Babban sigogin fasaha
Sigar Fasaha
♦ Awanni 105℃3000
♦ Babban Aminci, Ƙananan Zafi
♦ Ƙaramin LC, Ƙarancin Amfani
♦ Mai bin umarnin RoHS
Ƙayyadewa
| Abubuwa | Halaye | |
| Yanayin Zafin Jiki (℃) | -40℃~+105℃ | |
| Nisan Ƙarfin Wutar Lantarki (V) | 350~500V.DC | |
| Kewayon Ƙarfin Aiki (uF) | 47 〜1000uF(20℃ 120Hz) | |
| Juriyar Ƙarfin Ƙarfi | ±20% | |
| Wutar Lantarki ta yoyo (mA) | <0.94mA ko CV 3, gwajin mintuna 5 a 20℃ | |
| Matsakaicin DF (20)℃) | 0.15(20℃, 120HZ) | |
| Halayen Zafin Jiki (120Hz) | C(-25℃)/C(+20℃)≥0.8 ; C(-40℃)/C(+20℃)≥0.65 | |
| Halayen Impedance | Z(-25℃)/Z(+20℃)≤5 ; Z(-40℃)/Z(+20℃)≤8 | |
| Juriyar Rufewa | Ƙimar da aka auna ta hanyar amfani da na'urar gwajin juriyar rufin DC 500V tsakanin dukkan tashoshi da zoben da aka ɗaure tare da hannun riga mai rufi = 100mΩ. | |
| Ƙarfin Wutar Lantarki Mai Rufi | A shafa AC 2000V tsakanin dukkan tashoshi da kuma zoben da aka ɗaure da hannun riga mai rufewa na tsawon minti 1 kuma babu wata matsala da ta bayyana. | |
| juriya | A yi amfani da ƙarfin wutar lantarki mai ƙima a kan capacitor tare da ƙarfin lantarki wanda bai wuce ƙarfin lantarki mai ƙima ba a ƙarƙashin yanayin 105℃ kuma a yi amfani da ƙarfin lantarki mai ƙima na tsawon awanni 3000, sannan a dawo da shi zuwa yanayin 20℃ kuma sakamakon gwajin ya kamata ya cika buƙatun kamar yadda ke ƙasa. | |
| Saurin canjin ƙarfin aiki (ΔC) | ≤ ƙimar farko 土20% | |
| DF (tgδ) | ≤200% na ƙimar farko ta ƙayyadewa | |
| Wutar lantarki ta yoyo (LC) | ≤ ƙimar farko ta ƙayyadewa | |
| Rayuwar shiryayye | An ajiye Capacitor a cikin yanayin 105℃ na tsawon awanni 1000, sannan a gwada shi a cikin yanayin 20℃ kuma sakamakon gwajin ya kamata ya cika buƙatun kamar yadda ke ƙasa. | |
| Saurin canjin ƙarfin aiki (ΔC) | ≤ ƙimar farko 土 15% | |
| DF (tgδ) | ≤150% na ƙimar farko ta ƙayyadewa | |
| Wutar lantarki ta yoyo (LC) | ≤ ƙimar farko ta ƙayyadewa | |
| (Ya kamata a yi gwajin ƙarfin lantarki kafin gwaji: a shafa ƙarfin lantarki mai ƙima a ƙarshen capacitor ɗin biyu ta hanyar resister na kimanin 1000Ω na tsawon awanni 1, sannan a fitar da wutar lantarki ta hanyar resister na 1Ω/V bayan an yi magani. A sanya a ƙarƙashin zafin da ya dace na tsawon awanni 24 bayan an gama caji, sannan a fara gwaji.) | ||
Zane-zanen Samfura
| ΦD | Φ22 | Φ25 | Φ30 | Φ35 | Φ40 |
| B | 11.6 | 11.8 | 11.8 | 11.8 | 12.25 |
| C | 8.4 | 10 | 10 | 10 | 10 |
Daidaiton gyaran mitar wutar lantarki ta Ripple
Daidaiton Daidaiton Ripple Current
| Mita (Hz) | 50Hz | 120Hz | 500Hz | IKHz | >10KHz |
| Mai daidaita | 0.8 | 1 | 1.2 | 1.25 | 1.4 |
Daidaiton Gyaran Zafin Zafi na Ripple Current Mai ƙima
| Yanayin Yanayi(℃) | 40℃ | 60℃ | 85℃ | 105℃ |
| Abin Gyara | 2.7 | 2.2 | 1.7 | 1 |
Masu amfani da wutar lantarki na Aluminum na IDC3 Series: Samar da mafita mai dorewa da inganci ga samar da wutar lantarki ta uwar garken (Server Power Supplies)
A zamanin dijital na yau, sabar suna aiki a matsayin kayan aiki na asali don adana bayanai, sarrafawa, da watsawa. Aikinsu mai dorewa yana da mahimmanci ga tsarin bayanai gaba ɗaya. Kayayyakin wutar lantarki na sabar, "zuciyar" sabar, dole ne su kasance masu inganci, masu karko, kuma abin dogaro. Kafafun lantarki na aluminum na IDC3, tare da ingantaccen aikinsu, zaɓi ne mai kyau don ƙirar samar da wutar lantarki ta sabar.
Siffofin Fasaha na Babban Samfurin
Ta amfani da kayan aiki na zamani da fasahar sarrafawa, na'urorin IDC3 jerin aluminum electrolytic capacitors suna ba da tsawon rai na awanni 3000 a 105°C. Wannan aikin yana da mahimmanci musamman ga kayan aikin wutar lantarki na uwar garken da ke buƙatar aiki ba tare da katsewa ba 24/7. Tare da kewayon zafin aiki na -40°C zuwa +105°C, waɗannan na'urorin za su iya jure wa mawuyacin yanayin muhalli na ɗakunan uwar garken.
Tare da kewayon ƙarfin lantarki mai ƙima na 350-500V DC da ƙimar ƙarfin lantarki daga 47μF zuwa 1000μF, waɗannan capacitors sun cika cikakkun buƙatun ƙira na da'irorin samar da wutar lantarki na uwar garken. Ƙarancin wutar lantarki (ƙasa da 0.94mA ko 3CV) yana rage yawan amfani da wutar lantarki a yanayin jiran aiki, yana biyan buƙatun ingantaccen amfani da makamashi na cibiyoyin bayanai na zamani.
Manhajoji Masu Mahimmanci a cikin Kayayyakin Wutar Lantarki na Sabar
A cikin ƙirar samar da wutar lantarki ta uwar garken, ana amfani da capacitors na IDC3 a cikin manyan fannoni masu zuwa:
Da'irar matattarar shigarwa: Shigar da wutar lantarki ta uwar garken dole ne ta danne hayaniya mai yawan mita da tsangwama ta lantarki daga hanyar wutar lantarki yadda ya kamata. Tare da kyawawan halaye na mita, capacitors na IDC3 suna cimma matakin asara (DF) wanda bai wuce 0.15 ba a mitar tushe ta 120Hz, suna tace hayaniya yadda ya kamata kuma suna tabbatar da tsarkin wutar shigarwar.
Da'irar Gyaran Wutar Lantarki (PFC): Kayayyakin wutar lantarki na zamani galibi suna amfani da fasahar PFC mai aiki don inganta ingancin makamashi. Kafafun IDC3 suna ba da buffering da tace makamashi a cikin wannan da'irar. Ƙarfin juriyarsu mai ƙarancin daidai gwargwado (ESR) yana taimakawa rage asarar makamashi da inganta ingancin tsarin gabaɗaya. Kwanciyar juriyar samfurin a 105°C yana tabbatar da ingantaccen aiki na da'irar PFC a ƙarƙashin yanayi daban-daban na kaya.
Da'irar juyawa ta DC-DC: Kayayyakin wutar lantarki na uwar garken suna buƙatar samar da fitarwa mai yawa na wutar lantarki don sassa daban-daban, kuma mai canza DC-DC shine ainihin wannan aikin. Kafafun IDC3 suna ba da ajiyar makamashi da kwanciyar hankali na wutar lantarki da ake buƙata a cikin wannan tsari. Babban ƙarfin wutar lantarki (misali, 3750μA don capacitor 500V/1500μF) yana tabbatar da ƙarfin fitarwa mai ƙarfi koda a ƙarƙashin manyan canje-canje na kaya.
Tsarin Aminci da Aiki na Dogon Lokaci
Ingancin samar da wutar lantarki ta uwar garken yana da alaƙa kai tsaye da ingantaccen aikin cibiyar bayanai gaba ɗaya. An tsara capacitors na jerin IDC3 tare da la'akari da aminci na dogon lokaci:
Samfurin yana amfani da wani tsari na musamman na electrolyte da fasahar rufewa don rage bushewar electrolyte yadda ya kamata, yana tabbatar da tsawon rai na sama da awanni 3000. Bugu da ƙari, ana sarrafa canjin ƙarfin capacitor cikin ±20% na ƙimar farko a cikin yanayin zafi mai yawa, tangent na asarar ba ya wuce 200% na ƙayyadaddun farko, kuma kwararar fitarwa tana kasancewa cikin ƙayyadaddun farko. Waɗannan alamun suna tabbatar da ingantaccen aiki a duk tsawon zagayowar rayuwar samfurin.
IDC3 ta kuma wuce gwaji mai tsauri, wanda ke nuna cewa duk sigogi suna nan a cikin ƙayyadaddun bayanai bayan an yi musu gwajin ƙarfin ripple da ƙarfin lantarki na tsawon awanni 3000 a 105°C. Bugu da ƙari, bayan awanni 1000 na ajiya a 105°C, canje-canje a cikin mahimman sigogi kamar ƙimar canjin ƙarfin lantarki, abin da ke haifar da asara, da kuma kwararar iska sun kasance cikin iyakokin da aka yarda da su, wanda ke nuna kyakkyawan aikinta.
Daidaitawa da Bukatu na Musamman na Kayayyakin Wutar Lantarki na Server
Kayayyakin wutar lantarki na uwar garken (server energy) suna samar da zafi mai yawa yayin aiki, wanda galibi yakan haifar da zafi mai yawa a cibiyoyin bayanai. Halayen zafin jiki mai ƙarancin ƙarfi na jerin IDC3 suna tabbatar da aiki mai dorewa koda a cikin yanayin zafi mai yawa. Ma'aunin gyaran zafin samfurin yana nuna ma'aunin gyaran wutar lantarki na ripple na 1 a 105°C, ma'ana capacitor yana kiyaye aikin da aka kimanta ko da a cikin yanayin zafi mai yawa.
Dangane da halayen mita, IDC3 yana nuna kyakkyawan daidaitawa a cikin mita daban-daban. Daga 50Hz zuwa sama da 10kHz, ma'aunin gyaran ripple current na samfurin yana ƙaruwa a hankali daga 0.8 zuwa 1.4, yana ba shi damar sarrafa abubuwan jituwa na mita daban-daban da ake samu a cikin samar da wutar lantarki ta uwar garken yadda ya kamata.
Tsaro da Kare Muhalli
Tsaro babban fifiko ne a cikin ƙirar samar da wutar lantarki ta uwar garken. An tsara capacitors na jerin IDC3 ne da la'akari da aminci: juriyar rufinsu ta wuce 100MΩ kuma suna iya jure wa 2000V AC na tsawon minti ɗaya ba tare da wata matsala ba. Waɗannan fasalulluka suna hana haɗarin gajerun da'irori da ke haifar da lalacewar capacitor, suna kare tsarin samar da wutar lantarki gaba ɗaya.
Jerin IDC3 kuma ya bi umarnin RoHS kuma ba ya ƙunshe da abubuwa masu haɗari kamar gubar, mercury, da cadmium, wanda ya cika buƙatun muhalli na kayayyakin lantarki na zamani. Ga manyan cibiyoyin bayanai, wannan ba wai kawai yana rage nauyin muhalli ba ne, har ma yana bin ƙa'idodin muhalli masu tsauri a ƙasashe daban-daban.
Darajar Aikace-aikacen Aiki
A aikace-aikace masu amfani, capacitors na jerin IDC3 suna ba da fa'idodi da yawa ga kayan aikin wutar lantarki na uwar garken:
Inganta Ingantaccen Amfani da Makamashi: Ƙananan ESR da ƙarancin asara suna taimakawa wajen rage asarar makamashi a cikin samar da wutar lantarki, yana inganta ingancin tsarin gabaɗaya. Ga manyan cibiyoyin bayanai waɗanda ke da adadi mai yawa na sabar, ko da ƙananan haɓaka inganci na iya haifar da babban tanadin makamashi.
Inganta Sararin Samaniya: Ƙaramin girmansu yana ba da damar ƙara ƙirar samar da wutar lantarki mai ƙarko, wanda ke taimakawa wajen cimma babban ƙarfin wutar lantarki. Wannan yana da mahimmanci musamman a cikin iyakataccen sararin cibiyoyin bayanai na zamani.
Ingantaccen Aminci: Tsawon rayuwarsu da kuma kwanciyar hankali mai zafi suna rage lalacewar samar da wutar lantarki da lalacewar capacitor ke haifarwa, wanda hakan ke inganta samuwar sabar gaba daya. Ga aikace-aikacen matakin kasuwanci da ke buƙatar isasshen samuwa, wannan yana nufin ƙarancin lokacin aiki da kuɗin kulawa.
Rage Jimlar Kudin Mallaka: Duk da cewa farashin farko na iya ɗan fi na na capacitors na yau da kullun, amincin dogon lokaci da ƙarancin gazawar IDC3 yana rage jimlar farashin mallaka ga sabar sosai.
Kammalawa
Na'urorin IDC3 na aluminum electrolytic capacitors, tare da ingantaccen aikin fasaha da amincinsu, suna ba da tallafi mai ƙarfi ga kayan aikin wutar lantarki na uwar garken. A cikin canjin dijital na yau da sauri, wadatattun kayan aikin wutar lantarki na uwar garken suna da mahimmanci don tabbatar da ingantaccen aiki na tsarin bayanai na kasuwanci. Zaɓar na'urorin IDC3 jerin capacitors ya fi kawai zaɓar wani ɓangare na lantarki; yana ba da garanti mai ƙarfi don aiki mai dorewa na tsarin uwar garken na dogon lokaci.
Tare da saurin haɓaka fasahohi kamar 5G, fasahar wucin gadi, da kuma lissafin girgije, buƙatun aikin uwar garken za su ci gaba da ƙaruwa. Ta hanyar ƙirƙira da inganta tsarin aiki, na'urorin IDC3 za su ci gaba da biyan buƙatun nan gaba na inganci mai yawa, yawan aiki, da kuma babban aminci a cikin samar da wutar lantarki ta uwar garken, wanda ke ba da gudummawa ga ci gaban tattalin arzikin dijital.
| Ƙarfin Wutar Lantarki Mai Ƙimar (Ƙarfin Wutar Lantarki) (V) | Ƙarfin Nominal (μF) | Girman Samfuri (D·L, mm) | Tan δ | ESR (mΩ) | Ripple Current mai ƙima (μA) | LC (pA) | Lambar Sashen Samfurin | Mafi ƙarancin Adadin Kunshin |
|---|---|---|---|---|---|---|---|---|
| 100 (125) | 4700 | 35×50 | 0.2 | 57 | 4100 | 940 | IDC32R472MNNAS07S2 | 200 |
| 450 (500) | 950 | 25×70 | 0.15 | 314 | 2180 | 940 | IDC32W821MNNYG01S2 | 208 |
| 450 (500) | 1400 | 30×70 | 0.15 | 215 | 2750 | 940 | IDC32W122MNNXG01S2 | 144 |
| 450 (500) | 1500 | 30×80 | 0.15 | 184 | 3200 | 940 | IDC32W142MNNXG03S2 | 144 |
| 500 (550) | 1500 | 30×85 | 0.2 | 226 | 3750 | 940 | IDC32H142MNNXG04S2 | 144 |
| 500 (550) | 1700 | 30×95 | 0.2 | 197 | 4120 | 940 | IDC32H162MNNXG06S2 | 144 |
