Low Voltage Power Distribution Compact Sandwich 4000 AMP 1600 AMP Bus Duct
Product Description
- Busducts are often used in applications where space is limited or where a high degree of flexibility is required. For example, busducts can be used in buildings with limited ceiling space, or in facilities where equipment may need to be moved or reconfigured over time.
- Busducts can be designed to incorporate a variety of protective devices, such as fuses, circuit breakers, and current-limiting devices. These devices help to protect the busduct and connected equipment from overloads, short circuits, and other types of faults.
- One advantage of busducts over traditional cable-based systems is that they offer better electromagnetic compatibility (EMC). This is because the metal enclosure surrounding the busbars provides shielding against external electromagnetic fields.
- Busducts can be designed to meet specific requirements for thermal performance. For example, busducts used in high-current applications may incorporate cooling systems to help dissipate heat and prevent overheating.
- Busducts can be more expensive to install than traditional cable-based systems, particularly for smaller power ratings. However, for larger power ratings, busducts can offer significant cost savings over traditional systems due to their higher efficiency and lower maintenance requirements.
- Busducts can be designed to provide a high degree of fault tolerance and reliability. For example, busducts can be designed with redundant pathways and components to ensure that power can still be delivered in the event of a fault or failure.
- Busducts can be designed to meet a variety of international standards, such as those set by the IEC or NEMA. These standards specify requirements for things like insulation, current-carrying capacity, and fault tolerance, and can help ensure that busducts are safe and reliable.
- In summary, busducts are a flexible and efficient way to distribute large amounts of power over short distances. They offer several advantages over traditional cable-based systems, including better EMC, higher reliability, and greater fault tolerance. They can also be designed to meet specific requirements for thermal performance, safety, and international standards.
Specification
| Conductor Material | Copper or Aluminum Bar |
| Rated Working Voltage | 415V or 690V |
| Rated Frequency | 50/60Hz |
| Protection Class | IP54/IP65/IP66 |
| Rated Operating Current | 250~6300A |
| Configuration | 3P3W, 3P4W, 3P5W |
| Surface treatment | Powder Coating Spray |
| Insulation | Mylar or Epoxy |
Material
1.The cabinet door adopts a double beveled edge process, which increases the structural strength of the same material by 50%.
2.The installation holes are all made using a multi-layer stamping and stretching process, which reduces the sliding wire situation by more than 80%.
3.The inlet and outlet holes adopt a composite structure of knockdown holes and square holes, which can be flexibly selected during on-site installation.
4.The box adopts a double folding process, which increases the structural strength of the same material by 50%
.
Payment and Delivery
Engineering
1.Power generation plants
2.Substations
3.Commercial buildings
4.Data centers
5.Renewable energy systems
6.Transportation
