System providing inductive transmission of power and data through a permeable conductive barrier layer

1. A wireless power transmission system, designed to transmit power through a permeable conductive barrier layer of magnetic steel, comprising:

• a power transmitting circuit including a first inductive coil;
  
  a power receiving circuit including a second inductive coil located on the opposite side of the barrier layer of magnetic steel to the first inductive coil; and
  
  a biasing magnet or electromagnet, arranged to substantially saturate the magnetisation of the barrier layer of magnetic steel in a region adjacent to the first and second inductive coils,wherein the biasing magnet or electromagnet is provided with the DC bias current establishes a DC bias field to saturate the permeable conductive barrier layer of magnetic steel in a vicinity of the biasing magnet or electromagnet to increase a skin depth of the permeable conductive barrier layer of magnetic steel in the vicinity of the biasing magnet or electromagnet,wherein the skin depth characterises the depth to which electromagnetic energy will penetrate through a material,wherein the power transmitting circuit communicates a data signal and power through the saturated permeable conductive barrier layer of magnetic steel in the vicinity of the biasing magnet or electromagnet that is received by the power receiving circuit;
  
  wherein in response to communicating the data signal from the power transmitting circuit to the power receiving circuit, the power receiving circuit transmits a return data signal through the permeable conductive barrier layer of magnetic steel in the vicinity of the biasing magnet or electromagnet,wherein the return data is received by the power transmitting circuit; and
  
  wherein the return data is communicated using a modulated signal having a frequency range of 50 Hz to 10 kHz with the return data modulated on the 50 Hz to 10 kHz modulated signal.