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MNR35J5RJ431

MNR35J5RJ431 Description

The MNR35J5RJ431 from ROHM Semiconductor is an 8-resistor bussed network array designed for high-density surface-mount applications. Housed in a compact 2512 (6432 Metric) convex package with long-side terminals, it offers a 430Ω resistance per element with a ±5% tolerance and a ±200ppm/°C temperature coefficient. The device operates at 62.5mW power per resistor, ensuring reliable performance in low-power circuits. With dimensions of 6.40mm x 3.10mm (0.252" x 0.122") and a low-profile height of 0.65mm (0.026"), it is optimized for space-constrained PCB designs. Compliant with ROHS3 and REACH standards, it is suitable for environmentally conscious applications.

MNR35J5RJ431 Features

• 8-resistor bussed network simplifies circuit design by reducing component count.
• 2512 convex package with long-side terminals enhances mechanical stability and solderability.
• Low-profile (0.65mm) ideal for slim or densely packed assemblies.
• ±200ppm/°C TCR ensures stable performance across temperature variations.
• 62.5mW power rating per resistor balances efficiency and thermal management.
• Moisture Sensitivity Level (MSL) 1 allows unlimited floor life, reducing handling constraints.
• Tape & Reel (TR) packaging enables automated pick-and-place assembly.

MNR35J5RJ431 Applications

This resistor array excels in:

• Voltage division and pull-up/down networks in digital circuits.
• Signal conditioning for sensors and analog front-ends.
• Consumer electronics, such as smartphones and wearables, where space efficiency is critical.
• Industrial control systems requiring stable, low-power resistor networks.
• Automotive electronics (non-safety-critical) due to its robust construction and thermal stability.

Conclusion of MNR35J5RJ431

The MNR35J5RJ431 combines compactness, reliability, and ease of integration, making it a superior choice for modern PCB designs. Its bussed configuration, low thermal drift, and RoHS3 compliance position it as a versatile solution for both consumer and industrial applications. Engineers benefit from reduced BOM complexity and improved assembly efficiency, particularly in high-volume production environments.