Patent ID: 7800377

Claim:
An apparatus for current transformer adaptation for extending the distance between a current sensing location, proximate to a load conductor carrying a load current between an alternating current source and a load, and a current measuring location having a current measuring instrument for deriving a measured reference current value for a current flowing through a reference resistive load, the apparatus comprising: a first current transformer having: a first primary winding formed by installation of the first current transformer on the load conductor wherein the load current flowing through the first primary winding is also referred to as a first primary current; a first secondary winding arranged to form a closed circuit in which a first secondary current is generated responsive to the first primary current; a first current ratio representing the ratio of the first primary current to the first secondary current; and a first load burden rating representing a maximum resistive load that can be driven by the first secondary winding while remaining within rated accuracy parameters of the first current transformer; a second current transformer having: a second primary winding formed by installation of the second current transformer on to the closed circuit formed by the first secondary winding of the first current transformer wherein the first secondary current flowing through the second primary winding is also referred to as a second primary current; a second secondary winding in which a second secondary current is generated responsive to the second primary current; a second current ratio representing the ratio of the second primary current to the second secondary current; and a second load burden rating representing a maximum resistive load that can be driven by the second secondary winding while remaining within rated accuracy parameters of the second current transformer, wherein the second load burden rating has a higher ohmic value relative to the first load burden rating; and an instrument conductor connected to, and forming a closed circuit between, the second secondary winding and the reference resistive load, and having a conductor resistive load that is the product of a length of the instrument conductor and a pre-determined resistive load per unit length; wherein the instrument conductor can be of any length less than or equal to a maximum instrument conductor length where the sum of the conductor resistive load and the reference resistive load is equal to the second load burden rating, and wherein a measured value for the load current can be derived from the measured reference current value, the second current ratio and the first current ratio.