Abstract: The invention relates in an aspect A to a method for determining active input elements (S1a, S2a) of an input arrangement (10), comprising providing input elements (S1a to S2b) that are connected according to a matrix arrangement, providing within the matrix arrangement at least two drive lines (L1, L2) that are each connected to a respective driving circuit (2, 4), providing within the matrix arrangement at least two sense lines (Ca, Cb) that may be used to detect active input elements (S1a, S2a), providing within the matrix arrangement serial connections (SC1 to SC4) each comprising one of the input elements (S1a) and a resistor (R1a) and each serial connection (SC1 to SC4) being connected to a respective one of the drive lines (L1, L2) and to a respective one of the sense lines (Ca, Cb), providing pull resistors (Ra, Rb) that connect the sense lines (Ca, Cb) to a first potential, and using a control device for the driving circuits that drives an active drive line (L1) to a second potential that is diffe
Abstract: Crossbar circuitry has an array of data input and output paths where the data output paths are transverse to the data input paths. At each intersection between a data input path and a data output path, a crossbar cell is provided which includes a configuration storage circuit programmable to store a routing value, a transmission circuit, and an arbitration circuit. In a transmission mode of operation, the transmission circuit is responsive to the routing value being a first value, indicating that the data input path should be coupled to the data output path, to detect the data input along the data input path, and to output an indication of that data on the data output path at the associated intersection. In an arbitration mode of operation, the arbitration circuitry is operable to selectively modify the voltage on said plurality of bit lines in order to apply an adaptive priority scheme.
Type:
Grant
Filed:
November 18, 2010
Date of Patent:
October 1, 2013
Assignee:
The Regents of the University of Michigan
Inventors:
Sudhir Kumar Satpathy, David Theodore Blaauw, Trevor Nigel Mudge, Dennis Michael Sylvester
Abstract: Systems and methods for performing video switching between multiple inputs and outputs are disclosed. In one embodiment, a system includes a video box coupled to one or more user interfaces, a plurality of video inputs, and a plurality of video outputs. The video box includes a video controller coupled to the one or more user interfaces and a video switch coupled to the plurality of video inputs and the plurality of video outputs. Activation of the user interface generates a video control signal that is sent to the generated video control signal. The video controller generates a video switching signal based on the received video control signal. The video switch connects one or more of the plurality of video inputs to one or more of the plurality of video outputs based on the generated video control signal.
Abstract: Aspects of a switch matrix circuit are provided. In accordance with a circuit aspect, a plurality of switches are organized in a row and column configuration. Coupled to the plurality of switches is a current sensing circuit. The current sensing circuit includes a transistor and at least one resistor per column of the plurality of switches. Current amplified by the transistor and converted by the at least one resistor in a column is sensed as a logic level indicative of a switch status within the column for a selected row. The current sensing arrangement may also be used in an embodiment utilizing bi-directional signal control to minimize the number of I/O lines required to scan the switch matrix. The bi-directional signal scanning may also be implemented in another embodiment that senses voltage levels to determine switch closures.
Abstract: In a crosspoint switch, both input buses and output buses are driven at low swing. Self-timed, differential, push-pull, low swing driver circuits drive the input buses and are provided in the crosspoints to drive the output buses. Clocked, regenerative sense amplifiers are provided in crosspoints and at outputs of the data buses.