Welcome to a NECA Webinar based on the National Electrical Code. This seminar is the second in a series of electrical grounding and bonding Webinars

Similar documents
GFCIs and Swimming Pools A Natural Fit

Electrical Safety. Introduction

Electrical. OSHA Office of Training and Education 1

General Requirements of the NEC Advanced Course. Building Officials and Inspectors Educational Association

Evaluation of Ground Ring vs. Equipotential Mat at a Swimming Pool in Buford, Georgia

Florida Building Code 6 th Edition (2017) Residential. Broward County Edition Loose-leaf Supplement

WLCC BULLETIN. OSHA ET&D 10 Hour Refresher Training

User manual. PCA EXCEL one4all with corridorfunction PCA T5 ECO lp with corridorfunction TE one4all with corridorfunction

MISSOURI UNIVERSITY OF SCIENCE & TECHNOLOGY Procedure: 3.6

Figure Source:

PECIMEN IMM6. Minor Electrical Installation Works Certificates. Amd 3: In accordance with BS 7671

Check with local zoning official for property line distance requirements.

The definition of a competent person given in the Electricity at Work Regulations 1989 (EWR) is as follows:

SEMEMI SQA Unit Code H2AP 04 Carrying out fault location on electrical equipment and circuits

Inspection and Testing Pocket Notes

Residential Swimming pools

GATE 2 Part No

2100 ELECTRICAL SAFETY PROGRAM

SAFETY QUALITY TECHNOLOGY. Guidance on Safe Isolation Procedures

ELECTRICAL SAFETY PROGRAM

Safe Schools: A Health and Safety Check

Portable Appliance Testing

Swimming Pool Requirements

Leakage Current Testing Is it right for your application?

SWIMMING POOL REQUIREMENTS

Guidelines to the standard IEC60601

Bulletin Swimming pool, hot tub and spa installations Rules , , , , , and

Preview to the 2018 NFPA 70E, the Standard for Electrical Safety in the Workplace


Swimming Pool Permits are About Health and Safety

Wire Buddy Manual IOpath Software

Inspection and Testing

Electrical Safety Program February 2, 2016

Electrical. Version 1.0

For Signals Training Consortium Use Only

kēlo LED Light Installation Instructions

ES18 Security Theory/Regulations Answer Schedule

SEMEM3-65 Servicing anaesthetic and ventilation equipment

PART I. GENERAL REQUIREMENTS FOR PERMANENTLY INSTALLED POOLS, STORABLE POOLS, OUTDOOR SPAS, OUTDOOR HOT TUBS, OR FOUNTAINS

PERIODIC INSPECTION REPORT FOR AN ELECTRICAL INSTALLATION

POOL AND HOT TUB/SPA REGULATIONS A BUILDING PERMIT IS REQUIRED BEFORE THE INSTALLATION OF A POOL.

SEMEEE3-34 Carrying out functional tests on electrical equipment

Erik Backström, High Voltage breakers, After Sales & Service High voltage SF 6 live tank circuit breakers After Sales & Service Training course

Ground Fault Circuit Interrupter(GFCI) Policy

HST-3000 VDSL QUICK CARD

POWER PLANT RELAY REPLACEMENT DELIVERABLE ARC FLASH

C&G 2395 Exam Paper June Section A-All questions carry equal marks. Answer all three questions. Show all calculations.

RESIDENTIAL POOL, SPA AND HOT TUB PERMIT REQUIREMENTS

CCSSL35 Carry out the wiring and testing of electrical circuits and equipment

Science Class 7 Topic: Electrical Circuits Reinforcement Worksheet. Name: Sec: Date: Q.1Choose the best answer:

2. What is the definition of an electrocution hazard? a. Electrocution results when a person is exposed to a lethal amount of electrical energy

These Electricity Safety Rules and associated National Safety Instructions are written to safeguard personnel working for or on behalf of National

Electrical Shore Connections

2017 NWHA TECHNICAL SEMINAR. Arc Flash Hazard Awareness MIKE BRENDLE LLC

Energy Networks Management Safety Procedures DEFINITIONS

D Square Construction LLC

Recent changes in workplace safety regulations have heightened the awareness of hazards associated with electrical arcs.

ANSWER SHEET NFPA 70E REVIEW 51. A B C D 76. A B C D 2. A B C D 77. A B C D 3. A B C D 52. A B C D 78. A B C D 4. A B C D 53.

Swimming Pool Installation

D E L U X E S E R I E S. Your Hot Tub Pre-Delivery Guide D E L U X E

: Electric Power Generation, Transmission, and Distribution. Region IV - OSHA

CONTINUING EDUCATION FOR WISCONSIN ELECTRICIANS NEC Article Hours

Definitions found in several locations:

This presentation provides an overview of modern methods for minimizing the arc-flash hazard.

C&G 2395 Exam Paper April Section A - All questions carry equal marks. Answer all three questions. Show all calculations.

Electrical Safety Management for Facility / Operations Work Environments

NFPA 70E Policies and Best Practices

Applications and Considerations Section 11

Electrical Safety Program

C&G Level 3 Award in the Periodic Inspection, Testing and Certification of Electrical Installations

SWIMMING POOLS CHAPTER 41

(1) Minimum Required. At least one entrance of sufficient area shall be provided to

Your Hot Tub Pre-Delivery Guide

Access for Work on Low Voltage and Mechanical Apparatus

Sunbrite LTC Large Underwater Pool Lights

CP3R Quick Start Manual

Swimming Pools, Spas & Hot Tubs Construction requirements for outdoor private swimming pools (in-ground and above-ground), spas and hot tubs

Operating instructions Capacitive sensor KIA (M30) / / 2010

CPN1 Quick Start Manual

Arc Flash. Safety 21

Lockout/Tagout Training Overview. Safety Fest 2013

ECONORESS ELECTRONIC EPS & EPT - ENHANCED PRESSURISATION SET INSTALLATION OPERATION & MAINTENANCE DOCUMENTATION

Power Unit 075. Maintain Substation Circuit Breakers

Required Courses. Total Hours 39

SG33KTL-M Quick Installation Guide. 1 Unpacking and Inspection

Construction & Building Industry Safety Guideline. Electrical Isolations

ELECTRIC OPERATING PROCEDURES Date: 11/01/06

Inspection Recommendations

6 lockout operations every electrician MUST perform and respect

Landlord Report Operational limitations including the reasons (see page No. ) N/A

This training session covers electrical safety for unqualified persons. Unqualified persons are machine operators, operators of powered industrial

POW ER EN GIN EER S, LLC Electrical Engineering, Power, Lighting, Technical Studies and Utility Consulting

Electrical Safety Program

STCP 08-2 Issue 004: Circuit Live Trip & DAR Tests

ELECTRICAL SAFETY DOE HANDBOOK. U.S. Department of Energy Washington, D.C.20585

Gas Network Craftsperson

UNDERSTANDING ARC FLASH REQUIREMENTS

Section 2 Safety, Tools and Equipment, Shop Practices Unit 4 General Safety Practices. Unit Objectives. Pressure Vessels and Piping (1 of 2)

ELECTRICAL (COMPREHENSIVE) SAFETY PROGRAM REGULATORY STANDARD: OSHA - 29 CFR CFR , ,

PURE H2O FORUM. Safeguarding Operations Personnel Understanding Arc Flash & Developing an Electrical Safety Program

Transcription:

Welcome to a NECA Webinar based on the National Electrical Code. This seminar is the second in a series of electrical grounding and bonding Webinars presented by NECA. This Webinar topic is system grounding. Introduction of speaker and subject. 1

Presenters should use this slide to provide and overview of what will be covered in the presentation. This program covers the general requirements for grounded systems as well as helping students understand when systems are required to be grounded, permitted to be grounded, and not permitted to be grounded. A review of ground detector requirements is provided. 2

Presenters should review the fundamental reasons systems are grounded. Section 250.4(A)(1) provides general performance criteria for both grounded systems and ungrounded systems. Emphasize that grounded systems are those that have a direct and intentional reference to ground (the earth). 3

This slide shows three different system configurations, all of which include a conductor that is intentionally grounded. This slide provides presenters with an opportunity to explain the between a neutral point and a neutral conductor. These defined terms were new to the 2008 NEC. 4

System grounding requirements are provided in NEC Sections 250.20, 250.21, and 250.22. This slide just provides users with a brief review of the requirements for grounding systems. It is important to make the point about system grounding by choice and explain that there are systems not permitted to be grounded.

Presenters should use this graphic to describe the difference between grounded systems and those that are ungrounded. A grounded wye system is shown on the left and an ungrounded delta is shown on the right. 6

The basic requirements for system grounding are found in Section 250.20 of the NEC. The NEC typically sets the requirements for system grounding. For some systems there is no choice, they have to be grounded. For others, the system is permitted to operate ungrounded or it can be grounded. Make the point about grounded systems having to follow all requirements for grounded systems, whether grounded because of a requirement or grounded by choice. 7

This slide provides a summary of Code rules that require system grounding. The appropriate section of the NEC is included for attendees. Impedance grounded systems is beyond the scope of this presentation, but the presenter should mention that highimpedance grounded neutral systems are grounded systems and must follow the rules in 250.36. 8

The presenter should review the requirements for grounding systems of less than 50 volts. The slide provides a brief review of the requirements in NEC 250.20(A). 9

The presenter should review the requirements for grounding systems of less than 50 volts. The slide provides a brief review of the requirements in NEC 250.20(A). This slide includes a graphic view of the requirements for grounding systems less than 50 volts. 10

The presenter should review the requirements in 250.20(B). This section provides the rules for systems of 50 to 1000 volts that are required to be grounded. Make the point about systems where the neutral is used as a circuit conductor such as a 3 phase, 4 wire, wyeconnected system rated at 480Y/277 volts. Where the neutral of this particular system is not used as a circuit conductor, the system is not required to be grounded. 11

Presenters should explain the requirement in 250.20(B)(1). If a system can be grounded and the phase to ground voltage exceeds 150, the system is permitted to be grounded, but not required to be grounded. An example would be a 480 volt delta system. If one phase is grounded, then the phase to ground voltage on the ungrounded phases would be 480, thus the system is not required to be grounded. 12

Section 250.26 of the NEC indicates which conductor of various systems is required to be the grounded conductor. This slide provides a graphic illustration of 3 grounded systems and shows which conductor of each system should be grounded. 13

The requirements in 250.26(1) are shown graphically on this slide. Indicate the common system voltages and also emphasize that these grounded conductors are not neutrals. 14

This slide is a graphic illustration of 250.26(2). Presenters should emphasize that this grounded conductor is a neutral of this system. This is a system typically found supplying single family dwelling occupancies. 15

This slide shows a typical system that could be operated grounded as shown, or ungrounded. In the slide, the system is shown as an end grounded system (cornergrounded system). Presenters should make the point about the rules for grounded conductors applying to grounded phase conductors as well as grounded neutral conductors. 17

This slide provides the basic requirements for system grounding where the system is of 1000 volts and over. This requirement applies where the system supplies portable or mobile equipment. The rule indicates how the system should be grounded. 19

Presenters should review the requirements of Section 250.20(D) and indicate that if a system is required to be grounded, then the rules in 250.30(SA) are applicable. 20

21

Section 250.20(D) includes clear guidance about separately derived system grounding requirements when the transfer equipment provides a switching action in the grounded conductor. 22

When there is no switching action in the grounded conductor through the transfer switch, the generator has to be grounded by applying rules for equipment grounding rather than system grounding. The system is grounded with the transfer switch in the standby position or the normal position. 23

Systems permitted to be grounded are those covered in 250.21(A). In these cases, the system grounding is by choice rather than as a requirement. Usually the choice is made to operate a system ungrounded to increase continuity of service. Ina first phase to ground fault condition, the ground detection system provides annunciation, but allows the system to remain operational. If a second phase to ground fault were to develop before the first one is cleared up by qualified persons, then there would be a phase to phase short circuit condition in addition to a phase to ground fault condition. It is best to react to the first phase to ground fault indication in timely fashion. 24

This slide is a continuation of the provisions in 250.21(A)(3) and (4). 25

Presenters should review a couple of important rules that apply to grounded conductors. First, grounded conductors have to be identified in accordance with 200.6. Grounded conductors are also not permitted to have overcurrent devices installed in series with them based on the general restrictions in 240.22. Note that there are two exceptions to this rule. 28

Presenters should make the point that while most neutral conductors are grounded, not all grounded conductors are neutrals. This slide shows neutrals as grounded conductors. 29

Presenters should make the point that while most neutral conductors are grounded, not all grounded conductors are neutrals. This slide shows phase conductors as grounded conductors. 30

This slide provides the requirements for ground detectors on ungrounded systems. Note that the Code does not yet indicate where the ground detection system should be installed. The NEC rule is found in Section 250.21(B). 31

This slide shows a simple version of a ground detection system installed on an ungrounded delta system. Note that not all of the components of the ground detection equipment are shown. The lights operate because of a difference of potential across the lamp to ground (through an appropriately sized resistor). Ground detection equipment is available for this purpose. 32

This slide shows a simple version of a ground detection system installed on an ungrounded delta system. Note that not all of the components of the ground detection equipment are shown. The lights operate because of a difference of potential across the lamp to ground (through an appropriately sized resistor). Ground detection equipment is available for this purpose. This slide shows a phase to ground fault condition on one phase and the ground indicator lamp goes out because the potential across the lamp is 0. 33

This slide provides a review of the various systems and circuits that are not permitted to be grounded based Section 250.22 of the NEC. 34

This slide serves as the summary of the presentation and a review of the learning objectives. The NEC provides rules that require systems to be grounded. There are systems addressed in the Code that are not required to be grounded, but are permitted to be grounded. There are systems that are not permitted to be grounded. Where grounding is a requirement or by choice, all applicable requirements in Article 250 apply. Ungrounded systems are generally required to have ground detection installed on them.

Take the opportunity to thank attendees for their participation and welcome them to join in the next NECA Webinar on Grounding Electrical Services. This slide provides the transition to a short question and answer period following the Webinar.

2024 © sportdocbox.com Privacy Policy | Terms of Service | Feedback