HTLS Conductor Products --- Gap Type Conductor-GTACSR and GZTACSR
HTLS Conductor
Gap Type Conductor
GTACSR
GZTACSR
Thermal-Resistant
High Strength Steel Core
HTLS Conductor Products --- GAP type conductor is composed of layers of thermal resistant aluminum alloy wires around a high strength steel core.
Certification Standards
ISO 9001
IEC
CCC
CE
Implementation Standards
- Q 320623 AP 35
- IEC 61089
- IEC 62420
- IEC 62219
Product Introduction
Definition
HTLS Conductor Products---GAP type conductor is composed of layers of thermal-resistant aluminum alloy wires around a high-strength steel core. Grease is filled in the Gap to make the steel core move freely, which gives the conductor its special characteristics.
Standard
- Q 320623 AP 35
- IEC 61089
- IEC 62420
- IEC 62219
Technical Features
Capacity Expansion Characteristics
- The capacity of GAP type conductor at 150°C is 1.6 times the ACSR of the same area at 90°C.
- The capacity of GAP type conductor at 210°C is twice the ACSR of the same area.
- The capacity at 210°C is twice the ACSR of the same area at 90°C.
Sag Characteristics
- Limits the increase in sag with increasing temperature by stress transfer above the knee point.
- Limits the increase in sag by stress transfer above the knee point.
More HTLS Conductor Products
- ZTACIR, Super-Thermal Resistant Aluminum Alloy Conductor Aluminum-Clad Steel INVAR Reinforced.
- XTACIR, Extra-Thermal Resistant Aluminum Alloy Conductor Aluminum-Clad Steel INVAR Reinforced.
- GTACSR, Gapped Thermal-Resistant Aluminum Alloy Conductor Steel Reinforced.
- GZTACSR, Gapped Super-Thermal Resistant Aluminum Alloy Conductor Steel Reinforced.
- ACSS, Aluminum Conductor Steel Supported.
- ACCR, Aluminum Conductor Composite Reinforced.
- ACCC, Aluminum Conductor Composite Core.
Technical Specifications
TYPICAL PARAMETERS
| Code | Areas | Diameter | Breaking load | DC resistance at 20℃ | Weight | Current capacity | |||
| Al | Steel | Structure 1 | Structure 2 | GTACSR | GZTACSR | ||||
| mm² | mm | mm | kN | Ω/km | Kg/km | A | |||
| 185/30 | 197.60 | 31.67 | 19.7 | 18.7 | 81.1 | 0.1483 | 801 | 879 | 1095 |
| 240/30 | 250.60 | 31.67 | 20.6 | 20.6 | 89.7 | 0.1170 | 948 | 1017 | 1270 |
| 260/40 | 265.30 | 43.11 | 22.6 | 21.7 | 109.3 | 0.1106 | 1084 | 1068 | 1335 |
| 300/40 | 290.20 | 43.11 | 23.7 | 22.4 | 113.2 | 0.1010 | 1147 | 1124 | 1406 |
| 370/40 | 370.50 | 40.08 | 26.0 | 24.8 | 121.0 | 0.0792 | 1348 | 1316 | 1651 |
| 400/50 | 408.30 | 49.48 | 27.5 | 26.1 | 141.6 | 0.0718 | 1523 | 1403 | 1762 |
| 450/50 | 444.71 | 49.48 | 28.4 | 27.2 | 147.4 | 0.0660 | 1644 | 1484 | 1867 |
| 500/60 | 523.50 | 63.55 | 31.2 | 29.5 | 183.3 | 0.0560 | 1951 | 1655 | 2087 |
| 630/50 | 642.70 | 52.83 | 34.0 | 32.0 | 186.0 | 0.0456 | 2195 | 1887 | 2386 |
Application Fields
High voltage power transmission lines
Overhead power distribution systems
Thermal-resistant power transmission applications
High-capacity power transmission networks
Packaging & Shipping
All cables will be packaged in different materials based on their outer diameter and net weight, and can be customized according to requirements
