Product Overview

The SSD1306 Series from SHENZHEN LANTU MICRO ELECTRIC TECHNOLOGY CO., LTD. offers high-power, unshielded SMD power inductors designed for surface mounting. These inductors feature high saturation and low DC resistance, making them suitable for a wide range of applications including power supplies for VTRs, LCD televisions, and DC/DC converters. They are available in various package sizes and inductance ranges, and comply with RoHS, Halogen Free, and REACH standards.

Product Attributes

• Brand: LANTU MICRO ELECTRIC TECHNOLOGY CO., LTD.
• Product Series: SSD1306 Series
• Type: Unshielded SMD Power Inductors
• Certifications: RoHS, Halogen Free, REACH Compliance
• Origin: SHENZHEN

Technical Specifications

Operating Temperature: -40 to +125 (Including coils self-temperature rise)

Test Equipment:

• Inductance: HP4284A or HP4285A LCR meter or equivalent
• Saturation & Temperature Rise Current: HP4284+42841A or equivalent
• Self-Resonant Frequency: Agilent E4991A or equivalent
• DC Resistance: Chroma 16502 or equivalent

Definitions:

• Saturation Current: DC current at which inductance drops 10% from its value without current.
• Temperature Rise Current: The actual value of DC current when the temperature rise is T 40 (Ta=25).
• Rated DC Current: The lesser value between Isat and Irms.

Recommended Land Pattern: (Refer to provided diagram)

Packaging:

• Tape and Reel Specifications: (Refer to provided diagrams for dimensions)
• Packing Quantity: (Refer to provided table for Reel, Inside Box, and Outside Carton quantities)

Reliability Testing: (Refer to detailed test items, requirements, and methods provided in the source document)

Recommended Reflow Soldering Curve: (Refer to provided diagram and notes for guidance)

Reminders for Using These Products:

• Storage period is within 12 months under conditions (5~40C, 35-65% RH).
• Avoid use and storage in corrosive gas environments.
• Do not touch terminals directly with bare hands.
• Handle products carefully to prevent damage.
• Do not bend terminals excessively.
• Do not rinse coils; contact manufacturer if cleaning is necessary.
• Keep away from magnets or magnetic fields.
• Preheat components before soldering; ensure temperature difference between solder and chip is within 150C.
• Soldering corrections after mounting should be within specifications to avoid damage.
• Allow for sufficient thermal design margin due to self-heating.
• Carefully lay out non-magnetic shield type coils to avoid malfunction due to magnetic interference.