Product Overview: 1SV316-TB-E from ON Semiconductor

The 1SV316-TB-E is a high-performance variable capacitance diode, meticulously engineered by ON Semiconductor, a leader in the semiconductor industry. This product is designed primarily for tuning applications across a variety of electronic devices. The 1SV316-TB-E boasts a compact package and is optimized for VCO (Voltage Controlled Oscillator) and VCXO (Voltage Controlled Crystal Oscillator) in mobile communications equipment, where precise and stable tuning is paramount.

Key Features

• High-Quality Capacitance Characteristics: The 1SV316-TB-E features excellent capacitance versus voltage characteristics, ensuring a stable capacitance change with applied voltage, which is critical for frequency tuning applications.
• Low Series Resistance: This diode offers a low series resistance, which contributes to a high Q factor, reducing signal loss and improving overall efficiency.
• Compact Package: Housed in a small UMD2 package, the 1SV316-TB-E is suitable for high-density mounting, making it an ideal choice for compact electronic assemblies.
• High Reliability: ON Semiconductor's commitment to quality ensures that the 1SV316-TB-E is a reliable component for long-term use in critical tuning circuits.

Applications

The 1SV316-TB-E is versatile and can be used in a wide range of tuning applications, including:

• Mobile communication devices
• Wireless LANs
• RFID systems
• Electronic tuning in TV sets, radios, and other consumer electronics

Technical Specifications

Some of the technical specifications of the 1SV316-TB-E include:

• Package: UMD2
• Reverse Voltage: 8 V
• Capacitance: 2.95 pF to 20 pF (at 1 to 4 V)
• Series Resistance: 0.8 Ohms (typical)

ON Semiconductor's 1SV316-TB-E is a testament to the company's dedication to providing components that enhance the performance and reliability of electronic systems. With its superior tuning capabilities and high-quality construction, the 1SV316-TB-E is an excellent choice for designers looking to incorporate precise variable capacitance in their applications.