The RR1632P-4992-B is a precision thin film chip resistor manufactured by Susumu. It's engineered for applications demanding high accuracy, stability, and dependability within a compact design. This resistor employs a thin metal film resistive element deposited on a premium ceramic substrate, ensuring an exceptional temperature coefficient of resistance (TCR) and sustained long-term stability.

Applications:

• Precision analog circuits
• Medical equipment
• Measuring instruments
• Automotive electronics
• Industrial control systems

Features:

• High precision: Offers a narrow tolerance, ensuring precise resistance values.
• Excellent TCR: Exhibits minimal resistance variation across a broad temperature spectrum.
• Superior long-term stability: Maintains consistent resistance over extended periods and under diverse environmental conditions.
• Small size: Utilizes a compact 1206 package suitable for space-constrained applications.
• Thin film technology: Employs uniform film thickness to enhance performance.
• RoHS compliant: Constructed using environmentally friendly, lead-free materials.

Benefits:

• Improved circuit performance: High precision and stability contribute to more accurate and dependable circuit operations.
• Reduced component count: Stability minimizes the necessity for additional compensation circuits.
• Increased reliability: Robust design ensures long-term performance and reduces the likelihood of failure.
• Miniaturization: Compact dimensions enable denser circuit layouts.
• Wide operating temperature range: Suitable for deployment in various environments.

Additional Details:

The RR1632P-4992-B has a resistance value of 49.9 kΩ. It comes in a 1206 chip size. It provides a good power rating for its size. The thin film build allows for close tolerances and low temperature coefficients, making it fitting for high-precision applications where stable resistance values are crucial. Susumu is recognized for its superior thin film resistors, and the RR1632P-4992-B is a prime example, delivering reliable and consistent performance in demanding environments.