Table of Contents

 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