124

Nūhou

  • Two packaging methods for chip inductors

    ʻElua ʻano hana ukana no nā inductors chip

    ʻO nā mea hoʻokomo SMD, i ʻike ʻia ma ke ʻano he SMD inductors a i ʻole SMD inductors, pili i kahi ʻano kūkulu o ka inductance, kahi e hoʻokani nui ai i ka choking, decoupling, filtering, coordination, a lohi i ke kaapuni. Chip inductors i hoʻolōʻihi i ke ola o nā mea kūʻai mai uila uila a me ka hoʻomaikaʻi th ...
    Heluhelu hou aʻe
  • One-piece inductors, the development of one-piece inductors

    Hoʻokahi-ʻāpana inductors, ka hoʻomohala o hoʻokahi inductors

    Me ka hoʻomohala ʻana i ka ʻoihana uila, ua hoʻomaka nā huahana uila e hōʻike i ke ʻano hoʻomohala o "ʻehā mau modernization", ʻo ia hoʻi ka miniaturization, hoʻohui, multi-function, a me ka mana kiʻekiʻe. I mea e kū ai i ka hoʻolaha ʻana o nā huahana uila, ka uila ...
    Heluhelu hou aʻe
  • The difference between one-piece inductors and ordinary inductors

    ʻO kaʻokoʻa ma waena o inductors ʻāpana a me nā inductors maʻamau

    Me ka hoʻomohala ʻana o ka ʻepekema a me ka ʻenehana, ua hana ʻia nā pono hana ma nā ʻano he nui. I mea e mālama ai i kahi kaulike paʻa o nā kaapuni o kēia manawa e pili ana i ka mana, pono i ka ʻoihana uila nā huahana inductance e liʻiliʻi i ka nui, kiʻekiʻe i ka mana, haʻahaʻa i ke kumukūʻai, a kūpono no inte ...
    Heluhelu hou aʻe
  • How to solve the problem of abnormal noise caused by the chip inductance

    Pehea e hoʻoponopono ai i ka pilikia o ka walaʻau maʻamau i hoʻokumu ʻia e ka chip chip

    Inā loaʻa ka walaʻau kūlohelohe o ka chip inductor i ka wā o ka hana o nā lakohana, he aha ke kumu? Pehea e hoʻoponopono ai? He aha ka loiloi i hana ʻia e ka hoʻoponopono o Xinchenyang uila uila ma lalo? I ka wā o ka hana, ma muli o ka magnetostriction o ka chip inductor, e hoʻopuka ia i ka leo maʻamau ma o ka ...
    Heluhelu hou aʻe
  • Answers to questions about the shelf life of chip inductors and influencing factors

    Nā pane i nā nīnau e pili ana i ke ola o nā inductors chip a me nā mea e hoʻohuli nei

    ʻAneʻane ʻo ka poʻe āpau i ka ʻoihana e ʻike i ke ola o nā chipipā inductors, ma kahi o 1 mau makahiki, akā ʻaʻole paʻa kēia. Aia ia i ke kaʻina hana a me kahi e waiho ai o ka mea hoʻopili, a me nā ʻāpana i hana ʻia me nā mea haʻahaʻa a waiho ʻia i kahi lewa i ke ola o ka i ...
    Heluhelu hou aʻe
  • Common mode inductance acts on the input end of the power module

    Hana ka inductance mode maʻamau i ka hopena hoʻokomo o ka module mana

    ʻO ke ʻano o ka inductor mode maʻamau ʻeha ʻia nā wili ʻelua ma ke kumu hao hoʻokahi, me nā wili ʻokoʻa, ka helu o nā huli a me ke kaʻina like. Hoʻohana maʻamau i ka hoʻololi ʻana i nā lako mana e kānana i nā hōʻailona interrupt electromagnetic maʻamau, hoʻohana ʻia nā kānana EMI e kāohi i nā nalu electromagnetic ...
    Heluhelu hou aʻe
  • Analysis of factors that need to be paid attention to when selecting chip inductors

    Nānā i nā mea e pono ai e nānā i ke koho ʻana i nā inductors chip

    Ke koho nei mākou i kahi huahana, koho maʻamau mākou e like me nā kumu kūwaho. Pēlā nō ia no nā inductors chip. Pono mākou e noʻonoʻo i kekahi mau mea kūwaho a kūloko paha e koho ai i kahi indipor chip pono no mākou, kahi e hoʻopili ai i ka papala. Nui nā kumu no ka hoʻokomo inā pono ka huahana ...
    Heluhelu hou aʻe
  • How to distinguish shielded inductor and unshielded inductor?

    Pehea e ʻike ai i ka inductor pale a me ka mea hoʻokomo ʻole i pale ʻole ʻia?

    Manaʻo wau he nui nā poʻe e piʻoloke e pili ana i ka hoʻohālikelike o ka pale i hoʻokomo ʻia a me ka mea hoʻokomo ʻole unshielded. Wahi a ka ʻokoʻa o ka hana pale pale mākēneki, aia ʻelua mau inoa ʻokoʻa o ka pale inductor pale a me ka mea hoʻokomo ʻole unshielded. Hoʻopili ʻia ʻo Shielded inductor me ka inductor chip a me I-ʻano i ...
    Heluhelu hou aʻe
  • The function of chip inductors

    ʻO ka hana o nā inductors chip

      1. ʻO nā mea hoʻokomo Chip nā mea hoʻokomo i ka magnet me nā kaula i hoʻopaʻa ʻia, ʻo ia kekahi o nā mea passive i hoʻohana mau ʻia. 2. ʻO ka hana o ka chip inductor: ʻO ka hana o ke kūpaʻa DC a me AC ka mea nui e hoʻokaʻawale i nā hōʻailona AC, a ma ka manawa like e hana i kahi kaapuni resonant me fil ...
    Heluhelu hou aʻe
  • The difference between manganese-zinc and nickel-zinc of ferrite ring inductors

    ʻO ka ʻokoʻa ma waena o manganese-zinc a me nickel-zinc o nā inductors ring ferrite

    Hoʻokaʻawale ʻia ke komo lima o ka Ferrite magnetic ring i loko o ke apo ferry manganese-zinc a me ke apo ferrit nickel-zinc. Kaukaʻi ʻia i nā mea i hoʻohana ʻia, ʻokoʻa nō hoʻi ka mea i hoʻohelu ʻia. ʻO ka nickel-zinc ferrite magnetic ring i hana nui ʻia i ka hao, nickel, a me nā zinc oxides a i ʻole nā ​​paʻakai, a hana ʻia e electr ...
    Heluhelu hou aʻe
  • The role of magnetic ring inductance

    Ke kuleana o ke komo lima o nā mākēneki

    ʻO ke apo mēkia o ka mea hana inductor ring magnet a me ke kaula hoʻohui e hana i kahi inductor (ʻo ka uea i loko o ke kaula kaula ua ʻeha ʻia ma ke apo manamana ma ke ʻano he coil inductance). ʻO ia kahi mea anti-interferensi i hoʻohana pinepine ʻia i nā kaʻa uila a maikaʻi no ka walaʻau kiʻekiʻe pinepine. ʻO ka sh ...
    Heluhelu hou aʻe
  • The ferrite rob will have different impedance characteristics at different frequencies

    E loaʻa i ka ferrite robe nā ʻano impedance ʻokoʻa ma nā alapine like ʻole

    Mākēneki rob i nā impedance ʻano ʻokoʻa ma nā alapine like ʻole. ʻO ka maʻamau, he liʻiliʻi ka impedance ma nā alapine haʻahaʻa, a piʻi nui ka impedance i nā alapine kiʻekiʻe. ʻO ke kiʻekiʻena hōʻailona pinepine, ʻoi aku ka maʻalahi o ka mālamana o ka mākia e lele i waho. ʻO ka maʻamau, signa ...
    Heluhelu hou aʻe
12 Aʻe> >> ʻAoʻao 1/2