Caddock Electronics, Inc. Tariff Inquiry

1776-C6815

1776-C6815 Description

The 1776-C6815 from Caddock Electronics Inc. is a high-precision 5-resistor network designed for demanding voltage divider applications. Housed in a 10SIP through-hole package, it features a compact 1.000" x 0.110" (25.40mm x 2.79mm) footprint with a 0.550" (13.97mm) seated height. The network includes resistances of 1kΩ, 9kΩ, 90kΩ, 900kΩ, and 9MΩ with an exceptional ±0.1% tolerance and ±0.05% resistor matching ratio, ensuring unmatched accuracy in signal conditioning and measurement systems. Its ±30ppm/°C temperature coefficient and ±5ppm/°C resistor-ratio drift guarantee stability across varying environmental conditions.

1776-C6815 Features

• Decade Resistor Configuration: Ideal for logarithmic scaling in precision circuits.
• TCR Matched Network: Ensures minimal thermal drift (±5ppm/°C) for critical applications.
• High Power Handling: 62.5mW per element for robust performance.
• RoHS3 & REACH Compliant: Meets stringent environmental standards.
• Non-MSIL Rated: Suitable for environments where moisture sensitivity is not a concern.
• EAR99 & HTSUS Compliant: Simplifies global logistics and compliance.

1776-C6815 Applications

This resistor network excels in:

• Precision Voltage Dividers: Used in instrumentation, DAC/ADC reference circuits, and sensor signal conditioning.
• Calibration Equipment: Ensures accuracy in metrology and test systems.
• Medical Electronics: Reliable performance in diagnostic and monitoring devices.
• Industrial Controls: Stable operation in harsh environments with fluctuating temperatures.

Conclusion of 1776-C6815

The 1776-C6815 stands out for its ultra-low tolerance, matched TCR, and decade resistance values, making it a top choice for precision analog designs. Its through-hole mounting, robust power rating, and compliance with global standards ensure reliability in mission-critical applications. Engineers seeking high-accuracy, thermally stable resistor networks will find this model indispensable for voltage division and signal scaling tasks.