小計(1 件)*
TWD12,687.00
(不含稅)
TWD13,321.35
(含稅)
訂單超過 $1,300.00 免費送貨
暫時缺貨
- 從 2026年6月12日 發貨
**需要更多嗎?**輸入您需要的數量,然後按一下「查看送貨日期」以查詢更多庫存和送貨詳細資訊。
單位 | 每單位 |
|---|---|
| 1 + | TWD12,687.00 |
* 參考價格
- RS庫存編號:
- 260-733
- 製造零件編號:
- EBV333SM2
- 製造商:
- Eaton
規格
產品概覽和技術數據資料表
法例與合規
產品詳細資訊
透過選取一個或多個屬性來查找類似產品。
選取全部 | 屬性 | 值 |
|---|---|---|
| 品牌 | Eaton | |
| Product Type | Fuse Holder | |
| Current Rating | 630 A | |
| Voltage | 690 V ac | |
| Number of Poles | 3 | |
| Fixing Screw Size | M12 | |
| Standards/Approvals | IEC/EN 60947-1, IEC 60947-3 | |
| 選取全部 | ||
|---|---|---|
品牌 Eaton | ||
Product Type Fuse Holder | ||
Current Rating 630 A | ||
Voltage 690 V ac | ||
Number of Poles 3 | ||
Fixing Screw Size M12 | ||
Standards/Approvals IEC/EN 60947-1, IEC 60947-3 | ||
豁免
- COO (Country of Origin):
- PL
The Eaton low voltage switch disconnector is engineered for efficiency and reliability, making it an essential component for industrial applications. The product seamlessly integrates into existing infrastructures, providing safe and effective disconnection solutions. Designed for three-pole functionality, it supports a voltage rating of up to 690 V, ensuring robust performance in various electrical environments. Its construction utilises high-quality materials, resulting in a device that not only meets rigorous IEC standards but also offers long-lasting durability. With features aimed at enhancing usability, this product caters to the needs of modern electrical systems, promoting operational excellence while ensuring compliance with safety regulations.
Equipped with a screw connection for secure electrical installations
Supports vertical mounting, optimising space in distribution panels
Crafted for easy integration with NH fuse-links, enhancing versatility
Designed for a rated permanent current of 630 A to accommodate significant load demands
Offers a compact size, ensuring a minimal footprint in your electrical setup
No double interrupting mechanism enables straightforward operation
Constructed for busbar mounting to streamline installation processes