The MB87D129PFV-G-BND is a Phase-Locked Loop (PLL) frequency synthesizer designed for a variety of high-performance applications. Manufactured by Fujitsu Electronics America, Inc., this component provides precise and stable frequency generation crucial for modern communication systems.

Applications

• Wireless communication devices (e.g., mobile phones, base stations)
• Satellite communication systems
• Digital broadcasting equipment
• Test and measurement instrumentation
• Clock generation circuits in high-speed digital systems

Features

• Wide frequency range operation to support various standards
• Low phase noise performance, ensuring signal integrity
• Integrated Voltage-Controlled Oscillator (VCO), reducing external component count
• Programmable divider ratios for flexible frequency synthesis
• Serial interface for easy configuration and control
• Compact package suitable for space-constrained designs

Benefits

• Enables high-quality signal transmission with minimal distortion
• Simplifies design and reduces time-to-market with integrated VCO
• Provides flexibility to support multiple frequency bands
• Offers easy integration into existing systems with serial interface
• Reduces board space requirements with small package size
• Enhances system performance through precise frequency control

Additional Details

The MB87D129PFV-G-BND's low phase noise is critical for applications requiring high spectral purity. The integrated VCO significantly reduces the complexity of frequency synthesis circuitry. Its programmable divider ratios allow for precise frequency tuning, which is essential in applications like wireless communication, where adherence to specific frequency channels is paramount. The device typically operates on a low-voltage power supply. Proper layout and decoupling techniques are necessary to achieve optimal performance and minimize unwanted noise. Refer to the product datasheet for detailed electrical characteristics, application notes, and recommended operating conditions.

This PLL integrates sophisticated circuitry to ensure stable and reliable operation across a range of environmental conditions. The serial interface allows for dynamic adjustment of frequency parameters, making it suitable for applications requiring adaptive frequency control. It is commonly employed in designs where precise timing and frequency accuracy are paramount, such as in networking equipment, telecommunications infrastructure, and high-resolution data acquisition systems.