The PE42692DIB-Z is a high-performance SPDT (Single Pole Double Throw) RF switch from Peregrine Semiconductor, leveraging their UltraCMOS® technology. Designed for various wireless applications, it offers low insertion loss, high isolation, and exceptional linearity. This switch is suitable for applications requiring precise RF signal routing and switching.

Applications

• Cellular Infrastructure
• Test and Measurement Equipment
• RF Signal Routing
• Filter Bank Switching
• General Purpose RF Switching

Features

• SPDT Configuration: Provides versatile signal routing with a single input and two selectable outputs.
• UltraCMOS® Technology: Utilizes Peregrine's UltraCMOS® process for superior RF performance and reliability.
• Low Insertion Loss: Minimizes signal attenuation, ensuring maximum signal strength.
• High Isolation: Offers excellent isolation between the input and output ports, reducing signal leakage.
• High Linearity: Delivers exceptional linearity performance, minimizing signal distortion.
• Integrated Driver: Simplifies control interface with integrated driver circuitry.
• Wide Frequency Range: Operates effectively across a wide range of RF frequencies.
• Small Form Factor: Available in a compact package for space-constrained applications.

Benefits

• Improved System Performance: High linearity, low insertion loss, and high isolation contribute to enhanced system performance.
• Simplified Design: Integrated driver simplifies the design process and reduces component count.
• Reduced Board Space: Compact package allows for efficient board layout.
• Enhanced Reliability: UltraCMOS® technology ensures robust and reliable performance.
• Cost-Effective Solution: Provides a high-performance solution at a competitive price point.

Additional Details

The PE42692DIB-Z typically features an insertion loss of approximately 0.45 dB at 1 GHz and isolation of around 32 dB at the same frequency. The integrated driver allows for direct control from standard CMOS logic. It is packaged in a small DFN package. This switch is well-suited for applications where maintaining signal integrity and minimizing signal distortion are critical requirements.