I-TPS63030DSKR - Izifunda Ezididiyelwe, Ukuphathwa kwamandla, Izilawuli zamandla kagesi - Izilawuli zokushintshwa kwe-DC DC
Izimfanelo Zomkhiqizo
| UHLOBO | DESCRIPTION |
| Isigaba | Izifunda Ezihlanganisiwe (ICs)Ukuphathwa kwamandla (PMIC) |
| Mfr | Texas Instruments |
| Uchungechunge | - |
| Iphakheji | I-Tape & Reel (TR)Cut Tape (CT) I-Digi-Reel® |
| Isimo somkhiqizo | Iyasebenza |
| Umsebenzi | Isinyathelo-phezulu/Yehla-Phansi |
| Ukucushwa Kokukhiphayo | Okuhle |
| I-Topology | I-Buck-Boost |
| Uhlobo Lokukhiphayo | Kuyalungiseka |
| Inombolo Yemiphumela | 1 |
| I-Voltage - Okokufaka (Okuncane) | 1.8V |
| I-Voltage - Okokufaka (Ubukhulu) | 5.5V |
| I-Voltage - Okukhiphayo (Okuncane/Okulungisiwe) | 1.2V |
| I-Voltage - Okukhiphayo (Ubukhulu) | 5.5V |
| Okwamanje - Okukhiphayo | 900mA (Shintsha) |
| Imvamisa - Ukushintsha | 2.4MHz |
| I-synchronous Rectifier | Yebo |
| Izinga Lokushisa Lokusebenza | -40°C ~ 85°C (TA) |
| Uhlobo Lokukhweza | INtaba Engaphezulu |
| Iphakheji / Ikesi | Iphedi Eveziwe engu-10-WFDFN |
| Iphakheji Yedivayisi Yomhlinzeki | 10-INDODANA (2.5x2.5) |
| Inombolo Yomkhiqizo Eyisisekelo | I-TPS63030 |
Amadokhumenti Nemidiya
| UHLOBO LOKUSEBENZA | LINK |
| Datasheets | I-TPS63030,31 |
| Umkhiqizo Ofakiwe | Ukuphathwa kwamandla |
| I-PCN Design/Specification | I-Mult Dev Material Chg 29/Mar/2018TPS63030/TPS63031 11/May/2020 |
| I-PCN Assembly/Origin | Isengezo Sesizinda Somhlangano/sokuhlola 11/Dec/2014 |
| I-PCN Packaging | QFN, SON Reel Diameter 13/Sep/2013 |
| Ikhasi Lomkhiqizo Womkhiqizi | Imifanekiso ye-TPS63030DSKR |
| I-HTML Datasheet | I-TPS63030,31 |
| Amamodeli we-EDA | I-TPS63030DSKR ye-SnapEDAI-TPS63030DSKR ngu-Ultra Librarian |
Izigaba Zemvelo Nokuthekelisa
| ISIQINISEKISO | DESCRIPTION |
| Isimo se-RoHS | I-ROHS3 Iyahambisana |
| Izinga Lokuzwela Komswakama (MSL) | 1 (Okungenamkhawulo) |
| FIKA Isimo | FIKA Ungathintekile |
| ECCN | I-EAR99 |
| HTSUS | 8542.39.0001 |
Isingeniso Esiningiliziwe
I-PMIC
Ukuhlukaniswa:
Ama-chips okuphatha amandla angama-chips amabili asemgqeni noma amaphakheji e-surface mount, lapho ama-chips e-HIP630x angama-chips okuphatha amandla akudala kakhulu, aklanywe inkampani edumile yokuklama ama-chip i-Intersil.Isekela ukunikezwa kwamandla okubili/ezintathu/ezigaba ezine, isekela ukucaciswa kwe-VRM9.0, ububanzi bokuphuma kwamandla kagesi ngu-1.1V-1.85V, ingalungisa okukhiphayo ngo-0.025V isikhawu, imvamisa yokushintsha ifika ku-80KHz, inamandla amakhulu ukuhlinzeka, ukukhala okuncane, ukumelana okuncane kwangaphakathi nezinye izici, kungalungisa kahle i-voltage ye-CPU yamandla.
Incazelo:
Isekethe edidiyelwe yokuphathwa kwamandla (IC) iyi-chip enesibopho sokuguqula, ukusatshalaliswa, ukutholwa, nokunye ukuphathwa kwamandla kagesi ezinhlelweni zempahla kagesi.Isibopho sawo esikhulu ukuguqula ama-voltage omthombo nama-currents abe amandla kagesi angasetshenziswa ama-microprocessors, izinzwa, neminye imithwalo.
Ngo-1958, unjiniyela waseTexas Instruments (TI) uJack Kilby wasungula isekethe ehlanganisiwe, ingxenye ye-elekthronikhi ebizwa ngokuthi i-chip, eyavula inkathi entsha yokucubungula amasiginali namandla kagesi, kwathi uKilby waklonyeliswa ngendondo yeNobel kuPhysics ngo-2000 ngokusungulwa.
Ibanga lohlelo lokusebenza:
I-chip yokuphatha amandla isetshenziswa kabanzi, ukuthuthukiswa kwe-chip yokuphatha amandla ukuthuthukisa ukusebenza komshini kubaluleke kakhulu, ukukhetha kwe-chip yokuphatha amandla kuhlobene ngokuqondile nezidingo zohlelo, kanye nokuthuthukiswa kwe-chip yokuphatha amandla edijithali nakho. idinga ukweqa umgoqo wezindleko.
Ezweni lanamuhla, impilo yabantu iyisikhashana ayikwazi ukuhlukaniswa nemishini kagesi.I-chip yokuphatha amandla ohlelweni lwemishini kagesi inesibopho sokuguqula amandla kagesi, ukusatshalaliswa, ukutholwa kanye neminye imithwalo yemfanelo yokuphatha amandla kagesi.I-chip yokuphatha amandla ibalulekile ohlelweni lwe-elekthronikhi, futhi ukusebenza kwayo kunomthelela oqondile ekusebenzeni komshini.
