LT1358IS8#TRPBF Datasheet LT1358CS8#TRPBF, LT1358CS8#PBF, LT1358CN8#PBF | P7-P9

7

LT1358/LT1359

135859fb

TEMPERATURE (°C)

25

OUTPUT SHORT-CIRCUIT CURRENT (mA)

30

65

60

55

40

45

35

50

–50 –25 25 100 12550 750

135859 G10

V

S

= ±5V

SOURCE

SINK

SETTLING TIME (ns)

–10

OUTPUT SWING (V)

–6

–4

–8

10

8

6

4

–2

2

0

50 150 250200100

135859 G11

V

S

= ±15V

A

V

= 1

10mV

1mV

SETTLING TIME (ns)

–10

OUTPUT SWING (V)

–6

–4

–8

10

8

6

4

–2

2

0

50 150 250200100

135859 G12

V

S

= ±15V

A

V

= –1

10mV

1mV

FREQUENCY (Hz)

10k

0.01

OUTPUT IMPEDANCE (Ω)

0.1

1k

100k 100M

135859 G13

1M

1

10M

10

100

A

V

= 100

A

V

= 10

A

V

= 1

V

S

= ±15V

T

A

= 25°C

–8

–10

VOLTAGE MAGNITUDE (dB)

–4

–6

135859 G19

4

0

8

–2

6

2

10

FREQUENCY (Hz)

100k

1M 100M10M

V

S

= ±15V

T

A

= 25°C

A

V

= –1

C = 1000pF

C = 500pF

C = 100pF

C = 50pF

C = 0

SUPPLY VOLTAGE (±V)

18

GAIN BANDWIDTH (MHz)

26

22

38

34

30

20

28

24

36

32

30

PHASE MARGIN (DEG)

38

34

50

48

44

40

36

32

46

42

10501520

135859 G15

T

A

= 25°C

PHASE MARGIN

GAIN BANDWIDTH

TEMPERATURE (°C)

18

GAIN BANDWIDTH (MHz)

22

38

34

26

30

20

36

32

24

28

30

PHASE MARGIN (DEG)

32

34

50

48

44

46

38

40

36

42

–50 –25 25 100 12550 750

135859 G16

PHASE MARGIN

V

S

= ± 5V

GAIN BANDWIDTH

V

S

= ± 5V

PHASE MARGIN

V

S

= ±15V

GAIN BANDWIDTH

V

S

= ±15V

FREQUENCY (Hz)

100k

–5

GAIN (dB)

–3

–4

5

1M 100M

135859 G17

1

–1

10M

3

–2

2

0

4

±15V

±2.5V

T

A

= 25°C

A

V

= 1

R

L

= 2k

±5V

FREQUENCY (Hz)

100k

–5

GAIN (dB)

–3

–4

5

1M 100M

135859 G18

1

–1

10M

3

–2

2

0

4

±15V

±2.5V

T

A

= 25°C

A

V

= –1

R

F

= R

G

= 2k

±5V

Gain Bandwidth and Phase

Margin vs Temperature

Output Impedance vs Frequency

Gain Bandwidth and Phase

Margin vs Supply Voltage

Frequency Response vs

Capacitive Load

Frequency Response vs

Supply Voltage (A

V

= 1)

Frequency Response vs

Supply Voltage (A

V

= –1)

Settling Time vs Output Step

(Noninverting)

Output Short-Circuit Current vs

Temperature

Settling Time vs Output Step

(Inverting)

TYPICAL PERFOR A CE CHARACTERISTICS

UW

8

LT1358/LT1359

135859fb

FREQUENCY (Hz)

10k

–10

GAIN (dB)

0

70

100k 100M

135859 G14

1M

30

40

10

20

10M

50

60

PHASE (DEG)

120

40

60

0

20

80

100

V

S

= ±15V

V

S

= ±5V

V

S

= ±5V

GAIN

V

S

= ±15V

PHASE

T

A

= 25°C

A

V

= –1

R

F

= R

G

= 2k

FREQUENCY (Hz)

0

POWER SUPPLY REJECTION RATIO (dB)

40

20

100

80

60

100k 1M1k 10k100 10M 100M

135859 G20

V

S

= ±15V

T

A

= 25°C

+PSRR

–PSRR

FREQUENCY (Hz)

0

COMMON-MODE REJECTION RATIO (dB)

40

20

120

100

80

60

1k 100M10M1M100k10k

135859 G21

V

S

= ±15V

T

A

= 25°C

SUPPLY VOLTAGE (±V)

0

SLEW RATE (V/µs)

200

1000

800

600

400

015105

135859 G22

T

A

= 25°C

A

V

= –1

R

F

= R

G

= 2k

SR =

SR

+

+ SR

–

—————

2

TEMPERATURE (°C)

0

SLEW RATE (V/µs)

100

600

500

200

300

400

–50 –25 25 100 12550 750

135859 G23

V

S

= ± 5V

V

S

= ±15V

SR

+

+ SR

–

SR = —————

2

A

V

= –2

INPUT LEVEL (V

P-P

)

0

SLEW RATE (V/µs)

200

300

100

1000

900

800

700

400

600

500

0 8 16 2012421018146

135859 G24

T

A

= 25°C

V

S

= ±15V

A

V

= –1

R

F

= R

G

= 2k

SR =

SR

+

+ SR

–

—————

2

FREQUENCY (Hz)

10

0.0001

TOTAL HARMONIC DISTORTION (%)

0.01

100 100k

135859 G25

1k

0.001

10k

A

V

= –1

A

V

= 1

T

A

= 25°C

V

O

= 3V

RMS

R

L

= 2k

FREQUENCY (Hz)

100k 1M

0

OUTPUT VOLTAGE (V

P-P

)

30

10M

135859 G26

15

5

10

25

20

A

V

= –1

A

V

= 1

V

S

= ±15V

R

L

= 2k

A

V

= 1, 1% MAX DISTORTION

A

V

= –1, 2% MAX DISTORTION

FREQUENCY (Hz)

100k 1M

0

OUTPUT VOLTAGE (V

P-P

)

10

10M

135859 G27

6

2

4

8

A

V

= –1

A

V

= 1

V

S

= ±5V

R

L

= 2k

2% MAX DISTORTION

Slew Rate vs Input Level

Total Harmonic Distortion

vs Frequency

Undistorted Output Swing vs

Frequency (±15V)

Undistorted Output Swing vs

Frequency (±5V)

Slew Rate vs Supply Voltage Slew Rate vs Temperature

Gain and Phase vs Frequency

Common Mode Rejection Ratio

vs Frequency

Power Supply Rejection Ratio

vs Frequency

TYPICAL PERFOR A CE CHARACTERISTICS

UW

9

LT1358/LT1359

135859fb

FREQUENCY (Hz)

100k 200k 400k

–90

–80

–70

–60

–50

–40

HARMONIC DISTORTION (dB)

–30

10M

135859 G28

1M 2M 4M

V

S

= ±15V

V

O

= 2V

P-P

R

L

= 2k

A

V

= 2

3RD HARMONIC

2ND HARMONIC

135859 G29

FREQUENCY (Hz)

100k

–120

CROSSTALK (dB)

–40

1M 100M10M

–50

–60

–70

–80

–90

–100

–110

T

A

= 25°C

V

IN

= 0dBm

R

L

= 500Ω

A

V

= 1

CAPACITIVE LOAD (F)

10p

0

OVERSHOOT (%)

100

1µ

135859 G30

1000p 0.01µ

50

100p 0.1µ

A

V

= 1

A

V

= –1

T

A

= 25°C

V

S

= ±15V

Small-Signal Transient

(A

V

= 1)

Small-Signal Transient

(A

V

= –1)

Small-Signal Transient

(A

V

= –1, C

L

= 1000pF)

Large-Signal Transient

(A

V

= 1, C

L

= 10,000pF)

Large-Signal Transient

(A

V

= –1)

Large-Signal Transient

(A

V

= 1)

2nd and 3rd Harmonic Distortion

vs Frequency Capacitive Load Handling

Crosstalk vs Frequency

TYPICAL PERFOR A CE CHARACTERISTICS

UW

135859 G31

135859 G32

135859 G36

135859 G35

135859 G33

135859 G34

LT1358IS8#TRPBF

LT1358IS8#TRPBF

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