LT6552IDD#PBF Datasheet LT6552CS8#PBF, LT6552IS8#PBF, LT6552IDD#PBF | P4-P6

LT6552

4

6552f

5V ELECTRICAL CHARACTERISTICS

The ● denotes the specifications which apply over the full operating

temperature range, otherwise specifications are at T

A

= 25°C. V

S

= 5V, 0V; Figure 1 shows the DC test circuit,

V

REF

= V

CM

= 1V, V

DIFF

= 0V, V

SHDN

= V

+

, unless otherwise noted. R

L

= R

F

+ R

G

= 1k. (Note 6)

SYMBOL PARAMETER CONDITIONS MIN TYP MAX UNITS

V

OS

Input Offset Voltage Both Inputs (Note 7) 5 20 mV

● 25 mV

∆V

OS

/∆T Input V

OS

Drift ● 40 µV/°C

I

B

Input Bias Current Any Input ● 20 50 uA

I

OS

Input Offset Current Either Input Pair ● 15 uA

e

n

Input Noise Voltage Density f = 10kHz 55 nV/√Hz

i

n

Input Noise Current Density f = 10kHz 0.7 pA/√Hz

R

IN

Input Resistance Common Mode, V

CM

= 0V to 3V 300 kΩ

CMRR Common Mode Rejection Ratio V

CM

= 0V to 3V ● 58 83 dB

Input Range ● 03V

PSRR Power Supply Rejection V

S

= 3V to 12V ● 48 54 dB

Minimum Supply (Note 8) ● 3V

G

E

Gain Error V

O

= 0.5V to 3.5V, R

L

= 1k ● 13 %

R

L

= 150Ω ● 13 %

V

OH

Swing High (V

DIFF

= 0.6V), V

REF

(Pin 1) = 0V, A

V

= 10

R

L

= 1k ● 4.8 4.875 V

R

L

= 150Ω ● 3.6 4.3 V

R

L

= 75Ω, 0°C ≤ T

A

≤ 70°C (Only) ● 2.75 3.4 V

V

OL

Swing Low (V

DIFF

= –0.1V), V

REF

(Pin 1) = 0V, A

V

= 10

R

L

= 1k ● 850 mV

I

SINK

= 5mA ● 65 120 mV

I

SINK

= 10mA ● 110 200 mV

SR Slew Rate V

OUT

= 0.5V to 3.5V

Measure from 1V to 3V, R

L

= 150Ω, A

V

= 2 450 V/µs

FPBW Full-Power Bandwidth (Note 9) V

O

= 2V

P-P

70 MHz

BW Small-Signal –3dB Bandwidth A

V

= 2, R

L

= 150Ω 70 MHz

t

r

, t

f

Rise Time, Fall Time 5V, 0V; A

V

= 50, V

O

= 0.5V to 3.5V, 125 175 ns

20% to 80%, R

L

= 1k

t

S

Settling Time to 3% A

V

= 2, ∆V

OUT

= 2V, Positive Step 20 ns

Settling Time to 1% R

L

= 150Ω 30 ns

Differential Gain A

V

= 2, R

L

= 150Ω, Output Black Level = 1V 0.25 %

Differential Phase A

V

= 2, R

L

= 150Ω, Output Black Level = 1V 0.04 Deg

I

SC

Short-Circuit Current V

OUT

= 0V, V

DIFF

= 1V 50 70 mA

0°C ≤ T

A

≤ 70°C ● 45 mA

–40°C ≤ T

A

≤ 85°C ● 35 mA

I

S

Supply Current 13.5 14.5 mA

● 16 mA

Supply Current Shutdown V

SHDN

= 0.5V ● 400 900 µA

V

L

Shutdown Pin Input Low Voltage ● 0.5 V

V

H

Shutdown Pin Input High Voltage ● 4.7 V

Shutdown Pin Current V

SHDN

= 0.5V ● 60 200 µA

V

SHDN

= 4.7V ● 410 µA

LT6552

5

6552f

SYMBOL PARAMETER CONDITIONS MIN TYP MAX UNITS

V

OS

Input Offset Voltage Both Inputs (Note 7) 10 25 mV

● 30 mV

∆V

OS

/∆T Input V

OS

Drift ● 50 µV/°C

I

B

Input Bias Current Any Input ● 25 50 µA

I

OS

Input Offset Current Either Input Pair ● 15 µA

e

n

Input Noise Voltage Density f = 10kHz 55 nV/√Hz

i

n

Input Noise Current Density f = 10kHz 0.7 pA/√Hz

R

IN

Input Resistance Common Mode, V

CM

= –5V to 3V 300 kΩ

CMRR Common Mode Rejection Ratio V

CM

= –5V to 3V ● 58 75 dB

Input Range ● –5 3 V

PSRR Power Supply Rejection V

S

= ±2V to ±6V, V

CM

= 0V ● 48 54 dB

G

E

Gain Error V

O

= –3V to 3V, R

L

= 1k ● 13 %

R

L

= 150Ω ● 13 %

Output Voltage Swing (V

DIFF

= ± 0.6V), V

REF

(Pin 1) = 0V, A

V

= 10

R

L

= 1k ● ±4.8 ±4.875 V

R

L

= 150Ω ● ±3.6 ±4.3 V

R

L

= 75Ω, 0°C ≤ T

A

≤ 70°C (Only) ● ±2.75 ±3.4 V

SR Slew Rate V

CM

= 0V, V

DIFF

= –1.5V to +1.5V, 400 600 V/µs

V

O

= –5V to 5V Measure from –2V to 2V, R

L

= 150Ω

FPBW Full-Power Bandwidth V

O

= 6V

P-P

(Note 9) 30 MHz

BW Small-Signal –3dB Bandwidth A

V

= 2, R

L

= 150Ω 75 MHz

t

r

, t

f

Rise Time, Fall Time A

V

= 50, V

O

= –3V to 3V, 20% to 80% 125 175 ns

t

S

Settling Time to 3% A

V

= 2, ∆V

OUT

= 6V, Positive Step 25 ns

Settling Time to 1% R

L

= 150Ω 35 ns

Differential Gain A

V

= 2, R

L

= 150Ω, Output Black Level = 0V 0.2 %

Differential Phase A

V

= 2, R

L

= 150Ω, Output Black Level = 0V 0.15 Deg

I

SC

Short-Circuit Current V

OUT

= 0V, V

DIFF

= ±1V 50 70 mA

0°C ≤ T

A

≤ 70°C ● 45 mA

–40°C ≤ T

A

≤ 85°C ● 35 mA

Supply Current Shutdown V

SHDN

= –4.5V ● 650 1400 µA

I

S

Supply Current 14 16.5 mA

● 18.5 mA

V

L

Shutdown Pin Input Low Voltage ● –4.5 V

V

H

Shutdown Pin Input High Voltage ● 4.7 V

±5V ELECTRICAL CHARACTERISTICS

5V ELECTRICAL CHARACTERISTICS

SYMBOL PARAMETER CONDITIONS MIN TYP MAX UNITS

t

ON

Turn-On Time V

SHDN

from 0.5V to 4.7V 250 ns

t

OFF

Turn-Off Time V

SHDN

from 4.7V to 0.5V 450 ns

Shutdown Output Leakage Current V

SHDN

= 0.5V, 0V ≤ V

OUT

≤ V

+

● 0.25 µA

The ● denotes the specifications which apply over the full operating

temperature range, otherwise specifications are at T

A

= 25°C. V

S

= 5V, 0V. Figure 1 shows the DC test circuit, V

REF

= V

CM

= 1V,

V

DIFF

= 0V, V

SHDN

= V

+

, unless otherwise noted. R

L

= R

F

+ R

G

= 1k. (Note 6)

The ● denotes the specifications which apply over the full operat-

ing temperature range, otherwise specifications are at T

A

= 25°C. V

S

= ±5V. Figure 2 shows the DC test circuit, V

REF

= V

CM

= 0V,

V

DIFF

= 0V, V

SHDN

= V

+

, unless otherwise noted. R

L

= R

F

+ R

G

= 1k. (Note 6)

LT6552

6

6552f

SYMBOL PARAMETER CONDITIONS MIN TYP MAX UNITS

Shutdown Pin Current V

SHDN

= –4.5V ● 85 250 µA

V

SHDN

= 4.7V ● 310 µA

t

ON

Turn-On Time V

SHDN

from –4.5V to 4.7V 200 ns

t

OFF

Turn-Off Time V

SHDN

from 4.7V to –4.5V 400 ns

Shutdown Output Leakage Current V

SHDN

= –4.5V, V

–

≤ V

OUT

≤ V

+

● 0.25 µA

The ● denotes the specifications which apply over the full operating

temperature range, otherwise specifications are at T

A

= 25°C. V

S

= ±5V. Figure 2 shows the DC test circuit, V

REF

= V

CM

= 0V,

V

DIFF

= 0V, V

SHDN

= V

+

, unless otherwise noted. R

L

= R

F

+ R

G

= 1k. (Note 6)

±5V ELECTRICAL CHARACTERISTICS

Note 1: Absolute Maximum Ratings are those values beyond which the life

of a device may be impaired.

Note 2: The inputs are protected from ESD with diodes to the supplies.

Note 3: A heat sink may be required to keep the junction temperature

below absolute maximum.

Note 4: The LT6552C/LT6552I are guaranteed functional over the

temperature range of –40°C to 85°C.

Note 5: The LT6552C is guaranteed to meet specified performance from

0°C to 70°C and is designed, characterized and expected to meet specified

performance from –40°C to 85°C, but is not tested or QA sampled at these

temperatures. The LT6552I is guaranteed to meet specified performance

from – 40°C to 85°C.

Note 6: When R

L

= 1k is specified, the load resistor is R

F

+ R

G

, but when

R

L

= 150Ω or R

L

= 75Ω is specified, then an additional resistor of that

value is added to the output.

Note 7: V

OS

measured at the output (Pin 6) is the contribution from both

input pairs and is input referred.

Note 8: Minimum supply is guaranteed by the PSRR test.

Note 9: Full power bandwidth is calculated from the slew rate.

FPBW = SR/2πVp

Note 10: V

S

= 3.3V, t

r

and t

f

limits are guaranteed by correlation to

V

S

= 5V and ±5V tests.

Figure 1. 3.3V, 5V DC Test Circuit Figure 2. ±5V DC Test Circuit

REF

–IN

+IN

V

–

FB

V

+

OUT

SHDN

+

–

+

–

+

–

+

–

V

DIFF

V

REF

V

CM

V

SHDN

V

+

R

G

100Ω

0.1%

R

F

900Ω

0.1%

R

L

6552 F01

1µF

REF

–IN

+IN

V

–

FB

V

+

OUT

SHDN

+

–

+

–

+

–

+

–

+

–

V

DIFF

V

CM

V

SHDN

V

+

V

–

R

G

100Ω

0.1%

R

F

900Ω

0.1%

R

L

6552 F02

1µF

LT6552IDD#PBF

LT6552IDD#PBF

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