The 4816PZ21101 is a resistor network manufactured by Bourns, Inc. It's part of their series of thick film resistor networks designed for various electronic applications. These networks provide multiple resistors in a single package, which can save board space and assembly time.

Applications

• Voltage Dividers: Used to create precise voltage levels in circuits.
• Current Limiting: Employed to limit current flow to protect sensitive components.
• Pull-up/Pull-down Resistors: Used to define the state of digital input/output pins.
• Signal Termination: Applied to reduce signal reflections and improve signal integrity.
• Operational Amplifier Circuits: Used in feedback loops and input biasing.

Features

• Thick Film Technology: Provides stable resistance values and good temperature coefficient.
• Multiple Resistors in One Package: Reduces component count and board space.
• Low Profile: Suitable for use in compact electronic devices.
• RoHS Compliant: Meets environmental regulations for lead-free manufacturing.
• Z-Network Configuration: Specific resistor arrangement for particular applications.

Benefits

• Reduced Board Space: Consolidates multiple resistors into a single component.
• Simplified Assembly: Reduces the number of placements required during manufacturing.
• Improved Reliability: Enhances circuit reliability by reducing the number of solder joints.
• Cost-Effective: Can reduce overall cost by minimizing component count and assembly time.
• Stable Performance: Offers consistent and predictable resistance values over temperature.

Additional Details

The 4816PZ21101 features a 16-pin package with a Z-network configuration. The resistance value is 100Ω. The power rating is typically 0.25W per resistor. The operating temperature range is typically -55°C to +125°C. These resistor networks are widely used in various electronic devices and systems, including consumer electronics, industrial controls, and telecommunications equipment.

These networks are a reliable and efficient solution for precision resistance requirements in diverse circuit designs.