The TSL1112RA-151K1R1-PF is a wire-wound ceramic chip inductor manufactured by TDK Corporation. This inductor is designed for high-frequency applications and features a high Q-factor, stable inductance, and compact size. It is suitable for use in various RF and wireless communication circuits where precision and reliability are critical.

Applications:

• RF filters in communication devices.
• Impedance matching circuits.
• Wireless LAN (WLAN) modules.
• Bluetooth applications.
• Voltage-controlled oscillators (VCOs).

Features:

• Wire-wound construction on a ceramic core.
• Small 1112 case size.
• High Q-factor for low losses.
• Inductance value of 150 nH.
• High self-resonant frequency (SRF).
• RoHS compliant.

Benefits:

• Improved signal quality due to low insertion loss.
• Stable performance in high-frequency circuits.
• Space-saving design for compact devices.
• Reduced power consumption.
• Reliable operation under various environmental conditions.

Additional Details:

The TSL1112RA-151K1R1-PF inductor has a nominal inductance of 150 nH (nanohenries) with a tolerance of ±10%. The 1112 form factor defines its physical dimensions, making it suitable for dense circuit board layouts. The wire-wound construction on a ceramic core provides high stability and minimizes parasitic effects. The high self-resonant frequency (SRF) ensures that the inductor maintains its performance even at high frequencies. The rated current is around 100mA. The inductor is designed to withstand reflow soldering temperatures, compatible with modern manufacturing processes. Its operating temperature range typically spans from -55°C to +125°C. The TSL1112RA series is known for its high Q-factor, minimizing energy losses in RF applications. The ‘PF’ suffix indicates that the component is lead-free and RoHS compliant, meeting environmental standards. This component ensures efficient and reliable signal transmission and reception in wireless devices. Its stable electrical characteristics ensure consistent circuit performance over a wide range of operating conditions.