5 core aluminum / Xlpe / swa / PVC sheath power cable
- Ref Price:
-
- Loading Port:
- China main port
- Payment Terms:
- TT OR LC
- Min Order Qty:
- 100 m
- Supply Capability:
- 100000 m/month
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Factory Price High Quality PVC sheathed XLPE insulated power cable
1. The cable is made of copper line with PVC insulated, and PVC/XLPE sheathed, the cable of the wire is strand. The voltage is 600/1000V; the color of the cable can be any color as your need. The cable is widely used in construction, industry and other sites, the cable can be used overhead, underground.
2. Certificates of the cable: ISO, CE, RoHS, CCC.
3. More related products:
4. Products list and parameter
No. | Size | Specification | Length per roll |
PVC insulated non-sheathed copper wires BV (450-750 Voltage) | |||
1 | 1.5 mm2 | 1×1.38 mm2 | 100 m |
2 | 2.5 mm2 | 1×1.78 mm2 | 100 m |
3 | 4 mm2 | 1×2.25 mm2 | 100 m |
4 | 6 mm2 | 1×2.76 mm2 | 100 m |
5 | 10 mm2 | 7×1.35 mm2 | 100 m |
6 | 16 mm2 | 7×1.70 mm2 | 100 m |
7 | 25 mm2 | 7×2.14 mm2 | 100 m |
PVC insulated PVC/XLPE sheathed Twin cables with/without earth BVVB (300-500 Voltage) | |||
8 | 2×1 +1 mm2 | 2×1.13 +1.13 mm2 | 100 m |
9 | 2×1.5 +1 mm2 | 2×1.38 +1.13 mm2 | 100 m |
10 | 2×2.5 +1.5 mm2 | 2×1.78 +1.38 mm2 | 100 m |
11 | 2×4 +2.5 mm2 | 2×2.25 +1.78 mm2 | 100 m |
12 | 2×6 +4 mm2 | 2×2.76 +2.25 mm2 | 100 m |
13 | 2×10+4 mm2 | 2×7×1.35 +2.25 mm2 | 100 m |
14 | 2×16+6 mm2 | 2×7×1.70 +2.76 mm2 | 100 m |
PVC insulated non-sheathed Multi flexible wires BVR (450-750 Voltage) | |||
15 | 1.5 mm2 | 7×0.52 mm2 | 100 m |
16 | 2.5 mm2 | 19×0.41 mm2 | 100 m |
17 | 4 mm2 | 19×0.52 mm2 | 100 m |
18 | 6 mm2 | 19×0.63 mm2 | 100 m |
19 | 10 mm2 | 49×0.52 mm2 | 100 m |
20 | 16 mm2 | 49×0.63 mm2 | 100 m |
PVC insulated PVC/XLPE sheathed copper cables (Lower than 1000 Voltage) | |||
No. | Size | Specification | |
21 | 3×2.5 mm2 | 3×1.78 mm2 | |
22 | 3×4 mm2 | 3×2.25 mm2 | |
23 | 3×4+1×2.5 mm2 | 3×2.25+1×1.78 mm2 | |
24 | 3×4+2×2.5 mm2 | 3×2.25+2×1.78 mm2 | |
25 | 3×6 mm2 | 3×2.76 mm2 | |
26 | 3×6+1×4 mm2 | 3×2.76+1×2.25 mm2 | |
27 | 3×6+2×4 mm2 | 3×2.76+2×2.25 mm2 | |
28 | 3×10 mm2 | 3×7×1.35 mm2 | |
29 | 3×10+1×6 mm2 | 3×7×1.35+1×2.76 mm2 | |
30 | 3×10+2×6 mm2 | 3×7×1.35+2×2.76 mm2 | |
31 | 3×16 mm2 | 3×7×1.70 mm2 | |
32 | 3×16+1×10 mm2 | 3×7×1.70+1×7×1.35 mm2 | |
33 | 3×16+2×10 mm2 | 3×7×1.70+2×7×1.35 mm2 | |
34 | 3×25+1×16 mm2 | 3×7×2.14+1×7×1.70 mm2 | |
35 | 3×25+2×16 mm2 | 3×7×2.14+2×7×1.70 mm2 | |
36 | 3×35+1×16 mm2 | 3×7×2.52+1×7×1.70 mm2 | |
37 | 3×35+2×16 mm2 | 3×7×2.52+2×7×1.70 mm2 | |
38 | 3×50+1×25 mm2 | 3×10×2.52+1×7×2.14 mm2 | |
39 | 3×50+2×25 mm2 | 3×10×2.52+2×7×2.14 mm2 | |
40 | 3×70+1×35 mm2 | 3×14×2.52+1×7×2.52 mm2 | |
41 | 3×70+2×35 mm2 | 3×14×2.52+2×7×2.52 mm2 | |
42 | 3×95+1×50 mm2 | 3×19×2.52+1×10×2.52 mm2 | |
43 | 3×95+2×50 mm2 | 3×19×2.52+2×10×2.52 mm2 | |
44 | 3×120+1×70 mm2 | 3×24×2.52+1×14×2.52 mm2 | |
45 | 3×120+2×70 mm2 | 3×24×2.52+2×14×2.52 mm2 | |
46 | 3×150+1×70 mm2 | 3×30×2.52+1×14×2.52 mm2 | |
47 | 3×150+2×70 mm2 | 3×30×2.52+2×14×2.52 mm2 | |
48 | 3×185+1×95 mm2 | 3×37×2.52+1×19×2.52 mm2 | |
49 | 3×185+2×95 mm2 | 3×37×2.52+2×19×2.52 mm2 | |
50 | 4×2.5 mm2 | 4×1.78 mm2 | |
51 | 4×4 mm2 | 4×2.25 mm2 | |
52 | 4×4+1×2.5 mm2 | 4×2.25+1×1.78 mm2 | |
53 | 4×6 mm2 | 4×2.76 mm2 | |
54 | 4×6+1×4 mm2 | 4×2.76+1×2.25 mm2 | |
55 | 4×10 mm2 | 4×7×1.35 mm2 | |
56 | 4×10+1×6 mm2 | 4×7×1.35+1×2.76 mm2 | |
57 | 4×16 mm2 | 4×7×1.70 mm2 | |
58 | 4×16+1×10 mm2 | 4×7×1.70+1×7×1.35 mm2 | |
59 | 4×25 mm2 | 4×7×2.14 mm2 | |
60 | 4×25+1×16 mm2 | 4×7×2.14+1×7×1.70 mm2 | |
61 | 4×35 mm2 | 4×7×2.52 mm2 | |
62 | 4×35+1×16 mm2 | 4×7×2.52+1×7×1.70 mm2 | |
63 | 4×50 mm2 | 4×10×2.52 mm2 | |
64 | 4×50+1×25 mm2 | 4×10×2.52+1×7×2.14 mm2 | |
65 | 4×70 mm2 | 4×14×2.52 mm2 | |
66 | 4×70+1×35 mm2 | 4×14×2.52+1×7×2.52 mm2 | |
67 | 4×95 mm2 | 4×19×2.52 mm2 | |
68 | 4×95+1×50 mm2 | 4×19×2.52+1×10×2.52 mm2 | |
69 | 4×120 mm2 | 4×24×2.52 mm2 | |
70 | 4×120+1×70 mm2 | 4×24×2.52+1×14×2.52 mm2 | |
71 | 4×150 mm2 | 4×30×2.52 mm2 | |
72 | 4×150+1×70 mm2 | 4×30×2.52+1×14×2.52 mm2 | |
73 | 4×185 mm2 | 4×37×2.52 mm2 | |
74 | 4×185+1×95 mm2 | 4×37×2.52+1×19×2.52 mm2 | |
75 | 5×2.5 mm2 | 5×1.78 mm2 | |
76 | 5×4 mm2 | 5×2.25 mm2 | |
77 | 5×6 mm2 | 5×2.76 mm2 | |
78 | 5×10 mm2 | 5×7×1.35 mm2 | |
79 | 5×16 mm2 | 5×7×1.70 mm2 | |
80 | 5×25 mm2 | 5×7×2.14 mm2 | |
81 | 5×35 mm2 | 5×7×2.52 mm2 | |
82 | 5×50 mm2 | 5×10×2.52 mm2 | |
83 | 5×70 mm2 | 5×14×2.52 mm2 | |
84 | 5×95 mm2 | 5×19×2.52 mm2 | |
85 | 5×120 mm2 | 5×24×2.52 mm2 | |
86 | 5×150 mm2 | 5×30×2.52 mm2 | |
87 | 5×185 mm2 | 5×37×2.52 mm2 | |
5. Package: mainly the cables are packed in steel-wooden drum, the length is on the size and weight, but also the cables can be packed as your demand.
7. The workshop
Looking forward to co-operate with you!
- Q: Power cable 5-color line, respectively, what color, what role?
- YJ: cross-linked polyethylene insulation V: PVC sheathed 22: steel tape armor 8.7 / 15KV: rated voltage: 8.7 / 15 kV 3 * 300: three conductor cross-section of 300 square copper conductor Another: such as YJLV Is the aluminum core. Here is not marked what the material is conductor, you can default to copper conductor.
- Q: I'm only asking this on here out of interest, this is not homework. I want to know how to calculate exact distances between to poles connected at the top by a cable. The length or height of the objects are not important to me, but if you must use an example please do so. So I want to know what formulas to use, what variables in those formulas mean, and how the slope of the cable will affect the distance. For example, if two poles have a distance between them of 0, and the cable extends 100, it would not mean that the drop of the cable (called a catenary?) would be 50, (it's misleading because you would think that since the distance between the two poles is 0, the cable would drop 50 and rise 50. But this is not taking into account the slope it has to take at the bottom of the catenary. It must lose some drop (perhaps to 48 or 49) in order to bend and rise back up...I want this out of my head, it's bugging me that I can't figure it out.
- No sign can commute faster than the fee of sunshine (neglecting tachyons, that have in no way been pronounced interior the genuine international, yet in concept can in no way slow all the way down to or commute under the fee of sunshine). The ropes and poles could flex because of the fact the sign traveled alongside them. because of the fact that they'd not flow right this moment, the sign could commute at a speed nicely under c. right that's a version on the pole concept. think you have 2 very long poles crossed at an attitude. The poles are rotating from their crossed orientation to alter into extra parallel. the factor P the place the poles bypass will commute down the poles as they attitude parallel, shifting faster and faster. Can the action of P exceed the fee of sunshine? particular it could! P would not have any actual manifestation and for this reason no mass; for this reason its action isn't constrained with the aid of relativity. in spite of the undeniable fact that, if P did have mass -- as an occasion, if there became a hoop around the crossing factor -- then the poles could be compelled to flex because of the fact the relativistically increasing mass drew further and further ability from them. * To Michael under: Einstein's particular concept of Relativity states that it could consume an limitless quantity of ability to strengthen up any particle with mass to the fee of sunshine. So that is impossible to strengthen up even an electron to the fee of sunshine, regardless of the certainty that scientists can get very very close now. Photons have not have been given any mass so as that they commute on the fee of sunshine and easily on the fee of sunshine (and is the reason why every person measures an identical fee for c). Tachyons have an 'imaginary' mass (a dissimilar of the sq. root of -a million) and so as that they can't commute as slow or slower than mild... merely faster!
- Q: So i'm trying to start up an old windows 98 model. I was thinking of using the cable from a laptop because it fits into the power supply. Problem is i don't know if its safe, advice?. On the computer it says quot;AC input: 115V~/230V~,10/5A 60/50HZON the power cable on the other hand, it says 16A 250VAm i good to go?
- Both the 250v and the 15A are higher than the computer will need / be consuming So it is safe to use.
- Q: I have had my Sony Laptop for about 2-3years. And only recently is it acting weird.When I have my power plugged in, the laptop runs fine and can be on as long as the power cable is in. But as soon as I take my power cable out, it automatically shuts down.I checked the power management, and it says my battery has 0% power. I have tried taking the battery out and putting it back in, but it still does not work.The lights on my laptop indicate it is charging, but it does not put any power into my battery and the only way it can run is if my power cable is plugged in. The battery is pretty much dead :/Is there any solutions to this? Considering I bought it in the UK and now live in the US
- there are a couple of things that could cause this. 1: You've twisted a wire in your adapter and it will only put out enough power to keep the computer alive. That happened to me once, actually. 2: Your battery is ruined. Heavy use or constantly having your laptop plugged in causes that. 3: Your battery driver is messed up. Little chance but still... If you feel it's number 3 then run a diagnostic test.
- Q: Copper core power cable models which several kinds
- First, the total number of wire and cable products are thousands, applied in all walks of life
- Q: I got two hard drives. The cable connecting the hard drive has 2 connectors, does it matter which connector goes to the master drive and which goes to the slave drive? same question regarding the power supply. 2 connectors on the power cable, the order matters?
- Master HDD connects to the end of the ribbon cable. Slave drive connects to the mid-connector. It is best to connect master to the power connector closest to power supply (less wire resistance).
- Q: JUST the cable modem and router, not the whole PC. This is for the internet/ phone service.
- There's no way of saying without further information. You need to know the amount of power provided by the UPS battery as well as the power drain by the cable modem and router to calculate this accurately. Generally speaking, a standard household model of cable modem and router do not pull a lot of power. Just ballparking it, since the power drain from both is fairly low...A UPS 750 will probably support the two devices together for about 45 minutes to nearly an hour...assuming NOTHING else is plugged into the UPS and using power from it. Be aware, however, that your local ISP will also be on backup or generator power...during an extended outage from a hurricane or serious snowstorm...sooner or later, they will go down too. .
- Q: Is it? I leave the power cable for hours when at home, when letting it process video and such and sometimes drain the battery when not used much.Thanks for any help.
- Your battery life will be reduced if you don't exercise your battery regularly by allowing it to drain and charge completely. It is recommended that you deplete and fully charge the battery at least on a weekly basis to help maintain good battery performance.
- Q: (for example : 1sqmm, 4sqmm, 35 sqmm) i need a formula to calculate current by knowing the area of the cable?
- This is not a simple answer. The amount of current that a cable can carry depends on the amount of voltage drop that you can tolerate (mostly an issue in long cables) and the temperature rating of the insulation used on the cable ( the higher the temperature rating, the higher the current that you can run in the cable) and the ability of the cable to loose the heat that is generated from the I^2R drop in the cable. For example, if a cable is in open air with no other heat sources near it, it can accomodate more current before compromising the insulation. If a cable is in a conduit with other cables that are generating heat, then the conductor needs to be increased in size to decrease the heat. The ampacity of the cable is also affected by the duty cycle of the current that the wire is carrying. If the duty cycle of the current is 10% then the wire can carry much more current compared to a current of 100% or continuous. Having said all this, there are tables of ampacities for various sized wires.
- Q: where do i put the wire through from the inside of the car to the battery located under the hood?
- First, examine the vehicle for an existing penetration in the firewall that provides access to the engine compartment from the passenger compartment. If there isn't one, you will need to drill a hole in the firewall. Make sure you are not drilling into any wires or vehicle components and then drill an appropriately sized hole through the firewall. Place a rubber grommet in the hole and then thread the wire through the grommet. Try to find a grommet that fits snuggly on your amp power cable so it will help to keep the drilled hole as water tight as possible. Also drill the hole so that the grommet fits snuggly as well, don't drill it too big. Make sure to secure your power cable inside the engine compartmentso it isn't loose. Good luck!
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5 core aluminum / Xlpe / swa / PVC sheath power cable
- Ref Price:
-
- Loading Port:
- China main port
- Payment Terms:
- TT OR LC
- Min Order Qty:
- 100 m
- Supply Capability:
- 100000 m/month
OKorder Service Pledge
OKorder Financial Service
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