Welcome to Hotenda.com Online Store!

logo
userjoin
Home

LT6003CDC#PBF

LT6003CDC#PBF

LT6003CDC#PBF

Analog Devices, Inc.

1.4nA 69 dB Instrumentational OP Amps DFN EP

SOT-23

LT6003CDC#PBF Datasheet PDF

non-compliant

Technical Specifications

Parameter NameValue
TypeParameter
Mount Surface Mount
Package / Case DFN EP
Number of Pins 4
Max Operating Temperature70°C
Min Operating Temperature 0°C
Number of Elements 1
Max Supply Voltage16V
Min Supply Voltage1.6V
Slew Rate0.0008 V/μs
Common Mode Rejection Ratio 69 dB
Current - Input Bias 1.4nA
Input Offset Voltage (Vos) 950μV
Gain Bandwidth Product2 kHz
Voltage Gain 113.98dB
Power Supply Rejection Ratio (PSRR) 80dB
Max Dual Supply Voltage8V
Min Dual Supply Voltage 800mV
RoHS StatusRoHS Compliant
In-Stock:2530 items

LT6003CDC#PBF Product Details

LT6003CDC#PBF Overview


A DFN EP case is used to package the op amp. There are 4 pins on this chip. In terms of the input offset voltage, instrumentation amplifier rates at 950μV. There should be no change in the voltage gain. In order for op amp to function properly, the temperature should not be lower than 0°C degrees Celsius. Instrumentation amplifier should only be used at temperatures up to 70°C. There are a total of 1 elements in this linear amplifier. I would like to point out that this electrical component is capable of working from a voltage below 16V as far as the power supply is concerned. As a general rule, it is advisable to keep the op amp's supply voltage above 1.6V at all times. The dual supply voltage of 8V should be used for the conduct of this electronic component.

LT6003CDC#PBF Features


113.98dB voltage gain


LT6003CDC#PBF Applications


There are a lot of Analog Devices, Inc.
LT6003CDC#PBF Instrumentational OP Amps applications.


  • 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
  • Precision measurement

Get Subscriber

Enter Your Email Address, Get the Latest News