The UPG2413T6Z-E2 is a GaAs MMIC SPDT (Single Pole Double Throw) switch from Renesas Electronics America. It is designed for various wireless communication systems and applications where high isolation and low insertion loss are critical. This switch operates in the frequency range of 0.1 to 6.0 GHz, making it suitable for diverse applications such as WLAN, Bluetooth, and other wireless communication devices.

Applications:

• WLAN (Wireless Local Area Network)
• Bluetooth devices
• Wireless communication systems
• Antenna diversity switching
• RF front-end modules

Features:

• Low insertion loss: Minimizes signal attenuation and improves system performance.
• High isolation: Reduces unwanted signal leakage between ports.
• Wide frequency range (0.1 to 6.0 GHz): Supports various wireless communication standards.
• Small package size: Enables compact and lightweight designs.
• Low control voltage: Simplifies the control circuitry.

Benefits:

• Improved signal quality: Low insertion loss and high isolation enhance signal integrity.
• Reduced power consumption: Low insertion loss minimizes power dissipation.
• Compact system design: Small package size allows for denser circuit layouts.
• Simplified control: Low control voltage simplifies the drive circuitry.
• Versatile application: Wide frequency range supports diverse wireless standards.

Additional Details:

The UPG2413T6Z-E2 has a typical insertion loss of 0.45 dB at 2.5 GHz and a typical isolation of 25 dB at 2.5 GHz. It operates with a control voltage of 0V to 3V. The supply voltage range is 2.3V to 5.5V. It is available in a 6-pin TSON package. The switch is designed for use in applications requiring high performance and small form factor. It is suitable for antenna switching, band switching, and other RF signal routing applications.

The device's GaAs construction gives it enhanced switching speeds compared to silicon alternatives. The wide frequency range makes it a versatile option for multi-band wireless devices. The Renesas SPDT switch enables fast, low-loss routing of RF signals.