The UPB2193D-B is a silicon monolithic integrated circuit designed by NEC for use in various communication and signal processing applications. It is a key component within receiver and transmitter circuits. The device offers a combination of high performance, low power consumption, and compact size, making it suitable for a wide range of portable and stationary devices.

Applications

• Wireless communication systems
• Cordless phones
• RF front-end circuits
• Signal processing equipment
• Satellite communication systems

Features

• Low noise figure for improved signal reception
• High gain for signal amplification
• Wide operating frequency range
• Low power consumption for extended battery life
• Compact package for space-constrained applications
• Integrated matching circuits for simplified design

Benefits

• Improved signal quality in wireless communication devices
• Extended communication range due to enhanced signal amplification
• Reduced power consumption, leading to longer battery life in portable applications
• Simplified design process, reducing development time and cost
• Smaller form factor, enabling compact device designs
• High reliability for consistent performance in demanding environments

Additional Details

The UPB2193D-B's low noise figure is crucial for ensuring clear and reliable signal reception, especially in environments with weak signals or interference. Its high gain amplifies the received signal, boosting its strength and improving the overall signal-to-noise ratio. The wide operating frequency range allows it to be used in diverse wireless communication standards. The device's low power consumption is a significant advantage for battery-powered devices, maximizing their operational time. The compact package minimizes the space required on the printed circuit board, enabling smaller and more portable designs. Integrated matching circuits further simplify the design process by reducing the need for external components. The UPB2193D-B is manufactured using advanced silicon technology to ensure high reliability and consistent performance.