LTC6241HVHS8#PBF
| Parameters | |
|---|---|
| Lifecycle Status | PRODUCTION (Last Updated: 1 week ago) |
| Package / Case | SOIC |
| Number of Pins | 8 |
| Max Operating Temperature | 125°C |
| Min Operating Temperature | -40°C |
| Number of Elements | 2 |
| Number of Channels | 2 |
| Number of Circuits | 2 |
| Max Supply Voltage | 12V |
| Min Supply Voltage | 2.8V |
| Operating Supply Current | 2.5mA |
| Slew Rate | 10 V/μs |
| Common Mode Rejection Ratio | 78 dB |
| Current - Input Bias | 500 fA |
| Output Current per Channel | 35mA |
| Input Offset Voltage (Vos) | 40μV |
| Gain Bandwidth Product | 12MHz |
| Voltage Gain | 124.08dB |
| Power Supply Rejection Ratio (PSRR) | 78dB |
| Max Dual Supply Voltage | 5.5V |
| Min Dual Supply Voltage | 1.4V |
| Nominal Gain Bandwidth Product | 18MHz |
| RoHS Status | RoHS Compliant |
| Lead Free | Lead Free |
LTC6241HVHS8#PBF Overview
In the package, you will find a SOIC-case to contain the op amp ic. It has 8 pins that make up the linear amplifier. The input offset voltage is 40μV. Using a supply current of 2.5mA , this buffer op amp will be able to operate. 124.08dB should be the voltage gain. On this buffer amplifier, there are 2 circuits. The op amp ic has 2 channels on it. For this linear amplifier to work, the temperature should not be below -40°C. Use op amp only at temperatures no higher than 125°C. The linear amplifier consists of 2 different elements in total. The electrical part is capable of being powered by a voltage of under 12V, which means that it can be used with any voltage supply. Keeping the linear amplifier's supply voltage above 2.8V is recommended. As a general rule, you should conduct this electronic component under dual supply voltages of 5.5V volts.
LTC6241HVHS8#PBF Features
124.08dB voltage gain
LTC6241HVHS8#PBF Applications
There are a lot of Analog Devices, Inc. LTC6241HVHS8#PBF Instrumentational OP Amps applications.
- Signal amplification
- High-frequency data acquisition systems
- Proportional operation circuits
- Television
- Hand-held batteries
- Power transmission
- Fast A/D and D/A converters
- Communication
- Radiation thermometry transducers
- Addition operation circuits