Current and voltage module and methods of monitoring current and voltage in power distribution systems

What is claimed is: 1. A current and voltage module comprising: a housing having an opening extending at least partially therethrough in an axial direction, said housing configured to receive a conductor within the opening; a threaded metal insert extending through said housing in a radial direction, said threaded metal insert comprising a hollow cylindrical body and threads defined on an inner surface of said hollow cylindrical body, said threaded metal insert configured to align with a threaded opening defined in the conductor; a fastening device configured to be inserted within said threaded metal insert and into the threaded opening of the conductor to form an electrically conductive path from the conductor to said threaded metal insert via said fastening device, and to secure said housing to the conductor; a voltage sensor coupled to said threaded metal insert within said housing, said voltage sensor configured to sense an amount of voltage in the conductor; and a current sensor within said housing, said current sensor configured to sense an amount of current flowing in the conductor. 2. A current and voltage module in accordance with claim 1 , further comprising an output connector within said housing, said output connector communicatively coupled to a circuit breaker trip mechanism. 3. A current and voltage module in accordance with claim 2 , wherein said output connector is coupled to said voltage sensor, said voltage sensor configured to generate a voltage signal based on the sensed voltage and transmit the voltage signal to said output connector. 4. A current and voltage module in accordance with claim 2 , wherein said output connector is coupled to said current sensor, said current sensor configured to generate a current signal based on the sensed current and transmit the current signal to said output connector. 5. A current and voltage module in accordance with claim 1 , wherein said current sensor comprises a current transformer. 6. A current and voltage module in accordance with claim 5 , wherein said current transformer comprises: a primary winding configured to measure an amount of current flowing in the conductor and generate a current signal based on the measurement; and a secondary winding configured to scale down the current signal received from said primary winding. 7. A current and voltage module in accordance with claim 6 , further comprising an output connector coupled to said secondary winding within said housing, wherein said secondary winding is further configured to transmit the scaled-down current signal to said output connector. 8. A current and voltage module in accordance with claim 1 , wherein said current sensor comprises one of a Rogowski coil, a Hall-effect sensor, and a shunt. 9. A current and voltage module in accordance with claim 1 , wherein said voltage sensor comprises a voltage attenuator configured to: generate a voltage signal based on the sensed amount of voltage; scale down the voltage signal; and transmit the voltage signal to an output connector within said housing, said output connector communicatively coupled to a circuit breaker trip unit. 10. A current and voltage module in accordance with claim 1 , further comprising an insulation layer within said housing. 11. A current and voltage module in accordance with claim 1 , wherein said fastening device comprises a screw. 12. A method of monitoring current and voltage in a conductor of a power distribution system, said method comprising: coupling a current and voltage module to the conductor, the current and voltage module including a housing having an opening extending at least partially therethrough in an axial direction, the housing configured to receive the conductor within the opening; extending a threaded metal insert radially through the housing within a threaded opening defined in the conductor, the threaded metal insert including a hollow cylindrical body and threads defined on an inner surface of the hollow cylindrical body; inserting a fastening device through the threaded metal insert into the threaded opening of the conductor to form an electrically conductive path from the conductor to the threaded metal insert via the fastening device, and to secure the housing to the conductor; sensing an amount of voltage in the conductor using a voltage sensor coupled to the threaded metal insert within the housing; and sensing an amount of current flowing in the conductor using a current sensor within the housing. 13. A method in accordance with claim 12 , wherein sensing an amount of voltage in the conductor using a voltage sensor comprises sensing the amount of voltage in the conductor using a voltage attenuator coupled to the threaded metal insert. 14. A method in accordance with claim 13 , further comprising: generating a voltage signal based on the sensed voltage, the voltage signal generated by the voltage attenuator; scaling down the sensed voltage by the voltage attenuator; and transmitting the scaled-down voltage signal to an output connector within the housing, the output connector communicatively coupled to a circuit breaker trip unit. 15. A method in accordance with claim 12 , wherein sensing an amount of current flowing in the conductor using a current sensor comprises sensing the amount of current flowing in the conductor using a current transformer. 16. A method in accordance with claim 15 , further comprising: generating a current signal based on the sensed current, the current signal generated by the current transformer; and transmitting the current signal to an output connector within the housing, the output connector communicatively coupled to a circuit breaker trip unit. 17. A method in accordance with claim 15 , wherein the current transformer includes a primary winding and a secondary winding, said method further comprising: measuring an amount of current flowing in the conductor using the primary winding; generating a current signal based on the current measurement; scaling down the current signal by the secondary winding; and transmitting the scaled-down current signal to an output connector within the housing, the output connector communicatively coupled to a circuit breaker trip unit. 18. A circuit protection device for a power distribution system, said circuit protection device comprising: a trip mechanism configured to interrupt a current flowing through said circuit protection device; a current and voltage module comprising: a housing having an opening extending at least partially therethrough in an axial direction, said housing configured to receive a conductor within the opening; a threaded metal insert extending through said housing in a radial direction, said threaded metal insert comprising a hollow cylindrical body and threads defined on an inner surface of said hollow cylindrical body, said threaded metal insert configured to align with a threaded opening defined in the conductor; a fastening device configured to be inserted within said threaded metal insert and into the threaded opening of the conductor to form an electrically conductive path from the conductor to said threaded metal insert via said fastening device, and to secure said housing to the conductor; a voltage sensor coupled to said threaded metal insert within said housing, said voltage sensor configured to sense an amount of voltage in the conductor; and a current sensor within said housing, said current sensor configured to sense an amount of current flowing in the conductor; and a trip unit operatively coupled to sai