PA4341.821NLT

INDUCTOR, SHIELDED, AEC-Q200, 820NH, 13A

⚠️ Reference pricing provided. In case of supply shortages, we will connect you with our trusted procurement partners to ensure your project's continuity.

Manufacturer: PULSE ELECTRONICS
Product type: SMD Power Inductors
Inductance:820nH; RMS Current (Irms):13A; Inductor Construction:Shielded; Saturation Current (Isat):24A; Product Range:PA4341.XXXNLT Series; Inductor Case / P 61AC5947
SVHC: No SVHC (04-Feb-2026)
Inductance: 820nH
Product Range: PIMC
Product Width: 6.9mm
Product Height: 3mm
Product Length: 7.6mm
DC Resistance Max: 8mohm
RMS Current (Irms): 13A
Power Inductor Case: 7.6mm x 6.9mm x 3mm
Inductance Tolerance: ± 20%
Inductor Construction: Shielded
Inductor Case / Package: -
Saturation Current (Isat): 24A

Delivery and price
Units per pack	500
Price	0.502 €
Current stock	500+
Lead time	30 days

Datasheet

## SMT Power Inductor 

_High Current Molded Power Inductor - PA4341.XXXNLT & PM4341.XXXNLT_ 

- _**Height:** 3.0mm Max_ _**Footprint:** 7.6mm x 6.9mm Max_ _**Current Rating:** up to 32.5A_ _**Inductance Range:** 0.1uH to 47.0uH Shielded construction and compact design High current, low DCR, and high efficiency Minimized acoustic noise and minimized leakage flux 200Vdc Isolation between terminal and core_ 

|**_Inductance Range:_**_0.1uH to 47.0uH_<br>_Shielded construction and compact design_<br>_High current, low DCR, and high efficiency_<br>_Minimized acoustic noise and minimized leakage flux_<br>_200Vdc Isolation between terminal and core_<br>©<br>S<br>©<br>©<br>©<br>°|**_Inductance Range:_**_0.1uH to 47.0uH_<br>_Shielded construction and compact design_<br>_High current, low DCR, and high efficiency_<br>_Minimized acoustic noise and minimized leakage flux_<br>_200Vdc Isolation between terminal and core_<br>©<br>S<br>©<br>©<br>©<br>°|**_Inductance Range:_**_0.1uH to 47.0uH_<br>_Shielded construction and compact design_<br>_High current, low DCR, and high efficiency_<br>_Minimized acoustic noise and minimized leakage flux_<br>_200Vdc Isolation between terminal and core_<br>©<br>S<br>©<br>©<br>©<br>°|**_Inductance Range:_**_0.1uH to 47.0uH_<br>_Shielded construction and compact design_<br>_High current, low DCR, and high efficiency_<br>_Minimized acoustic noise and minimized leakage flux_<br>_200Vdc Isolation between terminal and core_<br>©<br>S<br>©<br>©<br>©<br>°|**_Inductance Range:_**_0.1uH to 47.0uH_<br>_Shielded construction and compact design_<br>_High current, low DCR, and high efficiency_<br>_Minimized acoustic noise and minimized leakage flux_<br>_200Vdc Isolation between terminal and core_<br>©<br>S<br>©<br>©<br>©<br>°|**_Inductance Range:_**_0.1uH to 47.0uH_<br>_Shielded construction and compact design_<br>_High current, low DCR, and high efficiency_<br>_Minimized acoustic noise and minimized leakage flux_<br>_200Vdc Isolation between terminal and core_<br>©<br>S<br>©<br>©<br>©<br>°|**_Inductance Range:_**_0.1uH to 47.0uH_<br>_Shielded construction and compact design_<br>_High current, low DCR, and high efficiency_<br>_Minimized acoustic noise and minimized leakage flux_<br>_200Vdc Isolation between terminal and core_<br>©<br>S<br>©<br>©<br>©<br>°|
|---|---|---|---|---|---|---|
|Electrical Specifications @ 25°C - Operating Temperature -55°C to +125°C<br>Commercial6,7<br>Automotive6,7<br>Inductance5<br>100KHz, 1V<br>Rated3<br>Current<br>DC  Resistance<br>Saturation2<br>Current<br>TYP.<br>MAX.<br>(uH ±20%)<br>A<br>mΩ<br>mΩ<br>A<br>~~eee~~<br>~~ee~~<br>~~ee~~<br>~~ee~~<br>~~ee~~|||||||
|||||TYP.<br>~~eee~~<br>~~ee~~<br>~~ee~~|MAX.<br>~~eee~~<br>~~ee~~||
|||(uH ±20%)<br>~~eee~~<br>~~ee~~|A<br>~~eee~~<br>~~ee~~<br>~~ee~~|mΩ<br>~~eee~~<br>~~ee~~<br>~~ee~~<br>~~ee~~|mΩ<br>~~eee~~<br>~~ee~~<br>~~ee~~|A|
|PA4341.101NLT|PM4341.101NLT<br>~~es~~|0.10*<br>~~es~~|32.5<br>~~ee~~<br>~~es~~|1.2<br>~~ee~~<br>~~es~~|1.7<br>~~es~~|60|
|PA4341.131NLT|PM4341.131NLT<br>~~es~~|0.13*<br>~~es~~|27.6<br>~~es~~|1.3<br>~~es~~|1.8<br>~~es~~|50|
|PA4341.151NLT|PM4341.151NLT<br>~~es~~|.15*<br>~~es~~|27<br>~~es~~|1.5<br>~~es~~|1.9<br>~~es~~|45|
|PA4341.161NLT|PM4341.161NLT<br>~~es~~|.16*<br>~~es~~|27<br>~~es~~|1.5<br>~~es~~|1.9<br>~~es~~|45|
|PA4341.181NLT|PM4341.181NLT<br>~~es~~|.18*<br>~~es~~|25<br>~~es~~|1.7<br>~~es~~|2.3<br>~~es~~|43|
|PA4341.191NLT|PM4341.191NLT<br>~~es~~|.19*<br>~~es~~|24<br>~~es~~|1.8<br>~~es~~|2.5<br>~~es~~|41|
|PA4341.201NLT|PM4341.201NLT<br>~~es~~|.20*<br>~~es~~|24<br>~~es~~|1.8<br>~~es~~|2.5<br>~~es~~|41|
|PA4341.221NLT|PM4341.221NLT<br>~~es~~|.22*<br>~~es~~|23<br>~~es~~|2.1<br>~~es~~|2.8<br>~~es~~|40|
|PA4341.241NLT|PM4341.241NLT<br>~~es~~|.24<br>~~es~~|22<br>~~es~~|2.5<br>~~es~~|3.1<br>~~es~~|39|
|PA4341.251NLT|PM4341.251NLT<br>~~es~~|.25<br>~~es~~|21<br>~~es~~|3.3<br>~~es~~|3.5<br>~~es~~|39|
|PA4341.301NLT|PM4341.301NLT<br>~~es~~|0.30<br>~~es~~|21<br>~~es~~|3.2<br>~~es~~|3.8<br>~~es~~|35|
|PA4341.331NLT|PM4341.331NLT<br>~~es~~|0.33<br>~~es~~|20<br>~~es~~|3.5<br>~~es~~|3.9<br>~~es~~|32|
|PA4341.361NLT|PM4341.361NLT<br>~~es~~|0.36<br>~~es~~|19<br>~~es~~|3.6<br>~~es~~|4.2<br>~~es~~|32|
|PA4341.471NLT|PM4341.471NLT<br>~~es~~|0.47<br>~~es~~|17.5<br>~~es~~|4.0<br>~~es~~|4.2<br>~~es~~|26|
|PA4341.561NLT|PM4341.561NLT<br>~~es~~|0.56<br>~~es~~|16.5<br>~~es~~|4.7<br>~~es~~|5.0<br>~~es~~|25.5|
|PA4341.601NLT|PM4341.601NLT<br>~~es~~|0.60<br>~~es~~|16<br>~~es~~|4.7<br>~~es~~|5.2<br>~~es~~|25.5|
|PA4341.681NLT|PM4341.681NLT<br>~~es~~|0.68<br>~~es~~|15.5<br>~~es~~|4.8<br>~~es~~|5.5<br>~~es~~|25|
|PA4341.751NLT|PM4341.751NLT<br>~~es~~|0.75<br>~~es~~|14.5<br>~~es~~|5.5<br>~~es~~|6.6<br>~~es~~|24.5|
|PA4341.821NLT|PM4341.821NLT<br>~~es~~|0.82<br>~~es~~|13<br>~~es~~|6.7<br>~~es~~|8.0<br>~~es~~|24|
|PA4341.901NLT|PM4341.901NLT<br>~~es~~|.90<br>~~es~~|11<br>~~es~~|8.3<br>~~es~~|10<br>~~es~~|22|
|PA4341.102NLT|PM4341.102NLT<br>~~es~~|1.0<br>~~es~~|11<br>~~es~~|8.3<br>~~es~~|10<br>~~es~~|22|
|PA4341.122NLT|PM4341.122NLT<br>~~es~~|1.2<br>~~es~~|10<br>~~es~~|10<br>~~es~~|12<br>~~es~~|20|
|PA4341.152NLT|PM4341.152NLT<br>~~es~~|1.5<br>~~es~~|9.0<br>~~es~~|13<br>~~es~~|15<br>~~es~~|18|



P768.O (08/20) 

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## SMT Power Inductor 

_High Current Molded Power Inductor - PA4341.XXXNLT & PM4341.XXXNLT_ 

|SMT Power Inductor<br>_High Current Molded Power Inductor - PA4341.XXXNLT & PM4341.XXXNLT_<br>@Pulse|SMT Power Inductor<br>_High Current Molded Power Inductor - PA4341.XXXNLT & PM4341.XXXNLT_<br>@Pulse|SMT Power Inductor<br>_High Current Molded Power Inductor - PA4341.XXXNLT & PM4341.XXXNLT_<br>@Pulse|SMT Power Inductor<br>_High Current Molded Power Inductor - PA4341.XXXNLT & PM4341.XXXNLT_<br>@Pulse|SMT Power Inductor<br>_High Current Molded Power Inductor - PA4341.XXXNLT & PM4341.XXXNLT_<br>@Pulse|SMT Power Inductor<br>_High Current Molded Power Inductor - PA4341.XXXNLT & PM4341.XXXNLT_<br>@Pulse|SMT Power Inductor<br>_High Current Molded Power Inductor - PA4341.XXXNLT & PM4341.XXXNLT_<br>@Pulse|
|---|---|---|---|---|---|---|
|Electrical Specifications @ 25°C - Operating Temperature -55°C to +125°C<br>Commercial6,7<br>Automotive6,7<br>Inductance5<br>100KHz, 1V<br>Rated3<br>Current<br>DC Resistance<br>Saturation2<br>Current<br>TYP.<br>MAX.<br>(uH ±20%)<br>A<br>mΩ<br>mΩ<br>A<br>Ww)<br>~~es~~<br>~~SC~~|||||||
|||||TYP.<br>~~es~~|MAX.<br>~~es~~||
|||(uH ±20%)<br>~~SC~~|A<br>~~SC~~|mΩ<br>~~SC~~|mΩ<br>~~SC~~|A|
|PA4341.182NLT|PM4341.182NLT<br>~~oo~~|1.8<br>~~oo~~|8.5<br>~~oo~~|14<br>~~oe~~|17<br>~~oe~~|16|
|PA4341.202NLT|PM4341.202NLT<br>~~oo~~<br>~~oo~~|2.0<br>~~oo~~<br>~~oo~~|8.2<br>~~oo~~<br>~~oo~~|16<br>~~oe~~<br>~~oe~~|19<br>~~oe~~<br>~~oe~~|15|
|PA4341.222NLT|PM4341.222NLT<br>~~oo~~<br>~~oo~~|2.2<br>~~oo~~<br>~~oo~~|8.0<br>~~oo~~<br>~~oo~~|18<br>~~oe~~<br>~~oe~~|20<br>~~oe~~<br>~~oe~~|14|
|PA4341.252NLT|PM4341.252NLT<br>~~oo~~<br>~~oo~~|2.5<br>~~oo~~<br>~~oo~~|7.0<br>~~oo~~<br>~~oo~~|20<br>~~oe~~<br>~~oe~~|22<br>~~oe~~<br>~~oe~~|13|
|PA4341.272NLT|PM4341.272NLT<br>~~oo~~<br>~~oo~~|2.7<br>~~oo~~<br>~~oo~~|7.0<br>~~oo~~<br>~~oo~~|24<br>~~oe~~<br>~~oe~~|27<br>~~oe~~<br>~~oe~~|13|
|PA4341.332NLT|PM4341.332NLT<br>~~oo~~<br>~~oo~~|3.3<br>~~oo~~<br>~~oo~~|6.0<br>~~oo~~<br>~~oo~~|28<br>~~oe~~<br>~~oe~~|30<br>~~oe~~<br>~~oe~~|13.5|
|PA4341.472NLT|PM4341.472NLT<br>~~oo~~<br>~~oo~~|4.7<br>~~oo~~<br>~~oo~~|5.5<br>~~oo~~<br>~~oo~~|37<br>~~oe~~<br>~~oe~~|40<br>~~oe~~<br>~~oe~~|10|
|PA4341.562NLT|PM4341.562NLT<br>~~oo~~<br>~~oo~~|5.6<br>~~oo~~<br>~~oo~~|5.0<br>~~oo~~<br>~~oo~~|43<br>~~oe~~<br>~~oe~~|48<br>~~oe~~<br>~~oe~~|9.0|
|PA4341.682NLT|PM4341.682NLT<br>~~oo~~<br>~~oo~~|6.8<br>~~oo~~<br>~~oo~~|4.5<br>~~oo~~<br>~~oo~~|54<br>~~oe~~<br>~~oe~~|60<br>~~oe~~<br>~~oe~~|8.0|
|PA4341.822NLT|PM4341.822NLT<br>~~oo~~<br>~~oo~~|8.2<br>~~oo~~<br>~~oo~~|4.0<br>~~oo~~<br>~~oo~~|64<br>~~oe~~<br>~~oe~~|68<br>~~oe~~<br>~~oe~~|7.5|
|PA4341.103NLT|PM4341.103NLT<br>~~oo~~<br>~~oo~~|10<br>~~oo~~<br>~~oo~~|3.5<br>~~oo~~<br>~~oo~~|75<br>~~oe~~<br>~~oe~~|85<br>~~oe~~<br>~~oe~~|6.0|
|PA4341.123NLT|PM4341.123NLT<br>~~oo~~<br>~~oo~~|12<br>~~oo~~<br>~~oo~~|3.3<br>~~oo~~<br>~~oo~~|81<br>~~oe~~<br>~~oe~~|93<br>~~oe~~<br>~~oe~~|5.5|
|PA4341.153NLT|PM4341.153NLT<br>~~oo~~<br>~~oo~~|15<br>~~oo~~<br>~~oo~~|3.0<br>~~oo~~<br>~~oo~~|107<br>~~oe~~<br>~~oe~~|123<br>~~oe~~<br>~~oe~~|4.0|
|PA4341.223NLT|PM4341.223NLT<br>~~oo~~<br>~~oo~~|22<br>~~oo~~<br>~~oo~~|2.0<br>~~oo~~<br>~~oo~~|165<br>~~oe~~<br>~~oe~~|190<br>~~oe~~<br>~~oe~~|3.5|
|PA4341.333NLT|PM4341.333NLT<br>~~oo~~<br>~~oo~~|33<br>~~oo~~<br>~~oo~~|2.0<br>~~oo~~<br>~~oo~~|200<br>~~oe~~<br>~~oe~~|240<br>~~oe~~<br>~~oe~~|2.5|
|PA4341.403NLT|PM4341.403NLT<br>~~oo~~<br>~~oo~~|40<br>~~oo~~<br>~~oo~~|1.9<br>~~oo~~<br>~~oo~~|283<br>~~oe~~<br>~~oe~~|340<br>~~oe~~<br>~~oe~~|2.3|
|PA4341.473NLT|PM4341.473NLT<br>~~oo~~<br>~~OC~~|47<br>~~oo~~<br>~~OC~~|1.75<br>~~oo~~<br>~~OC~~|302<br>~~oe~~<br>~~OC~~|363<br>~~oe~~<br>~~OC~~|2.0|



## **Notes:** 

1. Actual temperature of the component during system operation (ambient plus temperature rise) must be within the standard operating range. 

2. The saturation current is the current at which the initial inductance drops approximately 30% at the stated ambient temperature. This current is determined by placing the compnent in the specified ambient environment and applying a short duration pulse current (to eliminate self-heating effect) to the component. 

3. The rated current is the DC current required to raise the component temperature by approximately 40 C. Take note that the components’ performanc varies depending on the system condition. It is suggested that the component be tested at the system level, to verify the temperature rise of the component during system operation. 

4. The part temperature (ambient+temp rise) should not exceed 125 C under worst case operating conditions. Circuit design, PCB trace size and thickness, airflow and other cooling provisions all affect the part temperature. Part temperature should be verified in the end application. 

5. Please note that the inductance tolerance of all parts are +/-20% except those indicated with a * which are +/-30%. 

6. Parts shown in bold are standard catalog parts and are available through sample stock and distribution. Parts in lighter font are available but are not necessarily held in sample stock or distribution and lead times may be longer. Please contact Pulse for availablity. 

7. Both the PA and PM part numbers are AEC-Q200 qualified parts. The PM part numbers have full automotive IATF16949 certification. The PM part number dimensions are 100% tested in production but do not necessarily meet a product capability index (Cpk)> 1.33 and therefore may not strictly conform to PPAP. 

8. Special Characteristics 

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## SMT Power Inductor 

_High Current Molded Power Inductor - PA4341.XXXNLT & PM4341.XXXNLT_ 

## **Mechanical** 

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**----- Start of picture text -----**<br>
PA4341.XXXNLT and PM4341.XXXNLT<br>e e<br>XXXNL<br>D/C<br>**----- End of picture text -----**<br>


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**----- Start of picture text -----**<br>
|||||||||||
|---|---|---|---|---|---|---|---|---|---|
|Series|A|B|C|D|E|F|G|H|K|
|PA4341/PM4341|7.6 MAX|6.9 MAX|3.0 MAX|(3.0)|(3.7)|(3.5)|(2.95)|(2.5)|(0~0.22)|
|TAPE & REEL INFO|
|||S$OCOEOSSCH|OO|rv,|
|W|A|
|ti|K 0|ric!)|P|1|—||Jk|G|
|Direction of tape|
|SURFACE MOUNTING TYPE, REEL/TAPE LIST|
|REEL SIZE (mm)|TAPE SIZE (mm)|QTY|
|A|G|P1|W|K0|PCS/REEL|
|PA4341/PM4341|Ø330|16|12|16|3.3|1000|

**----- End of picture text -----**<br>


All Dimensions in mm. 

## **TAPE & REEL INFO** 

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_High Current Molded Power Inductor - PA4341.XXXNLT & PM4341.XXXNLT_ 

## SMT Power Inductor 

## **Typical Performance Curves** 

## **PA4341.XXXNLT and PM4341.XXXNLT** 

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**----- Start of picture text -----**<br>
PA4341.101NLT<br>Wy<br>aa<br>28 2<br>ioctay<br>PA4341.161NLT<br>Zi L|<br> sal<br>20 30<br>IDC(A)<br>PA4341.201NLT<br>**----- End of picture text -----**<br>


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PA4341.131NLT<br>Hy 11<br>|<br>a 36<br>IDC(A)<br>PA4341.181NLT<br>Pann<br>A a<br>vail<br>20 30<br>IDC(A)<br>PA4341.221NLT<br>**----- End of picture text -----**<br>


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**----- Start of picture text -----**<br>
PA4341.301NLT<br>**----- End of picture text -----**<br>


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**----- Start of picture text -----**<br>
 TTll PA4341.251NLT T Hf 100 0.40 ELLE PA4341.301NLT Ve 100<br>ELT 80 032 SS] re 80<br>(HITTPANUAUT :2 TUTAIT<br>HUTT,W I? so ytFave HULA,Mor”<br>A ao 4 5 016 A a“<br>LTT 2 LTT<br>rs<br> A 20 ~ 0.08 ie, val 2<br>9 18 2 36 Fi a 0 8 16 24 32 er<br>IDC(A) IDC(A)<br>PA4341.361NLT PA4341.471NLT<br>TTT. T T T<br>**----- End of picture text -----**<br>


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**----- Start of picture text -----**<br>
PA4341.151NLT<br>Hh MU<br>|<br>7<br>20 30<br>DCA)<br>PA4341.191NLT<br>r<br>lA j ad<br>pall<br>20 30<br>IDC(A)<br>PA4341.241NLT<br>y ral<br>a (<br>18 0 oT<br>IDC(A)<br>PA4341.331NLT<br>**----- End of picture text -----**<br>


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PA4341.561NLT<br>TT T .<br>**----- End of picture text -----**<br>


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## SMT Power Inductor 

_High Current Molded Power Inductor - PA4341.XXXNLT & PM4341.XXXNLT_ 

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**----- Start of picture text -----**<br>
PA4341.601NLT PA4341.681NLT PA4341.751NLT<br> LTT, - TTT. TT T .<br>80 ry y,<br>qfl 064 So | / 80 0 FE SUul<br> TTT 3.6 ITT 4 NTT<br>LETT TTT taWITT.Val <aLTS 0 54 BBae5 0.48032 LUTEAL,. |WW i 40 5§ Essg8 0. TTTWW MALLS<br>LLLaf , AT: Uy FS ve ALHLT .<br>oP a 20 0.16 Le LH<br>. aa 6 12 18 24 30 0 6 12 18 24 30<br>: : tf IDC{A) F @ 3 DCA) IDCIA)<br>PA4341.821NLT PA4341.901NLT PA4341.102NLT<br>die TAT. 15 TPA.<br>a e A Pen NN At<br>2 PSY 80 = TTT | = ST HTT<br>"TMU " Datta cs MATT<br>ULLAL,MALTS. && baFo UALf «& ieFoc UT,Ly,<br>LY, yalBLTil 2»- zey 0.20 LLLTe rlUf 20 2i. 1sUATy a<br>Ue ° as I 0 0.0 0<br>, ° 7 “oe” 5 10 [a ae) 0 5 0 6 0 2<br>IDCIA) DCA) IDC{A)<br>PA4341.122NLT PA4341.152NLT PA4341.182NLT<br>THA T TT T 25 LT T<br>TTA ZSTAme 3Ss TAMLA<br>HLT,MTN &3 ulATTAINS.WALLIS, § a.Fo TTTI) Mo |,<br>UUl : IL:, 4 2# ALTUY 5<br>03 Ps, a 20 0.4 eT 20 t Uy 0<br>°° 0 - 5 0 6 2» 2° ar 4 8 12 16 20 s 0 4 8 12 16 0<br>IDC(A) = cw<br>PA4341.202NLT PA4341.222NLT PA4341.252NLT<br>“TIA * TTome Oe T =)»30 OT— T 7<br>FSmAIIAnNniaast” UTED SMA HUAMAANINA nap << ttt STAT|<br>TUTTITT ATI 3 A a - alle<br>MN” £ DAT § Ee LULA TTT,<br>IUPUI, § all i wi iu LW<br>BMT‘fl . i:i. HNerval LIL Z cae£ ULHT w<br>a ut ; i“ o a 3 6 a ae<br>“@ 3 6 A? 2 1 © 18 0 3 —_, 2 ea<br>PA4341.272NLT PA4341.332NLT PA4341.472NLT<br>TT S M( OU TENENVONEATANED®UNA ONIOO »  UT y<br>**----- End of picture text -----**<br>


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**----- Start of picture text -----**<br>
PA4341.272NLT<br>TT S M(<br>**----- End of picture text -----**<br>


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## SMT Power Inductor 

_High Current Molded Power Inductor - PA4341.XXXNLT & PM4341.XXXNLT_ 

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PA4341.562NLT PA4341.682NLT PA4341.822NLT<br>7.0 T U Y 100 8.0 NTTY 100 10 U T Y 100<br>e UTA T o: TTA A grSTANT<br>LILI, & Fa LULA, & PTTL<br>A Yt i 4 $32 , Y LN i 8 a Lp | [TNS<br>Hn ‘ BUTFeo 2AeTTT 4<br>00 0 0.0 0 0 0<br>0 2 4 6 8 10 0 2 4 6 8 10 0 2 4 6 8 10<br>IDC(A) IDC(A) IDC(A)<br>PA4341.103NLT PA4341.681NLT123 PA4341.153NLT<br>15 , 100 15 y 100 20 100<br>aLT| T A =STATASEE N get- TTT<br>ELL9 WrTLaT 60 ay EAI,8 s! pa mf) 60 6& ELLE,‘, pe a— 60<br>3<br>OUTED?Za UATEATAAT EOE qT OAUAERUUUAS> <Q<br>oo © 4 STS 0 o 4 #2 3 4 5 6 0 0 0 1 2 3 4 0<br>IDC(A) IDC(A) IDC(A)<br>PA4341.223NLT PA4341.333NLT PA4341.403NLT<br>“HOTT SOUT ECEUUENEATATATAVONOTADOC SOUTEMTAAEATEATENTAWUOHUATEMS<br>**----- End of picture text -----**<br>


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## For More Information: 

**Americas -** prodinfo_power@pulseelectronics.com  | **Europe -** power-apps-europe@pulseelectronics.com  | **Asia -** power-apps-asia@pulseelectronics.com 

Performance warranty of products offered on this data sheet is limited to the parameters specified. Data is subject to change without notice. Other brand and product names mentioned herein may be trademarks or registered trademarks of their respective owners. © Copyright, 2020. Pulse Electronics, Inc. All rights reserved. 

6 Power.PulseElectronics.com P768.0 (08/20) JS wo

Updated at June 10, 2026

Pulse Electronics, a YAGEO company, is a global leader in the design and manufacturing of passive electronic components. With a legacy of innovation dating back to 1956, the company provides essential technology for the communications, computing, industrial, transportation, and IoT sectors. Pulse is recognized worldwide for delivering high-performance solutions that power advanced applications, ranging from 5G networks and electric vehicles to data centers and smart grids. The company's extensive product portfolio is heavily anchored in power and networking magnetics. This includes a comprehensive range of power inductors engineered for exceptional efficiency and reliability in demanding environments. To address complex electromagnetic compatibility challenges, Pulse also manufactures highly effective EMC and RFI suppression solutions, such as common mode chokes and filters, alongside specialized toroidal and RF inductors designed to ensure clean power delivery and optimal signal integrity. Beyond traditional magnetics, Pulse excels in the development of advanced wireless and power conversion components. Their connectivity solutions feature a wide array of high-performance RF antennas and single-band chip antennas tailored for modern connected devices. Furthermore, to support sophisticated power architectures, Pulse provides a broad spectrum of transformers—encompassing PCB-mounted designs, current sensing transformers, and precise pulse transformers—equipping engineers with robust, industry-proven components for power isolation and measurement.

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