LTC1541 Datasheet, PDF(3/12 Page) Linear Technology – Micropower Op Amp, Comparator and Reference

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LTC1541 Datasheet, PDF (3/12 Pages) Linear Technology – Micropower Op Amp, Comparator and Reference

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LTC1541/LTC1542

ELECTRICAL CHARACTERISTICS VCC = 5V, VSS = 0V, TA = 25Â°C, unless otherwise noted.

SYMBOL

IIN

VCM

CMRR

PARAMETER

Input Leakage Current (Note 4)

Input Common Mode Range

Common Mode Rejection Ratio

PSRR

Power Supply Rejection Ratio

tPD

Propagation Delay

VOH

Output High Voltage

VOL

Output Low Voltage

Reference (LTC1541 Only)

VREF

Reference Voltage

CONDITIONS

VCM = VSS to (VCC â 1.3V) (LTC1542)

Commercial Grade

Industrial Grade

VCC = 3V to 12V

Commercial Grade (SO-8)

Industrial Grade (SO-8)

Overdrive = 10mV

Overdrive = 100mV

IOUT = â 2mA

IOUT = 1.8mA

No Load (SO-8)

Commercial Grade (SO-8)

Industrial Grade (SO-8)

No Load (MSOP)

âVREF

Op Amp

VOS

AVOL

GBW

VCM

CMRR

PSRR

VOH

VOL

Load Regulation

Voltage Noise

ISOURCE = 2mA

ISINK = 10ÂµA

0.1Hz to 10Hz

Input Offset Voltage

VCM = 2.5V (SO-8)

Commercial Grade (SO-8)

Industrial Grade (SO-8)

VCM = 2.5V (MSOP)

Input Bias Current

Large-Signal Gain

Gain Bandwidth

Slew Rate

Input Common Mode Range

Common Mode Rejection Ratio

Power Supply Rejection Ratio

Output High Voltage

Output Low Voltage

VCM = 2.5V

AMPOUT = 0.5V to 4.5V, No Load

AMPOUT = 0.5V to 4.5V, RLOAD = 100k

Commercial Grade

Industrial Grade

AV = 1V/V

VCM = VSS to (VCC â 1.3V)

Commercial Grade

Industrial Grade

VCC = 3V to 12V

Commercial Grade

Industrial Grade

RLOAD = 100k to VSS

Commercial Grade

Industrial Grade

RLOAD = 100k to VSS

Commercial Grade

Industrial Grade

MIN TYP MAX UNITS

0.01

VSS

VCC â 1.3V

0.25

0.30

0.35

mV/V

0.25 mV/V

0.30 mV/V

0.35 mV/V

Âµs

q VCC â 0.2V

VSS + 0.3V

1.195 1.200 1.205

q 1.190

1.210

q 1.188

1.212

1.190 1.200 1.210

q 1.185

1.215

0.2 1.5

ÂµVP-P

0.7

1.25

1.65

1.00

1.75

0.01

80 1000

60 500

q 38

q 35

VSS

VCC â 1.3V

0.28

0.33

0.38

0.19

0.21

0.23

VCC â 0.07

q VCC â 0.10

q VCC â 0.12

VSS + 0.05

VSS + 0.10

VSS + 0.12

V/mV

kHz

V/ms

mV/V

▷