OPA4180IPWR
Manufacturer: Texas Instruments
Brand: Texas Instruments
Model: OPA4180IPWR
Product Parameters:
Number of Channels: 1
Input Offset Voltage: ±150 µV (Maximum)
Input Bias Current: ±1 nA (Maximum)
Gain Bandwidth Product: 30 MHz (Typical)
Slew Rate: 15 V/µs (Typical)
Supply Voltage Range: 2.7V to 36V
Operating Temperature Range: -40°C to +125°C
Package / Case: TSSOP-8
Features: Low Offset Voltage, Low Input Bias Current, High Gain Bandwidth Product, High Slew Rate
Product Description:
The OPA4180IPWR is a high-speed, precision operational amplifier (op-amp) from Texas Instruments designed for applications that require accurate signal amplification with minimal offset and bias current. It is a single-channel op-amp known for its low offset voltage and low input bias current.
The op-amp features a maximum input offset voltage of ±150 µV, making it suitable for applications that demand precise amplification of low-level signals.
With a maximum input bias current of ±1 nA, the OPA4180IPWR minimizes the impact of current noise on sensitive circuits, ensuring accurate signal processing.
The gain bandwidth product of 30 MHz (typical) and a slew rate of 15 V/µs (typical) enable high-speed signal amplification and fast response.
The supply voltage range of 2.7V to 36V provides flexibility for various supply voltage configurations, allowing for compatibility with different power supply levels.
The device is designed to operate over a temperature range of -40°C to +125°C, making it suitable for a wide range of industrial and commercial applications.
The package type is TSSOP-8, a surface-mount package that offers compact size and ease of assembly.
Applications:
The OPA4180IPWR op-amp is well-suited for various applications requiring high-speed, precision signal amplification, including:
Signal Conditioning: Accurate amplification of sensor signals in instrumentation and measurement systems.
Active Filters: Design of high-speed active filters for frequency domain signal processing.
Data Acquisition: High-speed analog signal acquisition and processing in data acquisition systems.
Communication Systems: Signal conditioning and amplification in communication equipment and RF applications.
Precision Control Systems: High-speed control loops in motor control, servo systems, and automation.
Stock:8446
Minimum Order:1
Brand: Texas Instruments
Model: OPA4180IPWR
Product Parameters:
Number of Channels: 1
Input Offset Voltage: ±150 µV (Maximum)
Input Bias Current: ±1 nA (Maximum)
Gain Bandwidth Product: 30 MHz (Typical)
Slew Rate: 15 V/µs (Typical)
Supply Voltage Range: 2.7V to 36V
Operating Temperature Range: -40°C to +125°C
Package / Case: TSSOP-8
Features: Low Offset Voltage, Low Input Bias Current, High Gain Bandwidth Product, High Slew Rate
Product Description:
The OPA4180IPWR is a high-speed, precision operational amplifier (op-amp) from Texas Instruments designed for applications that require accurate signal amplification with minimal offset and bias current. It is a single-channel op-amp known for its low offset voltage and low input bias current.
The op-amp features a maximum input offset voltage of ±150 µV, making it suitable for applications that demand precise amplification of low-level signals.
With a maximum input bias current of ±1 nA, the OPA4180IPWR minimizes the impact of current noise on sensitive circuits, ensuring accurate signal processing.
The gain bandwidth product of 30 MHz (typical) and a slew rate of 15 V/µs (typical) enable high-speed signal amplification and fast response.
The supply voltage range of 2.7V to 36V provides flexibility for various supply voltage configurations, allowing for compatibility with different power supply levels.
The device is designed to operate over a temperature range of -40°C to +125°C, making it suitable for a wide range of industrial and commercial applications.
The package type is TSSOP-8, a surface-mount package that offers compact size and ease of assembly.
Applications:
The OPA4180IPWR op-amp is well-suited for various applications requiring high-speed, precision signal amplification, including:
Signal Conditioning: Accurate amplification of sensor signals in instrumentation and measurement systems.
Active Filters: Design of high-speed active filters for frequency domain signal processing.
Data Acquisition: High-speed analog signal acquisition and processing in data acquisition systems.
Communication Systems: Signal conditioning and amplification in communication equipment and RF applications.
Precision Control Systems: High-speed control loops in motor control, servo systems, and automation.
