Parameters |
Lifecycle Status |
PRODUCTION (Last Updated: 2 weeks ago) |
Package / Case |
SOIC |
Number of Pins |
8 |
Max Operating Temperature |
70°C |
Min Operating Temperature |
0°C |
Number of Elements |
1 |
Number of Channels |
1 |
Number of Circuits |
1 |
Max Supply Voltage |
12.6V |
Min Supply Voltage |
3V |
Operating Supply Current |
4.6mA |
Slew Rate |
800 V/μs |
Common Mode Rejection Ratio |
42 dB |
Current - Input Bias |
10μA |
Output Current per Channel |
80mA |
Input Offset Voltage (Vos) |
10mV |
Bandwidth |
400MHz |
Voltage Gain |
65dB |
Power Supply Rejection Ratio (PSRR) |
56dB |
Max Dual Supply Voltage |
6V |
-3db Bandwidth |
400MHz |
Min Dual Supply Voltage |
2V |
Nominal Gain Bandwidth Product |
400MHz |
Number of Amplifiers |
1 |
REACH SVHC |
No SVHC |
RoHS Status |
RoHS Compliant |
Lead Free |
Lead Free |
LT1395CS8#PBF Overview
In the package, you will find a SOIC-case to contain the op amp ic. A total of 8 pins are present on the instrumentation amplifier. With regard to input offset voltage, instrumentation amplifier is rated at 10mV. As long as the supply current of the chip does not exceed 4.6mA, this op amp ic can operate. The voltage gain should stay at 65dB. There are 1 circuits on this op amp. There are 1 channels on the operational amplifiers. For the buffer op amp to operate properly, it must be above the temperature of 0°C degrees Celsius. You should only use op amp buffer at temperatures that are no higher than 70°C. 1 elements make up the design of this buffer amplifier. In terms of the supply voltage, this electrical part is capable of operating at low voltage levels of under 12.6V. To keep the buffer amps' supply voltage higher than 3V. In order to conduct this part, you will need to provide dual supply voltages of 6V volts. There are 1 amplifiers on the op amp.
LT1395CS8#PBF Features
65dB voltage gain
LT1395CS8#PBF Applications
There are a lot of Analog Devices, Inc. LT1395CS8#PBF Instrumentational OP Amps applications.
- single/dual op amp sum and difference circuits
- Portable docking station
- Vehicle electronics
- Information processing
- Differentiator circuits
- Proportional operation circuits
- Tablets
- Multimedia playback equipment
- Exponential operation circuits
- Polarized electrodes