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LT1396CMS8

LT1396CMS8

LT1396CMS8

Analog Devices, Inc.

2 Channels 80mA per Channel 10μA 42 dB Instrumentational OP Amps MSOP

SOT-23

LT1396CMS8 Datasheet PDF

non-compliant

Technical Specifications

Parameter NameValue
TypeParameter
Package / Case MSOP
Number of Pins 8
Max Operating Temperature70°C
Min Operating Temperature 0°C
Number of Elements 2
Number of Channels 2
Number of Circuits 2
Max Supply Voltage12.6V
Min Supply Voltage3V
Operating Supply Current 4.6mA
Slew Rate800 V/μs
Common Mode Rejection Ratio 42 dB
Current - Input Bias 10μA
Output Current per Channel 80mA
Input Offset Voltage (Vos) 10mV
Voltage Gain 65dB
Power Supply Rejection Ratio (PSRR) 56dB
Max Dual Supply Voltage6V
-3db Bandwidth 400MHz
Min Dual Supply Voltage 2V
Nominal Gain Bandwidth Product 400MHz
RoHS StatusNon-RoHS Compliant
Lead Free Contains Lead
In-Stock:4889 items

LT1396CMS8 Product Details

LT1396CMS8 Overview


The linear amplifier is packaged in a MSOP case. The buffer op amp includes 8 pins. Regarding input offset voltage, op amp rates 10mV. This op amp can operate from a supply current at 4.6mA. Voltage gain should remain at 65dB. There are 2 circuits on this op amp. The op amp ic has 2 channels on it. The temperature should not be lower than 0°C for operational amplifier ics to operate. Use op amps only at temperatures no higher than 70°C. This linear amplifier has a total of 2 elements. With regard to the supply voltage, this electrical component is capable of working from under 12.6V. It is advised to keep the op amp's supply voltage higher than 3V. You should conduct this electronic component under the dual supply voltage of 6V.

LT1396CMS8 Features


65dB voltage gain


LT1396CMS8 Applications


There are a lot of Analog Devices, Inc.
LT1396CMS8 Instrumentational OP Amps applications.


  • Inverse/same-phase proportional circuit
  • Addition operation circuits
  • Subtraction operation circuits
  • single/dual op amp sum and difference circuits
  • Integrator circuits
  • Differentiator circuits
  • Logarithmic operation circuits
  • Exponential operation circuits
  • Multiplication circuits
  • Division circuits

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