Low-voltage power distribution relies on reliable insulated cables. Among the many options available in the market, YJV cable is one of the most widely used types in industrial, commerciale, e progetti infrastrutturali. Engineers prefer it because it combines conduttori in rame, Isolamento XLPE, and PVC outer sheath, which together provide excellent electrical performance, durabilità, and thermal resistance.
In modern electrical systems, cable selection directly affects safety, efficiency, and long-term maintenance costs. Perciò, understanding the specifications, current capacity, struttura, and price factors of YJV cables helps engineers and buyers choose the right cable for their projects.
We explains the complete specification of YJV 0.6/1kV cables, including structure, applicazioni, pricing factors, and detailed tables covering all conductor cross-sections from 0.5 mm² a 800 mm².
What is YJV Cable?
YJV is a standard Chinese cable model widely used for low-voltage power transmission and distribution.
The abbreviation means:
| Symbol | Meaning |
|---|---|
| Y | Isolamento XLPE |
| J | Conduttore in rame |
| V | PVC sheath |
Perciò, UN YJV cable typically contains:
- Conduttore in rame
- Polietilene reticolato (XLPE) isolamento
- Guaina esterna in PVC
Unlike PVC insulated cables, XLPE insulation withstands higher temperatures and carries higher current loads. Di conseguenza, engineers often select YJV cables for demanding environments such as power plants, impianti industriali, and commercial buildings.
Structure of YJV 0.6/1kV Cable
A standard YJV cable contains several functional layers.
| Layer | Materiale | Function |
|---|---|---|
| Conduttore | Rame (Classe 1 or Class 2) | Conducts electrical current |
| Isolamento | XLPE | Provides electrical insulation |
| Filler | PVC / PP | Maintains cable shape |
| Guaina interna | PVC | Mechanical protection |
| Guaina esterna | PVC | Environmental protection |
Because of this layered design, the cable performs well in both indoor installations and outdoor environments.
Key Advantages of YJV Cable
Many utilities and contractors choose YJV cables for several reasons.
1. Higher Temperature Rating
Primo, XLPE insulation allows continuous operation at 90°C, which is much higher than traditional PVC insulated cables.
2. Higher Current Capacity
As a result of better thermal properties, YJV cables carry larger electrical loads.
3. Excellent Mechanical Strength
Inoltre, PVC sheaths protect the cable against moisture, abrasion, and chemicals.
4. Lunga durata
Because of stable insulation performance, YJV cables often operate più di 30 years in normal conditions.
Applications of YJV Cable
YJV 0.6/1kV cables serve a wide variety of installations. Per esempio:
- Industrial power distribution
- Centrali elettriche
- Commercial buildings
- Residential electrical networks
- Underground power transmission
- Cable trays and ducts
- Substations
Inoltre, engineers often use these cables for large current feeders because copper conductors offer low electrical resistance.
1 Core YJV Cable Specification Table
| Cable Type | Conduttore | Isolamento XLPE (mm) | PVC Sheath (mm) | Capacità attuale (UN) |
|---|---|---|---|---|
| 1×0.5 | Copper Class1 | 0.7 | 1.4 | 15 |
| 1×0.75 | Copper Class1 | 0.7 | 1.4 | 18 |
| 1×1 | Copper Class1 | 0.7 | 1.4 | 20 |
| 1×1.5 | Copper Class2 | 0.7 | 1.4 | 24 |
| 1×2.5 | Copper Class2 | 0.8 | 1.4 | 32 |
| 1×4 | Copper Class2 | 0.8 | 1.4 | 42 |
| 1×6 | Copper Class2 | 0.8 | 1.4 | 54 |
| 1×10 | Copper Class2 | 1.0 | 1.4 | 73 |
| 1×16 | Copper Class2 | 1.0 | 1.5 | 98 |
| 1×25 | Copper Class2 | 1.2 | 1.6 | 129 |
| 1×35 | Copper Class2 | 1.2 | 1.6 | 158 |
| 1×50 | Copper Class2 | 1.4 | 1.8 | 192 |
| 1×70 | Copper Class2 | 1.4 | 1.8 | 245 |
| 1×95 | Copper Class2 | 1.6 | 2.0 | 298 |
| 1×120 | Copper Class2 | 1.6 | 2.0 | 341 |
| 1×150 | Copper Class2 | 1.8 | 2.2 | 391 |
| 1×185 | Copper Class2 | 2.0 | 2.4 | 448 |
| 1×240 | Copper Class2 | 2.2 | 2.6 | 523 |
| 1×300 | Copper Class2 | 2.4 | 2.8 | 596 |
| 1×400 | Copper Class2 | 2.6 | 3.0 | 693 |
| 1×500 | Copper Class2 | 2.8 | 3.2 | 784 |
| 1×630 | Copper Class2 | 3.0 | 3.4 | 886 |
| 1×800 | Copper Class2 | 3.2 | 3.6 | 1002 |
2 Core YJV Cable Table (Up to 2×630)
| Cable Type | Conduttore | Isolamento XLPE | PVC Sheath | Capacità attuale |
|---|---|---|---|---|
| 2×1.5 | Copper Class2 | 0.7mm | 1.6mm | 20UN |
| 2×2.5 | Copper Class2 | 0.8mm | 1.6mm | 27UN |
| 2×4 | Copper Class2 | 0.8mm | 1.8mm | 36UN |
| 2×6 | Copper Class2 | 0.8mm | 1.8mm | 46UN |
| 2×10 | Copper Class2 | 1.0mm | 1.8mm | 63UN |
| 2×16 | Copper Class2 | 1.0mm | 2.0mm | 85UN |
| 2×25 | Copper Class2 | 1.2mm | 2.0mm | 112UN |
| 2×35 | Copper Class2 | 1.2mm | 2.2mm | 138UN |
| 2×50 | Copper Class2 | 1.4mm | 2.2mm | 168UN |
| 2×70 | Copper Class2 | 1.4mm | 2.4mm | 213UN |
| 2×95 | Copper Class2 | 1.6mm | 2.6mm | 258UN |
| 2×120 | Copper Class2 | 1.6mm | 2.8mm | 296UN |
| 2×150 | Copper Class2 | 1.8mm | 2.8mm | 338UN |
| 2×185 | Copper Class2 | 2.0mm | 3.0mm | 387UN |
| 2×240 | Copper Class2 | 2.2mm | 3.2mm | 452UN |
| 2×300 | Copper Class2 | 2.4mm | 3.2mm | 515UN |
| 2×400 | Copper Class2 | 2.6mm | 3.4mm | 600UN |
| 2×500 | Copper Class2 | 2.8mm | 3.6mm | 680UN |
| 2×630 | Copper Class2 | 3.0mm | 3.8mm | 770UN |
3 Core YJV Cable Table
| Cable Type | Conduttore | Isolamento XLPE | PVC Sheath | Capacità attuale |
|---|---|---|---|---|
| 3×1.5 | Copper Class2 | 0.7mm | 1.6mm | 18UN |
| 3×2.5 | Copper Class2 | 0.8mm | 1.6mm | 24UN |
| 3×4 | Copper Class2 | 0.8mm | 1.8mm | 32UN |
| 3×6 | Copper Class2 | 0.8mm | 1.8mm | 41UN |
| 3×10 | Copper Class2 | 1.0mm | 2.0mm | 57UN |
| 3×16 | Copper Class2 | 1.0mm | 2.2mm | 76UN |
| 3×25 | Copper Class2 | 1.2mm | 2.4mm | 101UN |
| 3×35 | Copper Class2 | 1.2mm | 2.6mm | 125UN |
| 3×50 | Copper Class2 | 1.4mm | 2.6mm | 150UN |
| 3×70 | Copper Class2 | 1.4mm | 2.8mm | 192UN |
| 3×95 | Copper Class2 | 1.6mm | 3.0mm | 232UN |
| 3×120 | Copper Class2 | 1.6mm | 3.2mm | 265UN |
| 3×150 | Copper Class2 | 1.8mm | 3.2mm | 302UN |
| 3×185 | Copper Class2 | 2.0mm | 3.4mm | 345UN |
| 3×240 | Copper Class2 | 2.2mm | 3.6mm | 403UN |
| 3×300 | Copper Class2 | 2.4mm | 3.8mm | 460UN |
3+1 Core YJV Cable Table
| Cable Type | Conduttore | Isolamento XLPE | PVC Sheath | Capacità attuale |
|---|---|---|---|---|
| 3×4+1×2.5 | Rame | 0.8mm | 1.8mm | 32UN |
| 3×6+1×4 | Rame | 0.8mm | 1.8mm | 41UN |
| 3×10+1×6 | Rame | 1.0mm | 2.0mm | 57UN |
| 3×16+1×10 | Rame | 1.0mm | 2.2mm | 76UN |
| 3×25+1×16 | Rame | 1.2mm | 2.4mm | 101UN |
| 3×35+1×16 | Rame | 1.2mm | 2.6mm | 125UN |
| 3×50+1×25 | Rame | 1.4mm | 2.6mm | 150UN |
| 3×70+1×35 | Rame | 1.4mm | 2.8mm | 192UN |
| 3×95+1×50 | Rame | 1.6mm | 3.0mm | 232UN |
| 3×120+1×70 | Rame | 1.6mm | 3.2mm | 265UN |
| 3×150+1×70 | Rame | 1.8mm | 3.2mm | 302UN |
| 3×185+1×95 | Rame | 2.0mm | 3.4mm | 345UN |
| 3×240+1×120 | Rame | 2.2mm | 3.6mm | 403UN |
| 3×300+1×150 | Rame | 2.4mm | 3.8mm | 460UN |
3+2 Core YJV Cable Table
| Cable Type | Conduttore | Isolamento XLPE | PVC Sheath | Capacità attuale |
|---|---|---|---|---|
| 3×10+2×6 | Rame | 1.0mm | 2.0mm | 57UN |
| 3×16+2×10 | Rame | 1.0mm | 2.2mm | 76UN |
| 3×25+2×16 | Rame | 1.2mm | 2.4mm | 101UN |
| 3×35+2×16 | Rame | 1.2mm | 2.6mm | 125UN |
| 3×50+2×25 | Rame | 1.4mm | 2.6mm | 150UN |
| 3×70+2×35 | Rame | 1.4mm | 2.8mm | 192UN |
| 3×95+2×50 | Rame | 1.6mm | 3.0mm | 232UN |
| 3×120+2×70 | Rame | 1.6mm | 3.2mm | 265UN |
| 3×150+2×70 | Rame | 1.8mm | 3.2mm | 302UN |
| 3×185+2×95 | Rame | 2.0mm | 3.4mm | 345UN |
| 3×240+2×120 | Rame | 2.2mm | 3.6mm | 403UN |
| 3×300+2×150 | Rame | 2.4mm | 3.8mm | 460UN |
4+1 Core YJV Cable Table
| Cable Type | Conduttore | Isolamento XLPE | PVC Sheath | Capacità attuale |
|---|---|---|---|---|
| 4×10+1×6 | Rame | 1.0mm | 2.0mm | 57UN |
| 4×16+1×10 | Rame | 1.0mm | 2.2mm | 76UN |
| 4×25+1×16 | Rame | 1.2mm | 2.4mm | 101UN |
| 4×35+1×16 | Rame | 1.2mm | 2.6mm | 125UN |
| 4×50+1×25 | Rame | 1.4mm | 2.6mm | 150UN |
| 4×70+1×35 | Rame | 1.4mm | 2.8mm | 192UN |
| 4×95+1×50 | Rame | 1.6mm | 3.0mm | 232UN |
| 4×120+1×70 | Rame | 1.6mm | 3.2mm | 265UN |
| 4×150+1×70 | Rame | 1.8mm | 3.2mm | 302UN |
| 4×185+1×95 | Rame | 2.0mm | 3.4mm | 345UN |
| 4×240+1×120 | Rame | 2.2mm | 3.6mm | 403UN |
| 4×300+1×150 | Rame | 2.4mm | 3.8mm | 460UN |
5 Core YJV Cable Table
| Cable Type | Conduttore | Isolamento XLPE | PVC Sheath | Capacità attuale |
|---|---|---|---|---|
| 5×10 | Rame | 1.0mm | 2.0mm | 50UN |
| 5×16 | Rame | 1.0mm | 2.2mm | 68UN |
| 5×25 | Rame | 1.2mm | 2.4mm | 90UN |
| 5×35 | Rame | 1.2mm | 2.6mm | 110UN |
| 5×50 | Rame | 1.4mm | 2.6mm | 135UN |
| 5×70 | Rame | 1.4mm | 2.8mm | 173UN |
| 5×95 | Rame | 1.6mm | 3.0mm | 210UN |
| 5×120 | Rame | 1.6mm | 3.2mm | 240UN |
| 5×150 | Rame | 1.8mm | 3.2mm | 273UN |
| 5×185 | Rame | 2.0mm | 3.4mm | 312UN |
| 5×240 | Rame | 2.2mm | 3.6mm | 365UN |
| 5×300 | Rame | 2.4mm | 3.8mm | 420UN |
YJV Cable Price
The price of YJV cable varies depending on several factors.
Copper Price
Prima di tutto, copper accounts for 70–85% of cable cost, so market fluctuations strongly affect pricing.
Conductor Size
Larger cross-sections obviously require more copper, which increases the price significantly.
Cable Structure
Multi-core cables require fillers and additional sheathing, so they cost more than single-core cables.
Order Quantity
Large project orders usually receive lower factory prices.
Typical reference price range:
| Cable Type | Price Range |
|---|---|
| Small LV cable | $0.5 – $2 / meter |
| Medium size | $3 – $20 / meter |
| Large power cable | $20 – $120 / meter |
YJV – conduttori in rame, Isolamento XLPE, and PVC sheaths
YJV 0.6/1kV cables play a crucial role in modern electrical systems. Because they combine conduttori in rame, Isolamento XLPE, and PVC sheaths, they provide excellent electrical performance, protezione meccanica, e lunga durata.
Furthermore, engineers can select from many core configurations, compreso 1 nucleo, 2 nucleo, 3 nucleo, 3+1 nucleo, 3+2 nucleo, 4+1 nucleo, E 5 core cables. This flexibility allows YJV cables to meet the needs of industrial plants, buildings, and power distribution networks.
Finalmente, when selecting a cable, engineers should carefully evaluate dimensione del conduttore, installation environment, and required current capacity. By doing so, they ensure both electrical safety and long-term reliability.