Runway Aircraft Powering Airport Cable H07RV-K for Airfield Lighting Equipment
More product about Airfield Lighting CableRunway Aircraft Powering Airport Cable H07RV-K for Airfield Lighting Equipment
H07RV-K
Hongda
H07RV-K
ISO, CCC, CE, SGS
Bare Copper Wire
Round Wire
N/a
PVC
DC & AC
Low and Medium Voltage Cable
Construction, Overhead, Underground, Industrial, Power Station
Stranded Bare Copper.
Yes
Yes
Yes
Hongda Cable
100m Per Roll/Reel, or as Customer Requirement
300mm2 H07RV-K
Made in China
8544492100
Product Description
Runway Aircraft Powering Airport Cable
H07RV-K
Applications
H07RV-K cables are used for connection between transformers and Airfield Lighting Equipment.
Standards
NF C 32-123
HD 21-3
Construction
Conductor: Stranded bare copper.
Insulation: PVC.
Technical Data
Rated Voltage Uo/U (Um) | 450/750V |
Maximum Conductor Temperature | 85ºC |
Short Circuit Temperature | 200ºC |
Operating Temperatures | -20ºC~+85ºC |
Minimum Bending Radius | static: 4×OD; dynamic: 8×OD |
Impacted Resistant | Yes |
Weather Resistant | Yes |
Oil Resistant | Yes |
Dimensions and Weight
Construction | Nominal Insulation Thickness | Overall Diameter | Nominal Weight |
---|---|---|---|
No. ×mm² | mm | mm | kg/km |
1×300 | 2.4 | 26 | 3000 |
PACKAGING:
A: Reel of 1500 m.
B: Reel of 1000 m.
C: Reel of 500 m.
D – Length to the client’s requirement.
Please contact us for technical support with the right cable selection for your power distribution projects and to discuss your maintenance or project specific requirements. We provide tailored solutions for this cable range which include storage, cutting to length, and 2 days collection as standard.
Any problem and inquiry pls contact with Vivian Yuan.
Similar Or Related
0.6/1kv Electric Aluminum Conductor PVC/XLPE/PE Insulated PVC Sheathed Low/Medium Voltag Electrical Power Cable
Read More
Fire Resistant Marine Insulated PVC Sheath Jacket Underground Armoured Overhead Electrical Cables XLPE Copper Aluminum Electric Wire Power Cable
Read More
Low Voltage Unarmored Yjv Cable 0.6/1kv
Read More