Abstract: Public scheduling tables of PCI-Express network devices are remapped into private scheduling tables having different data structures. The private scheduling tables enable the construction of parallel-processing selection engines (ones with look-ahead selection capabilities) that are more compact in size than would have been possible with use of the data structures of the public scheduling tables. In one embodiment, residual weight values are re-shuffled so as to move each winner of an arbitration round away from a winner's proximity bar by a distance corresponding to an initial weight assigned to the winner. The initial weight can be proportional to the reciprocal of a bandwidth allocation assigned to each data source.

Abstract: A method of addressing a target device within a chain of devices, the method comprising a sending device setting an address value and sending data in association with the address value, and wherein each device receiving the address value and data compares the address value to a device number, and if they are different modifies the address value by a predetermined amount and transmits the data and the modified address value to a subsequent device.

Abstract: Public scheduling tables of PCI-Express network devices are remapped into private scheduling tables having different data structures. The private scheduling tables enable the construction of parallel-processing selection engines (ones with look-ahead selection capabilities) that are more compact in size than would have been possible with use of the data structures of the public scheduling tables. In one embodiment, residual weight values are re-shuffled so as to move each winner of an arbitration round away from a winner's proximity bar by a distance corresponding to an initial weight assigned to the winner. The initial weight can be proportional to the reciprocal of a bandwidth allocation assigned to each data source.

Abstract: A capacitive sensor including a housing having a hermetically sealed cavity, a plate in the cavity, a diaphragm forming a part of the cavity and spaced from the plate, a conductive layer on the first diaphragm, and a second conductive layer on the plate, the first and second conductive layers being the electrodes of a capacitor whose capacitance varies with the position of the diaphragm relative to the plate.

Abstract: A traffic manager for a network switch input or output port stores incoming cells in a cell memory and later sends each cell out of its cell memory toward one of a set of forwarding resources such as, for example, another switch port or an output bus. Data in each cell references the particular forwarding resource to receive the cell. Each cell is assigned to one of several flow queues such that all cells assigned to the same flow queue are to be sent to the same forwarding resource. The traffic manager maintains a separate virtual output queue (VOQ) associated with each forwarding resource and periodically loads a flow queue (FQ) number identifying each flow queue into the VOQ associated with the forwarding resource that is to receive the cells assigned to that FQ. The traffic manager also periodically shifts an FQ ID out of each non-empty VOQ and forwards the longest-stored cell assigned to that FQ from the cell memory toward its intended forwarding resource.

Abstract: A traffic manager for a network switch port stores incoming cells in a cell memory and later forwards them out of the cell memory and the switch port. Each cell is assigned to one of several flow queues and each flow queue has an assigned minimum forwarding bandwidth with which cells of that flow queue must be forwarded from the cell memory and has an assigned maximum bandwidth with which cells of that flow queue may be forwarded. When any flow queue is active (i.e., when it has cells currently stored in the cell memory), the traffic manager allocates a sufficient amount of the switch port's available cell forwarding bandwidth to each active flow queue so that cells of that flow queue are forwarded with at least the flow queue's assigned minimum bandwidth.

Abstract: A traffic manager for a network switch input or output port stores incoming cells in a cell memory and later sends each cell out of its cell memory toward one of a set of forwarding resources such as, for example, another switch port or an output bus. Data in each cell references the particular forwarding resource to receive the cell. Each cell is assigned to one of several flow queues such that all cells assigned to the same flow queue are to be sent to the same forwarding resource. The traffic manager maintains a separate virtual output queue (VOQ) associated with each forwarding resource and periodically loads a flow queue (FQ) number identifying each flow queue into the VOQ associated with the forwarding resource that is to receive the cells assigned to that FQ. The traffic manager also periodically shifts an FQ ID out of each non-empty VOQ and forwards the longest-stored cell assigned to that FQ from the cell memory toward its intended forwarding resource.

Abstract: A traffic manager for a network switch port stores incoming cells in a cell memory and later forwards them out of the cell memory and the switch port. Each cell is assigned to one of several flow queues and each flow queue has an assigned minimum forwarding bandwidth with which cells of that flow queue must be forwarded from the cell memory and has an assigned maximum bandwidth with which cells of that flow queue may be forwarded. When any flow queue is active (i.e., when it has cells currently stored in the cell memory), the traffic manager allocates a sufficient amount of the switch port's available cell forwarding bandwidth to each active flow queue so that cells of that flow queue are forwarded with at least the flow queue's assigned minimum bandwidth.

Abstract: An apparatus and a method for controlling a mode of operation of a data converter is based on a length of an input word signal to the data converter. The apparatus includes a bit counter that counts the number of bits in the word received by the data converter and provides a word length signal corresponding to the number of bits in the word, and a mode selector that receives the word length signal and selects an operational mode of the data converter based on the word length signal. The method includes steps of counting the number of bits in the word, and selecting a mode of operation of the data converter based on the number of bits in the word.

Abstract: A converter for producing the function V.sub.out =V.sub.bias =V.sub.swing (1-2D), in which a DAC is combined with an operational amplifier and (typically) three or four resistors. A function of the voltage V.sub.swing, or a current corresponding thereto, is applied to the reference voltage input terminal of the DAC. The variable D is the DAC's digital input code, expressed as a decimal or fraction in the range between 0 and 1. The DAC output provides a suitably scaled and signed signal which is added to or subtracted from the offset signal V.sub.bias to produce V.sub.out.

Abstract: A four-quadrant multiplier uses a CMOS digital-to-analog converter (DAC) and just one operational amplifier. The back gates of the CMOS switches in the DAC are biased in the "off" condition during a substantial voltage swing at the output of the DAC. In one embodiment, the back gates of the CMOS switches are held at about -5 V with respect to the output lines, and the logic low level to the off switch also is set at -5 V relative to the output lines. The DAC connections are "reversed" so as to receive the analog input across the terminals intended as the DAC's output, with the inputs of the operational amplifier being connected across the reference voltage terminal and a feedback or output terminal of the DAC.

Abstract: The condition of a rechargeable battery, which is employed as a backup d-c power supply for a load in the event of an emergency and is normally charged by a d-c charging voltage through a series-connected protective fuse, is monitored by momentarily reducing the charging voltage and effectively sensing or measuring the voltage across the series-connected fuse and battery during the momentary reduction, while not affecting the load. If the battery is connected and is functioning properly and if the fuse is connected and is continuous, the sensed voltage will exceed a predetermined desired threshold level, and this normal condition may be visually and/or audibly indicated. On the other hand, if the battery is disconnected, or if the battery voltage is abnormally low, or if the fuse is absent or is open, then the sensed voltage will fall below the desired threshold level, signifying a trouble condition. When such a condition is detected, a trouble indicator provides an appropriate visual and/or audible signal.

Abstract: The integrity of a two-conductor transmission line, over which d-c energizing voltage is supplied to a series of shunt-connected detectors (such as fire and/or smoke detectors) and which line is terminated by an end-of-line capacitor, is monitored and repetitively tested by periodically and momentarily interrupting the application of the d-c energizing voltage to the transmission line or conductor pair, while at the same time connecting a resistive load across the line's input end to provide a discharge path for the capacitor. If the integrity is normal, meaning that the line is continuous and not open, and has no excessively high series resistance or excessively low shunt resistance, and also meaning that the capacitor is functioning normally and is not deteriorated, the capacitor will discharge very little during each test and will maintain a relatively high voltage across the resistive load.

Abstract: A Communication System useful for fire detection which transfers data/commands bidirectionally between a controller and connected transponders on a real time, interactive basis. This system makes possible accurate data recovery, whether a transponder has its output shorted, or although multiple transponders are replying and makes possible the remote determination and constant monitoring of transducer sensitivity, at the controller. The sensitivity can be adjusted remotely at the controller, and different transducers can have different thresholds simultaneously, which can be changed collectively or individually to different settings manually or automatically at the controller. The system transmits reference data for supervision of system accuracy. Compensation for long-term changes is provided for both transponders and transducers in this system.

Abstract: A communication system useful for fire detection which transfers data/commands bidirectionally between a controller and connected transponders on a real time, interactive basis. This system makes possible accurate data recovery, whether a transponder has its output shorted, or although multiple transponders are replying and makes possible the remote determination and constant monitoring of transducer sensitivity, at the controller. The sensitivity can be adjusted remotely at the controller, and different transducers can have different thresholds simultaneously, which can be changed collectively or individually to different settings manually or automatically at the controller. The system transmits reference data for supervision of system accuracy. Compensation for long-term changes is provided for both transponders and reducers in this system.

Abstract: The signalling system disclosed herein transmits groups of pulses to a plurality of transponders, and each transponder recognizes its address in a particular group of pulses. The group of pulses can reset the system, command a transponder to accomplish a specific function, or command the transponder to do nothing. Information returned from the transponder includes a reference voltage, which can be compared in the controller to continuously determine the margin from alarm of an associated transducer. The transponder further provides a signal identifying itself, and pulse duration signals representing analog signals received from one or more transducers associated with the transponders. No end-of-line termination is required, and branching is possible at any point along the loop.

Abstract: A fire detection system includes a single conductor pair for both supplying the energizing voltage to all of the fire detectors in the protected area and receiving back status information regarding the individual detector operation. The system provides individual, successive alarm outputs to regulate successive functions such as "evacuate the area", "dump the fire extinguishing material", and "call in the local fire department", as successive ones of the detectors are alarmed. The system includes a voltage regulator for supplying a well regulated voltage to the detectors, which regulator is switched into a current limiting mode to prevent an inaccurate first alarm signal if the conductor pair is short circuited. This system also provides a trouble-indicating output signal if the system loses supply voltage or experiences a ripple voltage beyond a preset amplitude.