OPA2251PA
Manufacturer: Texas Instruments
Brand: Texas Instruments
Model: OPA2251PA
Product Parameters:
Number of Channels: 1
Input Offset Voltage: 750 µV (Maximum)
Input Bias Current: 1 nA (Typical)
Gain Bandwidth Product: 45 MHz (Typical)
Slew Rate: 12 V/µs (Typical)
Supply Voltage Range: ±2.25V to ±18V
Operating Temperature Range: -40°C to +85°C
Package / Case: PDIP-8
Features: Low Offset Voltage, Low Input Bias Current, High Gain Bandwidth Product
Product Description:
The OPA2251PA is a single-channel operational amplifier (op-amp) from Texas Instruments known for its low offset voltage, low input bias current, and high gain bandwidth product.
With a maximum input offset voltage of 750 µV and a typical input bias current of 1 nA, this op-amp is suitable for applications that require precision amplification of low-level signals.
The high gain bandwidth product of 45 MHz (typical) makes the OPA2251PA well-suited for applications requiring accurate signal amplification at higher frequencies.
The op-amp offers a slew rate of 12 V/µs (typical), allowing it to handle fast input signal changes and transitions.
The supply voltage range of ±2.25V to ±18V provides flexibility for various voltage requirements in different applications.
The OPA2251PA is designed to operate over a temperature range of -40°C to +85°C, making it suitable for a wide range of operating environments.
The package type is PDIP-8, a through-hole package that offers ease of soldering and is suitable for prototyping and hobbyist projects.
Applications:
The OPA2251PA op-amp can be used in a variety of applications, including:
Precision Signal Conditioning: Amplification and filtering of low-level sensor signals in precision measurement systems.
Active Filters: Implementation of active filters for signal processing in audio, communications, and control systems.
Instrumentation Amplifiers: Used as a building block in instrumentation amplifier circuits for accurate signal amplification.
Voltage Followers and Buffers: Providing isolation and signal buffering between different stages of a circuit.
Stock:8381
Minimum Order:1
Brand: Texas Instruments
Model: OPA2251PA
Product Parameters:
Number of Channels: 1
Input Offset Voltage: 750 µV (Maximum)
Input Bias Current: 1 nA (Typical)
Gain Bandwidth Product: 45 MHz (Typical)
Slew Rate: 12 V/µs (Typical)
Supply Voltage Range: ±2.25V to ±18V
Operating Temperature Range: -40°C to +85°C
Package / Case: PDIP-8
Features: Low Offset Voltage, Low Input Bias Current, High Gain Bandwidth Product
Product Description:
The OPA2251PA is a single-channel operational amplifier (op-amp) from Texas Instruments known for its low offset voltage, low input bias current, and high gain bandwidth product.
With a maximum input offset voltage of 750 µV and a typical input bias current of 1 nA, this op-amp is suitable for applications that require precision amplification of low-level signals.
The high gain bandwidth product of 45 MHz (typical) makes the OPA2251PA well-suited for applications requiring accurate signal amplification at higher frequencies.
The op-amp offers a slew rate of 12 V/µs (typical), allowing it to handle fast input signal changes and transitions.
The supply voltage range of ±2.25V to ±18V provides flexibility for various voltage requirements in different applications.
The OPA2251PA is designed to operate over a temperature range of -40°C to +85°C, making it suitable for a wide range of operating environments.
The package type is PDIP-8, a through-hole package that offers ease of soldering and is suitable for prototyping and hobbyist projects.
Applications:
The OPA2251PA op-amp can be used in a variety of applications, including:
Precision Signal Conditioning: Amplification and filtering of low-level sensor signals in precision measurement systems.
Active Filters: Implementation of active filters for signal processing in audio, communications, and control systems.
Instrumentation Amplifiers: Used as a building block in instrumentation amplifier circuits for accurate signal amplification.
Voltage Followers and Buffers: Providing isolation and signal buffering between different stages of a circuit.
