Parameters |
Lifecycle Status |
PRODUCTION (Last Updated: 2 weeks ago) |
Package / Case |
SOIC |
Number of Pins |
8 |
Max Operating Temperature |
85°C |
Min Operating Temperature |
-40°C |
Number of Elements |
2 |
Number of Channels |
2 |
Number of Circuits |
2 |
Max Supply Voltage |
36V |
Min Supply Voltage |
5V |
Operating Supply Current |
2mA |
Slew Rate |
600 V/μs |
Common Mode Rejection Ratio |
78 dB |
Current - Input Bias |
120nA |
Output Current per Channel |
30mA |
Input Offset Voltage (Vos) |
200μV |
Gain Bandwidth Product |
22MHz |
Voltage Gain |
93.06dB |
Power Supply Rejection Ratio (PSRR) |
92dB |
Max Dual Supply Voltage |
18V |
Min Dual Supply Voltage |
2.5V |
Nominal Gain Bandwidth Product |
25MHz |
RoHS Status |
RoHS Compliant |
LT1358IS8#TRPBF Overview
Op amp is packaged in SOIC case. 8 pins are located on the operational amplifiers. With regard to input offset voltage, instrumentation amplifier is rated at 200μV. You can run this op amp ic on 2mA . Keeping the voltage gain at 93.06dB is the best course of action. On this instrumentation amplifier, there are 2 circuits that are connected together. There are a total of 2 channels available on the op amps. To operate this buffer amplifier, the temperature must not be lower than -40°C. It is recommended that op amp be used at temperatures below 85°C. 2 elements make up the design of 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 36V. Keeping the linear amplifier's supply voltage above 5V is recommended. Conduct linear amplifier under the dual suuply voltage of 18V.
LT1358IS8#TRPBF Features
93.06dB voltage gain
LT1358IS8#TRPBF Applications
There are a lot of Analog Devices, Inc. LT1358IS8#TRPBF Instrumentational OP Amps applications.
- Hand-held batteries
- Displayers for aircraft and air transportation control systems
- Switching amplifier
- Power control
- Inverse/same-phase proportional circuit
- earphone
- Thermocouples
- Signal amplification
- Radar
- High input resistance broadband