Phoenix Contact SAC 2.5 mm² 4 Core Power Cable, Black/Grey Polyurethane PUR, 3m
- RS Stock No.:
- 519-025
- Mfr. Part No.:
- 1425070
- Brand:
- Phoenix Contact
Currently unavailable
Sorry, we don't know when this will be back in stock.
- RS Stock No.:
- 519-025
- Mfr. Part No.:
- 1425070
- Brand:
- Phoenix Contact
Specifications
Legislation and Compliance
Product Details
Find similar products by selecting one or more attributes.
Select all | Attribute | Value |
|---|---|---|
| Brand | Phoenix Contact | |
| Cross Sectional Area | 2.5 mm² | |
| Number of Cores | 4 | |
| Sheath Colour | Black/Grey | |
| Length | 3m | |
| Armoured | No | |
| Sheath Material | Polyurethane PUR | |
| Series | SAC | |
| Maximum Operating Temperature | +80°C | |
Select all | ||
|---|---|---|
Brand Phoenix Contact | ||
Cross Sectional Area 2.5 mm² | ||
Number of Cores 4 | ||
Sheath Colour Black/Grey | ||
Length 3m | ||
Armoured No | ||
Sheath Material Polyurethane PUR | ||
Series SAC | ||
Maximum Operating Temperature +80°C | ||
- COO (Country of Origin):
- PL
The Phoenix Contact Power cable is designed for seamless integration into various applications, providing exceptional electrical performance and reliability. Engineered with a 4-position structure, it features a plug angled M12 connector with L coding, ensuring precise compatibility. The cable is constructed from halogen-free PUR material, making it robust and environmentally friendly, while also meeting rigorous safety standards. Spanning a length of 3 metres, this cable allows for efficient power supply management, accommodating direct current up to 16 A at 63 V.
Resistant to abrasion and hydrolysis, enhancing durability and longevity
Meets stringent safety regulations, ensuring reliable performance
Contains no hazardous substances, complying with EU RoHS requirements
Dynamic load capacities support high operational demands effectively
Meets stringent safety regulations, ensuring reliable performance
Contains no hazardous substances, complying with EU RoHS requirements
Dynamic load capacities support high operational demands effectively