What is the difference between an inductor and an inductor?Let's follow the hale hana inductance e maopopo ai:
ʻŌwili hao hoʻokomo
ʻO ka wili e hoʻopili ana i ka uea ʻeha a puni a me kahi ʻōpala insulated i insulated mai kekahi i kekahi, a he hollow paha ka paipu hoʻohaʻahaʻa, a i ʻole he ʻāpana hao a i ʻole he kumu pauka mākū
Inductance coils are devices that work on the principle of electromagnetic induction.When an electric current flows through a wire, an electromagnetic field is generated around the wire, and the wire itself is induced to the wire in the electromagnetic field.The effect on the wire itself, which produces the electromagnetic field, is called "self-induction", that is, the changing current generated by the wire itself produces a changing magnetic field, which further affects the current in the wire;The effect on other wires in this electromagnetic field range is called mutual inductance.
The electrical properties of an inductor coil are the opposite of those of a capacitor, "switching low frequencies and blocking high frequencies".High frequency signal will encounter great resistance when passing through the inductance coil, and it is difficult to pass.The resistance to the low-frequency signal passing through it is relatively small, that is, the low-frequency signal can pass through it easily.The resistance of an inductor to direct current is almost zero.
Resistance, capacitance, and inductance all exhibit resistance to the flow of electrical signals in a circuit. This resistance is called "impedance".The impedance of an inductor to a current signal utilizes the coil's self-induction.Inductance coils are sometimes referred to simply as "inductance" or "coil", denoted by the letter "L".When winding an inductor coil, the number of turns of the coil wound is commonly referred to as the number of turns of the coil.
inductor
ʻO nā Inductors nā ʻāpana i hiki ke mālama ʻia e ka hoʻololi ʻana i ka ikehu uila i ka ikehu ʻume mākenēki. ʻO kahi inductor he ʻano like me ka transformer akā hoʻokahi wale nō wili. He inductance kahi inductor e pale wale ai i kahi loli i kēia manawa. Inā aia ka inductor i ka mokuʻāina o ka hala ʻole i kēia manawa, e hoʻāʻo ia e pale i ke kahe o ke kahe i loko o ia ke pani ʻia ke kaapuni; inā aia kahi mea hoʻokomo i kahi moku i kēia manawa, e hoʻāʻo ia e hoʻopaʻa i ke kūmau o kēia wā ke hemo kaapuni. , mea hoʻoheheʻe, mea hoʻoheheʻe hōʻeuʻeu.
Hiki ke hana ʻia kahi inductance e ka wili ʻana i kahi aʻa mākē me nā mea conductive, ka maʻamau o ka uea keleawe, a i ʻole ka hemo ʻana i ke kumu a i ʻole ke pani ʻana iā ia me kahi mea ferromagnetic. ʻO kahi mea nui me ka permeability ʻoi aku ka kiʻekiʻe ma mua o ka ea e hiki ke kaohi i ka māla ʻume mākenēki a puni ka ʻO ke kinona inductor, no laila e hoʻonui ana i ka inductance. Nui a hewahewa nā ʻano inductors, ka hapa nui o ia mau mea i uhi ʻia me nā wili enamel i wahī ʻia a puni nā spindles ferrite, ʻoiai kahi mau inductors pale e hoʻonoho i nā wili āpau i loko o ka ferrite. Hiki ke hoʻoponopono i nā ʻāpana o kekahi mau inductors. Pēlā hiki ke hoʻololi i ka inductance. Hiki ke hoʻopaʻa pololei ʻia i nā inductors liʻiliʻi ma luna o ka PCB, me ka hoʻohana ʻana i kahi ala o ke kau ʻana i nā ala ʻoniʻoni. Hiki ke hana ʻia nā mea hoʻoliʻiliʻi liʻiliʻi i nā kaapuni hoʻohui i ka hana like me nā transistors. I kēia mau noi, pili nā aluminika hoʻohana pinepine ʻia e like me ke alakaʻi ʻana i nā mea. I kēlā me kēia ala, ʻo ke kaohi maʻamau i hoʻokumu ʻia i ka hoʻohana maoli ʻana he kaapuni i kapa ʻia he rotator, kahi e hoʻohana ai i kahi capacitor a me a a e hōʻike i nā ʻano like me ke ʻano inductor. Hoʻokomo pinepine ʻia nā mea hoʻohana no ka hoʻokaʻawale ʻana i nā alapine kiʻekiʻe o ka uea e hele ana i loko o kahi kolamu a me ka lei.
SMD mōlina Power Inductor -SGT
ʻOkoʻa ka ʻōpana inductance mai ka inductor
He mea nui ka ʻōwili hoʻowalewale i ka mea hoʻokomo. No ka mea ʻo ka inductor ka mea i haku ʻia me ka iwi iwi, wili ʻana (coil), pale kaua, nā mea ukana, ʻume mākenēki a i ʻole kumu, a pēlā aku.
ʻO nā Inductors nā ʻāpana i hiki ke mālama ʻia e ka hoʻololi ʻana i ka ikehu uila i ka ikehu ʻume mākenēki. ʻO kahi inductor he ʻano like me ka transformer akā hoʻokahi wale nō wili. He inductance kahi inductor e pale wale ai i kahi loli i kēia manawa. Inā aia ka inductor i ka mokuʻāina o ka hala ʻole i kēia manawa, e hoʻāʻo ia e pale i ke kahe o ke kahe i loko o ia ke pani ʻia ke kaapuni; inā aia kahi mea hoʻokomo i kahi moku i kēia manawa, e hoʻāʻo ia e hoʻopaʻa i ke kūmau o kēia wā ke hemo kaapuni. , mea hoʻoheheʻe, mea hoʻoheheʻe hōʻeuʻeu.
Inductance coils are devices that work on the principle of electromagnetic induction.When an electric current flows through a wire, an electromagnetic field is generated around the wire, and the wire itself is induced to the wire in the electromagnetic field.The effect on the wire itself, which produces the electromagnetic field, is called "self-induction", that is, the changing current generated by the wire itself produces a changing magnetic field, which further affects the current in the wire;The effect on other wires in this electromagnetic field range.
mea hoʻoulu radial 1mh RLP0913W3R-6.5MH-E
ʻO ka mea i luna aʻe ka coil inductance a me ka inductance i kahi ʻokoʻa e hoʻolauna ai; He mea hana hoʻokomo , e ʻoluʻolu e ʻike i kā mākou: iho inductor, kahahānai inductor....
Ka manawa o ka manawa: Dec-16-2020