Patent application number | Description | Published |
20110091280 | Lightweight protection element and filter of the mattress type - A lightweight protection element and filter of the mattress type comprises an external containment structure ( | 04-21-2011 |
20110114799 | Protective wire net, a protective structure constructed with the net, and the use of the protective wire net for the construction of a protective structure - A protective wire net including an array of longitudinal wires arranged side by side and each intertwined with at least one respective adjacent longitudinal wire. Each of one or more longitudinal metal cables is also intertwined with at least one adjacent longitudinal wire. One or more transverse wires and/or metal cables may also be provided, arranged in a transverse direction relative to the longitudinal wires and outside intertwining regions defined by portions of adjacent longitudinal wires which are bent around one another, the transverse wires and/or metal cables being intertwined or interlaced with one or more of the longitudinal wires. | 05-19-2011 |
20120141214 | GROUND COVERING STRUCTURE AND A PLANT AND A METHOD FOR PRODUCING SAID STRUCTURE - A production plant for a ground covering structure ( | 06-07-2012 |
20120192766 | SYSTEM AND METHOD FOR METERING AND ADDING FIBRES TO A CEMENT MATRIX - A system for metering and adding fibres to a cement matrix comprising means ( | 08-02-2012 |
20120205496 | PROTECTIVE METAL NETTING WITH INTERWOVEN WIRES, AND A MACHINE AND A METHOD FOR ITS MANUFACTURE - A protective metal netting comprises a plurality of longitudinal metal wires or cables ( | 08-16-2012 |
20120261075 | PLASTIC OPEN MESH NET MANUFACTURING DEVICE AND MACHINE - A device for twisting plastic wires to form a plastic open mesh net comprises a front twist mechanism and a back twist mechanism which have corresponding pairs of front and back thread-holes for receiving plastic wires to be twisted. Each couple of a front thread-hole and a back thread-hole is connected by a corresponding heat-conductive thread guide, preferably in the form of a pipe, which provides a uniform heating of the plastic wire which is guided therein. A machine for manufacturing a plastic open mesh net comprises a holding device downstream of the twisting device to maintain a uniform shape of the just formed open mesh net. | 10-18-2012 |
20130034392 | BLOCK FOR RETAINING WALL - A block for a retaining wall having a front face forming part of a visible side of a retaining wall, and a support face which supports at least one similar overlying block. The support face is angled with respect to the front face and traversed by a through opening which defines an internal abutment surface placed at a first predetermined distance from the front face. A reference element protrudes from the support face at a second predetermined distance from the front face, in order to abut, in use, against the at least one internal abutment surface of the similar overlying block and thus prevent the displacement thereof in only one of two directions which are transverse to the front face. The reference element includes a flattened engagement portion. An elongate slot is provided on the support face to receive the corresponding flattened engagement portion. | 02-07-2013 |
20130075574 | MOULD FOR THE CONSTRUCTION OF A PROTECTION AND SECURING ELEMENT OF THE MATTRESS TYPE AND RELEVANT METHOD - A mould for constructing a protection and securing element of the mattress type comprises an upper frame ( | 03-28-2013 |
20130105380 | LIGHTWEIGHT PROTECTION ELEMENT AND FILTER OF THE MATTRESS TYPE | 05-02-2013 |
20140291229 | LIGHTWEIGHT PROTECTION ELEMENT AND FILTER OF THE MATTRESS TYPE - A lightweight protection element and filter of the mattress type comprises an external containment structure ( | 10-02-2014 |
Patent application number | Description | Published |
20130343401 | PARALLEL RECEIVER INTERFACE WITH RECEIVER REDUNDANCY - A communications parallel bus receiver interface having N data lines and method of operation. The parallel bus interface employs receiver redundancy at the bus level such that there are N+1 receiver devices. An input switching network is configured to receive and couple N parallel data signals along respective paths to corresponding parallel-configured bit receiver devices, and adapted to couple one received data signal to two adjacent bit receivers. A calibration device calibrates one of the two adjacent bit receivers, and a qualification device qualifies data decisions made during calibration processes performed by the calibration device. The method cycles through each of N+1 receivers to periodically recalibrate each receiver (one at a time) while N inputs are processed continuously and uninterrupted. The interface is configured such that another receiver is receiving the same data as the receiver that is being calibrated, and the qualifications for receiver calibration can be made with minimal circuit overhead. | 12-26-2013 |
20130343402 | FAULT TOLERANT PARALLEL RECEIVER INTERFACE WITH RECEIVER REDUNDANCY - A communications parallel bus receiver interface having N+1 data lines and method of operation. The parallel bus interface employs receiver redundancy at the bus level such that there are N+1 receiver devices. One of the N+1 data signals comprising a spare data signal when a failure occurs in a corresponding channel transmitting one of N parallel data signals. An input switching network is configured to receive and couple N+1 parallel data signals along respective paths to corresponding parallel-configured bit receiver devices, and adapted to couple one received data signal to two or three adjacent bit receivers. A calibration device calibrates one of the two or three adjacent bit receivers, and a qualification device qualifies data decisions made during calibration processes performed by the calibration device. The method cycles through N+1 receivers for periodic recalibration of each receiver (one at a time) while N+1 inputs are processed continuously and uninterrupted. | 12-26-2013 |
20140136737 | LOW LATENCY DATA TRANSFER BETWEEN CLOCK DOMAINS OPERATED IN VARIOUS SYNCHRONIZATION MODES - Transferring data from a first clock domain to a second clock domain, wherein the second clock domain has a fixed clock frequency, and the first clock domain has a variable clock frequency. The first clock domain and the second clock domain operate in a synchronous mode when the variable clock frequency is equal to the fixed clock frequency, and in an asynchronous mode when the variable frequency is lower than the fixed frequency. A first buffer and a second buffer are used for a data transfer from the first clock domain to the second clock domain. The second clock domain comprises a multiplexor connected to the first buffer and the second buffer. The multiplexor forwards data from the first buffer further into the second clock domain in the synchronous mode and from the second buffer into the second clock domain in the asynchronous mode. | 05-15-2014 |
Patent application number | Description | Published |
20120106539 | Coordinating Communications Interface Activities in Data Communicating Devices Using Redundant Lines - A parallel data link includes a redundant line. The redundant line permits one line to be calibrated while the others carry functional data, a switching mechanism enabling each line to be selected in turn for calibration. Control information for controlling the link, which is preferably for coordinating calibration activity, is communicated on the line selected for calibration. Preferably, the link is bi-directional, having a separate redundant line in each direction, enabling a bi-directional handshaking protocol to be used for communicating control information. Preferably, the lines selected for calibration are time-multiplexed to carry calibration patterns and control information at different time intervals. | 05-03-2012 |
20120106687 | Calibration of Multiple Parallel Data Communications Lines for High Skew Conditions - A parallel data link includes a redundant line. A bank of switches permits any arbitrary line of the link to be enabled or disabled for carrying functional data, each line being dynamically calibrated in turn by disabling the line and allowing other lines to carry the functional data. The switches are located downstream of alignment mechanisms so that data input to the switches is compensated for data skew. Preferably, receiver synchronization circuitry in each line operates in a respective independent clock domain, while the switches and calibration mechanism operate in a common clock domain. Preferably, the receiver synchronization circuits provide an adjustable delay corresponding to a variable number of clock cycles to align the outputs of the receiver synchronization circuits with respect to one another, which can accommodate high data skew. | 05-03-2012 |
20120151247 | Dynamic Fault Detection and Repair in a Data Communications Mechanism - A communications link of multiple parallel communications lines includes at least one redundant line. In a first aspect, the lines are periodically recalibrated one at a time while the others carry functional data. If a fault is detected, the faulty line is disabled and the remaining previously calibrated lines transmit functional data. In a second aspect, impending line malfunction is detected from anomalies during calibration. In a third aspect, line malfunction is detected from receiver circuit output by determining a logical lane upon which each detected error occurs, and by mapping the logical lane to a physical line currently carrying the logical lane data. | 06-14-2012 |
20130188656 | Communicating Control Information for a Data Communications Link Via a Line Being Calibrated - Control information for controlling a parallel data link is communicated on a line being calibrated. Preferably, the parallel data link includes a redundant line. The redundant line permits one line to be calibrated while the others carry functional data, a switching mechanism enabling each line to be selected in turn for calibration. The control information preferably includes information for coordinating calibration activity. Preferably, the link is bi-directional, having a separate redundant line in each direction, enabling a bi-directional handshaking protocol to be used for communicating control information. Preferably, the lines selected for calibration are time-multiplexed to carry calibration patterns and control information at different time intervals. | 07-25-2013 |