The SETM3480 is a thick film resistor network manufactured by Vishay. Resistor networks are designed to provide multiple resistors in a single package, saving board space and simplifying circuit design. These networks are commonly used in various electronic circuits to provide precise resistance values for voltage division, current limiting, and other functions.

Applications

• Voltage dividers
• Current limiting circuits
• Pull-up/pull-down resistors
• Operational amplifier circuits
• Digital circuits

Features

• Thick film resistor technology
• Multiple resistors in a single package
• Compact size
• High precision
• Stable resistance values
• Available in various resistance values and tolerances

Benefits

• Reduced board space requirements
• Simplified circuit design
• Improved circuit performance
• Increased reliability
• Cost-effective solution

Additional Details

Without access to a specific datasheet for the SETM3480, providing precise specifications is difficult. However, resistor networks from Vishay typically offer a range of resistance values, tolerances, and temperature coefficients. The thick film resistor technology provides good stability and reliability over a wide temperature range. The network likely consists of several individual resistors with a common termination or isolated configurations. The power rating for each resistor and the entire network will be specified in the datasheet.

The SETM3480 would likely be available in a surface-mount package, such as a SOIC (Small Outline Integrated Circuit) or a similar package. The number of pins would correspond to the number of resistors and the configuration (e.g., isolated, bussed). The tolerance of the resistors can range from 0.1% to 5%, depending on the specific part number. Temperature coefficients are typically in the range of ±50 ppm/°C to ±200 ppm/°C. Vishay resistor networks are widely used in industrial, automotive, and consumer electronics applications. It's crucial to consult the specific datasheet for the SETM3480 to determine the exact resistance values, tolerances, power ratings, and other specifications. Proper soldering techniques should be used when mounting the resistor network to ensure reliable connections. The operating temperature range is typically -55°C to +125°C.