The NE5517DR2 from ON Semiconductor is a high-performance dual operational transconductance amplifier (OTA) integrated circuit designed for a wide range of applications, including audio processing, signal conditioning, and active filtering. This versatile component is known for its excellent linearity and low noise characteristics, making it an ideal choice for precision analog signal manipulation.

Key Features:

• Wide Dynamic Range: The NE5517DR2 operates with a wide dynamic range, ensuring that signals are processed with high fidelity and minimal distortion.
• Linearizing Diodes: Integrated linearizing diodes provide improved THD performance, which is critical for audio applications and other signal processing tasks that require high linearity.
• High Output Impedance: The high output impedance of the NE5517DR2 makes it suitable for use in voltage-controlled amplifiers and filters.
• Flexible Power Supply: This device can be powered by a wide range of supply voltages, from ±4V to ±18V, allowing for flexibility in various system designs.
• Buffered Outputs: Buffered outputs ensure that the device can drive capacitive loads without stability issues.

Applications:

The NE5517DR2 is designed for use in a variety of applications where precise electronic control of gain and signal modulation is required. Some of its common applications include:

• Audio processors and synthesizers
• Voltage-controlled filters (VCFs)
• Voltage-controlled oscillators (VCOs)
• Voltage-controlled amplifiers (VCAs)
• Analog computing
• Function generators

Package and Quality:

ON Semiconductor's NE5517DR2 is offered in a SOIC-16 package, which is compact and suitable for space-constrained applications. The device is manufactured under strict quality control standards, ensuring reliable performance and consistency across batches.

With its exceptional performance and versatility, the NE5517DR2 from ON Semiconductor is an excellent choice for designers looking to build or improve analog systems that require precise electronic control over signal parameters.