The most curious phenomenon was the exceptionally low resistance observed when voltage pulses were applied.

Turn off is accomplished by a "negative voltage" pulse between the gate and cathode terminals.

The energy stored in the Blumlein rushes toward the dielectric wall as a high voltage pulse.

To switch the device, a high voltage pulse is delivered to the triggering electrode.

To turn the robot, a stronger voltage pulse lowers an arm extending off one side of the rectangle.

This change, after a delay, induces a voltage pulse into the Sense line.

The delay in sensing the voltage pulse is called the access time of the core memory.

The increase of resistance generates a voltage pulse.

This causes a high voltage pulse to be developed across the secondary terminals through electromagnetic induction.

The key requirement is the possibility to apply voltage pulses between the tip and the sample.