�1����
Scope����������
�2����
References�
�3����
Definitions�
�4����
Abbreviations and acronyms
�5����
Network architecture and reference models����
������� 5.1����
Network architecture and topology���������
������� 5.2����
Reference models���������
�6����
Conventions�������������
������� 6.1����
Bit ordering convention�������������
�7����
Physical layer (PHY) specification�����
������� 7.1����
Functional model of PHY�����������
������� 7.2����
Physical coding sub-layer (PCS)��������������
������� 7.3����
Physical medium attachment sub-layer (PMA)����
������� 7.4����
Physical medium dependent sub-layer (PMD)�����
������� 7.5����
Frequency band specification���
������� 7.6����
Transmit PSD mask������
������� 7.7����
Electrical specification
������� 7.8����
PHY data, management, and control primitives���
Annex A � G3-PLC PHY Specification for CENELEC A Band����
������� A.1����
Scope��������������
������� A.2����
Acronyms�������
������� A.3����
Introduction���
������� A.4����
General description�����
������� A.5����
Physical layer specification������
������� A.6����
Transmitter electrical specifications������
������� A.7����
PHY primitives�������������
Appendix A-I � G3-PLC: Examples on encoding and decoding����
����� A-I.1����
Example for data encoding������
Annex B � PRIME power line communications PHY����
������� B.1����
Introduction���
������� B.2����
General description�����
� ������B.3����
Physical layer
Appendix B-I � PRIME: Examples of CRC����
Annex C � PRIME: EVM calculation����
������� C.1����
EVM and SNR definition�����������
Appendix C-I � PRIME: Interleaving matrices����
Annex D � Mode of operation charging electrical vehicles����
������� D.1����
General�����������
������� D.2����
Fallback protocol���������
Annex E � FCC extension to G3-PLC of Annex A����
������� E.1����
FCC extension to G3-PLC Annex A��������
Annex F � Requirements for frequency bands and electromagnetic
disturbances����
Annex G � Method of measurement of the frequency range over which a
transmitter device detects a signal from another device in the frequency range
125 kHz to 140 kHz����
Annex H � Method of measurement of the spectral distribution of a
transmitting device's signal in the frequency range 125 kHz to 140 kHz����
Annex J � Methods of measurement (3 kHz to 30 MHz)����
������� J.1����
Artificial mains network�������������
Annex K � Methods of measurement of disturbance power (30 MHz to 1
GHz)����
������� K.1����
General�����������
������� K.2����
Measurement procedure������������
������� K.3����
Devices having auxiliary apparatus connected at the end of a lead other
than the mains Lead����
Annex L � Attenuation characteristics of measuring instrument above 150
kHz����
Annex M � Extremely robust mode ����
������� M.1����
Use of PFH fields in ERM���������
������� M.2����
ERM extensions to PMA functionality��
������� M.3����
ERM extensions of PMD functionality�
Appendix I � Design for a single artificial network intended to show�
the performance of a signalling system����
Appendix II � Examples and use cases of ITU-T G.9955 network
topologies����
������ II.1����
Examples of UAN topologies and deployments scenarios����