The PE-1008CM100JTT is a multilayer ceramic chip inductor from Pulse Electronics designed for high-frequency applications requiring a small form factor and reliable performance. It features a robust construction and tight tolerances, making it suitable for a wide range of RF and wireless applications.

Applications

• RF Circuits
• Wireless Communication
• Bluetooth Devices
• Mobile Phones
• GPS Modules
• Matching Networks

Features

• Small 1008 Package Size
• High Self-Resonant Frequency (SRF)
• Excellent Q Factor
• Tight Inductance Tolerance
• Multilayer Construction
• RoHS Compliant

Benefits

• Miniaturization: Its compact size is ideal for space-constrained applications.
• High Performance: Delivers excellent RF performance with high SRF and Q factor.
• Precise Inductance: Ensures consistent performance due to its tight tolerance.
• Reliability: Offers excellent mechanical and electrical stability due to its multilayer construction.
• Low Losses: High Q factor minimizes energy loss in the circuit.

Additional Details

The PE-1008CM100JTT has an inductance value of 10nH. The '1008' refers to the component's physical size: 0.10 inches in length and 0.08 inches in width. Its multilayer construction involves alternating layers of ceramic and conductive material, creating a durable and stable component. This design allows for high SRF values, enabling its use in high-frequency circuits. The high Q factor indicates low energy loss, making it efficient in signal transmission and filtering applications.

The inductor is designed for automated surface mounting, which streamlines the manufacturing process. It's compliant with RoHS environmental standards. The component operates reliably over a wide temperature range. Its specifications make it well-suited for matching networks, filters, and other RF circuit elements in wireless communication devices. The tight inductance tolerance is essential for applications where precise inductance values are required for optimal performance. The inductor's high self-resonant frequency allows it to operate effectively at the desired frequency without significant degradation, ensuring the integrity and reliability of the overall circuit.