Details
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| Parameter | Symbol | Conditions | Min | Typ | Max | Unit |
|---|---|---|---|---|---|---|
| Input Offset Voltage | VIO | RT | - | 10 | + | μV |
| Input Bias Current | IB | RT | - | 2 | + | nA |
| Input Voltage Range | VR | VEE to VCC - 1.5V | - | - | - | V |
| Output Voltage Swing | VOS | RL = 2kΩ, VCC = ±15V | -14 | - | +14 | V |
| Supply Current | ICC | RT, VCC = ±15V | - | 3 | + | mA |
| Slew Rate | SR | RT | - | 16 | + | V/μs |
| Bandwidth | BW | G = +1, VCC = ±15V | - | 9 | + | MHz |
| Common Mode Rejection | CMRR | RT, f = 60Hz | - | 120 | + | dB |
| Power Supply Rejection | PSRR | RT, f = 60Hz | - | 120 | + | dB |
Instructions for Using LT1028CN8:
Power Supply: The LT1028CN8 operates on a dual supply voltage typically ranging from ±2.25V to ±18V. Ensure the power supply is stable and within these limits.
Input Signals: Apply input signals within the common mode input voltage range. Avoid exceeding the maximum input voltage range specified in the table.
Output Load: Connect an appropriate load resistor (e.g., 2kΩ) to ensure the output voltage swing meets your application requirements.
Temperature Considerations: The device is rated for operation over the commercial temperature range (-40°C to +85°C). Be mindful of operating conditions that may exceed this range.
Layout Considerations: For optimal performance, use proper PCB layout techniques including short leads and bypass capacitors close to the power pins.
Stability: To maintain stability, consider using feedback networks with compensation if necessary, especially at higher gains or frequencies.
Handling Electrostatic Discharge (ESD): Handle the component carefully as it is sensitive to ESD; follow standard ESD handling procedures.
Testing: Before finalizing the design, thoroughly test the circuit under all expected operating conditions to ensure reliable performance.
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