The CU1C181MCDANG is a ceramic resonator manufactured by SANYO Semiconductor (U.S.A) Corporation. This component is designed to provide a stable frequency reference for various electronic circuits, particularly in microcontroller-based applications. Its compact size and cost-effectiveness make it a popular choice for timing control in a wide range of devices.

Applications

• Microcontrollers: Serves as the primary clock source for microcontrollers in embedded systems.
• Remote Controls: Used in remote control devices for televisions, stereos, and other appliances.
• Consumer Electronics: Found in various consumer electronics products, such as toys, games, and small appliances.
• Automotive Electronics: Employed in automotive systems for functions like remote keyless entry and tire pressure monitoring.
• Industrial Control: Used in industrial control systems for timing and synchronization purposes.

Features

• Frequency: Specific frequency rating (consult datasheet for exact value, but often in the MHz range).
• Compact Size: Small physical dimensions for space-constrained applications.
• High Stability: Provides a stable frequency reference over a range of operating conditions.
• Cost-Effective: Offers a low-cost timing solution compared to crystal oscillators.
• Lead-Free: Compliant with RoHS standards, making it environmentally friendly.

Benefits

• Stable Timing: Ensures accurate and reliable timing control for electronic circuits.
• Space Saving: Compact size allows for integration into small devices.
• Cost Reduction: Low cost helps to minimize overall system expenses.
• Easy Implementation: Simple to integrate into circuit designs with minimal external components.
• Environmentally Friendly: Lead-free construction complies with environmental regulations.

Additional Details

The CU1C181MCDANG ceramic resonator is designed to provide a stable and reliable frequency reference in a variety of electronic applications. Its small size and cost-effectiveness make it an attractive alternative to crystal oscillators in many applications where high precision is not critical.

This resonator typically operates by vibrating at a specific resonant frequency when an electrical signal is applied. The frequency is determined by the physical properties of the ceramic material. The component is designed to be robust and reliable, ensuring consistent performance over a long lifespan. It is often used in applications where low power consumption is important, as ceramic resonators typically consume less power than crystal oscillators.