4560 d DIP-8 dual operational amplifier-SXLS3 New IC NJM4560D

Audio-Grade Workhorse for Instrumentation and Filters

The 4560 d DIP-8 dual operational amplifier–SXLS3 New IC NJM4560D is a high-performance dual Op-Amp. It uses Bipolar Technology. The component comes in the standard 8-pin DIP-8 package. It features two independent, wide-bandwidth amplifiers. Consequently, this IC offers a robust, low-noise platform. It suits diverse applications. These range from professional audio to complex analog instrumentation. The NJM4560D ensures signal integrity and fidelity. It works across a broad operating range.

Superior Dynamic Performance and Load Driving

Engineers select the  for its exceptional signal handling. This performance is vital. It maintains signal quality in cascaded systems.

• Wide Gain Bandwidth Product: The device features a typical 10 MHz Gain Bandwidth Product (GBW). This bandwidth ensures high open-loop gain. It supports precise amplification without degradation.
• High Slew Rate: The Op-Amp is remarkably fast. It offers a typical Slew Rate (SR) of 4 V/µs. This speed is vital for processing high-frequency or rapidly changing signals accurately. It minimizes transient intermodulation distortion (TIM).
• Robust Load Driving: The NJM4560D drives substantial output signals. It delivers up to 20V peak-to-peak into low-impedance $400\Omega$ loads. This powerful stage drives headphones or active filters directly. It avoids extra buffer stages.

Versatile Power Supply and Noise Characteristics

Operational flexibility makes the 4suitable for high-fidelity electronics. It works well in industrial setups too.

• Flexible Operating Voltage: The amplifier operates across a wide dual supply range. This typically spans $\pm 4\text{V}$ to $\pm 18\text{V}$. This extensive range simplifies system integration. It accommodates various power bus standards.
• Excellent Common-Mode Rejection: The device offers a high Common-Mode Rejection Ratio (CMRR). This is typically 90 dB. This high figure means superior immunity to input noise. It is essential for accurate measurement in noisy environments.
• Low Noise Floor: The Op-Amp maintains a low equivalent input noise voltage. This is typically around 1.2 $\mu \text{Vrms}$. This feature is paramount for pre-amplification stages. It preserves the clarity and fidelity of sensitive input signals.

Core Applications in Modern Analog Design

The speed, drive capability, and low noise position this component as a versatile choice. It handles several critical analog functions.

• Active Filtering: Its stable gain makes it ideal for implementing precise high-order active filters. These are used in telecommunications and data processing.
• Audio Amplification: The dual nature is perfect for stereo preamplifiers and headphone drivers. Sound quality and channel separation are paramount here.
• Instrumentation Circuits: The high CMRR and reliable gain properties facilitate its use in sensor signal conditioning. It works in precision data acquisition systems as well.
• General Signal Buffering: It functions excellently as a standard voltage follower or level shifter. It serves as a general gain stage throughout complex signal chains.