Power Inductors LanTu Micro SSD1306-470MT Unshielded SMD for Operation in High Power Applications
Product Overview
The SHENZHEN LANTU MICRO ELECTRIC TECHNOLOGY CO., LTD. SSD1306 Series Unshielded SMD Power Inductors are designed for high power applications, featuring high saturation and low DC resistance. These unshielded inductors are suitable for surface mounting equipment and are available in various package sizes and inductance ranges. They comply with RoHS, Halogen Free, and REACH standards. Applications include power supplies for VTRs, LCD televisions, and DC/DC converters.
Product Attributes
- Brand: SHENZHEN LANTU MICRO ELECTRIC TECHNOLOGY CO., LTD.
- Product Series: SSD1306
- Type: Unshielded SMD Power Inductors
- Certifications: RoHS, Halogen Free, REACH Compliance
- Packaging Options: Bulk Package (B), Tape & Reel (T)
Technical Specifications
General Specifications:
| Item | Specification | Details |
|---|---|---|
| Operating Temperature | -40 to +125 | (Including coils self-temperature rise) |
| External Dimensions (LWH) | 18.5415.24x7.11 mm | (Model 1306) |
| Inductance Tolerance | J: 5%, K: 10%, L: 15%, M: 20%, P: 25%, N: 30% |
Electrical Characteristics (Electrical specifications at 25):
| Part No | Inductance (H) @ 0A | Tole | Test Freq | SRF (MHz) Typ | DCR () Max | Saturation Current (A) Max | Temperature Rise Current (A) Max |
|---|---|---|---|---|---|---|---|
| SSD1306-1R0M | 1.0 | 20% | 100KHz | 80 | 0.009 | 20.00 | 8.60 |
| SSD1306-2R2M | 2.2 | 20% | 100KHz | 80 | 0.014 | 16.00 | 7.10 |
| SSD1306-3R3M | 3.3 | 20% | 100KHz | 60 | 0.018 | 14.00 | 6.20 |
| SSD1306-5R6M | 5.6 | 20% | 100KHz | 40 | 0.020 | 12.00 | 5.30 |
| SSD1306-100M | 10 | 20% | 100KHz | 30 | 0.031 | 10.00 | 4.30 |
| SSD1306-150M | 15 | 20% | 100KHz | 22 | 0.036 | 8.00 | 4.00 |
| SSD1306-220M | 22 | 20% | 100KHz | 20 | 0.047 | 7.00 | 3.50 |
| SSD1306-330M | 33 | 20% | 100KHz | 15 | 0.066 | 5.50 | 3.00 |
| SSD1306-470M | 47 | 20% | 100KHz | 9 | 0.086 | 4.50 | 2.60 |
| SSD1306-680M | 68 | 20% | 100KHz | 8 | 0.130 | 4.00 | 2.30 |
| SSD1306-101M | 100 | 20% | 100KHz | 7 | 0.190 | 3.00 | 1.80 |
| SSD1306-151M | 150 | 20% | 100KHz | 6 | 0.250 | 2.60 | 1.50 |
| SSD1306-221M | 220 | 20% | 100KHz | 5 | 0.380 | 2.40 | 1.20 |
| SSD1306-331M | 330 | 20% | 100KHz | 4 | 0.560 | 1.90 | 1.00 |
| SSD1306-471M | 470 | 20% | 100KHz | 3 | 0.850 | 1.40 | 0.82 |
| SSD1306-681M | 680 | 20% | 100KHz | 2.5 | 1.100 | 1.20 | 0.72 |
| SSD1306-102M | 1000 | 20% | 100KHz | 2 | 1.800 | 1.00 | 0.56 |
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 of Isat or Irms.
Packaging Quantity:
| Part No. | Tape Dimension W (mm) | P (mm) | W1 (mm) | Reel Dimensions A (mm) | B (mm) | C (mm) | D (mm) | REEL (PCS) | Inside Box (PCS) | Outside Carton (PCS) |
|---|---|---|---|---|---|---|---|---|---|---|
| SSD1306 | 32 | 20 | 14.2 | 32.4 | 100 | 13 | 330 | 250 | 500 | 2000 |
Recommended Reflow Soldering Curve:
The recommended reflow conditions are set according to general soldering equipment standards. Users should adjust and confirm according to their specific environment and equipment.
Reminders for Using These Products:
- Storage period is within 12 months. Storage conditions: temperature 5~40C, humidity 35~65% RH or less.
- Do not use or store in environments with gas corrosion (salt, acid, alkali, etc.).
- Avoid direct contact with terminals by bare hands due to oil secretions.
- Handle products carefully to prevent damage from dropping or improper removal.
- Do not bend terminals with excessive stress to prevent wire fracture.
- Do not rinse coils. Contact the manufacturer if cleaning is necessary.
- Do not expose products to magnets or magnetic fields.
- Preheat components before soldering. The temperature difference between solder and chip temperature should not exceed 150C.
- Soldering corrections after mounting should be within specified conditions. Overheating may cause short circuits, performance degradation, or reduced lifespan.
- Allow for sufficient thermal design as self-heating occurs when power is ON.
- For non-magnetic shield types, carefully consider coil layout in PCB design to prevent malfunctions due to magnetic interference.
Get in Touch
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