Electrical Circuit Path Through Cable Trays Revit. Advanced

Electrical Circuits in Revit. The total length of the circuits. The path mode.
Dynamo Script for the Electrical Circuit’s Shortest Path Along with Cable Trays & Fittings.
Panelboard. Revit Distribution System
Connector for electricity
Dijkstra’s algorithm
Revit’s alternative voltage definition.

This course will teach you how to write a Dynamo Script from scratch (step by step) to calculate the length of an electrical circuit.
Using routes together with/inside cable trays from your model/project, you will be able to determine the length of the electrical circuit quite precisely.
The second section of the Script calculates the length between elements of the same circuit in plan view.
You’ll learn how to build electrical circuits, distribution systems, voltages, and so on.
You will grasp how to establish Revit settings for electrical systems correctly.
You will become acquainted with many sorts of parameters, such as family, project, and shared parameters.
Using Dynamo/Basic Python, you will become acquainted with the Dijkstra algorithm.
You’ll learn how to use new instance or type parameters to add or extract data from circuits.
This course will teach you how to manage your information so that you can construct powerful Revit electrical families.
The user should have a basic understanding of electrical engineering and a working knowledge of Revit’s Dynamo.
Revit’s alternative voltage definition.
In Revit, the distribution system is represented as a panelboard.
Connector for electricity
Electrical Circuits in Revit. The total length of the circuits. The path mode.
Dijkstra’s algorithm is implemented in Revit. The total length of the circuits. Paths, as well as cable trays

Revit users who are interested in the length of an electrical circuit as well as Cable Trays.
Consultants in MEP. Electrical Modeler in REVIT/BIM.
Engineers.