HK-04G-LZ-108
5A 250VAC Mini Micro Switch T125 5E4 kwisixhobo sasekhaya
| (Iimpawu ezichazayo zokusebenza) | (Iparamitha yokuSebenza) | (Ushunqulelo) | (Iiyunithi) | (Ixabiso) |
|
| (Indawo yasimahla) | FP | mm | 12.1±0.2 |
| (Isikhundla sokuSebenza) | OP | mm | 11.5±0.5 | |
| (Isikhundla sokukhulula) | RP | mm | 11.7±0.5 | |
| (Indawo yohambo iyonke) | TTP | mm | 10.5±0.3 | |
| (Amandla okusebenza) | OF | N | 1.0-3.5 | |
| (Ukukhulula amandla) | RF | N | - | |
| (Amandla ohambo ewonke) | TTF | N | - | |
| (Uhambo lwangaphambili) | PT | mm | 0.3-1.0 | |
| (Ngaphezu kohambo) | OT | mm | 0.2(Umzuzu) | |
| (Ukwahluka kwentshukumo) | MD | mm | 0.4(Ubukhulu) |
Tshintsha iimpawu zobugcisa
| (INTO) | (iparamitha yobuchwephesha) | (Ixabiso) | |
| 1 | (Umlinganiselo woMbane) | 5(2)A 250VAC | |
| 2 | (Ukuchasa uQhagamshelwano) | ≤50mΩ( Ixabiso lokuqala) | |
| 3 | (Ukumelana ne-Insulation) | ≥100MΩ(500VDC) | |
| 4 | (i-Dielectric Voltage) | (phakathi kweetheminali ezingadityaniswanga) | 500V/0.5mA/60S |
|
|
| (phakathi kweetheminali kunye nesakhelo sentsimbi) | 1500V/0.5mA/60S |
| 5 | (Ubomi boMbane) | ≥10000 imijikelo | |
| 6 | (Ubomi boomatshini) | ≥100000 imijikelo | |
| 7 | (Ubushushu bokusebenza) | -25℃125℃ | |
| 8 | (Izandi zokuSebenza) | (Ezombane):15imijikelo (Oomatshini):60imijikelo | |
| 9 | (ubungqina bokungcangcazela) | (Izandi zokungcangcazela):10-55HZ; (I-Amplitude): 1.5mm; (Imikhomba-ndlela emithathu): 1H | |
| 10 | (Amandla e-Solder): (Ngaphezu kwe-80% yenxalenye entywilisiweyo iya kugqunywa nge-solder) | (Ubushushu beSoldering): 235±5℃ (Ixesha lokuntywiliselwa):2~3S | |
| 11 | (Ukumelana nobushushu beSolder) | (Dip Soldering):260±5℃ 5±1S (Ukusoda ngesandla):300±5℃ 2~3S | |
| 12 | (iiMvume zoKhuseleko) | UL, CSA, VDE, ENEC, CE | |
| 13 | (Iimeko zoVavanyo) | (Ubushushu be-Ambient):20±5℃ (Ukufuma okuzalanayo):65±5%RH (Uxinzelelo loMoya):86~106KPa | |
Ngaba i-micro switch iya kukhulula umthombo wokuphazamiseka?
Ngaba i-micro switch iya kukhulula umthombo wokuphazamiseka?
Isixhobo sokutshintsha i-micro sisixhobo sokutshintsha esisezantsi-yangoku, esine-voltage ephantsi kwisixhobo sombane kunye nezixhobo zombane ezizisebenzelayo kwishishini. Ngenxa yesantya esisezantsi sokusebenza kunye nolawulo oluncinci lwangoku, ngokubanzi aluvelisi ukuphazamiseka kwe-electromagnetic kunye nokuphazamiseka kwe-harmonic.
Nangona kukho ukuphazamiseka okubuthathaka, i-transformer yodwa esetyenziswa kwisiphaluka solawulo kunye nezihlungi ezahlukeneyo ezifakwe kwi-PLC, isikrini sokuchukumisa kunye namanye amacandelo anokunciphisa ukuphazamiseka kwinqanaba eliphantsi kakhulu, elingenamsebenzi.
Ngokwenkcazo yokuphazamiseka, kunokubonwa ukuba umqondiso uphazamisana kuba unempembelelo embi kwinkqubo. Ngaphandle koko, ayinakubizwa ngokuba yingxaki. Iyakwazi ukwaziwa kwizinto ezibangela ukuphazamiseka ukuba ukuphelisa nayiphi na enye yezinto ezintathu kuya kuphepha ukuphazamiseka. Itekhnoloji ye-Anti-jamming zizinto ezintathu zophando kunye nokusebenza.
Izixhobo ezenza imiqondiso yophazamiseko zibizwa ngokuba yimithombo yophazamiseko, enje ngee-transformers, iirelay, izixhobo ze-microwave, iimotor, iifowuni ezingenazintambo, iintambo zombane ophezulu, njl.njl., ezinokuvelisa imiqondiso yombane emoyeni. Kakade ke, imibane, ilanga kunye nemitha yendalo yonke zingumthombo wokuphazamiseka.
I-Electronics yaseMzantsi-mpuma
Ukuqulunqwa kokuphazamiseka kubandakanya izinto ezintathu: umthombo wokuphazamiseka, indlela yokuhambisa kunye nokufumana umthwali. Ngaphandle kwayo nayiphi na kwezi zinto zintathu, akuyi kubakho ukuphazamiseka.
Indlela yokusasaza ibhekisa kwindlela yokusasaza yophawu lophazamiseko. Iimpawu ze-electromagnetic zisasazeka kumgca othe ngqo emoyeni, kwaye usasazo lokungena lubizwa ngokuba yi-radiation propagation; Inkqubo yemiqondiso ye-electromagnetic esasazeka kwisixhobo ngeengcingo ibizwa ngokuba yi- conduction propagation. Umzila wothumelo sesona sizathu siphambili sokusasazeka kunye nobuninzi bokuphazamiseka.
Iphaneli yokulawula okanye isikrini sokuchukumisa singumthwali ofumanayo, oku kuthetha ukuba ikhonkco elithile lesixhobo esichaphazelekayo sithatha izibonakaliso zokuphazamiseka kwaye ziguqule kwiiparamitha zombane ezichaphazela inkqubo. Umphathiswa ofumanayo akakwazi ukubona umqondiso wokuphazamiseka okanye unciphise umqondiso wokuphazamiseka, ukuze ungathinteki kukuphazamiseka, kwaye amandla okuchasana aphuculwe. Inkqubo yokufumana i-carrier carrier iba yi-coupling, kwaye i-coupling inokwahlulwa ibe ziindidi ezimbini: i-conductive coupling kunye ne-radiation coupling. Ukudityaniswa kwe-conduction kuthetha ukuba amandla e-electromagnetic adityaniswa nomthwali owamkelayo ngeengcingo zentsimbi okanye izinto ezidityanisiweyo (ezinje ngee-capacitors, transformers, njl. njl.). ) Ngendlela yombane okanye yangoku. Ukudityaniswa kwemitha kuthetha ukuba amandla ophazamiseko lwe-electromagnetic adityaniswa kumthwali owamkelayo ngendlela yommandla wombane wombane esithubeni.
Kwimeko yokusebenza yenkqubo ye-mechatronics, kukho inani elikhulu leempawu ze-electromagnetic, ezifana nokuguquguquka kwegridi yamandla, ukuqala kunye nokuyeka izixhobo eziphezulu ze-voltage, i-radiation ye-electromagnetic yezixhobo eziphezulu ze-voltage kunye nokutshintsha, njl.
Inokubonwa apha ngasentla ukuba i-micro-switches ngokubanzi ayivelisi ukuphazamiseka kwe-electromagnetic kunye nokuphazamiseka kwe-harmonic.
