Abstract:
A method and device for providing power to a load (11) are disclosed. A beam of free electrons is directed from a free-electron source, such as an electron gun (4, 15), into an enclosing conductive surface (2, 12). The free-electron source includes a cathode, which is maintained at a negative voltage with respect to the enclosing conductive surface. A region around the free-electron source is maintained in a vacuum (14). The system is configured to switch over a time period between two configurations. In the first configuration, the enclosing conductive surface (2, 12) is isolated from a ground (17). In the second configuration, the enclosing conductive surface (2, 12) is in electrical communication with the ground (17). Capacitive energy is discharged from the enclosing conductive surface (2, 12) when in the second configuration with an electrical circuit arrangement (8-10) and provided to the load (11).
Abstract:
Energie is converted by launching a bundle of discrete self-contained electrons. The bundle is guided along a path defined by a channel (584) in a dielectric (582). Energy from the bundle is transferred by a charge transfer mechanism to a slow wave electrical conductor (588) while the bundle is guided along the path. Energy transferred to the slow wave conductor from the bundle is coupled to a load (590).
Abstract:
On transforme de l'énergie à l'aide d'un faisceau d'électrons discrets, autonomes. Ledit faisceau est guidé le long d'un chemin défini par un canal (584) dans un diélectrique (582). L'énergie provenant du faisceau est transférée par un mécanisme de transfert de charge à un conducteur électrique (588) à ondes lentes pendant que ledit faisceau est guidé le long dudit chemin. L'énergie transférée au conducteur à ondes lentes à partir dudit faisceau est couplée à une charge (590).
Abstract:
PROBLEM TO BE SOLVED: To improve downlink advanced receiver performance (DARP) by allowing multiple users on one time slot (MUROS).SOLUTION: An embodiment comprises means and instructions for signaling training sequence set information to a remote station 1710, comprising receiving signaling from a remote station indicating if a new set of training sequences is supported, and using a channel description to signal the training sequence set to be used by the remote station for a communication channel being established 1720.
Abstract:
The present patent application improves DARP by allowing multiple users on one time slot (MUROS). It comprises means and instructions for signaling training sequence set information to a remote station, comprising receiving signaling from a remote station indicating if a new set of training sequences is supported, and using a channel description to signal the training sequence set to be used by the remote station for a communication channel being established.
Abstract:
An ion trap device includes a substrate over which at least one central DC electrode, an RF electrode and at least one side electrode are disposed. The central DC electrode includes a DC connector pad and a DC rail connected to the DC connector pad. The RF electrode includes at least one RF rail located adjacent to the DC rail and an RF pad connected to the at least one RF rail. The RF electrode is disposed between the central DC electrode and the side electrode. At least one pair of electrodes among the central DC electrode, the RF electrode and the side electrode have round corners facing each other.
Abstract:
The present patent application improves DARP by allowing multiple users on one time slot (MUROS). It comprises means and instructions for signaling training sequence set information to a remote station, comprising receiving signaling from a remote station indicating if a new set of training sequences is supported, and using a channel description to signal the training sequence set to be used by the remote station for a communication channel being established.