The TK71230MTL is a power inductor manufactured by Toko America Inc. It is designed for use in a variety of power supply applications, offering high inductance and current handling capabilities in a compact form factor. These inductors are suitable for DC-DC converters, voltage regulators, and other power management circuits.

Applications:

• DC-DC Converters
• Voltage Regulators
• Power Amplifiers
• Point-of-Load (POL) Converters
• Filtering Circuits

Features:

• High current handling capability
• Low DC resistance
• Compact size
• Shielded construction for low EMI
• High inductance value
• Surface mount design

Benefits:

• Efficient power conversion due to low DC resistance
• Reduced EMI emissions due to shielded construction
• Space-saving design for compact devices
• Stable performance over a wide temperature range
• Reliable operation in demanding applications

Technical Specifications:

The TK71230MTL typically features an inductance value in the range of microhenries (µH), with specific values depending on the exact configuration. It is designed to handle currents of several amperes (A) and has a low DC resistance (DCR) to minimize power losses. The inductor's shielded construction helps to reduce electromagnetic interference (EMI), making it suitable for use in sensitive electronic devices. The surface mount design allows for easy integration into automated assembly processes. The TK71230MTL is commonly used in applications where high efficiency, low noise, and small size are critical requirements.

The inductor is designed to operate over a wide temperature range, ensuring stable performance in various environmental conditions. Its robust construction and reliable performance make it a suitable choice for demanding power supply applications. Additional specifications include the saturation current, which indicates the current level at which the inductance starts to drop significantly, and the self-resonant frequency (SRF), which indicates the frequency at which the inductor's behavior starts to deviate from ideal behavior.