Self-contained branch circuit monitor

What is claimed is: 1 . A self-contained branch circuit monitor in a load center, comprising: a sensor coil of wire wound as a toroidal coil about a toroidal core, the toroidal core having a branch circuit wire threaded through the toroidal core's center; a flexible printed circuit board wrapped around the toroidal coil's outside circumference; and a monitoring circuit formed on the flexible printed circuit board, the monitoring circuit electrically connected to leads from the sensor coil, the monitoring circuit's operation being powered by current induced in the sensor coil from current in the branch circuit wire, the monitoring circuit being configured to use the operating power to sample the current induced in the sensor coil as a measure of the current in the branch circuit wire. 2 . The self-contained branch circuit monitor in a load center of claim 1 , further comprising: wherein the self-contained branch circuit monitor is enclosed in a housing that provides a creepage distance appropriate for branch circuit wire voltage. 3 . The self-contained branch circuit monitor in a load center of claim 2 , further comprising: a transmitter in the monitoring circuit, configured to transmit signals representing a value of the measured current in the branch circuit wire; and a transmission aperture in the housing, the transmission aperture being aligned with the transmitter and configured to facilitate transmission of the signals emitted by the transmitter. 4 . The self-contained branch circuit monitor in a load center of claim 1 , further comprising: wherein the flexible printed circuit board has conductive lines electrically interconnected with the monitoring circuit on the flexible printed circuit board, and an adhesive coating on a backside of the flexible printed circuit board to fasten the flexible printed circuit board to the toroidal coil's outside circumference. 5 . The self-contained branch circuit monitor in a load center of claim 1 , further comprising: wherein the self-contained branch circuit monitor has a small form factor to enable fitting within a limited space available in the load center, such as in a wiring trough or in a branch location slot. 6 . The self-contained branch circuit monitor in a load center of claim 1 , further comprising: a rectifier coupled to the leads from the sensor coil; a capacitor coupled to the rectifier, the capacitor being charged by the current induced in the sensor coil during a first stage of operation; a voltage regulator coupled to the capacitor, the voltage regulator configured to sense when the capacitor has been charged to a threshold value indicating a transition to a second stage of operation wherein the capacitor supplies operating power to components in the self-contained branch circuit monitor, the components being configured to use the operating power to sample the current induced in the sensor coil as a measure of the current in the branch circuit wire. 7 . The self-contained branch circuit monitor in a load center of claim 6 , further comprising: a current measuring device coupled to the voltage regulator to obtain operating power therefrom during the second stage, and coupled to the rectifier to sample the current induced in the sensor coil during the second stage, the current measuring device configured to output a value representing a magnitude of the current in the branch circuit wire. 8 . The self-contained branch circuit monitor in a load center of claim 7 , further comprising: a transmitter coupled to the voltage regulator to obtain operating power therefrom during the second stage, and coupled to the current measuring device, the transmitter configured to receive from the current measuring device, the value to transmit the digital value during the second stage. 9 . The self-contained branch circuit monitor in a load center of claim 6 , further comprising: wherein the self-contained branch circuit monitor has a first mode of operation of managing the charging of the capacitor with the current induced in the sensor coil; a second mode of operation of measuring the current induced in the sensor coil when voltage on the capacitor reaches a predefined value; and a third mode of operation of transmitting a value of the measured current induced in the sensor coil. 10 . The self-contained branch circuit monitor in a load center of claim 8 , further comprising: wherein the transmitter transmits the value by means of at least one of radio frequency electromagnetic signals, ultrasonic signals, visible light signals, and infra-red light signals. 11 . The self-contained branch circuit monitor in a load center of claim 6 , further comprising: an analog-to-digital (A/D) converter coupled to the voltage regulator to obtain operating power therefrom during the second stage, and coupled to the rectifier to sample the current induced in the sensor coil during the second stage, the analog-to-digital (A/D) converter configured to output a digital value representing a magnitude of the current in the branch circuit wire. 12 . A load center, comprising: a self-contained branch circuit monitor configured to fit in a wiring trough of the load center; a sensor coil in the self-contained branch circuit monitor with a toroidal core, the toroidal core having a branch circuit wire threaded through the toroidal core's center; a flexible printed circuit board in the self-contained branch circuit monitor, the flexible printed circuit board wrapped around the toroidal coil's outside circumference; and a monitoring circuit formed on the flexible printed circuit board, the monitoring circuit electrically connected to leads from the sensor coil and powered by current induced in the sensor coil from current in the branch circuit wire of a branch circuit device in the load center. 13 . The load center of claim 12 , further comprising: wherein the self-contained branch circuit monitor is enclosed in a housing that provides a creepage distance appropriate for branch circuit wire voltage. 14 . The load center of claim 13 , further comprising: a transmitter in the monitoring circuit, configured to transmit signals representing a value of the measured current in the branch circuit wire; and a transmission aperture in the housing, the transmission aperture being aligned with the transmitter and configured to facilitate transmission of the signals emitted by the transmitter. 15 . The load center of claim 12 , further comprising: wherein the branch circuit device in the load center, is selected from the group consisting of a branch circuit breaker, a ground fault isolator, a surge protector, an arc fault circuit breaker, and an automatic transfer switch. 16 . The load center of claim 12 , further comprising: wherein the self-contained branch circuit monitor has a small form factor to enable fitting within a limited space available in the load center, such as in a wiring trough or in a branch location slot. 17 . The load center of claim 14 , further comprising: a receiver located in the load center, configured to receive the signals from the transmitter, the signals representing the value of the measured current in the branch circuit wire. 18 . The load center of claim 17 , further comprising: wherein the value of the measured current in the branch circuit wire is used to set an alarm, analyze energy consumption, stored for future use, or transmitted to a Smart Grid.