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LTC1053CN

LTC1053CN

LTC1053CN

Analog Devices, Inc.

4 Channels 15pA 106 dB Instrumentational OP Amps DIP

SOT-23

LTC1053CN Datasheet PDF

non-compliant

Technical Specifications

Parameter NameValue
TypeParameter
Package / Case DIP
Number of Pins 14
Max Operating Temperature70°C
Min Operating Temperature 0°C
Number of Elements 4
Number of Channels 4
Number of Circuits 4
Max Supply Voltage16.5V
Min Supply Voltage4.75V
Operating Supply Current 1mA
Slew Rate4 V/μs
Common Mode Rejection Ratio 106 dB
Current - Input Bias 15pA
Input Offset Voltage (Vos) 500nV
Gain Bandwidth Product2.5MHz
Power Supply Rejection Ratio (PSRR) 116dB
Max Dual Supply Voltage8V
Min Dual Supply Voltage 2.375V
Nominal Gain Bandwidth Product 2.5MHz
RoHS StatusRoHS Compliant
Lead Free Contains Lead
In-Stock:4015 items

LTC1053CN Product Details

LTC1053CN Overview


In order to protect the op amps, a DIP case is used. It has 14 pins that make up the linear amplifier. In terms of input offset voltage, operational amplifier rates 500nV. In order for this instrumentation amplifier to operate, the supply current needs to be between 1mA and 10 . In total, there are 4 circuits on this buffer amplifier. Buffer op amp is equipped with 4 channels on the device. It is recommended that the temperature of this op amp ic should not fall below 0°C degrees Fahrenheit at any time. Linear amplifier shouldn't be used above 70°C degrees. As a whole, there are 4 elements that make up this buffer amplifier. When it comes to the voltage from which this electrical part will operate, it can operate at a maximum of less than 16.5V. It is recommended that you keep the instrumentation amplifier's supply voltage higher than 4.75V when using it. It is recommended that you conduct this electronic part using the dual supply voltage of 8V.

LTC1053CN Features




LTC1053CN Applications


There are a lot of Analog Devices, Inc.
LTC1053CN Instrumentational OP Amps applications.


  • Differentiator circuits
  • Logarithmic operation circuits
  • Exponential operation circuits
  • Multiplication circuits
  • Division circuits
  • Precision measurement
  • Power control
  • Information processing
  • Weak signal detection
  • Signal amplification

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