Agilent Technologies

About: Agilent Technologies is a company organization based out in Santa Clara, California, United States. It is known for research contribution in the topics: Signal & Mass spectrometry. The organization has 7398 authors who have published 11518 publications receiving 262410 citations. The organization is also known as: Agilent Technologies, Inc..

System and method for displaying simultaneously a main waveform display and a magnified waveform display in a signal measurement system

Abstract: An apparatus and methodology for use in a signal measurement system having a graphical user interface. The apparatus constructed and arranged to simultaneously render on a display of pixels a main waveform display and a magnified waveform display is disclosed. The main waveform display is adapted to have displayed therein one or more waveforms and associated data on a first graticule with a background while the magnified waveform display is adapted to have displayed therein a magnified view of a region of the main waveform display on a second graticule with a background. The region of the main waveform display to be magnified is defined by a graphically-controllable selection window positioned over the main waveform display to encompass the region. Preferably, the operator-controllable selection window has a position and extent that may be graphically manipulated.

Light-emitting diode with an electrically conductive window

Abstract: A light-emitting diode has a semiconductor substrate underlying active p-n junction layers of AlGaInP for emitting light. A transparent window layer of semiconductor different from AlGaInP overlies the active layers and has a lower electrical resistivity than the active layers and a bandgap greater than the bandgap of the active layers, for minimizing current crowding from a metal electrical contact over the transparent window layer. The active layers may be epitaxially grown on a temporary GaAs substrate. A layer of lattice mismatched GaP is then grown on the active layers with the GaP having a bandgap greater than the bandgap of the active layers so that it is transparent to light emitted by the LED. The GaAs temporary substrate is then selectively etched away so that the GaP acts as a transparent substrate. A transparent window layer may be epitaxially grown over the active layers on the face previously adjacent to the GaAs substrate.

Configurable arrhythmia analysis algorithm with security interface

Abstract: An electrotherapy device includes a power supply and electrodes. The electrodes are coupled to the power supply to deliver a defibrillating shock to a patient. Electronic circuitry is coupled to the electrodes and is operable to detect heart rhythms via the electrodes. Further, control circuitry is coupled to the electronic circuitry and the power supply and configurable to selectively classify patient heart rhythms that generate a shockable condition, the control circuitry operable to arm the power supply for energizing the electrodes responsive to such detectable shockable condition. A method is also provided.

Organization of time synchronization in a distributed system

Abstract: A distributed system with mechanisms for automatic selection of master and slave clocks to be used for clock synchronization. The distributed system includes a set of nodes (20-24), including a first node and a second node, each having a local clock (30-34) and a set of information (40-44) pertaining to the local clock (30-34). The first node transfers a packet (50) on a communication link (12) that carries the information (52). The second node receives the packet (50) on the communication link (12) and determines whether the local clock of the second node is a master clock that synchronizes a time value in the local clock of the first node or a slave clock that synchronizes to a time value from the local clock in the first node by comparing the information (52)in the packet (50)to the information pertaining to the local clock in the second node. Automatic selection of master and slave clocks in boundary nodes (92) is provided along with mechanisms for determining clock synchronization delays and mechanisms for reporting jitter associated with communication devices (14).