購買電容并非是僅僅購買同一型號(hào)或者是同一類型的電容即可，而是要看很多實(shí)質(zhì)性的因素。電容的購買是有一定技巧的，并非是人們所想的那么簡單。電解電容廠家就來分享一下選購電容的小技巧有哪些。

　　The purchase of capacitor is not only to buy the same model or the same type of capacitor, but also depends on many substantive factors. Capacitor purchase is a certain skill, not as simple as people think. Electrolytic capacitor manufacturers to share the choice of capacitor tips which have.

　　采購電容之前首先要看品牌，主要有：三禾、三瑩、NICHICON，RUBICON，RUBYCON（紅寶石）、KZG、SANYO（三洋）、PANASONIC（松下）、NIPPON、FUJITSU（富士通），TAICON、G-LUXCON、TEAPO、CAPXON、OST、GSC、RLS等。

　　Before purchasing capacitors, you should first look at the brands, mainly including Sanhe, Sanying, Nichicon, Rubicon, Rubycon, kzg, Sanyo, Panasonic, Nippon, Fujitsu, taicon, g-luxcon, teapo, capxon, OST, GSC, RLS, etc.

　　一般說來日系電容性能比較好，在耐壓、耐溫、使用壽命等方面都比臺(tái)系電容優(yōu)秀，早期的電容"爆漿"事件，也沒有發(fā)生在日系電容上，因此如果你要選擇一塊超頻性、穩(wěn)定性兼?zhèn)涞闹靼?，不妨看看主板上的電容?/p>

　　Generally speaking, the performance of Japanese series capacitors is better than that of Taiwan series capacitors in terms of withstand voltage, temperature resistance and service life. The early "slurry explosion" of capacitors did not occur on Japanese capacitors. Therefore, if you want to choose a motherboard with both overclocking and stability, you can look at the capacitance on the motherboard.

　　臺(tái)系電容雖然性能相對稍差，不過如果主板的PCB設(shè)計(jì)、銅箔走線都較為規(guī)范，那么在使用中一般也不會(huì)出現(xiàn)什么問題，況且采用臺(tái)系電容的主板超頻性也不一定差。

　　Although the performance of the stage capacitor is relatively poor, if the PCB design and copper foil wiring of the motherboard are relatively standardized, there will be no problems in the use. Moreover, the overclocking performance of the main board using the stage capacitor is not necessarily poor.

　　其次要看容量和耐溫值。主板電容的容量一般都是直接標(biāo)注的，Intel要求CPU供電電路的濾波電容單個(gè)容量至少在1000μF以上，而現(xiàn)在的電容容量多在2000μF~4000μF之間，部分主板采用了容量為5000μF的電容，內(nèi)存槽附近的電容容量多在1000μF~1500μF之間，容量較小的電容很難提供給CPU、內(nèi)存以充足的純凈電流，有些老式主板升級(jí)CPU后出現(xiàn)的不兼容問題實(shí)際也源于此。

　　Secondly, it depends on the capacity and temperature resistance. The capacity of the main board capacitor is generally directly labeled. Intel requires that the filter capacitor of CPU power supply circuit should have a single capacity of at least 1000 μ F. however, the current capacitance capacity is mostly between 2000 μ F and 4000 μ F. some mainboards use 5000 μ f capacitance, and the capacitance near the memory slot is mostly between 1000 μ F and 1500 μ F. it is difficult for Intel to provide sufficient capacity for CPU and memory The pure current, some old motherboard upgrade CPU after the incompatibility problem is actually from this.

　　耐溫值在另一方面也說明了電容的品質(zhì)，主板上的電容耐溫值多為105℃，而如果你的主板電容耐溫值為85℃，那多半是廠商過于節(jié)約材料的結(jié)果，低耐壓值的電容在使用上沒問題，不過當(dāng)CPU處在超頻狀態(tài)時(shí)發(fā)生"爆漿"的幾率會(huì)比較大。

　　On the other hand, the temperature resistance value also indicates the quality of the capacitor. The temperature resistance value of the capacitance on the motherboard is mostly 105 ℃. If the temperature resistance value of the capacitance on the motherboard is 85 ℃, it is mostly the result of the manufacturer's over saving of materials. The capacitor with low voltage withstand value has no problem in use, but when the CPU is in the state of overclocking, the probability of "slurry explosion" will be relatively large.

　　掌握購買電容的技巧，可以提升購買效率，并且有助于需求者減少不必要的開支。畢竟選擇電容錯(cuò)誤不僅會(huì)造成開支浪費(fèi)，還會(huì)造成電子產(chǎn)品或者是設(shè)備的損壞。

　　Mastering the skills of purchasing capacitors can improve the purchasing efficiency and help the demanders reduce unnecessary expenses. After all, the wrong choice of capacitors will not only cause waste of expenses, but also cause damage to electronic products or equipment.