–60

–80

100

120

PHASE

GAIN

V

S

= 5V

V

S

= ±2.5V

V

S

= ±15V

V

S

= ±15V

TEMPERATURE (°C)

–50

SLEW RATE (V/µs)

3

4

25 75

1492/93 G06

2

–25 0

50 100 125

1

A

V

= –2

R

L

= 10k

V

S

= ±15V

V

S

= 5V

TOTAL SUPPLY VOLTAGE (V)

1

20

PHASE MARGIN (DEG)

GAIN-BANDWIDTH

PRODUCT (MHz)

40

60

3.5

4.5

105403020

1492/93 G05

5.5

30

50

70

4.0

5.0

T

A

= –55°C

T

A

= 25°C

T

A

= 125°C

T

A

= 125°C

T

A

= 25°C



T

A

= –55°C

Gain-Bandwidth Product,

Phase Margin vs Supply Voltage

Slew Rate vs Supply Voltage

TOTAL SUPPLY VOLTAGE (V)

0

1

SLEW RATE (V/µs)

3

8

16

20 36

1492/93 G07

2

412

24

28

32

4

A

V

= –2

R

L

= 10k

T

A

= 125°C

T

A

= –55°C

T

A

= 25°C

Capacitive Load Handling

CAPACITIVE LOAD (pF)

10

40

OVERSHOOT (%)

60

80

100 1000 10000

1492/93 G08

20

30

50

70

10

0

V

S

= ±2.5V

A

V

= 1 A

V

= 5

A

V

= 10

Undistorted Output Swing

vs Frequency, V

S

= ±2.5V

FREQUENCY (Hz)

1k

2

OUTPUT SWING (V

P-P

)

3

4

10k 100k 1M

1492/93 G09

1

0

5

V

S

= ±2.5V

R

L

= 100k

DISTORTION ≤ 1%

A

V

= –1

A

V

= 1

8

LT1492/LT1493

Undistorted Output Swing

vs Frequency, V

S

= ±15V

Open-Loop Voltage Gain

vs Supply Voltage

TOTAL SUPPLY VOLTAGE (V)

0

OPEN-LOOP VOLTAGE GAIN (V/mV)

3000

4000

5000

32

1492/93 G12

2000

1000

0

8

16

24

436

12

20

28

40

R

L

= 2k

T

A

= 125°C

T

A

= 25°C

T

A

= –55°C

Total Harmonic Distortion

and Noise vs Frequency

FREQUENCY (Hz)

10

0.0001

TOTAL HARMONIC DISTORTION AND NOISE (%)

0.01

1

1k 10k100 100k

1492/93 G11

0.001

0.1

V

S

= 5V, 0V

V

OUT

= 3V

P-P



R

L

= 2k

A

V

= 10

A

V

= 1

TYPICAL PERFORMANCE CHARACTERISTICS

UW

Open-Loop Gain, V

S

= 5V

R

L

= 2k

R

L

= 5k

INPUT, 5µV/DIV

Voltage Gain vs Load Resistance

LOAD RESISTANCE (kΩ)

100

OPEN-LOOP VOLTAGE GAIN (V/mV)

1000

10000

100000

0468

10

2

10

1492/93 G15

T

A

= 25°C

V

S

= ±15V

V

S

= 5V, 0V

Open-Loop Gain, V

S

= ±15V

Channel Separation vs Frequency

R

L

= 5k

R

L

= 2k

FREQUENCY (Hz)

80

CHANNEL SEPARATION (dB)

100

120

130

1k 100k 1M 10M

1492/93 G18

60

10k

110

90

70

V

S

= ±15V

Positive Output Saturation

Voltage vs Load Current

LOAD CURRENT (mA)

–0.001

POSITIVE OUTPUT SATURATION, V

+

– V

OUT

(V)

1.5

2.0

2.5

–10

1492/93 G14

1.0

0.5

0

–0.01

–0.1

–1

–100

V

S

= 5V, 0V

T

A

= –55°C

T

A

= 125°C T

A

= 25°C

Negative Output Saturation

Voltage vs Load Current

0123 45

OUTPUT (V)

1492/93 G13

INPUT, 5µV/DIV

–10

OUTPUT (V)

1492/93 G16

100

LOAD CURRENT (mA)

0.001 0.01

NEGATIVE OUTPUT SATURATION (mV)

10

100

1000

0.1 1 10 100

1492/93 G17

1

V

S

= 5V, 0V

T

A

= 125°C

T

A

= 25°C, –55°C

FREQUENCY (Hz)

1k

0

OUTPUT SWING (V

P-P

)

5

10

15

20

30

10k 100k

1492/93 G10

25

V

S

= ±15V

R

L

= 100k

DISTORTION ≤ 1%

A

V

= –1A

V

= 1

9

LT1492/LT1493

Output Short-Circuit Current

vs Temperature

TYPICAL PERFORMANCE CHARACTERISTICS

UW

TEMPERATURE (°C)

–50

30

OUTPUT SHORT-CIRCUIT CURRENT (mA)

50

80

0

50

75

1492/93 G19

40

70

60

–25

25

100

125

V

S

= ±2.5V

SOURCING

V

S

= ±15V

SOURCING

OR SINKING

V

S

= ±2.5V

SINKING

Output Impedance vs Frequency 5V Small-Signal Response

500ns/DIV

1492/93 G21

20mV/DIV

V

S

= 5V

A

V

= 1

±15V Small-Signal Response

FREQUENCY (Hz)

1

OUTPUT IMPEDANCE (Ω)

10

100

1000

10k 1M 10M

1492/93 G20

0.1

100k

V

S

= ±2.5V

A

V

= 100

A

V

= 10

A

V

= 1

5V Large-Signal Response

2µs/DIV

1492/93 G22

500mV/DIV

V

S

= 5V

A

V

= 1

2µs/DIV

1492/93 G23

500mV/DIV

V

S

= 5V

A

V

= –1

R

F

= R

G

= 2k

5V Large-Signal Response

500ns/DIV

1492/93 G24

20mV/DIV

V

S

= ±15V

A

V

= 1

±15V Large-Signal Response

5µs/DIV

1492/93 G25

5V/DIV

V

S

= ±15V

A

V

= 1

5µs/DIV

1492/93 G26

5V/DIV

V

S

= ±15V

A

V

= –1

R

F

= R

G

= 2k

±15V Large-Signal Response

Settling Time to 1mV

vs Output Step

SETTLING TIME (µs)

0

–10

OUTPUT STEP (V)

–6

–2

2

1

2

34

1492/93 G27

5

6

10

V

S

= ±15V

–8

–4

0

4

8

6

NONINVERTING

INVERTING

LT1493CS#PBF

LT1493CS#PBF

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