供應(yīng)LY4NJ DC24 BY OMI 歐姆龍繼電器特價(jià)

LY4NJ DC24 BY OMI 歐姆龍繼電器 歐姆龍繼電器資料 歐姆龍
LY4NJ DC24 BY OMI 歐姆龍繼電器 歐姆龍繼電器資料 歐姆龍
歐姆龍一級(jí)經(jīng)銷(xiāo)商武漢三駿特價(jià)供應(yīng)歐姆龍繼電器等全系列產(chǎn)品
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AB（羅克韋爾）、ABB、歐姆龍、西門(mén)子、三菱 、TURCK（圖爾克）、P+F（倍加福）、IFM（愛(ài)福門(mén)）、 SICK（施克） 、KEYENCE(基恩士)、SUNX（神視）、BALLUFF（巴魯夫）、SMC、FESTO（費(fèi)斯托） 、ASCO、IDEC（和泉）、YASKAWA（安川）、德國(guó)E+H （恩格斯豪斯）、羅斯蒙特、橫河川儀、美國(guó)HONEYWELL 、明緯電源MW 、富士FUJI、山特UPS電源、FLUKE（福祿克）、施耐德

線圈溫度和動(dòng)作
繼電器溫度一發(fā)生變化， 繼電器接點(diǎn)彈簧的彈性、摩擦狀態(tài)、線圈電阻等也發(fā)生變化。但是， 其中對(duì)動(dòng)作時(shí)間產(chǎn)生較大影響的是線圈電阻的變化。已經(jīng)在繼電器

的動(dòng)作原理部分對(duì)這一點(diǎn)進(jìn)行了說(shuō)明。電磁鐵的動(dòng)作與電流有關(guān)。在直流電磁鐵下， 電流可表示為以下公式。
    i ： 線圈電流
    R ： 線圈電阻
    E ： 線圈外加電壓
    ι ： 線圈的時(shí)間常數(shù)L/R
    t ： 從電壓外加時(shí)經(jīng)過(guò)的時(shí)間
在這里線圈溫度若是上升， 如前面所述， 線圈電阻在0.4％/℃下變大， 線圈時(shí)間常數(shù)（L/R） 的R （線圈直流電阻） 也變大，因此接點(diǎn)的等待時(shí)間就縮短， 動(dòng)

作時(shí)間也在變快的方向上產(chǎn)生作用。相反， 線圈電阻的增加引起線圈電流的減少， 因此在電壓操作的繼電器中， 動(dòng)作時(shí)間反而變長(zhǎng)。下圖表示關(guān)于電壓操作和

電流操作各自動(dòng)作時(shí)間相對(duì)于線圈溫度而發(fā)生的變化。
如大型繼電器那樣動(dòng)作時(shí)間要花費(fèi)數(shù)10ms的繼電器， 即使溫度變化， 也不會(huì)發(fā)生較大變化， 在10ms以下的小型繼電器中可以看到溫度引起的變化的傾向。

繼電器線圈在非工作狀態(tài)下暴露在高溫、高濕的環(huán)境中， 而且線圈卷線和鐵芯等其他金屬之間有電位差時(shí)，如果它們之間的絕緣不充分， 兩者間流通的離子化電

流， 將可能腐蝕線圈上所卷的銅線。與在金屬上進(jìn)行電鍍的作用相同，通過(guò)酸、堿等，將可促進(jìn)該作用。在以往的繼電器中， 往往忽視這種現(xiàn)象， 但是最近在

卷軸材方面開(kāi)發(fā)出了特性較好的塑料， 而且卷線的絕緣材也開(kāi)發(fā)出了聚氨酯類(lèi)、聚脂、聚酰胺、特氟龍等特性優(yōu)良的材料， 減少了一部分危險(xiǎn)性。要防止電氣腐

蝕，應(yīng)避免在高溫、高濕中保管及使用。在電路構(gòu)成方面應(yīng)注意開(kāi)關(guān)的位置， 使其不在卷線上施加+電位， 需要考慮+接地等。

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繼電器與形狀和動(dòng)作時(shí)間的關(guān)系
繼電器的動(dòng)作時(shí)間由延遲時(shí)間（線圈時(shí)間常數(shù)、慣性力矩引起的）、接點(diǎn)切換時(shí)間等決定， 但是這些值根據(jù)繼電器的形狀而不同。例如， 鐵芯和可動(dòng)鐵片之間空

隙較大的繼電器， 帶電磁鐵（使用磁氣電阻較大的材質(zhì)） 的繼電器中， 為降低其電感系數(shù)的值而縮小時(shí)間常數(shù)， 但反而減少了吸引力， 吸引可動(dòng)鐵片所需的時(shí)

間也變長(zhǎng)。這種傾向， 在直流操作繼電器中尤為顯著。因?yàn)殡姶盆F的吸引力與鐵芯、可動(dòng)鐵片間的空隙的平方成反比， 降低后發(fā)生這種現(xiàn)象。因此在高速繼電器

中， 可縮小空隙， 使用高透磁率材料， 減少線圈卷線等。
在交流操作下， 由于啟動(dòng)時(shí)流通的電流大于額定電流， 與直流操作不同， 與形狀無(wú)關(guān)。
此外， 對(duì)于慣性力矩， 間接驅(qū)動(dòng)形比較有效， 在可動(dòng)鐵片開(kāi)始動(dòng)作時(shí)不會(huì)施加較大的負(fù)載載荷。
另外， 接點(diǎn)的切換時(shí)間幾乎由可動(dòng)鐵片的動(dòng)作直接傳達(dá)， 因此其動(dòng)作應(yīng)盡可能地小， 而且為通過(guò)動(dòng)作全行程順利動(dòng)作， 要考慮載荷和吸引力的平衡。接點(diǎn)的反

彈受可動(dòng)鐵片的動(dòng)作速度， 可動(dòng)部分的重量， 接點(diǎn)彈簧的彈性等要素的影響。
一般接點(diǎn)彈簧、接觸片的形狀、制動(dòng)塊的構(gòu)造等應(yīng)緩和動(dòng)作時(shí)的沖擊能量。
線圈外加電壓（電流）與動(dòng)作時(shí)間的關(guān)系繼電器的動(dòng)作時(shí)間受線圈的外加電壓（電流） 支配。如下圖所示， 施加若干超出動(dòng)作電壓的電壓時(shí)， 線圈電流達(dá)到動(dòng)

作電流之前的時(shí)間；克服可動(dòng)部慣性到可動(dòng)部開(kāi)始動(dòng)作之前的時(shí)間；吸引力克服負(fù)載載荷， 可動(dòng)部加速， 接點(diǎn)切換之前的時(shí)間， 由于任何一個(gè)都延長(zhǎng)， 因此其

動(dòng)作時(shí)間也大幅延長(zhǎng)。
另一方面， 施加大幅超過(guò)動(dòng)作電壓的電壓時(shí)， 任何一個(gè)都縮短，動(dòng)作時(shí)間也提前。
線圈外加電壓和動(dòng)作時(shí)間的關(guān)系如上所述， 但線圈外加電壓與其他特性也有關(guān)系， 因此規(guī)定了線圈額定電壓
G2R-2-SNDI DC12(S) BY OMB
G2R-2-SNDI DC24(S) BY OMB
G2R-2-SNDI DC48(S) BY OMB
G2R-2-SNDI DC6(S) BY OMB
G2R-2-SNI AC110(S) BY OMB
繼電器上發(fā)生的故障中， 多半是接點(diǎn)接觸性問(wèn)題所引起的， 根據(jù)負(fù)載條件不同， 其故障內(nèi)容也有所不同。負(fù)載條件可大致分為微小能源· 水平（小功率電路） 、

中間能源· 水平、高能源· 水平。
微小能源· 水平， 嚴(yán)格地來(lái)講稱(chēng)為機(jī)械性接觸電路， 是指不會(huì)因熱、放電等接點(diǎn)的接觸狀態(tài)而發(fā)生變化的負(fù)載條件。但是在實(shí)際情況中， 即使施加某種程度的電

壓， 由于接觸狀態(tài)不變化， 因此包含其負(fù)載條件在內(nèi)， 進(jìn)行定義。對(duì)接觸狀態(tài)不產(chǎn)生影響的界限電壓稱(chēng)為接點(diǎn)軟化電壓（Softening Voltage）， 銀為0.09V、金

為 0.08V、鉑為0.25V、鎢為0.6V。
中間能源· 水平是指引起輕度放電現(xiàn)象的負(fù)載條件， 從接點(diǎn)軟化電壓到電弧開(kāi)始放電的電壓。電弧開(kāi)始放電的電壓， 銀為12V、金為15V、鉑為17.5V、鎢為15V，

10%的鈀銀合金為11V。
高能源· 水平是指電弧開(kāi)始放電電壓以上的電壓。
有關(guān)接點(diǎn)的特殊問(wèn)題
接點(diǎn)根據(jù)使用方法會(huì)發(fā)生特殊現(xiàn)象。
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G2R-2-SNI AC230(S) BY OMB
G2R-2-SNI AC24(S) BY OMB
G2R-2-SNI DC24(S) BY OMB
G2R-2-T130 DC24 BY OMB
G2R-2-Z DC48

G2R-2-S DC110(S) BY OMB
G2R-2-S DC12(S) BY OMB
G2R-2-S DC24(N) BY OMB
G2R-2-S DC24(S) BY OMB
G2R-2-S DC5(S) BY OMB
G2R-2-SD DC100(S) BY OMB
G2R-2-SD DC12(S) BY OMB
G2R-2-SD DC24(N) BY OMB
G2R-2-SD DC24(S) BY OMB
G2R-2-SKVD AC220
G2R-2-SKVD DC12
G2R-2-SKVD DC24

歐姆龍繼電器有很多，具體有
   ：LYJ、MYJ系列；
微型功率繼電器：G2R-口-S;G2A;
I/O繼電器：G7T;
小型功率繼電器：MK
終端繼電器：G6B,G6C,G6M,G6D,G6RN,G6S
功率繼電器：G7G,G7X
特殊動(dòng)作繼電器：G4Q,MYA,G9B

G2R-2-SN AC100/(110)(S) BY OMB
G2R-2-SN AC110(S) BY OMB
G2R-2-SN AC12(S) BY OMB
G2R-2-SN AC200/(220)(N) BY OMB
G2R-2-SN AC220(S) BY OMB
G2R-2-SN AC230(S) BY OMB
G2R-2-SN AC24(S) BY OMB
LY4NJ DC24 BY OMI 歐姆龍繼電器 歐姆龍繼電器資料 歐姆龍
LY4NJ DC24 BY OMI 歐姆龍繼電器 歐姆龍繼電器資料 歐姆龍