Amapharamitha aphambili wezobuchwepheshe
| umklamo | -yisimilo | |
| uhla lokushisa lokusebenza | -55 ~ + 105 ℃ | |
| Ukukalwa kwamandla kagesi | 2,5-25v | |
| uhla | 6.8-10000 120hz / 20 ℃ | |
| Ukubekezelela Amandla | ± 20% (120Hz / 20 ℃) | |
| Ukulahleka Kwe-Tangent | I-120Hz / 20 ℃ ngaphansi kwenani ohlwini lwemikhiqizo ejwayelekile | |
| Ukuvuza kwamuva | Shaja imizuzu emi-5 ku-voltage ekalwe ngezansi kwenani ohlwini lwemikhiqizo ejwayelekile ngo-20 ° C | |
| Ukumelana nochungechunge olufanayo (ESR) | I-100KHZ / 20 ℃ ngaphansi kwenani ohlwini lwemikhiqizo ejwayelekile | |
| Surge Voltage (V) | Izikhathi eziyi-1.15 The Card Voltage | |
|
Ukuqina | Umkhiqizo kufanele uhlangabezane nezidingo zokusebenzisa i-voltage ekhiqizwe ngokusebenza kwamahora angama-2000 ekushiseni kwe-105 ° C bese uyibeka ku-20 ° C | |
| Izinga lokushintsha kweCapacitance | ± 20% yenani lokuqala | |
| Ukulahleka Kwe-Tangent | ≤150% yenani lokucaciswa lokuqala | |
| Ukuvuza kwamuva | Inani lokucaciswa kwe-≤Ingitial | |
|
Ukushisa okuphezulu kanye nomswakama | Umkhiqizo kufanele uhlangabezane nemibandela yokushisa engama-60 ° C, 90% ~ 95% ~ 95% RH umswakama wamahora angama-500, akukho voltage esetshenzisiwe, futhi ngemuva kwamahora ayi-16 ku-20 ° C: | |
| Izinga lokushintsha kweCapacitance | + 40% -20% yenani lokuqala | |
| Ukulahleka Kwe-Tangent | ≤150% yenani lokucaciswa lokuqala | |
| Ukuvuza kwamuva | ≤300% yenani lokuqala lokucaciswa | |
Ukuvikelwa kokushisa kwe-Ripple ekalwe
| izinga lokushisa nokubanda | -55 ℃ | 45 ℃ | 85 ℃ |
| Kukalwe i-coefficial engu-105 ° C | 1 | 0.7 | 0.25 |
| Qaphela: Ukushisa komhlaba kwe-capacitor akungeqi ukushisa komkhiqizo okuphezulu | |||
Kukalwe ukulungiswa kwamanje okusemthethweni
| Ubuningi bokwenzeka | 120hz | I-1KHZ | I-10KHZ | 100-300khz |
| ukulungisa | 0.1 | 0.45 | 0.5 | 1 |
Uhlu Lomkhiqizo Ojwayelekile
| Amandla kagesi | Ukushisa okulinganiselwe (℃) | ICapacitance (UF) | Ubukhulu (mm) | LC (UA, 5MIN) | TanΔ 120hz | ESR (MωI 100KHZ) | I-RIPLE yamanje, (Ma / RMS) 45 ° C100Khz | ||
| L | W | H | |||||||
| 16 | 105 ℃ | 10 | 3.2 | 1.6 | 1.6 | 16 | 0.1 | -Mashumi | 800 |
| 20 | 105 ℃ | 10 | 3.2 | 1.6 | 1.6 | 20 | 0.1 | -Mashumi | 800 |
| 25 | 105 ℃ | 6.8 | 3.2 | 1.6 | 1.6 | 17 | 0.1 | -Mashumi | 800 |
| 105 ℃ | 10 | 3.2 | 1.6 | 1.6 | 25 | 0.1 | -Mashumi | 800 | |
Ama-Capacitors e-Tantalumziyizakhi ze-elektroniki zomndeni wakwaCapacitor, zisebenzisa i-tantalum Metal njengezinto ze-electrode. Basebenzisa i-tantalum ne-oxide njenge-dielectric, ngokuvamile esetshenziswa emibuthanweni yokuhlunga, ukuhlanganisa nokukhokhisa. Ama-capacitors e-tantalum abhekwa kakhulu ngezimpawu zawo ezinhle kakhulu zikagesi, ukuqina, kanye nokwethenjwa, ukuthola izinhlelo ezisakazekile kuwo wonke amasimu ahlukahlukene.
Izinzuzo:
- Ubukhulu obuphezulu be-Capacitance: Ama-Capacitors e-Tantalum anikela ngobuningi obuphezulu be-capcicitance, okwazi ukugcina inani elikhulu levolumu elincane, elenza lilungele amadivayisi we-compact elektroniki.
- Ukuqina nokuthembela: Ngenxa yezindawo ezingamakhemikhali ezizinzile ze-tantalum Metal, ama-capacitors e-tantalum akhombisa ukuqina nokuthembeka, okwazi ukusebenza ngokuningi ahlukahlukene amazinga okushisa nama-volitages ahlukahlukene.
- I-ESR ephansi kanye nokuvuza kwamanje: I-Tantalum Capacitors ifaka ukumelana okulinganayo kochungechunge (ESR) kanye nokuvuza kwamanje, ukuhlinzeka ukusebenza okuphezulu nokusebenza okungcono.
- Isikhathi Eside: Ngokuqina kwabo kanye nokwethenjwa, ama-capacitors e-tantalum ngokuvamile anesikhathi eside isikhathi eside, ahlangabezana nezidingo zokusetshenziswa kwesikhathi eside.
Izicelo:
- Imishini Yezokuxhumana: Ama-Capacitor aseTantalum asetshenziswa kakhulu kumafoni aphathekayo, amadivayisi wenethiwekhi angenantambo, ukuxhumana kwe-satellite, kanye nengqalasizinda yezokuxhumana yokuhlunga, ukuhlanganisa, nokuphathwa kwamandla.
- Amakhompyutha kanye ne-Consumer Electronics: Kumabhodi we-computer, amamojula wamandla, ukuboniswa, kanye nemishini yokulalelwayo, ama-capacitors e-tantalum aqashwa ngokuqina kwamandla kagesi, ukuqoqwa kwamandla okubusheleleka, kanye nokubusheleleka kwamanje.
- Izinhlelo zokulawula izimboni: Ama-Tantalum Capacitors adlala indima ebalulekile ezinhlelweni zokulawula izimboni, imishini ezenzakalelayo, namarobhothi ukuphathwa kwamandla, ukucubungula kwesiginali kanye nokuvikelwa kwesifunda.
- Amadivaysi ezokwelapha: Emishini yokucabanga yezokwelapha, ama-pacemaker, namadivayisi wezokwelapha angenakufinyeleleka, ama-capacitors e-tantalum asetshenziselwa ukuphathwa kwamandla kanye nokusebenza kwesiginali, ukuqinisekisa ukuqina kanye nokwethembeka kwemishini.
Isiphetho:
Ama-Capacitors e-Tantalum, njengezakhi eziphezulu ze-elekthronikhi, anikezela ngobuningi obuhle kakhulu, ukuqina, ukudlala, ukudlala izindima ezibalulekile kwezokuxhumana, ukwenza amakhampasi, kanye nasezinkameni zezokwelapha. Ngentuthuko eqhubekayo yezobuchwepheshe kanye nokwandisa izindawo zohlelo lokusebenza, abakwaTantalum Capacitors bazoqhubeka nokugcina isikhundla sabo abaphambili, bahlinzeka ngokusekelwa okubucayi kokusebenza kanye nokwethenjwa kwamadivayisi we-elekthronikhi.
| Inombolo Yemikhiqizo | I-Voltage (V) | Lokushisa (℃) | Isigaba VOLT (V) | Isigaba lokushisa (c) | Amandla (i-UF) | Ubukhulu (mm) | LC (UA, 5MIN) | TanΔ 120hz | I-ESR MωOLNOHZ | Ripple yamanje (Ma / RMS) 45 ℃ LookHz | ||
| L | W | H | ||||||||||
| I-TPA100M1CA16200RN | 16 | 105 ℃ | 16 | 105 ℃ | 10 | 3.2 | 1.6 | 1.6 | 15 | 0.1 | -Mashumi | 800 |
| I-TPA100M1DA16200NN | 20 | 105 ℃ | 20 | 105 ℃ | 10 | 3.2 | 1.6 | 1.6 | 20 | 0.1 | -Mashumi | 800 |
| TPA6R8M116200RN | 25 | 105 ℃ | 25 | 105 ℃ | 6.8 | 3.2 | 1.6 | 1.6 | 17 | 0.1 | -Mashumi | 800 |
| I-TPA100m1100RN | 105 ℃ | 25 | 105 ℃ | 10 | 3.2 | 1.6 | 1.6 | 25 | 0.1 | -Mashumi | 800 | |
