LT1807CS8#PBF Datasheet LT1807IS8#PBF, LT1806CS8#PBF, LT1806CS6#TRMPBF | P13-P15

LT1806/LT1807

13

18067fc

TYPICAL PERFORMANCE CHARACTERISTICS

SHDN PIN VOLTAGE (V)

0

SHDN PIN CURRENT (μA)

–60

–20

20

4

18067 G13

–100

–140

–80

–40

0

–120

–160

–180

1

2

3

5

T

A

= 125°C

T

A

= –55°C

T

A

= 25°C

V

S

= 5V, 0V

OUTPUT VOLTAGE (V)

0

–500

INPUT VOLTAGE (μV)

–300

–100

100

0.5

1.0

1.5 2.0

18067 G14

2.5

300

500

–400

–200

0

200

400

3.0

R

L

= 1k

R

L

= 100Ω

V

S

= 3V, 0V

R

L

TO GND

OUTPUT VOLTAGE (V)

0

–500

INPUT VOLTAGE (μV)

–300

–100

100

0.5

1.0

1.5 2.0

18067 G15

2.5

300

500

–400

–200

0

200

400

3.0 3.5 4.0 4.5 5.0

R

L

= 1k

R

L

= 100Ω

V

S

= 5V, 0V

R

L

TO GND

SHDN Pin Current

vs SHDN Pin Voltage Open-Loop Gain Open-Loop Gain

OUTPUT VOLTAGE (V)

–5

–500

INPUT VOLTAGE (μV)

–300

–100

100

–4

–3

–2 –1

18067 G16

0

300

500

–400

–200

0

200

400

12345

R

L

= 1k

R

L

= 100Ω

V

S

= p5V

OUTPUT CURRENT (mA)

–100

–2.5

OFFSET VOLTAGE (mV)

–1.5

–0.5

0.5

–80

–60

–40 –20

18067 G17

0

1.5

2.5

–2.0

–1.0

0

1.0

2.0

20 40 60 80 100

T

A

= 125°C

T

A

= –55°C

T

A

= 25°C

V

S

= p5V

TIME AFTER POWER-UP (SEC)

0

OFFSET VOLTAGE DRIFT (μV)

25

30

35

16014012010080

18067 G18

20

15

0

20

40

60

10

5

45

40

V

S

= p5V

V

S

= p2.5V

V

S

= p1.5V

Open-Loop Gain Offset Voltage vs Output Current

Warm-Up Drift

vs Time (LT1806S8)

FREQUENCY (kHz)

0.1

0

8

10

12

1 10 100

18067 G19

6

4

2

NOISE VOLTAGE (nV/Hz)

V

S

= 5V, 0V

NPN ACTIVE

V

CM

= 4.5V

PNP ACTIVE

V

CM

= 2.5V

FREQUENCY (kHz)

0.1

0

8

10

12

1 10 100

18067 G19

6

4

2

NOISE CURRENT (pA/Hz)

V

S

= 5V, 0V

NPN ACTIVE

V

CM

= 4.5V

PNP ACTIVE

V

CM

= 2.5V

TIME (SEC)

0

OUTPUT VOLTAGE (nV)

200

600

1000

8

18067 G21

–200

–600

0

400

800

–400

–800

–1000

21

43

67 9

5

10

Input Noise Voltage vs Frequency Input Noise Current vs Frequency

0.1Hz to 10Hz

Output Voltage Noise

LT1806/LT1807

14

18067fc

FREQUENCY (Hz)

100k

0.001

OUTPUT IMPEDANCE (Ω)

0.01

0.1

1

10

100

600

1M 10M 100M 500M

18067 G28

V

S

= 5V, 0V

A

V

= 10

A

V

= 2

A

V

= 1

FREQUENCY (MHz)

0.01

40

COMMON MODE REJECTION RATIO (dB)

50

60

70

80

0.1 1 10 100 500

18067 G29

30

20

10

0

90

100

V

S

= 5V, 0V

FREQUENCY (MHz)

0.001

40

POWER SUPPLY REJECTION RATIO (dB)

50

60

70

80

0.01 0.1 1 10 100

18067 G30

30

20

10

0

90

100

V

S

= 5V, 0V

T

A

= 25°C

NEGATIVE SUPPLY

POSITIVE SUPPLY

Output Impedance vs Frequency

Common Mode Rejection Ratio

vs Frequency

Power Supply Rejection Ratio

vs Frequency

TYPICAL PERFORMANCE CHARACTERISTICS

TOTAL SUPPLY VOLTAGE (V)

0

GAIN BANDWIDTH (MHz)

PHASE MARGIN (DEG)

8

18067 G22

400

300

350

250

200

35

45

55

30

40

50

21

43

67 9

5

10

T

A

= 25°C

PHASE MARGIN

GAIN BANDWIDTH PRODUCT

TEMPERATURE (°C)

–55

GAIN BANDWIDTH (MHz)

PHASE MARGIN (DEG)

105

18067 G23

400

300

350

250

200

35

45

55

30

40

50

–15–35

255

65 85 125

45

PHASE MARGIN

V

S

= p5V

PHASE MARGIN

V

S

= 3V

GBW PRODUCT

V

S

= p5V

GBW PRODUCT

V

S

= 3V

TEMPERATURE (°C)

–55

75

SLEW RATE (μV/μs)

100

125

150

175

–35 –15 5 25

18067 G24

45 65 85 105 125

A

V

= –1

R

F

= R

G

= 1k

R

L

= 1k

V

S

= p5V

V

S

= p2.5V

Gain Bandwidth and Phase Margin

vs Supply Voltage

Gain Bandwidth and Phase Margin

vs Temperature Slew Rate vs Temperature

FREQUENCY (MHz)

20

GAIN (dB)

PHASE (DEG)

40

50

70

0.1 10 100 500

18067 G25

0

1

60

30

10

–10

–20

–30

–45

45

90

180

225

–135

135

0

–90

–180

–225

PHASE

V

S

= p5V

GAIN

V

S

= p5V

GAIN

V

S

= 3V

PHASE

V

S

= 3V

C

L

= 5pF

R

L

= 100Ω

FREQUENCY (MHz)

0

GAIN (dB)

12

18

30

0.1 10 100 500

18067 G26

–12

1

24

6

–6

–18

–24

–36

C

L

= 10pF

R

L

= 100Ω

V

S

= 3V

V

S

= p5V

FREQUENCY (MHz)

6

GAIN (dB)

12

15

21

0.1 10 100 500

18067 G27

0

1

18

9

3

–3

–6

–9

C

L

= 10pF

R

L

= 100Ω

V

S

= p5V

V

S

= 3V

Gain and Phase vs Frequency Gain vs Frequency (A

V

= 1)

Gain vs Frequency (A

V

= 2)

LT1806/LT1807

15

18067fc

TYPICAL PERFORMANCE CHARACTERISTICS

CAPACITIVE LOAD (pF)

10

0

OVERSHOOT (%)

10

20

30

40

100 1000

18067 G31

50

5

15

25

35

45

V

S

= 5V, 0V

A

V

= 1

R

OS

= 10Ω

R

OS

= 20Ω

R

OS

= R

L

= 50Ω

CAPACITIVE LOAD (pF)

10

0

OVERSHOOT (%)

10

20

30

40

100 1000

18067 G32

50

5

15

25

35

45

V

S

= 5V, 0V

A

V

= 2

R

OS

= 10Ω

R

OS

= 20Ω

R

OS

= R

L

= 50Ω

20ns/DIV

OUTPUT

SETTLING

RESOLUTION

(2mV/DIV)

INPUT SIGNAL

GENERATION

(2V/DIV)

18067 G33

V

S

= p5V

V

OUT

= p4V

RL = 500Ω

t

S

= 120ns (SETTLING TIME)

Series Output Resistor

vs Capacitive Load

Series Output Resistor

vs Capacitive Load

0.01% Settling Time

FREQUENCY (MHz)

0.3

–70

DISTORTION (dBc)

–60

–50

–40

11030

18067 G34

–80

–90

–100

–110

A

V

= 1

V

OUT

= 2V

P-P

V

S

= p5V

R

L

= 100Ω, 2ND

R

L

= 100Ω, 3RD

R

L

= 1k, 3RD

R

L

= 1k, 2ND

FREQUENCY (MHz)

0.3

–70

DISTORTION (dBc)

–60

–50

–40

11030

18067 G35

–80

–90

–100

–110

A

V

= 1

V

OUT

= 2V

P-P

V

S

= 5V, 0V

R

L

= 100Ω, 2ND

R

L

= 100Ω, 3RD

R

L

= 1k, 3RD

R

L

= 1k, 2ND

FREQUENCY (MHz)

0.3

–70

DISTORTION (dBc)

–60

–50

–40

11030

18067 G36

–80

–90

–100

–120

–110

A

V

= 2

V

OUT

= 2V

P-P

V

S

= p5V

R

L

= 100Ω, 2ND

R

L

= 100Ω, 3RD

R

L

= 1k, 3RD

R

L

= 1k, 2ND

Distortion vs Frequency Distortion vs Frequency Distortion vs Frequency

FREQUENCY (MHz)

0.3

–70

DISTORTION (dBc)

–60

–50

–40

11030

18067 G37

–80

–90

–100

–120

–110

A

V

= 2

V

OUT

= 2V

P-P

V

S

= 5V, 0V

R

L

= 100Ω, 2ND

R

L

= 100Ω, 3RD

R

L

= 1k, 3RD

R

L

= 1k, 2ND

FREQUENCY (MHz)

0.1

4.3

OUTPUT VOLTAGE SWING (V

P-P

)

4.4

4.5

4.6

1 10 100

18067 G38

4.2

4.1

4.0

3.9

V

S

= 5V, 0V

A

V

= –1

A

V

= 2

Distortion vs Frequency

Maximum Undistorted Output

Signal vs Frequency

LT1807CS8#PBF

LT1807CS8#PBF

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