Cableizer Software Instant
In an era where "electrify everything" is the mantra of the global energy transition, serves as a vital bridge between theoretical physics and practical infrastructure. Its combination of standard IEC calculations and advanced FEM modeling makes it an indispensable tool for any professional involved in power distribution or transmission.
The software simplifies complex engineering tasks through several specialized modules: Features - Cableizer
Cableizer has been validated against CIGRE Technical Brochure 880, performing case studies on 30 kV submarine array cables. A case study conducted using Cableizer software version 3b07c on May 14, 2025, successfully simulated a submarine array cable arrangement with a calculated ampacity of 838.34 A and demonstrated agreement with expected values from CIGRE TB 880, confirming the software's suitability for offshore wind applications.
Modeling a multi-circuit crossing or a complex duct bank takes minutes in Cableizer, whereas it could take hours to build a custom mathematical model from scratch. cableizer software
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.
Cableizer is a specialized software tool designed specifically for cable and wire harness design. Developed by a team of experts with extensive experience in the electrical engineering industry, Cableizer aims to simplify the design process, reduce errors, and improve collaboration between teams. The software provides a comprehensive set of features and tools that enable users to create, simulate, and optimize cable and wire harness designs with ease.
Subsea power cables present unique thermal challenges due to the complex interaction between the cable, the seabed, and the surrounding water environment. Cableizer's Subsea module calculates the current rating for subsea cables including parallel heat sources. The subsea cable can be modeled as fully buried, partially buried, or completely immersed in water, with calculation methods drawn from the IEC standard and several academic and industry sources including Carslaw & Jaeger, Morud & Simonsen, Ovuworie, and OTC 23033. The module also calculates the heat increase at specific depths to consider the 2K criterion, an important safety requirement for many subsea installations. In an era where "electrify everything" is the
, accounting for solar radiation and wind speed.
Validation is a fundamental aspect of Cableizer's development philosophy. The software maintains an extensive test suite that runs automatically to verify calculations after modifications in formulas or the solver routine. Validation examples include comparisons against CYMCAP (the long-standing industry standard) for basic arrangements, validation of emergency rating calculations according to IEC 60853-2, and comprehensive verification of the cable pulling module against manufacturer examples from Brugg Cables and Southwire.
With a library of over and the ability to export full datasheets as spreadsheets, the platform is designed to slash engineering hours. It even offers a 14-day free trial for those ready to test its full potential in a sandbox environment. Cableizer - Cableizer A case study conducted using Cableizer software version
Use built-in library or custom:
When objects are buried deeper than approximately 5 meters, the thermal inertia of the surrounding soil becomes a significant factor that standard IEC methods may not adequately address. Cableizer offers a sophisticated alternative approach to calculate ampacity using an equivalent depth for deeply buried objects, with implementation based on the IEEE Transactions on Power Delivery paper “Ampacity Calculation for Deeply Installed Cables” by E. Dorison, G.J. Anders, and F. Lesur (2010). The deep burial thermal inertia advanced option calculates the equivalent depth of deep tunnels or deeply buried cable systems, accounting for the fact that the equivalent depth is always lower than the actual burial depth for long-lived infrastructure.
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