The ALH106J161A072 is an aluminum electrolytic capacitor manufactured by Cornell Dubilier Electronics (CDE). These capacitors are commonly used for general-purpose applications requiring a cost-effective solution for filtering, smoothing, and energy storage.

Applications

• Power supplies (filtering and smoothing)
• Audio equipment (coupling and decoupling)
• General-purpose electronic circuits (filtering, bypass, and energy storage)
• Industrial control systems
• Consumer electronics

Features

• Aluminum Electrolytic Construction: Utilizes aluminum electrolytic technology, providing a balance between capacitance, size, and cost.
• High Capacitance Value: The ALH106J161A072 boasts a capacitance of 10uF, suitable for many filtering and energy storage applications.
• Voltage Rating: The capacitor has a voltage rating of 16V, indicating the maximum voltage it can withstand without failure.
• Polarized: Being an electrolytic capacitor, it is polarized and must be connected with the correct polarity to avoid damage.
• Long Life: Designed for a long operational life, ensuring reliability in demanding applications (specific lifespan depends on operating conditions and temperature).

Benefits

• Cost-Effective: Aluminum electrolytic capacitors offer a cost-effective solution for achieving high capacitance values.
• Wide Range of Applications: Suitable for a wide variety of applications due to their versatile characteristics.
• Reliable Performance: Provides reliable performance in general-purpose filtering and energy storage applications.
• Standard Component: Commonly available and easy to integrate into existing designs.

Additional Details

The ALH106J161A072 typically has a radial lead configuration for easy mounting on printed circuit boards (PCBs). The operating temperature range usually spans from -40°C to +85°C, but it's important to consult the manufacturer's datasheet for the exact temperature range and derating information. ESR (Equivalent Series Resistance) and ripple current ratings are also important parameters to consider, especially in power supply applications. Always refer to the datasheet for detailed specifications, including tolerance, leakage current, and impedance characteristics, to ensure proper component selection and optimal performance in the intended application. The physical size and lead spacing are also crucial for PCB layout considerations.