Cableizer | Software

  • Electrical Analysis

  • Thermal & Ampacity

  • Mechanical & Harness Design

  • Optical/Fiber Tools

  • Documentation & Reporting

  • Compliance & Standards Libraries

  • Integration & Collaboration

    • In major cities, utilities often cannot dig up streets to install larger cables. Using Cableizer software, engineers analyze existing duct banks and determine if fresh air circulation, water cooling, or simply recalculating with accurate soil resistivities can add 15-20% capacity without new construction.

    Use built-in library or custom:

    Construction order (from center outward): cableizer software

    Important parameters per layer:

    💡 Tip: Use "Import from standard" → choose IEC 60502-2 or ICEA S-94-649.

    | Value | Meaning | Acceptable range | |-------|---------|------------------| | Conductor temperature | Core temperature | < 90°C (XLPE), 70°C (PVC) | | Sheath loss factor λ | Eddy & circulating losses | 0.02–0.3 (lower is better) | | Soil dry-out radius | Region where moisture migrated | Should not reach cable surface | Electrical Analysis

    | User Group | Typical Use Case | |------------|------------------| | Power cable manufacturers | Validate product ratings, create data sheets | | Transmission/distribution utilities | Optimize cable routes, prevent overloading | | Renewable energy developers | Design cable systems for wind/solar farms | | Consulting engineers | Perform independent ampacity studies | | Substation & industrial plant designers | Ensure cable thermal compliance |

  • Electrical Analysis

  • Thermal & Ampacity

  • Mechanical & Harness Design

  • Optical/Fiber Tools

  • Documentation & Reporting

  • Compliance & Standards Libraries

  • Integration & Collaboration

    • In major cities, utilities often cannot dig up streets to install larger cables. Using Cableizer software, engineers analyze existing duct banks and determine if fresh air circulation, water cooling, or simply recalculating with accurate soil resistivities can add 15-20% capacity without new construction.

    Use built-in library or custom:

    Construction order (from center outward):

    Important parameters per layer:

    💡 Tip: Use "Import from standard" → choose IEC 60502-2 or ICEA S-94-649.

    | Value | Meaning | Acceptable range | |-------|---------|------------------| | Conductor temperature | Core temperature | < 90°C (XLPE), 70°C (PVC) | | Sheath loss factor λ | Eddy & circulating losses | 0.02–0.3 (lower is better) | | Soil dry-out radius | Region where moisture migrated | Should not reach cable surface |

    | User Group | Typical Use Case | |------------|------------------| | Power cable manufacturers | Validate product ratings, create data sheets | | Transmission/distribution utilities | Optimize cable routes, prevent overloading | | Renewable energy developers | Design cable systems for wind/solar farms | | Consulting engineers | Perform independent ampacity studies | | Substation & industrial plant designers | Ensure cable thermal compliance |