Grounding and Interfacing 1195it flows through a person’s body. More relevant is the
fact that these noisy leakage currents will flow in any
wire connecting such a floating device to safety ground,
or connecting two floating devices to each other as
shown in Fig. 32-25.32.5 Interface Problems in SystemsIf properly designed balanced interfaces were used
throughout an audio system, it would theoretically benoise-free. Until about 1970, equipment designs
allowed real-world system to come very close to this
ideal. But since then, balanced interfaces have fallen
victim to two major design problems—and both can
properly be blamed on equipment manufacturers. Even
careful examination of manufacturers’ specifications
and data sheets will not reveal either problem—the
devil is in the details. These problems are effectively
concealed because the marketing departments of most
manufacturers have succeeded in dumbing down their
so-called specifications over the same time period.Figure 32-21. Voltage difference is magnetically induced over length of safety-ground premises wiring.Device A Device B
Driver Receiver Power transformerparasitic capacitancesInternal groundChassis*Optional power line EMI filterGround voltage
differenceParasitic
transformer Ground wire
resistanceOutletWhite
BlackLoad currentOutlet Load current* Optional power line filterChassisPower transformer
parasitic capacitances Signal
Internal groundFigure 32-22. Magnetic fields surrounding line and neutral
can induce voltage into safety ground.
Current in L and N are equal but in opposite directionsSafety ground “sees”
zero magnetic field at
exact midpoint
(cross-section view)
Instantaneous L and N currents are flowing into
drawing and out on drawing Figure 32-23. Lamp current (upper) versus induced voltage
(lower) for phase-controlled dimmer.On OnOnFigure 32-24. For grounded equipment, interconnect cables complete a wired loop.G GRGround voltage differenceDevice A Device B
Driver
SignalChassisReceiverChassisSignal
+ hum