Manufacturer Part Number
NE5517DR2G
Manufacturer
onsemi
Introduction
The NE5517DR2G is a dual-channel operational amplifier (op-amp) with a wide supply voltage range and high gain-bandwidth product. It is suitable for use in various instrumentation and control applications.
Product Features and Performance
Dual-channel op-amp with high gain-bandwidth product of 2 MHz
Wide supply voltage range from 4 V to 44 V
Low input offset voltage of 400 μV
Low input bias current of 400 nA
High output current of 500 μA per channel
Slew rate of 50 V/μs
Transconductance amplifier type
Product Advantages
Versatile and high-performance op-amp suitable for a wide range of applications
Dual-channel design offers efficient use of board space
Excellent electrical characteristics for precision instrumentation and control circuits
Robust operation over a wide temperature range of 0°C to 70°C
Key Technical Parameters
Supply voltage range: 4 V to 44 V
Gain-bandwidth product: 2 MHz
Input offset voltage: 400 μV
Input bias current: 400 nA
Output current per channel: 500 μA
Slew rate: 50 V/μs
Amplifier type: Transconductance
Quality and Safety Features
RoHS3 compliant
16-SOIC (0.154", 3.90mm Width) package for surface mount assembly
Compatibility
The NE5517DR2G is compatible with a variety of electronic systems and circuits that require high-performance, dual-channel operational amplifiers.
Application Areas
Precision instrumentation and control circuits
Signal conditioning and processing
Analog-to-digital conversion
Filtering and amplification
Product Lifecycle
The NE5517DR2G is an active product from onsemi and is not nearing discontinuation. Replacement or upgrade options may be available from the manufacturer.
Key Reasons to Choose This Product
Versatile and high-performance dual-channel op-amp with wide supply voltage range
Excellent electrical characteristics for precision instrumentation and control applications
Efficient use of board space with dual-channel design
Robust operation over a wide temperature range
RoHS3 compliance for environmental sustainability