Conferences related to Underground power cables

Back to Top

2020 IEEE Power & Energy Society General Meeting (PESGM)

The Annual IEEE PES General Meeting will bring together over 2900 attendees for technical sessions, administrative sessions, super sessions, poster sessions, student programs, awards ceremonies, committee meetings, tutorials and more


2020 IEEE/PES Transmission and Distribution Conference and Exposition (T&D)

Bi-Annual IEEE PES T&D conference. Largest T&D conference in North America.


2019 IEEE International Conference on Industrial Technology (ICIT)

The scope of the conference will cover, but will not be limited to, the following topics: Robotics; Mechatronics; Industrial Automation; Autonomous Systems; Sensing and artificial perception, Actuators and Micro-nanotechnology; Signal/Image Processing and Computational Intelligence; Control Systems; Electronic System on Chip and Embedded Control; Electric Transportation; Power Electronics; Electric Machines and Drives; Renewable Energy and Smart Grid; Data and Software Engineering, Communication; Networking and Industrial Informatics.


2018 IEEE/IAS 54th Industrial and Commercial Power Systems Technical Conference (I&CPS)

The general scope of the conference is to provide practical information about the planning, design, construction, operation and analysis of industrial and commercial power systems


2018 15th International Conference on Electrical Engineering/Electronics, Computer, Telecommunications and Information Technology (ECTI-CON)

Circuits and Systems, Computers, Information Technology, Communication Systems, Control and Instrumentation, Electrical Power Systems, Power Electronics, Signal Processing



Periodicals related to Underground power cables

Back to Top

Applied Superconductivity, IEEE Transactions on

Contains articles on the applications and other relevant technology. Electronic applications include analog and digital circuits employing thin films and active devices such as Josephson junctions. Power applications include magnet design as well asmotors, generators, and power transmission


Dielectrics and Electrical Insulation, IEEE Transactions on

Electrical insulation common to the design and construction of components and equipment for use in electric and electronic circuits and distribution systems at all frequencies.


Electrical Insulation Magazine, IEEE

The magazine covers theory, analysis, design (computer-aided design), and practical implementation of circuits, and the application of circuit theoretic techniques to systems and to signal processing. Content is written for the spectrum of activities from basic scientific theory to industrial applications.


Electromagnetic Compatibility, IEEE Transactions on

EMC standards; measurement technology; undesired sources; cable/grounding; filters/shielding; equipment EMC; systems EMC; antennas and propagation; spectrum utilization; electromagnetic pulses; lightning; radiation hazards; and Walsh functions


Industry Applications, IEEE Transactions on

The development and application of electric systems, apparatus, devices, and controls to the processes and equipment of industry and commerce; the promotion of safe, reliable, and economic installations; the encouragement of energy conservation; the creation of voluntary engineering standards and recommended practices.



Most published Xplore authors for Underground power cables

Back to Top

Xplore Articles related to Underground power cables

Back to Top

Fiber Optic Cable - Cable Specifications, Preparation, and Specialty Cables

Fiber Optic Cable - Cable Specifications, Preparation, and Specialty Cables, 12/14/2009

In this tutorial we will begin with a review of cable specifications which includes a discussion of physical size issues and environmental and grounding issues. You will also learn about the preparation of loose and tight buffered cables. This is followed by a review of OPGW cables and the unique disciplines, tools, processes and attachment hardware for OPGW preparation. Finally, ...


IEEE Draft Recommended Practice for Specifying Electric Submersible Pump Cable--Ethylene-Propylene Rubber Insulation

IEEE P1018/D07, July 2012, 2012

Minimum requirements for the design, construction, manufacturing, testing, purchasing, and application of electric submersible pump cable are presented. The cable is round or flat, with ethylene- propylene rubber insulation, nitrile jacket, ethylene-propylene diene monomer (EPDM) jacket or lead sheath, and armor. These cables are for voltages not exceeding 3 kV or 5 kV (phase to phase) and conductor temperatures not ...


NESC (R) 2017: Safety Rules of the Installation and Maintenance of Underground Electric Supply

NESC (R) 2017: Safety Rules of the Installation and Maintenance of Underground Electric Supply, 03/05/2018

This course provides a baseline understanding of the NESC Part 3. Upon completing this course, you will understand: Underground lines, equipment, and tunnels; Conduit, cable, supply, and communication systems; The construction and termination of supply cables and Installation of cables in underground structures.


Fiber Optic Installation

Fiber Optic Installation, 12/14/2009

Whether your installation is for short distance campus environments, long distance underground, aerial placement or a specialized installation such as submarine, air blown fiber, or pressurized cable, the use of fiber optic cable requires proper techniques for a successful installation. Today's installers and designers must address building codes and standards, environmental issues, proper design, routing, and equipment for installations involving ...


IEEE Draft Recommended Practice for Specifying Electric Submersible Pump Cable--Polypropylene Insulation

IEEE P1019/D07, July 2012, 2012

Minimum requirements for the design, construction, manufacturing, testing, purchasing, and application of electric submersible pump cable are presented. The cable is round or flat, with polypropylene rubber insulation, nitrile or polyethylene jacket, and armor. These cables are for voltages not exceeding 3 kV or 5 kV (phase to phase) and conductor temperatures not exceeding 96 C (205 F) maximum for ...



Educational Resources on Underground power cables

Back to Top

IEEE-USA E-Books

  • Fiber Optic Cable - Cable Specifications, Preparation, and Specialty Cables

    In this tutorial we will begin with a review of cable specifications which includes a discussion of physical size issues and environmental and grounding issues. You will also learn about the preparation of loose and tight buffered cables. This is followed by a review of OPGW cables and the unique disciplines, tools, processes and attachment hardware for OPGW preparation. Finally, ADSS cable will be discussed including applications and specialized hardware for ADSS installations. After completing this tutorial you should have an understanding of: Cable specifications; Loose buffered cable preparation; Tight buffered cable preparation; OPGW cables; OPGW preparation; and ADSS cables.

  • IEEE Draft Recommended Practice for Specifying Electric Submersible Pump Cable--Ethylene-Propylene Rubber Insulation

    Minimum requirements for the design, construction, manufacturing, testing, purchasing, and application of electric submersible pump cable are presented. The cable is round or flat, with ethylene- propylene rubber insulation, nitrile jacket, ethylene-propylene diene monomer (EPDM) jacket or lead sheath, and armor. These cables are for voltages not exceeding 3 kV or 5 kV (phase to phase) and conductor temperatures not exceeding 140 C (284 F) for nitrile or a maximum of 232 C (450 F) for EPDM jacket or lead sheath cable. Conductors, insulation, barrier (optional), assembly with or without jacket, armor, requirements for testing by the manufacturer, and cable ampacity are all covered in the document.

  • NESC (R) 2017: Safety Rules of the Installation and Maintenance of Underground Electric Supply

    This course provides a baseline understanding of the NESC Part 3. Upon completing this course, you will understand: Underground lines, equipment, and tunnels; Conduit, cable, supply, and communication systems; The construction and termination of supply cables and Installation of cables in underground structures.

  • Fiber Optic Installation

    Whether your installation is for short distance campus environments, long distance underground, aerial placement or a specialized installation such as submarine, air blown fiber, or pressurized cable, the use of fiber optic cable requires proper techniques for a successful installation. Today's installers and designers must address building codes and standards, environmental issues, proper design, routing, and equipment for installations involving fiber optic cable. Topologies, applications and reliability concerns must be addressed. This video covers these issues and many more involving the proper placement of optical communication systems for LANs, WANs and MANs.

  • IEEE Draft Recommended Practice for Specifying Electric Submersible Pump Cable--Polypropylene Insulation

    Minimum requirements for the design, construction, manufacturing, testing, purchasing, and application of electric submersible pump cable are presented. The cable is round or flat, with polypropylene rubber insulation, nitrile or polyethylene jacket, and armor. These cables are for voltages not exceeding 3 kV or 5 kV (phase to phase) and conductor temperatures not exceeding 96 C (205 F) maximum for nitrile or a maximum minimum of -10 C (14 F) minimum. Conductors, insulation, assembly and with or without jacket, armor, requirements for testing by the manufacturer, and cable ampacity are all covered in the document.

  • Monitoring Cable Systems

    None

  • IEEE Draft Guide for Working Procedures on Underground Transmission Circuits with Induced Voltage - Corrigendum 1

    This guideline establishes induced voltage working procedures for underground transmission circuits. A transmission circuit when de-energized will have an induced voltage when in a common duct bank with an energized circuit. The induced voltage may be a possible safety hazard. The induced voltage may be determined by modeling the circuits and by measurement. This guide addresses the working procedures to follow when performing work where induced voltage is present.

  • Correction to "Reliability Optimization for Transmission Expansion Planning"

    None

  • High voltage cables at the turn of the century

    The author describes how power cable extruded dielectrics, by means of cross- linked polyethylene, are increasingly used at higher and higher voltage levels because of their favorable properties, such as dielectric losses, simple maintenance elimination of impregnant, etc.

  • Short-Term Transient Temperature Calculations and Measurements for Underground Power Cables

    None



Standards related to Underground power cables

Back to Top

IEEE Guide for Determining Fault Location on AC Transmission and Distribution Lines

This guide outlines the techniques and application considerations for determining the location of a fault on ac transmission and distribution lines. This document reviews traditional approaches and the primary measurement techniques used in modern devices: one-terminal and two-terminal impedance-based methods and traveling wave methods. Application considerations include: two- and three-terminal lines, series-compensated lines, parallel lines, untransposed lines, underground cables, fault ...