Information transmission apparatus and system using inductive coupling between coils

1. An information transmission system comprising:

• a first information transmission apparatus including a transmitter circuit configured to transmit information to a receiver circuit connected to a receiver coil, and a first noncontact connector apparatus connected to the transmitter circuit; and
  
  a second information transmission apparatus including a receiver circuit configured to receive information from the transmitter circuit, and a second noncontact connector apparatus connected to the receiver circuit,wherein the first noncontact connecter apparatus comprises a transmitter coil, that is provided to be adjacent so as to be electromagnetically coupled to the receiver coil, and a winding of the transmitter coil is wound on a first plane, andwherein the information transmission apparatus comprises;
  
  a first magnetic body provided between the first plane and a second plane which is opposed to be adjacent to the first plane and on which the receiver coil is provided, the first magnetic body being provided to be adjacent so as to be electromagnetically coupled to the transmitter coil and to cover at least one part of a region in which at least the winding of the transmitter coil exists,wherein the second noncontact connector apparatus comprises the receiver coil including a winding wound on the second plane,wherein the first magnetic body is further put to be adjacent to the receiver coil to be electromagnetically coupled to the receiver coil and to cover at least one part of a region in which at least the winding of the receiver coil exists between the first plane and the second plane, thereby increasing the self-inductance of the receiver coil by putting the first magnetic body to be adjacent to the receiver coil,wherein a coupling coefficient between the transmitter coil and the receiver coil is set to be decreased by increasing the self-inductance of each of the transmitter coil and the receiver coil so that a frequency characteristic of transmission efficiency from the transmitter coil to the receiver coil changes from a double-peaked narrow-band characteristic to a single-peaked wide-band characteristic, andwherein a center frequency of the double-peaked narrow-band characteristic is set to be lower than a center frequency of the single-peaked wide-band characteristic by increasing the self-inductance of each of the transmitter coil and the receiver coil.