Apparatus and method for controlling an elevator power supply
With this line angle (. epsilon.), which is stable also in the case of line disturbances, the coordinate trnnsformations of the line alternating
View Patent Detail from MicroPatent
|
Dielectric slab circulators
W, thickness d. sub.1, and permittivity ?.sub.1, where ?.sub.g > . epsilon.. sub.1, attached to the top surface of the dielectric guiding layer (32);
View Patent Detail from MicroPatent
|
Dielectric slab signal isolators
W, thickness d. sub.1, and permittivity ?.sub.1, where ?.sub.g > . epsilon.. sub.1, attached to the top surface of the dielectric guiding layer (32);
View Patent Detail from MicroPatent
|
Dielectric slab antennas
W, thickness d. sub.1, and permittivity ?.sub.1, where ?.sub.g > . epsilon.. sub.1, attached to the top surface of the dielectric guiding layer (32);
View Patent Detail from MicroPatent
|
Dielectric slab transistions and power couplers
W, thickness d. sub.1, and permittivity ?.sub.1, where ?.sub.g > . epsilon.. sub.1, attached to the top surface of the dielectric guiding layer (32);
View Patent Detail from MicroPatent
|
METHOD AND APPARATUS FOR DETERMINING CHARACTERISTIC ELECTRICAL...
View Patent Detail from MicroPatent
|
Dielectric slab optically controlled devices
W, thickness d. sub.1, and permittivity ?.sub.1, where ?.sub.g > . epsilon.. sub.l, attached to the top surface of the dielectric guiding layer (32);
View Patent Detail from MicroPatent
|
System employing dissipative pseudorandom dynamics for...
n and . epsilon.S.sub.n, to produce the update signal y'.sub.n where ? is a coupling factor selected between 0 and 1, and S.sub.n is a sample of the
View Patent Detail from MicroPatent
|
|
 |
|
