The Toko America Inc. S636CY-101M=P3 is a molded inductor designed for a variety of applications in power electronics and signal processing. This inductor is characterized by its compact size, high inductance value, and excellent electrical characteristics. Its molded construction provides enhanced durability and shielding, making it suitable for use in noisy environments.

Applications

• DC-DC Converters: Used for energy storage and filtering in DC-DC converters.
• Power Supplies: Employed in power supply circuits for filtering and regulation.
• EMI Filtering: Used as a common mode choke for electromagnetic interference (EMI) suppression.
• RF Circuits: Used in RF applications for impedance matching and signal tuning.
• Consumer Electronics: Found in various consumer electronic devices such as smartphones, tablets, and laptops for power management and signal processing.

Features

• Molded Construction: Provides excellent mechanical strength and environmental protection.
• High Inductance Value: Offers a significant inductance value in a compact size.
• Low DC Resistance: Minimizes power losses and enhances efficiency.
• Shielded Design: Reduces electromagnetic interference (EMI) and provides better signal integrity.
• RoHS Compliant: Meets environmental standards for hazardous substance reduction.

Benefits

• Compact Size: Enables high-density circuit designs and miniaturization of electronic devices.
• High Performance: Provides excellent electrical characteristics for efficient power conversion and signal processing.
• Enhanced Reliability: Molded construction ensures long-term stability and durability in harsh environments.
• EMI Suppression: Reduces electromagnetic interference, improving overall system performance.
• Environmental Compliance: Meets RoHS standards, ensuring environmental responsibility.

Technical Specifications

The S636CY-101M=P3 inductor has an inductance value of 100µH (microhenries) with a specified tolerance, usually ±10% or ±20%. The DC resistance (DCR) is typically low, minimizing power losses. The rated current specifies the maximum current the inductor can handle without significant performance degradation. The operating temperature range is generally between -40°C and +85°C or higher, depending on the specific application requirements. The self-resonant frequency (SRF) is another important parameter, indicating the frequency at which the inductor's performance starts to degrade due to parasitic capacitance.

Materials: Typically constructed with a ferrite core and copper windings, encapsulated in a molded resin material.