Panasonic Tariff Inquiry

EXB-F10E684G

EXB-F10E684G Description

The EXB-F10E684G from Panasonic Electronic Components is a high-performance 9-resistor bussed network designed for precision applications in through-hole mounting configurations. With a 680kΩ resistance per element and a tight ±2% tolerance, this array ensures reliable signal conditioning and voltage division in compact circuits. Its ±200ppm/°C temperature coefficient enhances stability across operating conditions, while the 125mW power rating per element balances efficiency with thermal management. Encased in a 10-pin SIP package (25.04mm x 2.54mm), the network features a low-profile 4.95mm height, making it suitable for space-constrained designs.

EXB-F10E684G Features

• Bussed Circuit Topology: Simplifies PCB layout by connecting resistors in a common-node configuration, reducing component count.
• High Resistance Accuracy: ±2% tolerance and 680kΩ values ensure consistent performance in precision analog circuits.
• Robust Construction: Through-hole design with MSL 1 (Unlimited) moisture sensitivity, ideal for industrial environments.
• Wide Temperature Stability: ±200ppm/°C coefficient minimizes resistance drift in fluctuating thermal conditions.
• Compact Footprint: 0.986" x 0.100" dimensions optimize board space without sacrificing power handling (125mW per resistor).

EXB-F10E684G Applications

The EXB-F10E684G excels in:

• Voltage Dividers: Precision attenuation in sensor interfaces or ADC reference circuits.
• Pull-Up/Pull-Down Networks: Simplifies logic level conditioning in microcontroller systems.
• Industrial Control Systems: Durable performance in PLCs, motor drives, and power supplies.
• Legacy Equipment Maintenance: Obsolete status makes it critical for servicing older Panasonic-based designs.

Conclusion of EXB-F10E684G

Panasonic’s EXB-F10E684G resistor network combines high-density integration, tight tolerances, and thermal resilience, making it a pragmatic choice for engineers needing reliable bussed arrays. While obsolete, its through-hole reliability and standardized SIP package ensure longevity in repairs or legacy upgrades. Ideal for applications demanding space efficiency and electrical consistency, this model remains a benchmark in resistor network performance.