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NETA ECS 2024

Sun, 20 Oct 2024 10:41:32 +0000

The ANSI/NETA Standard for Electrical Commissioning Specifications for Electrical Power Equipment and Systems was developed for use by those responsible for testing and commissioning newly installed or retrofitted electrical power systems and equipment to guide them in specifying and performing the necessary inspections, tests, measurements, and system performance verification to commission an electrical power system infrastructure. This document aids in ensuring safe, reliable operation of electrical power equipment and systems. It is essential to commission newly installed and retrofitted electrical power equipment and systems. Additionally, acceptance testing of the equipment provides the baseline test results for maintenance programs and equipment trending, while commissioning verifies the electrical equipment and system meets the owner

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PDF Pages	PDF Title
4	Alteration of Content
5	Electrical Commissioning Specifications Ballot Pool Members
58	EDUCATIONAL PROGRAMS PowerTest, NETA’s annual technical conference, draws hundreds of qualified industry professionals from around the globe. This conference provides a forum for current industry advances, critical informational updates, networking, and more. Regular atte…

NETA ETT 2022

Sun, 20 Oct 2024 08:18:58 +0000

This standard was created to codify the experience, education, and training requirements necessary for an individual to obtain a level of competency as an electrical test technician. NETA carefully examines the qualifications of each NETA Accredited Company (NAC) in addition to certifying the individual technician employed by that NAC. Because of this requirement, another directive of this task group was to assure that the NETA requirements for certification were aligned with an alternate certification path for qualified individuals. The ANSI/NETA Standard for Certification of Electrical Testing Technicians was approved as a revised American National Standard on January 7, 2022.

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PDF Pages	PDF Title
1	ANSI_NETA ETT-2022
3	American National Standard
5	Notice
6	Foreword
7	Preface
8	Contents
10	1. Scope 2. Definitions
12	3. Levels of Classification
14	4. Training Requirements
15	5. Experience Requirements
16	6. Examination Requirements 7. Certifying Body
24	Table 1 Profile of Electrical Testing Technicians
25	Table 2 Level 2 Certified Assistant Technician
30	Table 3 Certified Technician
36	Table 4 Certified Senior Technician
42	Appendix A Experience and Training Verification by Employer, Level 2
43	Appendix A Experience and Training Verification by Employer, Level 3
44	Appendix A Experience and Training Verification by Employer, Level 4
45	Appendix B References

NETA MTS 2023

Sun, 20 Oct 2024 08:18:57 +0000

Specifies field tests and inspections used to assess the suitability for continued service and reliability of electrical power equipment and systems. Equipment Addressed Includes: · Switchgear · Transformers · Cables · Switches · Circuit Breakers · Protective Relays · Rotating Machinery · Motors · Batteries · Capacitors and Reactors · Protective Relays · Instrument Transformers 2023 Revisions Include: · Comprehensive Update to the Cables Section · NEW section for Electric Vehicle Charging System

PDF Catalog

PDF Pages	PDF Title
12	COPYRIGHT
15	FOREWORD
16	PREFACE
21	CONTENTS
22	Untitled
26	1. GENERAL SCOPE 1.1 Maintenance Testing Specifications
27	2. APPLICABLE REFERENCES 2.1 Codes, Standards, and Specifications
33	2.2 Other References 2.3 Contact Information
35	3. QUALIFICATIONS OF TESTING ORANIZATION AND PERSONNEL 3.1 Testing Organization 3.2 Testing Personnel
36	4. DIVISION OF RESPONSIBILITY 4.1 The Owner’s Representative 4.2 The Testing Organization
37	5. GENERAL 5.1 Safety and Precautions 5.2 Suitability of Test Equipment
38	5.3 Test Instrument Calibration
39	5.4 Test Report
40	5.5 Test Decal
41	6. POWER SYSTEM STUDIES 6.1 Short-Circuit Studies
42	6.2 Coordination Studies
44	6.3 Incident Energy Analysis
46	6.4 Load-Flow Studies
47	6.5 Stability Studies
48	6.6 Harmonic-Analysis Studies
49	7. INSPECTION AND TEST PROCEDURES 7.1 Switchgear and Switchboard Assemblies
53	7.2.1.1 Transformers, Dry-Type, Air-Cooled, Low-Voltage, Small
55	7.2.1.2 Transformers, Dry-Type, Air-Cooled, Large
59	7.2.2 Transformers, Liquid-Filled
64	7.3.1 Cables, Low-Voltage, Low-Energy – Reserved
65	7.3.2 Cables, Low-Voltage, 1,000 Volt Maxium
67	7.3.3 Shielded Cables, Medium- and High-Voltage
71	7.4 Metal-Enclosed Busways, Low- and Medium- Voltage
74	7.5.1.1 Switches, Air, Low-Voltage
77	7.5.1.2 Switches, Air, Medium-Voltage, Metal-Enclosed
80	7.5.1.3 Switches, Air, Medium- and High-Voltage, Open
83	7.5.2 Switches, Oil, Medium-Voltage
86	7.5.3 Switches, Vacuum, Medium-Voltage
89	7.5.4 Switches, SF6, Medium-Voltage
92	7.5.5 Switches, Cutouts
94	7.6.1.1 Circuit Breakers, Air, Insulated-Case/Molded-Case
97	7.6.1.2 Circuit Breakers, Air, Low-Voltage Power
101	7.6.1.3 Circuit Breakers, Air, Medium-Voltage
105	7.6.2 Circuit Breakers, Oil, Medium- and High-Voltage
110	7.6.3 Circuit Breakers, Vacuum, Medium-Voltage
114	7.6.4 Circuit Breakers, SF6
118	7.7 Circuit Switchers
121	7.8 Network Protectors
125	7.9.1 Protective Relays, Electromechanical and Solid-State
133	7.9.2 Protective Relays, Microprocessor-Based
136	7.10.1 Instrument Transformers, Current Transformers
139	7.10.2 Instrument Transformers, Voltage Transformers
142	7.10.3 Instrument Transformers, Coupling-Capacitor Voltage Transformers
145	7.10.4 Instrument Transformers, High-Accuracy Instrument Transformers – Reserved
146	7.11.1 Metering Devices, Electromechanical and Solid-State
148	7.11.2 Metering Devices, Microprocessor-Based
150	7.12.1.1 Regulating Apparatus, Voltage, Step-Voltage Regulators
155	7.12.1.2 Regulating Apparatus, Voltage, Induction Regulators
159	7.12.2 Regulating Apparatus, Current – Reserved
160	7.12.3 Regulating Apparatus, Load Tap-Changers
165	7.13 Grounding Systems
167	7.14 Ground-Fault Protection Systems, Low-Voltage
170	7.15.1 Rotating Machinery, AC Induction Motors and Generators
175	7.15.2 Rotating Machinery, Synchronous Motors and Generators
181	7.15.3 Rotating Machinery, DC Motors and Generators
184	7.16.1.1 Motor Control, Motor Starters, Low-Voltage
187	7.16.1.2 Motor Control, Motor Starters, Medium-Voltage
191	7.16.2.1 Motor Control, Motor Control Centers, Low-Voltage
192	7.16.2.2 Motor Control, Motor Control Centers, Medium-Voltage
193	7.17 Adjustable-Speed Drive Systems
196	7.18.1.1 Direct-Current Systems, Batteries, Flooded Lead-Acid
198	7.18.1.2 Direct-Current Systems, Batteries, Vented Nickel-Cadmium
200	7.18.1.3 Direct Current Systems, Batteries, Valve-Regulated Lead-Acid
202	7.18.2 Direct-Current Systems, Chargers
204	7.18.3 Direct-Current Systems, Rectifiers – Reserved
205	7.19.1 Surge Arresters, Low-Voltage Surge Protection Devices
207	7.19.2 Surge Arresters, Medium- and High-Voltage Surge Protection Devices
209	7.20.1 Capacitors and Reactors, Capacitors
211	7.20.2 Capacitors and Reactors, Capacitor Control Devices – Reserved
212	7.20.3.1 Capacitors and Reactors, Reactors (Shunt and Current-Limiting), Dry-Type
214	7.20.3.2 Capacitors and Reactors, Reactors (Shunt and Current-Limiting), Liquid-Filled
218	7.20.4 Resistors
220	7.21 Outdoor Bus Structures
222	7.22.1 Emergency Systems, Engine Generator
224	7.22.2 Emergency Systems, Uninterruptible Power Systems
227	7.22.3 Emergency Systems, Automatic Transfer Switches
230	7.23 Communications
231	7.24.1 Automatic Circuit Reclosers and Line Sectionalizers, Automatic Circuit Reclosers, Oil/Vacuum
237	7.24.2 Automatic Circuit Reclosers and Line Sectionalizers Automatic Line Sectionalizers, Oil
240	Untitled 7.25 Fiber-Optic Cables
243	7.26 Electric Vehicle Charging System
244	8. SYSTEM FUNCTION TESTS
245	9. THERMOGRAPHIC SURVEY
246	10. ELECTROMAGNETIC FIELD SURVEY
247	11. ONLINE PARTIAL DISCHARGE SURVEY FOR SWITCHGEAR
249	TABLES
250	Table 100.1
251	Table 100.2
252	Table 100.3
253	Table 100.4 Table 100.4.1
254	Table 100.4.2
255	Table 100.4.3
256	Table 100.4.4
257	Table 100.4.5
258	Table 100.5
259	Table 100.6 Table 100.6.1
260	Table 100.6.2
261	Table 100.6.3
262	Table 100.6.4
263	Table 100.6.5
264	Table 100.6.6
265	Table 100.6.7.1 Table 100.6.7.2
266	Table 100.7
267	Table 100.8
268	Table 100.9
269	Table 100.10
270	Table 100.11
271	Table 100.12 Table 100.12.1
272	Table 100.12.2
273	Table 100.12.3
274	Table 100.12.4
275	Table 100.13
276	Table 100.14 Table 100.14.1
277	Table 100.14.2
278	Table 100.15
279	Table 100.16
280	Table 100.17
281	Table 100.18
282	Table 100.19
283	Table 100.20 Table 100.20.1
285	Table 100.20.2
286	Table 100.21
287	Table 100.22
289	Table 100.23 Table 100.23.1 Table 100.23.2
290	Table 100.23.3 Table 100.23.4 Table 100.23.5
291	APPENDIX Appendix A
294	Appendix B
298	Appendix C
299	Appendix D
301	Appendix E
303	Appendix F
304	Appendix G

NETA ETT 2018

Sun, 20 Oct 2024 02:15:25 +0000

PDF Catalog

PDF Pages	PDF Title
1	ANSI/NETA ETT-2018
8	Contents
10	1. Scope 2. Definitions
12	3. Levels of Classification
14	4. Training Requirements
15	5. Experience Requirements
16	6. Examination Requirements 7. Certifying Body
24	Table 1 Profile of Electrical Testing Technicians
25	Table 2 Level 2 Certified Assistant Technician
30	Table 3 Level 3 Certified Technician, Knowledge; Skill, and Ability Requirements
36	Table 4 Level 4 Certified Senior Technician
42	Appendix A Experience and Training Verification by Employer
45	Appendix B References

NETA MTS 2019

Sun, 20 Oct 2024 02:15:25 +0000

The Standard for Maintenance Testing Specifications for Electrical Power Equipment and Systems, 2019 edition, was approved as an American National Standard on February 4, 2019 and supersedes the ANSI/NETA MTS-2015. NETA recommends always referencing the most current edition of the ANSI/NETA standards whenever possible to assure that bid documents, specifications, and reports are as accurate and complete as possible. The ANSI/NETA Standard for Maintenance Testing Specifications for Electrical Power Equipment and Systems is a document that is used worldwide by individuals seeking to assure that the electrical power equipment and systems in their care operate reliably and safely in conformance with industry and manufacturer standards and tolerances.

PDF Catalog

PDF Pages	PDF Title
5	Copyright Information andAlteration of Content
7	NOTICE
8	FOREWORD
9	PREFACE
14	CONTENTS
19	1. GENERAL SCOPE 2. APPLICABLE REFERENCES
20	2.1 Codes, Standards, and Specifications
26	2.2 Other References 2.3 Contact Information
29	3. QUALIFICATIONS OF TESTING PERSONNEL
30	4. DIVISION OF RESPONSIBILITY 4.1 The User 4.2 The Testing Organization 5. GENERAL
31	5.1 Safety and Precautions 5.2 Suitability of Test Equipment
32	5.3 Test Instrument Calibration
33	5.4 Test Report
34	5.5 Test Decal
35	6. POWER SYSTEM STUDIES 6.1 Short-Circuit Studies
36	6.2 Coordination Studies
37	6.3 Incident Energy Analysis
39	6.4 Load-Flow Studies
40	6.5 Stability Studies
41	6.6 Harmonic-Analysis Studies
42	7. INSPECTION AND TEST PROCEDURES 7.1 Switchgear, Switchboard, and Panelboard Assemblies
46	7.2.1.1 Transformers, Dry Type, Air-Cooled, Low-Voltage, Small
48	7.2.1.2 Transformers, Dry Type, Air-Cooled, Large
52	7.2.2 Transformers, Liquid-Filled
56	7.3.1 Cables, Low-Voltage, Low-Energy
57	7.3.2 Cables, Low-Voltage
59	7.3.3 Shielded Cables, Medium- and High-Voltage
62	7.4 Metal-Enclosed Busways
64	7.5.1.1 Switches, Air, Low-Voltage
67	7.5.1.2 Switches, Air, Medium-Voltage, Metal-Enclosed
70	7.5.1.3 Switches, Air, Medium- and High-Voltage, Open
73	7.5.2 Switches, Oil, Medium-Voltage* Optional
76	7.5.3 Switches, Vacuum, Medium-Voltage
80	7.5.4 Switches, SF6, Medium-Voltage
83	7.5.5 Switches, Cutouts
85	7.6.1.1 Circuit Breakers, Air, Insulated-Case/Molded-Case
88	7.6.1.2 Circuit Breakers, Air, Low-Voltage Power
92	7.6.1.3 Circuit Breakers, Air, Medium-Voltage
95	7.6.2 Circuit Breakers, Oil, Medium- and High-Voltage
101	7.6.3 Circuit Breakers, Vacuum, Medium-Voltage
104	7.6.4 Circuit Breakers, SF6
109	7.7 Circuit Switchers
112	7.8. Network Protectors
116	7.9.1 Protective Relays, Electromechanical and Solid-State
124	7.9.2 Protective Relays, Microprocessor-Based
127	7.10.1 Instrument Transformers, Current Transformers
130	7.10.2 Instrument Transformers, Voltage Transformers
133	7.10.3 Instrument Transformers, Coupling-Capacitor Voltage Transformers
136	7.10.4 Instrument Transformers, High-Accuracy Instrument Transformers 7.11.1 Metering Devices, Electromechanical and Solid-State
139	7.11.2 Metering Devices, Microprocessor-Based
141	7.12.1.1 Regulating Apparatus, Voltage, Step-Voltage Regulators
146	7.12.1.2 Regulating Apparatus, Voltage, Induction Regulators
150	7.12.2 Regulating Apparatus, Current
151	7.12.3 Regulating Apparatus, Load Tap-Changers
155	7.13 Grounding Systems
157	7.14 Ground-Fault Protection Systems, Low-Voltage
160	7.15.1 Rotating Machinery, AC Induction Motors and Generators
165	7.15.2 Rotating Machinery, Synchronous Motors and Generators
171	7.15.3 Rotating Machinery, DC Motors and Generators
174	7.16.1.1 Motor Control, Motor Starters, Low-Voltage
177	7.16.1.2 Motor Control, Motor Starters, Medium-Voltage
181	7.16.2.1 Motor Control, Motor Control Centers, Low-Voltage 7.16.2.2 Motor Control, Motor Control Centers, Medium-Voltage* OptionalPage 164ANSI/NETA
183	7.17 Adjustable-Speed Drive Systems
185	7.18.1.1 Direct-Current Systems, Batteries, Flooded Lead-Acid
187	7.18.1.2 Direct-Current Systems, Batteries, Vented Nickel-Cadmium
190	7.18.1.3 Direct-Current Systems, Batteries, Valve-Regulated Lead-Acid
192	7.18.2 Direct-Current Systems, Chargers
194	7.18.3 Direct-Current Systems, Rectifiers 7.19.1 Surge Arresters, Low-Voltage Surge Protection Devices
197	7.19.2 Surge Arresters, Medium- and High-Voltage Surge Protection Devices
199	7.20.1 Capacitors and Reactors, Capacitors
200	7.20.2 Capacitors and Reactors, Capacitor Control Devices
202	7.20.3.1 Capacitors and Reactors, Reactors (Shunt and Current-Limiting), DryType
204	7.20.3.2 Capacitors and Reactors, Reactors (Shunt and Current-Limiting),Liquid-Filled
208	7.21 Outdoor Bus Structures
210	7.22.1 Emergency Systems, Engine Generator
212	7.22.2 Emergency Systems, Uninterruptible Power Systems
214	7.22.3 Emergency Systems, Automatic Transfer Switches
218	7.23 Communications
219	7.24.1 Automatic Circuit Reclosers and Line Sectionalizers,Automatic Circuit Reclosers, Oil/Vacuum
223	7.24.2 Automatic Circuit Reclosers and Line Sectionalizers,Automatic Line Sectionalizers, Oil* Optional
225	7.25 Fiber-Optic Cables
227	8. SYSTEM FUNCTION TESTS
228	9. THERMOGRAPHIC SURVEY Page
229	10. ELECTROMAGNETIC FIELD SURVEY
230	11. ONLINE PARTIAL DISCHARGE SURVEY FOR SWITCHGEAR
231	TABLES
232	TABLE 100.1
233	TABLE 100.2
235	TABLE 100.3 TABLE 100.4.1
237	TABLE 100.4.2
238	TABLE 100.4.3
239	TABLE 100.4.4
240	TABLE 100.4.5
242	TABLE 100.5
243	TABLE 100.6.1
244	TABLE 100.6.2
245	TABLE 100.6.3
246	TABLE 100.6.4
247	TABLE 100.7
248	TABLE 100.8
249	TABLE 100.9
250	TABLE 100.10
251	TABLE 100.11
252	TABLE 100.12.1
253	TABLE 100.12.2
254	TABLE 100.12.3
255	TABLE 100.12.4
256	TABLE 100.13
257	TABLE 100.14.1
258	TABLE 100.14.2
259	TABLE 100.15 TABLE 100.16
260	TABLE 100.17
262	TABLE 100.18
263	TABLE 100.19
264	TABLE 100.20.1
266	TABLE 100.20.2 TABLE 100.21
268	TABLE 100.22
270	TABLE 100.23 TABLE 100.23.1 TABLE 100.23.2
271	TABLE 100.23.3 TABLE 100.23.4 TABLE 100.23.5
272	APPENDICES APPENDIX A
273	APPENDIX B
278	APPENDIX C
279	APPENDIX D
281	APPENDIX E
282	APPENDIX F

NETA ECS 2020

Sun, 20 Oct 2024 02:15:24 +0000

The ANSI/NETA Standard for Electrical Commissioning Specifications for Electrical Power Equipment and Systems was developed for use by those responsible for testing and commissioning newly installed or retrofitted electrical power systems and equipment to guide them in specifying and performing the necessary inspections, tests, measurements, and system performance verification to commission an electrical power system infrastructure. This document aids in ensuring safe, reliable operation of the electrical power equipment and systems. It is essential to commission newly installed and retrofitted electrical power equipment and systems. Additionally, acceptance testing of the equipment provides the baseline test results for maintenance programs and equipment trending, while commissioning verifies the electrical equipment and system meets the owner’s project requirements and basis of design. The 2020 ANSI/NETA Standard for Electrical Commissioning Specifications for Electrical Power Equipment and Systems is the second edition and most current revision of this document, and was approved as an American National Standard on September 9, 2019.

PDF Catalog

PDF Pages	PDF Title
11	1.1 Electrical Commissioning Specifications
12	2.1 Codes, Standards, and Specifications
13	2.2 Other Publications 2.3 Contact Information
15	3.1 Commissioning Organization 3.2 Commissioning Personnel
16	4.1 The Owner’s Representative 4.2 The Commissioning Organization
17	5.1 Safety and Precautions 5.2 Suitability of Test Equipment
18	5.3 Test Instrument Calibration
19	5.4 Documentation
20	6.1 Commissioning Intent 6.2 Owner’s Project Requirements 6.3 Basis of Design 6.4 Commissioning Plan
23	7.1 Low-Voltage Systems (< 1 kV)
26	7.2 Medium-Voltage Systems, Systems Between (> 1 kV and < 100 kV)
31	7.3 High-Voltage and Extra-High Voltage Systems (> 100 kV and < 1,000 kV)
34	8. PRIME, EMERGENCY, AND STANDBY POWER SYSTEMS – RESERVED
36	9.1 Visual and Mechanical Inspection 9.2 Report 9.3 Test Parameters 9.4 Test Results
37	10. TRANSFER TO OWNER/OPERATOR
38	APPENDIX A
41	APPENDIX B
43	APPENDIX C
45	APPENDIX D
46	APPENDIX E

NETA ATS 2021

Sun, 20 Oct 2024 02:15:24 +0000

The NETA Acceptance Testing Specifications was developed for use by those responsible for assessing the suitability for initial energization of electrical power equipment and systems and to specify field tests and inspections that ensure these systems and apparatus perform satisfactorily, minimizing downtime and maximizing life expectancy. New content for the ANSI/NETA ATS-2021 includes: Arc Energy Reduction System Test Partial Discharge Survey for Switchgear Updates

PDF Catalog

PDF Pages	PDF Title
12	CONTENTS Untitled
16	1. GENERAL SCOPE
17	2. APPLICABLE REFERENCES 2.1 Codes, Standards, and Specifications
24	2.2 Other References 2.3 Contact Information
26	3. QUALIFICATIONS OF TESTING ORGANIZATION AND PERSONNEL 3.1 Testing Organization 3.2 Testing Personnel
27	4. DIVISION OF RESPONSIBILITY 4.1 The Owner’s Representative 4.2 The Testing Organization
28	5. GENERAL 5.1 Safety and Precautions 5.2 Suitability of Test Equipment
29	5.3 Test Instrument Calibration
30	5.4 Test Report 5.5 Test Decal
31	6. POWER SYSTEM STUDIES 6.1 Short-Circuit Studies
33	6.2 Coordination Studies 6.3 Incident Energy Analysis
36	6.4 Load-Flow Studies 6.5 Stability Studies
38	6.6 Harmonic-Analysis Studies
39	7. INSPECTION AND TEST PROCEDURES 7.1 Switchgear and Switchboard Assemblies
44	7.2.1.1 Transformers, Dry-Type, Air-Cooled, Low-Voltage, Small
46	7.2.1.2 Transformers, Dry-Type, Air-Cooled, Large
49	7.2.2 Transformers, Liquid-Filled
55	7.3.1 Cables, Low-Voltage, Low-Energy
56	7.3.2 Cables, Low-Voltage, 600-Volt Maximum
57	7.3.3 Cables, Medium- and High-Voltage
60	7.4 Metal-Enclosed Busways (continued)
64	7.5.1.1 Switches, Air, Low-Voltage
66	7.5.1.2 Switches, Air, Medium-Voltage, Metal-Enclosed
69	7.5.1.3 Switches, Air, Medium- and High-Voltage, Open
72	7.5.2 Switches, Oil, Medium-Voltage
75	7.5.3 Switches, Vacuum, Medium-Voltage
77	7.5.4 Switches, SF6, Medium-Voltage
81	7.5.5 Switches, Cutouts
83	7.6.1.1 Circuit Breakers, Air, Insulated-Case/Molded-Case
86	7.6.1.2 Circuit Breakers, Low-Voltage Power
89	7.6.1.3 Circuit Breakers, Air, Medium-Voltage
93	7.6.2 Circuit Breakers, Oil, Medium- and High-Voltage
98	7.6.3 Circuit Breakers, Vacuum, Medium-Voltage
102	7.6.4 Circuit Breakers, SF6
105	7.7 Circuit Switchers
108	7.8 Network Protectors, 600-Volt Class
113	7.9.1 Protective Relays, Electromechanical and Solid-State
122	7.9.2 Protective Relays, Microprocessor-Based
125	7.10.1 Instrument Transformers, Current Transformer
128	7.10.2 Instrument Transformers, Voltage Transformers
131	7.10.3 Instrument Transformers, Coupling-Capacitor Voltage Transformers
134	7.10.4 Instrument Transformers, High-Accuracy Instrument Transformers
135	7.11.1 Metering Devices, Electromechanical and Solid-State
136	7.11.2 Metering Devices, Microprocessor-Based
138	7.12.1.1 Regulating Apparatus, Voltage, Step Voltage Regulators
142	7.12.1.2 Regulating Apparatus, Voltage, Induction Regulators
143	7.12.2 Regulating Apparatus, Current
144	7.12.3 Regulating Apparatus, Load Tap-Changers
147	7.13 Grounding Systems
149	7.14 Ground-Fault Protection Systems, Low-Voltage
152	7.15.1 Rotating Machinery, AC Induction Motors and Generators
156	7.15.2 Rotating Machinery, Synchronous Motors and Generators
163	7.15.3 Rotating Machinery, DC Motors and Generators
166	7.16.1.1 Motor Control, Motor Starters, Low-Voltage
168	7.16.1.2 Motor Control, Motor Starters, Medium-Voltage
172	7.16.2.1 Motor Control, Motor Control Centers, Low-Voltage
173	7.16.2.2 Motor Control, Motor Control Centers, Medium-Voltage
174	7.17 Adjustable Speed Drive Systems
177	7.18.1.1 Direct-Current Systems, Batteries, Flooded Lead-Acid
180	7.18.1.2 Direct-Current Systems, Batteries, Vented Nickel-Cadmium
182	7.18.1.3 Direct-Current Systems, Batteries, Valve-Regulated Lead-Acid
184	7.18.2 Direct-Current Systems, Chargers
186	7.18.3 Direct-Current Systems, Rectifiers
187	7.19.1 Surge Arresters, Low-Voltage
189	7.19.2 Surge Arresters, Medium- and High-Voltage
191	7.20.1 Capacitors and Reactors, Capacitors
193	7.20.2 Capacitors and Reactors, Capacitor Control Devices
194	7.20.3.1 Capacitors and Reactors, Reactors (Shunt and Current-Limiting) Dry-Type
196	7.20.3.2 Capacitors and Reactors, Reactors (Shunt and Current-Limiting) Liquid-Filled
200	7.21 Outdoor Bus Structures
202	7.22.1 Emergency Systems, Engine Generator
204	7.22.2 Emergency Systems, Uninterruptible Power Systems
207	7.22.3 Emergency Systems, Automatic Transfer Switches
210	7.23 Communications
212	7.24.1Automatic Circuit Reclosers and Line Sectionalizers,Automatic Circuit Reclosers, Oil/Vacuum
216	7.24.2 Automatic Circuit Reclosers and Line Sectionalizers, Automatic LineSectionalizers, Oil
219	7.25 Fiber-Optic Cables
220	7.26 Electric Vehicle Charging Systems
222	7.27 Arc Energy Reduction Systems
223	8. SYSTEM FUNCTION TESTS AND COMMISSIONING
224	9. THERMOGRAPHIC SURVEY 10. ELECTROMAGNETIC FIELD TESTING
226	11. ONLINE PARTIAL DISCHARGE SURVEY
227	TABLES
228	TABLE 100.1 Insulation Resistance Test Values Electrical Apparatus and Systems Other Than Rotating Machinery
229	TABLE 100.2 Switchgear Withstand Test Voltages
230	TABLE 100.3 Recommended Dissipation Factor/Power Factor at 20° CLiquid-Filled Transformers, Regulators, and Reactors
231	TABLE 100.4.1 Test Limits for New Insulating Oil Received in New Equipment
232	TABLE 100.4.2 Test Limits for Silicone Insulating Liquid in New Transformers
233	TABLE 100.4.3 Typical Values for Less-Flammable Hydrocarbon Insulating Liquid Received inNew Equipment
234	TABLE 100.5 Transformer Insulation Resistance Acceptance Testing
235	TABLE 100.6 Medium-Voltage CablesAcceptance Test Values
236	TABLE 100.6.3 Partial Discharge Requirements for Shielded Power Cable
237	TABLE 100.6.4 Very Low Frequency Testing Levels 0.1 Hz Test Voltage (rms)
238	TABLE 100.7 Inverse Time Trip Testat 300% of Rated Continuous Current of Circuit Breakers Molded-Case Circuit Breakers
239	TABLE 100.8 Instantaneous Trip Tolerances for Field Testing of Circuit Breakers
240	TABLE 100.9 Instrument Transformer Dielectric Tests Field Acceptance
241	TABLE 100.10 Maximum Allowable Vibration Amplitude
242	TABLE 100.11 Insulation Resistance Test Values Rotating Machinery for One Minute at 40° C
243	TABLE 100.12.1 Bolt-Torque Values for Electrical ConnectionsUS Standard Fasteners Heat-Treated Steel – Cadmium or Zinc Plated
244	TABLE 100.12.2 US Standard Fasteners Silicon Bronze Fasteners Torque(Pound-Feet)
245	TABLE 100.12.3 US Standard Fasteners Aluminum Alloy Fasteners Torque(Pound-Feet)
246	TABLE 100.12.4 US Standard Fasteners Stainless Steel Fasteners Torque(Pound-Feet)
247	TABLE 100.13 SF6 Gas Tests
248	TABLE 100.14.1 Insulation Resistance Conversion Factors (20° C)
249	TABLE 100.14.2 Insulation Resistance Conversion Factors (40° C)
250	TABLE 100.15 High-Potential Test Voltage for Automatic Circuit Reclosers
251	TABLE 100.16 High-Potential Test Voltage for Acceptance Testing of Line Sectionalizers
252	TABLE 100.17 Dielectric Withstand Test Voltages Metal-Enclosed Bus
253	TABLE 100.18 Thermographic Survey Suggested Actions Based on Temperature Rise
254	TABLE 100.19 Dielectric Withstand Test Voltagesfor Electrical Apparatus Other than Inductive Equipment
255	TABLE 100.20 Rated Control Voltages and their Ranges for Circuit Breakers
257	100.20.2 Rated Control Voltages and Their Ranges for Circuit Breakers Solenoid-Operated Devices
258	TABLE 100.22 Minimum Radii for Power CableSingle and Multiple Conductor Cables with Interlocked Armor, Smooth or Corrugated Aluminum Sheath or Lead Sheath
260	TABLE 100.23 Online Partial Discharge Survey TABLE 100.23.1 Online Partial Discharge Survey Suggested Actions Based on Nature and Strength of Signal (TEV) TABLE 100.23.2 Online Partial Discharge Survey Suggested Actions Based on Nature and Strength of Signal (HFCT)
261	TABLE 100.23.3 Online Partial Discharge Survey Suggested Actions Based on Nature and Strength of Signal (UHF) TABLE 100.23.4 Online Partial Discharge Survey Suggested Actions Based on Nature and Strength of Signal (VIS) TABLE 100.23.5 Online Partial Discharge Survey Suggested Actions Based on Nature and Strength of Signal (Contact/Airborne Acoustic)
262	APPENDIX A – Definitions
265	APPENDIX B – RESERVED
266	APPENDIX C About the InterNational Electrical Testing Association
268	APPENDIX DForm for Comments