Abstract: An assembly for terminating a sheathed cable harness at an electrical component port, the assembly incorporating a nipple having a hollow bore fitted for receiving the cable harness; a coupling nut mounting the nipple upon the electrical component, the coupling nut being connected to the nipple's proximal end, and being adapted for aligning the hollow bore with the electrical component's port; and a Hunter spring annularly clamping the cable harness's sheath to the nipple, the Hunter spring having an outer end and a plurality of radially outwardly extending teeth, the radially outwardly extending teeth being positioned at the spring's outer end.

Abstract: A foreign object damage protecting electrical connector backshell adaptor including a nipple having a forward end, a rearward end, a hollow bore, and a wall surrounding the hollow bore; an adaptor mounting coupling nut fixedly attached to the nipple's forward end; a retention flange, the retention flange being fixedly attached to or formed wholly with the nipple's rearward end, the retention flange having a seam dividing the retention flange at least into a movable clamp jaw segment and an opposing clamp jaw segment; clamp actuating screws connected operatively to the retention flange for drawing the movable clamp jaw segment from a cable receiving position to a cable clamping position; a tubular sheath and receptacle extending rearwardly from and annularly about the retention flange; and an annular clamping band engaging the tubular sheath forwardly from the retention flange.

Abstract: A highly efficient, energy saving ballasting and transfer circuit, utilizing a single high frequency inverter ballast unit, capable of powering multiple lamp loads from any direct or alternating electric power source, comprises a current feedback inverter in combination with a leakage transformer, which operates to permit coupling of the single inverter unit to any number of lamps, particularly the gas discharge type. The leakage transformer can power any number of lamps from a single source which, because of its linear transfer function, achieves controlled light output of the lamps proportional to the power input. Thus, an excellent dimming capability is achieved. It is important to note that this leakage transformer is a special case of a certain type of multi-path leakage transformer, where only one secondary coil is used to achieve the same dimming capabilities of multiple secondary embodiments.

Abstract: A highly efficient, energy saving ballasting and transfer circuit, utilizing a single high frequency inverter ballast unit, capable of powering multiple lamp loads from any direct or alternating electric power source, comprises a current feedback inverter in combination with a unique multi-path, independently controlled leakage transformer, which operates to permit coupling of the single inverter unit to any number of lamps, particularly the gas discharge type. The multi-path leakage transformer provides multiple and independent magnetic circuits to power any number of lamps from a single source which, because of its linear transfer function, achieves controlled light output of the lamps proportional to the power input.