The CE0732R14DCBTA1 is a ceramic resonator manufactured by Murata Electronics North America. Ceramic resonators are passive components used for frequency control in electronic circuits. They offer a cost-effective and compact alternative to quartz crystals in many applications.

Applications

• Microcontrollers: Used as the clock source for microcontrollers in embedded systems.
• Remote Controls: Provides the timing signal for remote control transmitters and receivers.
• Wireless Communication: Integrated into wireless modules and devices for frequency stabilization.
• Consumer Electronics: Employed in various consumer electronic products, such as toys, appliances, and audio equipment.
• Automotive Electronics: Utilized in automotive control systems and electronic modules.

Features

• Compact Size: Small physical dimensions allow for high-density board layouts.
• Stable Frequency: Provides a relatively stable oscillation frequency over a wide temperature range.
• Cost-Effective: Offers a lower-cost alternative to quartz crystals.
• Self-Starting Oscillation: Starts oscillating quickly and reliably when power is applied.
• RoHS Compliant: Complies with the Restriction of Hazardous Substances (RoHS) directive, making it environmentally friendly.

Benefits

• Simplified Circuit Design: Requires fewer external components compared to quartz crystals, simplifying circuit design and reducing board space.
• Reduced Cost: Lower cost compared to quartz crystals helps to reduce the overall system cost.
• Improved Reliability: Offers good frequency stability and reliability in various operating conditions.
• Compact Integration: Small size allows for easy integration into compact electronic devices.
• Environmental Compliance: RoHS compliance ensures that the product meets environmental regulations.

Additional Details

The CE0732R14DCBTA1 typically operates at a specific frequency (consult the datasheet for the exact frequency value) and is available in a surface-mount package. It requires a minimal external circuit for oscillation, usually consisting of load capacitors. The resonator's frequency stability is influenced by temperature, aging, and load capacitance. Detailed specifications, including frequency tolerance, operating temperature range, and load capacitance requirements, can be found in the manufacturer's datasheet. The device is designed for mass production and is suitable for automated assembly processes.