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ELF15N007A.
INDUCTOR, 10MH
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- Manufacturer: PANASONIC
- Product type: Fixed Value Inductors
- Inductance:10mH; Inductance Tolerance:± 20%; DC Current Rating:700mA; Lead Spacing:10mm; DC Current Max:700mA; External Depth:15mm; External Length / Height:21.5mm; External Width:22.7mm; Inductance Min:1
| Delivery and price | |
|---|---|
| Units per pack | 1000 |
| Price | 0.639 € |
| Current stock | 10+ |
| Lead time | 30 days |
Datasheet
Line Filters **==> picture [271 x 365] intentionally omitted <==** **----- Start of picture text -----**<br> Japan<br>Singapore<br>Indonesia<br> Series V<br>'<br>ly<br>Type 290 Type 450 Type 650 Type 850<br>a»<br>Cy | Gon<br>Type 21V Type 24V<br>Series H<br>* id<br>* iq ="<br>Type 270 Type 200 Type 400 Type 600<br>Series F Series M<br>=<br>Type 23F Type 25F Type 11M Type 14M Type 16M<br>Series N, High N<br>**----- End of picture text -----**<br> ## Line Filters Series:V (Type 290, 450, 650, 850, 21V, 24V) Series:H (Type 200, 270, 400, 600) Series:F (Type 23F, 25F) Series:M (Type 11M, 14M, 16M) Series:N (Type 15N, 18N, 20N) Series:High N (Type 17N, 19N, 21N) Line filters suppressing conductive noise ranging from low to high frequencies generated at power supply circuits of various electronic equipment Industrial Property: Patents 22 (incl.pending) Type 15N Type 17N Type 18N Type 20N Type 19N Type 21N ## I Features |I FeaturesFeatures||Type 15N<br>Type 17N<br>Type 18N<br>Type 19N<br>Type 20N<br>Type 21N|Type 15N<br>Type 17N<br>Type 18N<br>Type 19N<br>Type 20N<br>Type 21N| |---|---|---|---| |Series|Types|Features|| |V|290, 450, 650, 850,<br>21V∗, 24∗|Vertical<br>Structure|GExcellent attenuations in high frequency characteristics| |H|200, 270, 400, 600|Horizontal<br>Structure|GDecreasing greatly leakage flux| |F|23F, 25F|Thin<br>Structure|G15 mm height max.| |M|11M, 14M, 16M|Small<br>Structure|GSmall size and lightweight| |N|15N, 18N, 20N|Vertical<br>Structure|GSuitable for high-density automatic insertion| |High N|17N, 19N, 21N|High L<br>Structure|GHigh inductance (same size with series N)| 8 Type 21V is developed product of Type 650. Type 24V is Type 850. ## I Recommended Applications G CTV, VTR, Audios, PC, Facsimiles Line Filters ## I Explanation of Part Numbers **==> picture [463 x 191] intentionally omitted <==** **----- Start of picture text -----**<br> G V, H Series<br>1 2 3 4 5 6 7 8 9 10 11 12<br>E L F 1 8 D 2 9 0 A<br>Product code Series Type (Style, Design No.) Option 1 Option 2<br>G F, M Series<br>1 2 3 4 5 6 7 8 9 10 11 12<br>E L F 1 6 M 0 2 0 A<br>Product code Style Series Design No. Option 1 Option 2 Option 3<br>(Current)<br>G N, High N Series<br>1 2 3 4 5 6 7 8 9 10 11 12<br>E L F 1 5 N 0 0 5 A<br>Product code Type Series Current Option 1 Option 2 Option 3<br>**----- End of picture text -----**<br> ## I Performance Characteristics |IPerformance Cha|racteristics|racteristics||||||||||||||| |---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---| |290 <br>Series<br>Type<br>Item|V Serise||H Serise||||F Series||M Serie|s<br>N Serise|||High N Series|||Notes| ||450 650/21V|850/24V|270|200|400|600|23F|25F<br>|11M/14M 16|M 15N|18N|20N|17N|19N|21N|| |OperatingTemperature|Ð20 ¡C to 105 ¡C(115 ¡C)||||||Ð20 ¡C to 115 ¡C|||||||||| |voltage|AC 250 Vrms max.|||||||||||||||| |Current|Refer to ÒExamplesÓ|||||||||||||||| |Inductance|Refer to ÒExamplesÓ|||||||||||||||| |Dielectric WithstandingVoltage|AC 2 kV 1min|||||||||||||||| |Temperature Rise|45 K max.|||||||||||||||Resistance<br>method| |Applicable SafetyStandards|** Denki Yohin*,UL,CSA,IEC|||||||||||||||| 8 The Electrical Appliance and Material Law of Japan 88 Line filter does not acquire, only, the safety standards recognition ## I Connection Shematics **==> picture [57 x 42] intentionally omitted <==** I Impedance and Attenuation Characteristics (Typical) G Impedance Characteristics G Test Circuit Diagram I Circuit Example **==> picture [158 x 62] intentionally omitted <==** I Current-Inductance (min.) Characteristics (Reference only) **==> picture [213 x 215] intentionally omitted <==** Line Filters ## I Examples |IExa|mples|mples|mples|mples||||| |---|---|---|---|---|---|---|---|---| ||Series V|||||||| |Type|Part No.|Inductance<br>(mH) min.|Current max.<br>(A rms.)|Type|Part No.|Marking|Inductance <br>(mH)<br>min.|Current<br>max.<br>(A rms.)| |290|ELF18D290B|0.82|2.0|21V|ELF21V006A|683 06A|68.0|0.6| ||ELF18D290D|1.20|1.6||ELF21V007A|563 07A|56.0|0.7| ||ELF18D290V|1.80|1.5||ELF21V008A|333 08A|33.0|0.8| ||ELF18D290T|2.20|1.3||ELF21V010A|273 10A|27.0|1.0| ||ELF18D290E|2.70|1.1||ELF21V012A|183 12A|18.0|1.2| ||ELF18D290S|3.30|1.1||ELF21V013A|153 13A|15.0|1.3| ||ELF18D290R|3.90|1.0||ELF21V016A|123 16A|12.0|1.6| ||ELF18D290M|5.60|0.8||ELF21V018A|822 18A|8.20|1.8| ||ELF18D290P|6.80|0.7||ELF21V020A|682 20A|6.80|2.0| ||ELF18D290L|8.20|0.6||ELF21V022A|562 22A|5.60|2.2| ||ELF18D290G|10.0|0.6||ELF21V025A|452 25A|4.50|2.5| ||ELF18D290A|18.0|0.5||ELF21V027A|272 27A|2.70|2.7| ||ELF18D290C|22.0|0.4||ELF21V030A|222 30A|2.20|3.0| ||ELF18D290H|33.0|0.3|24V|ELF24V008A|823 08A|82.0|0.8| |450|ELF18D450M|1.20|3.0||ELF24V010A|563 10A|56.0|1.0| ||ELF18D450C|2.20|2.2||ELF24V012A|473 12A|47.0|1.2| ||ELF18D450A|2.70|2.0||ELF24V014A|333 14A|33.0|1.4| ||ELF18D450K|3.90|1.8||ELF24V015A|273 15A|27.0|1.5| ||ELF18D450D|5.60|1.4||ELF24V018A|223 18A|22.0|1.8| ||ELF18D450L|6.80|1.2||ELF24V019A|183 19A|18.0|1.9| ||ELF18D450G|8.20|1.1||ELF24V020A|153 20A|15.0|2.0| ||ELF18D450J|10.0|1.0||ELF24V025A|103 25A|10.0|2.5| ||ELF18D450B|18.0|0.8||ELF24V028A|902 28A|9.00|2.8| ||ELF18D450H|39.0|0.5||ELF24V030A|822 30A|8.20|3.0| ||ELF18D450Q|56.0|0.4||ELF24V034A|562 34A|5.60|3.4| |650|ELF18D650M|1.50|3.1||ELF24V035A|472 35A|4.70|3.5| ||ELF18D650G|1.80|2.8||ELF24V037A|392 37A|3.90|3.7| ||ELF18D650B|3.30|2.4||ELF24V042A|332 42A|3.30|4.2| ||ELF18D650C|8.20|1.7||ELF24V045A|272 45A|2.70|4.5| ||ELF18D650W|10.0|1.4||ELF24V050A|152 50A|1.50|5.0| ||ELF18D650J|12.0|1.3||ELF24V070A|801 70A|0.80|7.0| ||ELF18D650D|15.0|1.1||ELF24V080A|401 80A|0.40|8.0| ||ELF18D650H|33.0|0.8||ELF24V090A|261 90A|0.26|9.0| ||ELF18D650U|47.0|0.7||ELF24V100A|151 100A|0.15|10.0| ||ELF18D666A|2.20|2.8|||||| ||ELF18D656Z|2.70|2.7|||||| ||ELF18D656Y|4.70|2.5|||||| ||ELF18D656X|5.60|2.2|||||| ||ELF18D656K|6.80|2.0|||||| ||ELF18D656J|12.0|1.6|||||| ||ELF18D656V|27.0|1.0|||||| ||ELF18D656S|68.0|0.6|||||| |850|ELF18D850M|1.50|5.0|||||| ||ELF18D860B|2.20|4.5|||||| ||ELF18D850B|3.30|4.2|||||| ||ELF18D850P|3.90|3.7|||||| ||ELF18D850Y|4.70|3.5|||||| ||ELF18D850X|5.60|3.4|||||| ||ELF18D850C|8.20|3.0|||||| ||ELF18D850W|10.0|2.5|||||| ||ELF18D850D|15.0|2.0|||||| ||ELF18D850Q|18.0|1.9|||||| ||ELF18D860C|22.0|1.8|||||| ||ELF18D850Z|27.0|1.5|||||| ||ELF18D850H|33.0|1.4|||||| ||ELF18D850U|47.0|1.2|||||| ||ELF18D850T|56.0|1.1|||||| ||ELF18D850R|82.0|0.8|||||| Line Filters ## I Examples |IExa|mples|mples|mples||||| |---|---|---|---|---|---|---|---| ||Series H||||Series F||| |Type|Part No.|Inductance<br>(mH) min.|Current max.<br>(A rms.)|Type|Part No.|Inductance<br>(mH) min.|Current max.<br>(A rms.)| |200|ELF18D217|1.50|1.60|23F|ELF23F003A|50.0|0.3| ||ELF18D219|2.70|1.30||ELF23F004A|30.0|0.4| ||ELF18D216|3.90|1.00||ELF23F005A|20.0|0.5| ||ELF18D225|6.80|0.80||ELF23F906A|14.0|0.6| ||ELF18D214|8.20|0.70||ELF23F007A|10.0|0.7| ||ELF18D210|18.0|0.50||ELF23F008A|8.0|0.8| ||ELF18D218|22.0|0.40||ELF23F009A|6.0|0.9| ||ELF18D212F|1.00|2.10||ELF23F010A|5.0|1.0| ||ELF18D230F|1.20|2.00||ELF23F012A|3.5|1.2| ||ELF18D228F|2.20|1.50||ELF23F014A|2.5|1.4| ||ELF18D227F|4.70|1.00||ELF23F016A|2.0|1.6| ||ELF18D221F|33.0|0.40||ELF23F018A|1.5|1.8| ||ELF18D235F|47.0|0.30||ELF23F020A|1.2|2.0| ||ELF18D222F|68.0|0.25||ELF23F022A|1.0|2.2| |270|ELF18D270C|1.80|1.5|25F|ELF25F004A|50.0|0.4| ||ELF18D270D|2.70|1.1||ELF25F005A|30.0|0.5| ||ELF18D270Q|5.60|0.8||ELF25F006A|20.0|0.6| ||ELF18D270A|6.80|0.7||ELF25F007A|16.0|0.7| ||ELF18D270G|10.0|0.6||ELF25F008A|12.0|0.8| ||ELF18D270H|18.0|0.5||ELF25F009A|10.0|0.9| ||ELF18D270B|22.0|0.4||ELF25F010A|8.0|1.0| ||ELF18D270J|33.0|0.3||ELF25F012A|5.5|1.2| |400|ELF18D419|1.50|2.4||ELF25F014A|4.0|1.4| ||ELF18D414|3.30|1.8||ELF25F016A|3.0|1.6| ||ELF18D433|3.90|1.5||ELF25F018A|2.5|1.8| ||ELF18D412|6.80|1.2||ELF25F020A|2.0|2.0| ||ELF18D415|8.20|1.0||ELF25F022A|1.6|2.2| ||ELF18D430|12.0|0.9||ELF25F025A|1.3|2.5| ||ELF18D423|27.0|0.6||ELF25F106A|28.0|0.6| ||ELF18D428|33.0|0.5||ELF25F107A|20.0|0.7| ||ELF18D441F|0.56|3.4||ELF25F108A|15.0|0.8| ||ELF18D420F|1.20|3.0||ELF25F109A|12.0|0.9| ||ELF18D435F|2.20|2.2||ELF25F110A|10.0|1.0| ||ELF18D434F|2.70|2.0||ELF25F112A|7.0|1.2| ||ELF18D424F|5.60|1.4||ELF25F114A|5.0|1.4| ||ELF18D431F|10.0|1.0||ELF25F116A|4.0|1.6| ||ELF18D417F|18.0|0.8||ELF25F118A|3.0|1.8| ||ELF18D427F|39.0|0.5||||| ||ELF18D437F|68.0|0.4||||| |600|ELF18D608|1.0|3.4||||| ||ELF18D610|1.5|3.1||||| ||ELF18D614|1.8|2.8||||| ||ELF18D611|2.7|2.6||||| ||ELF18D605|3.3|2.5||||| ||ELF18D613|3.9|2.2||||| ||ELF18D604|4.7|2.0||||| ||ELF18D603|5.6|1.8||||| ||ELF18D602|8.2|1.7||||| ||ELF18D612|22.0|1.0||||| ||ELF18D618|27.0|0.8||||| ||ELF18D615|39.0|0.7||||| ||ELF18D607|68.0|0.5||||| ||ELF18D617F|2.2|2.8||||| ||ELF18D604F|4.7|2.5||||| ||ELF18D603F|5.6|2.1||||| ||ELF18D601F|10.0|1.6||||| ||ELF18D609F|12.0|1.6||||| ||ELF18D606F|18.0|1.2||||| ||ELF18D624F|33.0|0.8||||| Line Filters ## I Examples |IExa|mples|mples|mples|||||| |---|---|---|---|---|---|---|---|---| ||Series M||||Series N|||| |Type|Part No.|Inductance<br>(mH) min.|Current max.<br>(A rms.)|Type|Part No.|Marking|Inductance <br>(mH)<br>min.|Current<br>max.<br>(A rms.)| |11M|ELF11M010E|30.0|0.1|15N|ELF15N002A|104 02|104.0|0.2| ||ELF11M020E|12.0|0.2||ELF15N003A|433 03|43.0|0.3| ||ELF11M030E|6.0|0.3||ELF15N004A|263 04|26.0|0.4| ||ELF11M040E|3.5|0.4||ELF15N005A|193 05|19.0|0.5| ||ELF11M050E|2.5|0.5||ELF15N006A|123 06|12.0|0.6| ||ELF11M060E|1.5|0.6||ELF15N007A|103 07|10.0|0.7| ||ELF11M070E|1.0|0.7||ELF15N008A|682 08|6.8|0.8| ||ELF11M080E|0.8|0.8||ELF15N010A|532 10|5.3|1.0| ||ELF11M090E|0.7|0.9||ELF15N011A|402 11|4.0|1.1| ||ELF11M100E|0.5|1.0||ELF15N013A|272 13|2.7|1.3| |14M|ELF14M010E|30.0|0.1||ELF15N015A|212 15|2.1|1.5| ||ELF14M020E|12.0|0.2||ELF15N017A|172 17|1.7|1.7| ||ELF14M030E|6.0|0.3||ELF15N022A|102 22|1.0|2.2| ||ELF14M040E|3.5|0.4||ELF15N030A|601 30|0.6|3.0| ||ELF14M050E|2.5|0.5|18N|ELF18N004A|803 04|80.0|0.4| ||ELF14M060E|1.5|0.6||ELF18N005A|503 05|50.0|0.5| ||ELF14M070E|1.0|0.7||ELF18N006A|353 06|35.0|0.6| ||ELF14M080E|0.8|0.8||ELF18N008A|203 08|20.0|0.8| ||ELF14M090E|0.7|0.9||ELF18N010A|153 10|15.0|1.0| ||ELF14M100E|0.5|1.0||ELF18N012A|952 12|9.5|1.2| |16M|ELF16M020A|28.0|0.2||ELF18N016A|602 16|6.0|1.6| ||ELF16M030A|20.0|0.3||ELF18N020A|422 20|4.2|2.0| ||ELF16M040A|15.0|0.4||ELF18N025A|242 25|2.4|2.5| ||ELF16M050A|8.0|0.5||ELF18N032A|142 32|1.4|3.2| ||ELF16M060A|7.0|0.6|20N|ELF20N006A|693 06|69.0|0.6| ||ELF16M070A|5.0|0.7||ELF20N008A|433 08|43.0|0.8| ||ELF16M080A|3.5|0.8||ELF20N010A|283 10|28.0|1.0| ||ELF16M100A|2.0|1.0||ELF20N013A|183 13|18.0|1.3| ||ELF16M130A|1.0|1.3||ELF20N015A|143 15|14.0|1.5| ||ELF16M150A|0.8|1.5||ELF20N016A|123 16|12.0|1.6| ||ELF16M170A|0.6|1.7||ELF20N018A|752 18|7.5|1.8| ||ELF16M200A|0.5|2.0||ELF20N020A|702 20|7.0|2.0| ||||||ELF20N022A|622 22|6.2|2.2| ||||||ELF20N024A|492 24|4.9|2.4| ||||||ELF20N027A|472 27|4.7|2.7| ||||||ELF20N030A|292 30|2.9|3.0| ||||||ELF20N035A|202 35|2.0|3.5| ||||||ELF20N040A|152 40|1.5|4.0| Line Filters ## I Examples |IExa|mples|mples|mples|mples| |---|---|---|---|---| ||Serise High N|||| |Type|Part No.|Marking|Inductance <br>(mH)<br>min.|Current<br>max.<br>(A rms.)| |17N|ELF17N002A|144 02|142.0|0.2| ||ELF17N003A|603 03|60.0|0.3| ||ELF17N004A|353 04|35.0|0.4| ||ELF17N005A|263 05|26.0|0.5| ||ELF17N006A|163 06|16.0|0.6| ||ELF17N007A|143 07|14.0|0.7| ||ELF17N008A|922 08|9.2|0.8| ||ELF17N010A|722 10|7.2|1.0| ||ELF17N011A|542 11|5.4|1.1| ||ELF17N013A|372 13|3.7|1.3| ||ELF17N015A|292 15|2.9|1.5| ||ELF17N017A|232 17|2.3|1.7| ||ELF17N022A|132 22|1.3|2.2| ||ELF17N030A|801 30|0.8|3.0| |19N|ELF19N004A|993 04|99.0|0.4| ||ELF19N005A|623 05|62.0|0.5| ||ELF19N006A|433 06|43.0|0.6| ||ELF19N008A|253 08|25.0|0.8| ||ELF19N010A|193 10|19.0|1.0| ||ELF19N012A|123 12|12.0|1.2| ||ELF19N016A|742 16|7.4|1.6| ||ELF19N020A|512 20|5.1|2.0| ||ELF19N025A|302 25|3.0|2.5| ||ELF19N032A|172 32|1.7|3.2| |21N|ELF21N006A|873 06|87.0|0.6| ||ELF21N008A|543 08|54.0|0.8| ||ELF21N010A|363 10|36.0|1.0| ||ELF21N013A|223 13|22.0|1.3| ||ELF21N015A|183 15|18.0|1.5| ||ELF21N016A|153 16|15.0|1.6| ||ELF21N018A|942 18|9.4|1.8| ||ELF21N020A|872 20|8.7|2.0| ||ELF21N022A|782 22|7.8|2.2| ||ELF21N024A|612 24|6.1|2.4| ||ELF21N027A|582 27|5.8|2.7| ||ELF21N030A|372 30|3.7|3.0| ||ELF21N035A|252 35|2.5|3.5| ||ELF21N040A|192 40|1.9|4.0| Line Filters I Dimensions in mm (not to scale) Series V G Type 290 G Type 450, 650 G Type 850 G Type 21V G Type 24V **==> picture [103 x 100] intentionally omitted <==** **==> picture [105 x 90] intentionally omitted <==** **==> picture [105 x 86] intentionally omitted <==** **==> picture [89 x 104] intentionally omitted <==** **==> picture [42 x 98] intentionally omitted <==** **==> picture [183 x 82] intentionally omitted <==** **==> picture [105 x 88] intentionally omitted <==** **==> picture [79 x 83] intentionally omitted <==** **==> picture [212 x 117] intentionally omitted <==** **==> picture [105 x 95] intentionally omitted <==** Line Filters I Dimensions in mm (not to scale) **==> picture [73 x 88] intentionally omitted <==** **==> picture [83 x 85] intentionally omitted <==** **==> picture [105 x 91] intentionally omitted <==** G Type 200, 400, 600 **==> picture [86 x 91] intentionally omitted <==** **==> picture [84 x 72] intentionally omitted <==** **==> picture [126 x 82] intentionally omitted <==** |Type<br>A|B|C|D|E|F|G| |---|---|---|---|---|---|---| |200<br>20|±1<br>21±1|20 max.|13.0±0.5|10.0±0.5|13.0±0.|1<br>10.0±0.1| |400<br>24|±1<br>25±1|19.5±1.0|21.0±0.5|15.0±0.5|21.0±0.|1<br>15.0±0.1| |600<br>28.5|±1.0<br>29±1|22.5±1.0|24.0±0.5|20.0±0.5|24.0±0.1|20.0±0.1| Series F G Type 23F, 25F **==> picture [70 x 80] intentionally omitted <==** **==> picture [60 x 63] intentionally omitted <==** **==> picture [116 x 107] intentionally omitted <==** |Type||A||B||C|D|E|F|G| |---|---|---|---|---|---|---|---|---|---|---| |23F|24|max.|23|max.|14|max.|16.0±0.5|10.0±0.5|16.0±0.1|10.0±0.1| |25F|28|max.|25|max.|15|max.|21.0±0.5|11.0±0.5|21.0±0.1|11.0±0.1| Line Filters ## I Dimensions in mm (not to scale) Series M G Type 11M **==> picture [131 x 101] intentionally omitted <==** **==> picture [105 x 90] intentionally omitted <==** G Type 14M **==> picture [166 x 92] intentionally omitted <==** **==> picture [105 x 95] intentionally omitted <==** G Type 16M **==> picture [145 x 103] intentionally omitted <==** **==> picture [105 x 97] intentionally omitted <==** Series N, High N G Type 15N, 17N **==> picture [153 x 173] intentionally omitted <==** **==> picture [110 x 105] intentionally omitted <==** Line Filters I Dimensions in mm (not to scale) G Type 18N, 19N **==> picture [184 x 201] intentionally omitted <==** **==> picture [115 x 105] intentionally omitted <==** G Type 20N, 21N **==> picture [187 x 178] intentionally omitted <==** **==> picture [115 x 105] intentionally omitted <==** Line Filters ## Cautions for use For securing upgraded reliability and safety, consider following caution items. ## 1. General - 1 Main part: ferrite core is a sintered body. If excessive force or shock is applied directly, the electric and magnetic characteristics change. - ¥ Do not use the dropped products. - ¥ Do not apply the shock over 20N to the core at mounting. - 2 If appling overcurrent (2 times rated current, for 2 minutes min.) to the products, a safety defect may occure due to smoking and transformation. - ¥ Do not use them on the over rated current. - ¥ Do not apply DC bias current. - 3 No cleaning is good for avoiding disconnections or deterioration of the coils. ## 2. Mounting - 1 The products with large power are heavy. - ¥ Fix the PWB near the mounting place, or add eyelets. - 2 The products are magnetically influenced easily by other inductors and on the contrary, influence others. - ¥ Arrange them far from other inductors, lead wires and noise souces, or in the opposite direction each other. - 3 By the effect of other heat sources, the temperature of the products rise. - ¥ Part them from the switching circuit parts such as heat-sinks or cement resistors for preventing inrush current. etc. ## 3. Temperature rise - 1 The rated current is specified at the point of the self-temperature rise: 45K max. of the products. - ¥ Measure by a resistance method. - ¥ When measuring by a thermo-couple methods, set the sensor in the depths of the coil. - 2 The operation temperature indicates Òsurround temperatureÓ plus Òself-generated heatÓ. ## 4. Safety standards - 1 The core of the products is designed in condition of non earthing. - 2 Single applications for safety standards in the world have not done, but the structure is conformable. - ¥ Keep the safety distances between them and other parts on the basis of the applicable standard. ## 5. Countermeasure for noise - 1 This products are not suitable for countermeasure of the noise more than 10 MHz. Using other filters or arranging the PWB pattern and leads position, etc are more effective. - 2 The inductance of this products is effective for common-mode noise, and the leakage inductance is effective for normal-mode noise. **==> picture [509 x 32] intentionally omitted <==**
Updated at April 28, 2026
Panasonic Industry is a global leader in the design and manufacture of high-quality electronic components. Renowned for a commitment to continuous innovation, the company provides the essential building blocks that empower modern engineering. From industrial automation to consumer electronics, Panasonic's components are trusted worldwide for their outstanding reliability, efficiency, and long-term performance. The extensive portfolio is anchored by a massive selection of passive components, featuring an industry-leading range of aluminium electrolytic, film, and polymer capacitors. Alongside these advanced capacitance solutions, engineers rely on Panasonic's robust power inductors and a highly versatile array of electromechanical devices, including solid-state, power, and signal relays engineered to excel in demanding environments. Beyond core passives and switching solutions, the offering encompasses critical circuit protection devices such as TVS varistors and NTC thermistors, as well as sophisticated thermal management materials. Panasonic also delivers precision light and motion sensors, highly reliable batteries, and advanced Bluetooth and WLAN connectivity modules, providing a comprehensive ecosystem of components to support next-generation technological design.
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Novapart is a B2B electronic component broker specialising in stock shortages and cost reduction. We source hard-to-find parts and identify compliant alternatives across a catalogue of 410,000+ components from 500+ manufacturers.
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