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IEEE 1901.1.1-2020

IEEE 1901.1.1-2020

$91.00

IEEE Standard Test Procedures for IEEE Std 1901.1(TM) for Medium Frequency (less than 15 MHz) Power Line Communications for Smart Grid Applications

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IEEE 2020
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New IEEE Standard – Active. The interoperability and compliance testing for IEEE 1901.1 products built, in which physical (PHY) and media access control (MAC) layers of the medium frequency band (less than 12 MHz) broadband power line communication technology for smart grid applications (SGPLC) based on orthogonal frequency division multiplexing (OFDM), is specified in this standard. The corresponding PLC application scenarios and test environment are introduced, and the PHY/MAC test cases and test scenarios are provided. The procedures for compliance, interoperability, and certification of IEEE Std 1901.1(TM) are specified in this standard.

PDF Catalog

PDF Pages PDF Title
1 IEEE Std 1901.1.1™-2020 Front cover
2 Title page
4 Important Notices and Disclaimers Concerning IEEE Standards Documents
8 Participants
10 Introduction
11 Contents
13 1. Overview
1.1 Scope
2. Normative references
14 3. Definitions, acronyms, and abbreviations
3.1 Definitions
15 3.2 Acronyms and abbreviations
4. General description
16 5. Application scenarios
5.1 General
5.2 Application Scenario 1: AMI
18 5.3 Application Scenario 2: Single network
19 5.4 Application Scenario 3: Electric vehicle charging
20 5.5 Application Scenario 4: Smart city
21 6. Test environment
6.1 General
6.2 The test structure
22 6.3 The test modes
23 7. The physical layer test cases
7.1 General
24 7.2 Test Case 1: Working frequency band and power spectral density test
25 7.3 Test Case 2: Anti-white noise performance test
26 7.4 Test Case 3: Anti-frequency offset performance test
27 7.5 Test Case 4: Anti-attenuation performance test
28 7.6 Test Case 5: Anti-narrowband noise performance test
29 7.7 Test Case 6: Anti-pulse noise performance test
30 7.8 Test Case 7: Communication rate performance test
31 8. The datalink layer test cases
8.1 Overview
32 8.2 Beacon mechanism at the data link layer
39 8.3 Timeslot management at the data link layer
41 8.4 Channel access at the data link layer
45 8.5 SOF packet processing at the data link layer
62 8.6 Data link layer selective acknowledgment and retransmission
70 8.7 Data link layer unicast and broadcast data processing
74 8.8 Multi-network coexistence and coordination at the data link layer
85 8.9 Data link layer single network establishment
93 8.10 Data link layer network maintenance
107 9. Interoperability test cases
9.1 Interoperability test environment
9.2 Three typical network topology used in interoperability test case
110 9.3 Interoperability test cases
115 10. Test scenarios
10.1 Overview
116 10.2 Test scenario 2: Tree-Topology Network Test
119 11. Compliance testing
11.1 Compliance testing objectives
11.2 Compliance testing procedure
120 12. Interoperability testing
12.1 Interoperability testing objectives
121 12.2 Interoperability testing procedure
122 12.3 Golden node selection requirements
123 13. Certification
13.1 Overview
13.2 Certification objectives
13.3 Certification procedures
125 Annex A (informative)Power line channel
A.1 Power line channel: the multipath model
138 A.2 Power line channel: noise models
142 Annex B (informative)Bibliography

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