Panasonic

EXB-Q16P682J

EXB-Q16P682J Description

The EXB-Q16P682J from Panasonic Electronic Components is a high-performance 15-resistor bussed network designed for precision surface-mount applications. Encased in a compact 1506 convex long-side terminal package (3.80mm x 1.60mm), this array offers a 6.8kΩ resistance per element with a ±5% tolerance and a ±200ppm/°C temperature coefficient, ensuring stable performance across varying environmental conditions. With a 25mW power rating per resistor and RoHS3/REACH compliance, it meets stringent industry standards for reliability and environmental safety.

EXB-Q16P682J Features

• Space-Saving Design: Ultra-low profile (0.55mm height) and 1506 footprint optimize PCB real estate in dense layouts.
• Bussed Circuit Configuration: Simplifies design by connecting all resistors to a common node, reducing component count.
• Robust Performance: Operates reliably in MSL 1 (unlimited) environments, suitable for extended storage or harsh conditions.
• High Power Handling: 25mW per resistor outperforms similar arrays in power dissipation.
• Wide Compatibility: EAR99/ECCN classification ensures unrestricted global sourcing for industrial and consumer applications.

EXB-Q16P682J Applications

Ideal for voltage division, pull-up/pull-down networks, and signal conditioning in:

• Automotive Electronics: ECU modules, sensor interfaces.
• IoT Devices: Space-constrained PCBs requiring stable resistance networks.
• Industrial Controls: PLCs, instrumentation, and power management systems.
• Consumer Electronics: Smartphones, wearables, and displays where miniaturization is critical.

Conclusion of EXB-Q16P682J

The EXB-Q16P682J combines Panasonic’s engineering excellence with a cost-effective, high-density solution for modern electronics. Its bussed architecture, compact form factor, and robust tolerance make it a superior alternative to discrete resistors or less efficient arrays. Whether for automotive, industrial, or consumer applications, this resistor network delivers reliability, space savings, and simplified assembly—key advantages for designers prioritizing performance and scalability.