Utility locating transmitter apparatus and methods

We claim: 1. A transmitter apparatus for use in utility locating, comprising: a substantially non-conductive, non-magnetic case; a user interface (UI) for accepting operator commands disposed on or within the case; a resonant coil winding supported by the case and defining a cylinder; a driver circuit board connected to the resonant coil winding and mounted in the case; and a kickstand support coupled to the non-magnetic case and extensible therefrom for supporting the case on a flat surface in a tilted configuration that directs an axis of rotation of the resonant coil winding to a predefined orientation. 2. The transmitter apparatus of claim 1 , wherein the driver circuit includes an exciter circuit for generating an excitation current signal having a frequency corresponding to a user selected output frequency, where the resonant coil is coupled to an output of the exciter circuit. 3. The transmitter of claim 2 , wherein the excited circuit provides an output signal in the Extra-Low Frequency (ELF) frequency band. 4. The transmitter apparatus of claim 1 , further comprising a conductor assembly including at least one conductive coil defining a low-permeability core volume, wherein at least half of the transmitter apparatus elements are disposed outside of the low-permeability core volume during operation of the transmitter apparatus. 5. The transmitter apparatus of claim 4 , wherein the transmitter apparatus elements are disposed such that the low-permeability core volume is substantially empty during operation of the transmitter apparatus. 6. The transmitter apparatus of claim 4 , further comprising, in the conductor assembly, a Litz wire conductor. 7. The transmitter apparatus of claim 1 , further comprising a conductor assembly having at least one conductive coil defining a low-permeability core volume disposed about an axis of rotation; and at least one integral support for supporting the transmitter apparatus on a flat surface in an orientation that directs the conductive coil axis of rotation into the flat surface during operation. 8. The transmitter apparatus of claim 1 , further comprising a spring clip assembly including a thumb-actuated element having two jaws biased to a closed position for coupling an output current to a buried utility. 9. The transmitter apparatus of claim 8 , wherein at least a portion of the spring clip assembly is color-coded to indicate the current direction with respect to current flow provided from the transmitter apparatus. 10. The transmitter apparatus of claim 1 , further comprising a High Voltage (HV) booster circuit coupled to the resonant coil winding for increasing the output signal. 11. The transmitter of claim 1 , wherein the resonant coil is a component of an adaptive self-correcting tunable high-Q resonator for inducing alternating currents in one or more conductive utilities. 12. The transmitter of claim 1 , further comprising: an adaptive self-correcting tunable high-Q resonator, including a resonant coil winding, for inducing a precisely controlled alternating current in one or more conductive buried utilities. 13. The transmitter apparatus of claim 12 , wherein the resonator is adaptively re-tunable to a predetermined resonant frequency responsive to a circuit resonant change.