The ADRF6650ACPZ-RL7 is a high-performance, integrated wideband synthesizer and voltage-controlled oscillator (VCO) designed for demanding RF and microwave applications. This device supports frequency generation from 23.5 MHz to 6.0 GHz, enabling flexible frequency planning across multiple bands. Featuring an integrated loop filter and low phase noise performance, it simplifies system design while ensuring signal integrity. Its low power consumption and compact 32-lead LFCSP package make it ideal for space-constrained industrial environments. Engineers and sourcing specialists will appreciate the device??s precision tuning and robust architecture, delivering reliable frequency synthesis with minimal external components. For detailed product sourcing and information, visit IC Manufacturer.
ADRF6650ACPZ-RL7 Technical Specifications
Parameter
Specification
Frequency Range
23.5 MHz to 6.0 GHz
Phase Noise (1 MHz Offset)
-106 dBc/Hz (typical)
Power Supply Voltage
+3.0 V to +3.6 V
Power Consumption
110 mA (typical)
Phase Detector Frequency
Up to 125 MHz
Package
32-lead LFCSP, 5 mm ?? 5 mm
Output Type
Buffered differential and single-ended outputs
Integrated Loop Filter
On-chip loop filter supports simplified design
Operating Temperature Range
-40??C to +85??C
ADRF6650ACPZ-RL7 Key Features
Wide Frequency Coverage: Supports 23.5 MHz to 6.0 GHz, enabling versatile RF design across multiple wireless standards.
Low Phase Noise Performance: Typical phase noise of -106 dBc/Hz at 1 MHz offset improves signal clarity and reduces system jitter, critical for high fidelity communications.
Integrated Loop Filter: On-chip loop filter simplifies system architecture and reduces PCB footprint, enhancing integration and manufacturing efficiency.
Flexible Output Configurations: Provides buffered differential and single-ended outputs for easy interface with various RF front-end architectures.
High-Speed Phase Detector: Supports phase detector frequencies up to 125 MHz, facilitating fast lock times and agile frequency synthesis.
Compact Package: 32-lead LFCSP minimizes board space, ideal for compact industrial and communication systems.
Robust Operating Range: Supports industrial temperature range (-40??C to +85??C), ensuring reliable operation in harsh environments.
Low Power Consumption: Typical current draw of 110 mA optimizes power efficiency for portable and battery-powered applications.
ADRF6650ACPZ-RL7 Advantages vs Typical Alternatives
This synthesizer offers superior integration with its on-chip loop filter and wide frequency range, reducing external components and board complexity compared to typical discrete solutions. Its low phase noise and high phase detector frequency enhance signal accuracy and lock speed, outperforming many alternatives in sensitivity and stability. The device??s compact LFCSP package and industrial temperature rating contribute to robust reliability in demanding applications, making it a preferred choice for precise, power-efficient RF frequency synthesis.
Wireless Infrastructure: Ideal for base stations and radio transceivers requiring precise, low phase noise frequency generation across multiple bands.
Test and Measurement Equipment: Enables accurate frequency synthesis essential for signal generators and spectrum analyzers.
Satellite Communications: Supports frequency generation in compact, power-sensitive satellite transceivers operating in harsh environments.
Military and Aerospace Systems: Suitable for radar and communication systems demanding robust frequency synthesis with wide operating temperature ranges.
ADRF6650ACPZ-RL7 Brand Info
The ADRF6650ACPZ-RL7 is part of the advanced frequency synthesizer lineup from a leading semiconductor manufacturer known for high-performance RF solutions. This product integrates precision VCO and PLL components, leveraging proven process technology to deliver consistent performance and reliability. Designed for industrial and communication markets, it reflects a commitment to meeting stringent technical requirements with scalable, easy-to-implement frequency synthesis devices.
