Introduction to power line communications PLC


Power line communication or power line carrier (PLC), also known as Power line Digital Subscriber Line (PDSL), mains communication, power line telecom (PLT), power line networking (PLN), or Broadband over Power Lines (BPL) are systems for carrying data on a conductor also used for electric power transmission.

Electrical power is transmitted over high voltage transmission lines, distributed over medium voltage, and used inside buildings at lower voltages. Powerline communications can be applied at each stage. Most PLC technologies limit themselves to one set of wires (for example, premises wiring), but some can cross between two levels (for example, both the distribution network and premises wiring). Typically the transformer prevents propagating the signal, which requires multiple PLC technologies to be used to form very large networks.


Power Line Communications" basically means any technology that enables data transfer at narrow or broad band speeds through power lines by using advanced modulation technology.Depending on the country, the institution and the company, power line communications are grouped under several different key words:

  • PLC (Power Line Carriers)
  • PLC (Power Line Communications)
  • PLT (Power Line Telecommunications)
  • PPC (Power Plus Communications)

Brief history of PLC

Power line communication has been around for quite some time, but has only been used for narrow band tele-remote relay applications, public lighting and home automation.

Broadband over PLC only began at the end of the 1990s:

  • 1950: at a frequency of 10Hz, 10kW of power, one-way: town lighting, relay remote control.
  • Mid 1980s: beginning of research into the use of the electrical grid to support data transmission, on bands between 5 - 500Khz, always in a one-way direction,
  • 1997: first tests for bidirectional data signal transmission over the electrical supply network and the beginning of research by Ascom (Switzerland) and Norweb (U.K.)
  • 2000: first tests carried out in France by EDF R&D and Ascom.

Operating principles

PLC Broadband technology is capable of transmitting data via the electrical supply network, and therefore can extend an existing local area network or share an existing Internet connection through electric plugs with the installation of specific units.

The principle of PLC consists in superimposing a high frequency signal (1.6 to 30 Mhz) at low energy levels over the 50 Hz electrical signal. This second signal is transmitted via the power infrastructure and can be received and decoded remotely. Thus the PLC signal is received by any PLC receiver located on the same electrical network.

An integrated coupler at the PLC receiver entry points eliminates low frequency components before the signal is treated.

Legal framework and regulation

All technology running on a defined frequency band must be part of a legal framework. PLC networks are at the same time both electrical supply networks and telecommunications networks, with the result that the authorities have encounter difficulties defining their legal framework. Futhermore, no precise regulation exists for PLC equipment and networks. There are currently works in place with the PLC Forum and the ETSI, but results have not been published to date.

Therefore the installation of PLC networks is currently unregulated as regards the installations located behind a private meter (called "Indoor" or "InHome"), they are however subject to the condition that they do not cause negative side-effects, in which case the equipment must be removed. Regarding external installations (called "Outdoor") where the signal is transmitted at the HVA/LV transformer level to create local electrical loops, testing permits are required from the Telecommunications Regulatory Authority so long as the technology is still in development and standards have not been published.


Only one such standard currently exists, the American: Homeplug V1.0.1 standard. This standard is only applicable for "indoor" installations and is not interoperable with current "outdoor" applications. Other standards will emerge over the coming months or years.


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