AD9910BSVZ

The AD9910BSVZ is a high-performance direct digital synthesizer (DDS) from Analog Devices. It is designed for generating precise and stable frequency outputs in a wide range of applications. Here is a detailed description of its key features:

Key Features

• Type: Direct Digital Synthesizer (DDS)
• Frequency Range: Capable of generating frequencies up to 400 MHz with high resolution and accuracy
• Resolution: 32-bit frequency tuning word for precise frequency setting
• Output: Provides a sinewave output with adjustable phase and amplitude
• Package Type: Available in a 48-pin LFCSP (Lead Frame Chip Scale Package), allowing for compact integration into various designs

Performance

• High Speed: Operates at a maximum frequency of 400 MHz, suitable for high-speed signal generation applications
• Precision: Offers high-frequency resolution and accuracy, enabling precise signal generation and control
• Low Spurious Content: Designed to minimize spurious signals and harmonics, ensuring clean and stable output

Features and Benefits

• Frequency Synthesis: Provides a versatile and flexible solution for frequency synthesis, suitable for a variety of RF and communication applications
• Phase and Amplitude Control: Allows fine-tuning of output phase and amplitude, enhancing signal quality and control
• Compact Package: The LFCSP package enables space-saving designs and efficient use of PCB space

Applications

• Communications: Used in RF and microwave communication systems for generating and modulating frequencies
• Test Equipment: Applies to signal generators and test equipment requiring precise frequency outputs
• Radar Systems: Suitable for radar and electronic warfare systems where high-frequency signal generation is critical
• Instrumentation: Utilized in scientific and industrial instrumentation for accurate and stable signal generation

The AD9910BSVZ is designed to deliver high-speed and high-precision frequency synthesis, making it an ideal choice for applications requiring stable and accurate signal generation across various fields.