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LMXN0906M4R7BTAS
Power Inductor (SMD), 4.7 µH, Unshielded, 2.6 A, LMXN Series
⚠️ Reference pricing provided. In case of supply shortages, we will connect you with our trusted procurement partners to ensure your project's continuity.
- Manufacturer: KYOCERA AVX
- Product type: SMD Power Inductors
- Inductance:4.7µH; RMS Current (Irms):-; Inductor Construction:Unshielded; Saturation Current (Isat):2.6A; Product Range:LMXN Series; Power Inductor Case:8.89mm x 6.4mm x 5mm; DC Resista
- Inductance: 4.7µH
- Product Range: LMXN Series
- Product Width: 6.4mm
- Product Height: 5mm
- Product Length: 8.89mm
- DC Resistance Max: 0.054ohm
- RMS Current (Irms): -
- Power Inductor Case: 8.89mm x 6.4mm x 5mm
- Inductance Tolerance: ± 20%
- Inductor Construction: Unshielded
- Saturation Current (Isat): 2.6A
| Delivery and price | |
|---|---|
| Units per pack | 1000 |
| Price | 0.69 € |
| Current stock | 10+ |
| Lead time | 30 days |
Datasheet
## LMax SMD Power Inductor ## **LMXN Series – Non-Shielded Style B** ## **FEATURES** - Miniature surface mount design - High power, High saturation inductors - Very low resistance ## **CHARACTERISTICS** - Saturation Rated Current:The current when the inductance becomes 30% lower than its initial value. (Ta=25°C) - Operating temperature range: -40 ~ 85°C - Maximum power density - Ideal inductors for DC–DC converters - Available on tape and reel for auto surface mounting ## **APPLICATIONS** - Notebook Computers - Handheld Communications - LCD Televisions - Power Supply For VTRs ## **INDUCTANCE AND RATED CURRENT RANGES** - 0705 0.47μH ~ 22.0μH 7.7 ~ 0.70A • 0906 0.56μH ~ 100μH 7.7 ~ 0.53A • 1310 0.47μH ~ 100μH 11.4 ~ 0.95A • 1913 0.47μH ~ 100μH 25.1 ~ 1.80A • 2216 0.78μH ~ 470μH 30.0 ~ 0.8A - Electrical specifications at 25°C - DC/DC Converters, etc. ## **DIMENSIONS** **==> picture [327 x 48] intentionally omitted <==** **----- Start of picture text -----**<br> ||||||||| |---|---|---|---|---|---|---|---| |A|I|J|I| |C| |Aan|1004R7|E|B|«i|D|LAYOUT PAD|H| **----- End of picture text -----**<br> **==> picture [516 x 108] intentionally omitted <==** **----- Start of picture text -----**<br> ||||||||||| |---|---|---|---|---|---|---|---|---|---| |mm (inches)| |Type|A max.|B max.|C max.|D|E|H|I|J| |Po|7.50|5.20|3.20|4.60|2.50|4.00|2.00|4.00| |0705| |a|(0.295)|aa|(0.205)|(0.126)|(0.181)|(0.098)|(0.157)|(0.079)|(0.157)| |8.89|6.40|5.00|5.84|2.60|4.06|2.00|5.08| |0906| |a|(0.350)|(0.252)|(0.197)|(0.230)|(0.103)|(0.160)|(0.079)|(0.200)| |13.20|9.90|6.35|9.50|4.50|6.50|2.30|9.00| |1310| |a|(0.560)|a|(0.390)|(0.250)|(0.374)|(0.177)|(0.256)|(0.091)|(0.344)| |19.40|13.30|6.80|12.7|6.60|8.00|3.80|11.7| |1913| |(0.764)|(0.524)|(0.268)|(0.500)|(0.260)|(0.315)|(0.150)|(0.460)| |22.35|16.26|8.00|16.0|8.00|8.64|4.30|14.35| |2216| |a|(0.880)|a|(0.604)|(0.315)|(0.630)|(0.315)|(0.340)|(0.169)|(0.565)| **----- End of picture text -----**<br> ## **HOW TO ORDER** **LM XN 0705 M R04 B T A S Family** qT **Series** i **Size** ~~ee~~ **Tolerance Inductance Style Termination Special Packaging** LM = Power Inductor XN = Non-Shielded 0705 = 7x5xh M = ±20% R04 = 0.039μH T = Sn Plate A = Standard S = 13" Reel (h = see catalog) P = +40% R39 = 0.390μH –20% 3R9 = 3.900μH 390 = 39.00μH 391 = 390.0μH 392 = 3900μH 1 LMax SMD Power Inductor ## **LMXN Series – Non-Shielded Style B** ## **ELECTRICAL CHARACTERISTICS** |**Codes**<br>~~Po~~|**L**<br>**(μH)**<br>~~Pp~~<br>~~_~~<br>~~Po~~|**Tolerance**<br>~~Pp~~<br>~~_|~~<br>~~|~~|**Tolerance**<br>~~Pp~~<br>~~_|~~<br>~~|~~|**Tolerance**<br>~~Pp~~<br>~~_|~~<br>~~|~~|**Test**<br>**Condition**|**DCR(Ω) max.**<br>~~Ce~~<br>~~|~~<br>|<br>~~|~~<br>|<br>~~|~~|**DCR(Ω) max.**<br>~~Ce~~<br>~~|~~<br>|<br>~~|~~<br>|<br>~~|~~|**DCR(Ω) max.**<br>~~Ce~~<br>~~|~~<br>|<br>~~|~~<br>|<br>~~|~~|**DCR(Ω) max.**<br>~~Ce~~<br>~~|~~<br>|<br>~~|~~<br>|<br>~~|~~|**DCR(Ω) max.**<br>~~Ce~~<br>~~|~~<br>|<br>~~|~~<br>|<br>~~|~~|**I sat(A) max***<br>~~Ce~~<br>~~ft~~|**I sat(A) max***<br>~~Ce~~<br>~~ft~~|**I sat(A) max***<br>~~Ce~~<br>~~ft~~|**I sat(A) max***<br>~~Ce~~<br>~~ft~~|**I sat(A) max***<br>~~Ce~~<br>~~ft~~| |---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---| |||**705**<br>~~Pp~~<br>~~_|~~|**0906**<br>**2216**<br>~~|~~|**1310**<br>**1913**||**0705**<br>~~Ce~~<br>~~|~~|**0906**<br>~~Ce~~<br>||**1310**<br>~~Ce~~<br>|<br>~~|~~|**1913**<br>~~Ce~~<br>||**2216**<br>~~Ce~~<br>~~|~~|**0705**<br>~~Ce~~<br>~~ft~~|**0906**<br>~~Ce~~<br>~~ft~~|**1310**<br>~~Ce~~<br>~~ft~~|**1913**<br>~~Ce~~|**2216**<br>~~Ce~~| |R47<br>~~Po~~<br>~~a~~|0.47<br>~~_~~<br>~~Po~~<br>~~ss~~|P<br>~~_ |~~<br>~~ss~~|–<br>~~|~~<br>~~ss~~|P<br>~~QQ~~|100KHz,0.1V<br>~~QQ~~|0.025<br>~~|~~<br>~~QQ~~|–<br>|<br>~~GR~~|0.005<br>|<br>~~|~~<br>~~GR~~|0.003<br>|<br>~~GG~~|–<br>~~| ~~<br>~~GG~~|7.7<br> ~~ft~~<br>~~GG~~|–<br>~~ft~~<br>~~GO~~|11.4<br>~~ft~~<br>~~GO~~|25.1|–| |R56<br>~~Po~~<br>~~a~~<br>~~Po~~|0.56<br>~~Po~~<br>~~ss~~<br>~~Po~~|–<br>~~ss~~|M<br>~~ss~~|–<br>~~QQ~~|100KHz,0.1V<br>~~QQ~~|–<br>~~QQ~~|0.010<br>~~GR~~|–<br>~~GR~~|–<br>~~GG~~|–<br>~~GG~~|–<br>~~GG~~|7.7<br>~~GO~~|–<br>~~GO~~|–|–| |R78<br>~~a~~<br>~~Po~~<br>~~Po~~|0.78<br>~~ss~~<br>~~Po~~|–<br>~~ss~~|M<br>~~ss ~~|–<br> ~~QQ~~|100KHz,0.1V<br>~~QQ~~|–<br>~~QQ~~|–<br>~~GR~~|–<br>~~GR~~|–<br>~~GG~~|0.003<br>~~GG~~|–<br>~~GG~~|–<br>~~GO~~|–<br>~~GO~~|–|30| |1R0<br>~~Po~~<br>~~Po~~<br>~~a~~|1.0<br>~~Po~~|M<br>~~ss~~|–<br>~~ss~~|P<br>~~ss~~|100KHz,0.1V<br>~~GG~~|0.050<br>~~GG~~|–<br>~~GO~~|0.006<br>~~GO~~|0.004|–<br>~~GG~~|2.9<br>~~GG~~|–<br>~~(OG~~|9.9<br>~~(OG~~|15.3<br>~~GO~~|–<br>~~GO~~| |1R5<br>~~Po~~<br>~~a~~<br>~~po~~|1.5<br>~~po~~|M<br>~~ss~~|M<br>~~ss~~|P<br>~~ss~~|100KHz,0.1V<br>~~GG~~|0.050<br>~~GG~~|–<br>~~GO~~|0.008<br>~~GO~~|0.006|0.004<br>~~GG~~|2.6<br>~~GG~~|–<br>~~(OG~~|7.9<br>~~(OG~~|12<br>~~GO~~|25<br>~~GO~~| |2R2<br>~~a~~<br>~~po~~<br>~~Po~~|2.2<br>~~po~~<br>~~Po~~|M<br>~~ss~~|M<br>~~ss~~|M<br>~~ss~~|100KHz,0.1V<br>~~GG~~|0.070<br>~~GG~~|0.035<br>~~GO~~|0.011<br>~~GO~~|0.008|0.006<br>~~GG~~|2.3<br>~~GG ~~|3.5<br> ~~(OG~~|6.1<br>~~(OG~~|10.2<br>~~GO~~|20<br>~~GO~~| |3R3<br>~~po~~<br>~~Po~~<br>~~PoE~~|3.3<br>~~po~~<br>~~Po~~<br>~~PoE~~|M|M|M|100KHz,0.1V|0.080|0.040|0.014|0.009|0.009|2|3|5.1|9.3|17| |3R9<br>~~Po~~<br>~~PoE~~<br>~~Po~~|3.9<br>~~Po~~<br>~~PoE~~|–|M|–|100KHz,0.1V|–|–|–|–|0.010|–|–|–|–|15| |4R7<br>~~PoE~~<br>~~Po~~<br>~~pT~~|4.7<br>~~PoE~~<br>~~pT~~|M|M|M|100KHz,0.1V|0.090|0.054|0.018|0.012|0.014|1.5|2.6|4.2|7.7|13| |6R0<br>~~Po~~<br>~~pT~~|6.0<br>~~pT~~|–|M|–|100KHz,0.1V|–|–<br>~~GG~~|–<br>~~GG~~|–<br>~~GG~~|0.017<br>~~GG~~|–<br>~~GD~~|–<br>~~GO~~|–<br>~~OO~~|–|12| |6R8<br>~~pT~~<br>~~a~~|6.8<br>~~pT~~<br>~~eG~~|M<br>~~eG~~|M<br>~~eG~~|M<br>~~eG~~|100KHz,0.1V<br>~~eG~~|0.130<br>~~eG~~|0.08<br>~~eG~~<br>~~GG~~|0.027<br>~~eG~~<br>~~GG~~|0.019<br>~~eG~~<br>~~GG~~|–<br>~~eG~~<br>~~GG~~|1.2<br>~~eG~~<br>~~GD~~|2.2<br>~~eG~~<br>~~GO~~|3.6<br>~~eG~~<br>~~OO~~|6.2<br>~~eG~~|–<br>~~eG~~| |7R8<br>~~PoE~~<br>~~Po~~|7.8<br>~~PoE~~|–<br>~~PoE~~|M<br>~~PoE~~|–<br>~~PoE~~|100KHz,0.1V<br>~~PoE~~|–<br>~~PoE~~|–<br>~~GG~~<br>~~PoE~~|–<br>~~GG~~<br>~~PoE~~|–<br>~~GG~~<br>~~PoE~~|0.018<br>~~GG ~~<br>~~PoE~~|–<br> ~~GD ~~<br>~~PoE~~|–<br> ~~GO~~<br>~~PoE~~|–<br>~~OO~~<br>~~PoE~~|–<br>~~PoE~~|11<br>~~PoE~~| |100<br>~~Po~~<br>~~RR~~|10|M<br>~~eG~~|M<br>~~eG~~|M<br>~~eG~~|100KHz,0.1V<br>~~GG~~|0.160<br>~~GG~~|0.111<br>~~GO~~|0.038<br>~~GO~~|0.027<br>~~GG~~|0.026<br>~~GG~~|1.1<br>~~GG~~|1.9<br>~~GO~~|3.3<br>~~GO~~|5.2|10| |150<br>~~Po~~<br>~~RR~~<br>~~PoE~~|15<br>~~PoE~~|M<br>~~eG~~|M<br>~~eG~~|M<br>~~eG~~|100KHz,0.1V<br>~~GG~~|0.230<br>~~GG~~|0.170<br>~~GO~~<br>~~GG~~|0.045<br>~~GO~~<br>~~GG~~|0.032<br>~~GG~~<br>~~GG~~|0.032<br>~~GG~~<br>~~GG~~|0.9<br>~~GG~~<br>~~GG~~|1.5<br>~~GO~~<br>~~GO~~|2.4<br>~~GO~~<br>~~(OO~~|4.3<br>~~(OO~~|8<br>~~(OO~~| |220<br>~~RR~~<br>~~a~~<br>~~PoE~~|22<br>~~GG~~<br>~~PoE~~|M<br>~~eG~~<br>~~GG~~|M<br>~~eG~~<br>~~GG~~|M<br>~~eG ~~<br>~~GG~~|100KHz,0.1V<br> ~~GG~~<br>~~GG~~|0.370<br>~~GG~~<br>~~GG~~|0.250<br>~~GO~~<br>~~GG~~<br>~~GG~~|0.070<br>~~GO~~<br>~~GG~~<br>~~GG~~|0.050<br>~~GG~~<br>~~GG~~<br>~~GG~~|0.043<br>~~GG~~<br>~~GG~~<br>~~GG~~|0.7<br>~~GG~~<br>~~GG~~<br>~~GG~~|1.2<br>~~GO~~<br>~~GG~~<br>~~GO~~|2<br>~~GO~~<br>~~GG~~<br>~~(OO~~|3.7<br>~~GG~~<br>~~(OO~~|7<br>~~GG~~<br>~~(OO~~| |330<br>~~PoE~~<br>~~**P**o~~|33<br>~~PoE~~<br>~~o~~|–|M|M|100KHz,0.1V|–|0.350<br>~~GG~~|0.100<br>~~GG~~|0.069<br>~~GG~~|0.066<br>~~GG~~|–<br>~~GG~~|0.99<br>~~GO~~|1.7<br>~~(OO~~|3<br>~~(OO~~|6<br>~~(OO~~| |470<br>~~PoE~~<br>~~**P**o~~|47<br>~~PoE~~<br>~~o~~|–|M|M|100KHz,0.1V|–|0.470<br>~~GG~~|0.150<br>~~GG~~|0.109<br>~~GG~~|0.096<br>~~GG~~|–<br>~~GG ~~|0.87<br> ~~GO ~~|1.4<br> ~~(OO~~|2.4<br>~~(OO~~|5<br>~~(OO~~| |680<br>~~**P**o~~|68<br>~~o~~|–|M|M|100KHz,0.1V|–|0.730<br>~~o~~|0.220<br>~~o~~|0.156<br>~~o~~|0.115<br>~~o~~|–<br>~~o~~|0.68<br>~~o~~|1.2<br>~~o~~|2<br>~~o~~|4<br>~~o~~| |101<br>~~a~~<br>~~po~~|100<br>~~a~~<br>|–<br>~~a~~<br>|M|M<br>~~GG~~|100KHz,0.1V<br>~~GG~~|–<br>~~GG~~|1.110<br>~~o~~<br>~~GR~~|0.280<br>~~o~~<br>~~GR~~|0.206<br>~~o~~|0.165<br>~~o~~<br>~~GS~~|–<br>~~o~~<br>~~GG~~|0.53<br>~~o~~<br>~~GG ~~|0.95<br>~~o~~<br> ~~GO~~|1.8<br>~~o~~<br>~~GO~~|3<br>~~o~~<br>~~GO~~| |221<br>~~poPo~~|220<br>~~Po~~|–<br>~~Po~~|M|–|100KHz,0.1V|–|–|–|–|0.396|–|–|–|–|2.4| |331<br>~~poPo~~<br>~~PoE~~|330<br>~~Po~~<br>~~PoE~~|–<br>~~Po~~|M|–|100KHz,0.1V|–|–|–|–|0.588|–|–|–|–|1| |471<br>~~Po~~<br>~~PoE~~|470<br>~~Po~~<br>~~PoE~~|–<br>~~Po~~|M|–|100KHz,0.1V|–|–|–|–|0.950|–|–|–|–|0.8| *Saturation Current:The current when the inductance becomes 30% lower than its initial value. (Ta=25°C) 2
Updated at April 28, 2026
KYOCERA AVX is a globally recognized leader in the design, development, and manufacturing of advanced electronic components. For over 50 years, the company has provided innovative solutions across the automotive, industrial, medical, military, consumer electronics, and communications markets. Supported by an extensive international network of research and production facilities, KYOCERA AVX is renowned for delivering highly reliable components that meet the stringent demands of modern engineering. The manufacturer's extensive portfolio is strongly anchored in high-performance passive components, with a particular emphasis on advanced capacitive solutions. Their offering features a comprehensive selection of polymer capacitors, RF capacitors, and supercapacitors engineered for demanding power and high-frequency requirements. This core lineup is further supported by a variety of film and aluminium electrolytic capacitors, alongside precision power inductors. Beyond passive components, KYOCERA AVX excels in robust circuit protection and discrete semiconductors. Their expertise in transient voltage suppression is demonstrated by a wide array of TVS varistors and TVS diodes, complemented by temperature-sensing NTC thermistors and reliable Schottky diodes. The product ecosystem is completed by precision timing devices, including crystals and resonators, as well as specialized RF antennas, providing engineers with a versatile and dependable foundation for next-generation technology.
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