Abstract: Methods, apparatus, systems and articles of manufacture are disclosed to facilitate proximity detection and location tracking. An example apparatus includes a real time location system (RTLS) health processor. The example RTLS health processor includes an event processor to process an event included in a message from an RTLS device to identify event information related to the RTLS device, the event relating to a health of the RTLS device and the event information including an event type and an event detail. The example RTLS health processor includes a health analyzer to compare the event detail to a prescribed bound for the event type, the event relating to a health of the device. The example RTLS health processor includes an output generator to, when the event detail is outside the prescribed bound, trigger a response to address the event with respect to the RTLS device.

Abstract: A cloud based processing system receives location information and health status information of a plurality of beacon devices. The location information indicates real-time locations of the plurality of beacon devices, and the health status information indicates real-time conditions of the plurality of beacon devices. The processing system tracks movements of at least some of the plurality of beacon devices based on the location information and identifies problematic beacon devices based on the health status information.

Abstract: Methods, apparatus, systems and articles of manufacture are disclosed to facilitate proximity detection and location tracking. An example apparatus includes a real time location system (RTLS) health processor. The example RTLS health processor includes an event processor to process an event included in a message from an RTLS device to identify event information related to the RTLS device, the event relating to a health of the RTLS device and the event information including an event type and an event detail. The example RTLS health processor includes a health analyzer to compare the event detail to a prescribed bound for the event type, the event relating to a health of the device. The example RTLS health processor includes an output generator to, when the event information is outside the prescribed bound, trigger a response to address the event with respect to the RTLS device.

Abstract: In one embodiment, a power supply control circuit may include a capacitive boost circuit having only three switches and only one boost capacitor. The capacitive boost circuit may be configured to receive an input voltage and form a first voltage to apply to an inductor. A control circuit of the power supply control circuit may be configured to switch an inductor switch at a first frequency to regulate the output voltage to the desired value, to switch the three switches at substantially the same frequency, and to adjust a duty cycle of the three switches.

Abstract: In one general aspect, a method can include calculating, at a calibration temperature of a speaker, a calibration parameter through a coil of the speaker in response to a first test signal, and can include sending a second test signal through the coil of the speaker. The method can also include measuring a parameter through the coil of the speaker based on the second test signal, and calculating a temperature change of the coil of the speaker based on the parameter and based on the calibration parameter at the calibration temperature.

Abstract: Systems and techniques for an indoor geospatial site builder engine are presented. A system can convert facility artifacts into geospatially-defined indoor space geometry and provides a rich user experience to visualize the facility's indoor space identifying important landmarks as well as providing controls to navigate the indoor space. The system can also provide the ability to record and change the location of fixed assets at run time as well as verify the location of fixed assets in indoor space in real-time. Similarly, geometries can be updated in real-time. The system further provides the geospatial capability to determine precise distances between assets, devices and other points of interest that are defined independently in separate geo-referenced maps that represent space in various facilities across the globe. The location validation component provides for validation of system device locations over time with the actual device location.

Abstract: In one general aspect, a method can include calculating, at a calibration temperature of a speaker, a calibration parameter through a coil of the speaker in response to a first test signal, and can include sending a second test signal through the coil of the speaker. The method can also include measuring a parameter through the coil of the speaker based on the second test signal, and calculating a temperature change of the coil of the speaker based on the parameter and based on the calibration parameter at the calibration temperature.

Abstract: In one general aspect, a method can include calculating, at a calibration temperature of a speaker, a calibration parameter through a coil of the speaker in response to a first test signal, and can include sending a second test signal through the coil of the speaker. The method can also include measuring a parameter through the coil of the speaker based on the second test signal, and calculating a temperature change of the coil of the speaker based on the parameter and based on the calibration parameter at the calibration temperature.

Abstract: In one general aspect, a method can include calculating, at a calibration temperature of a speaker, a calibration parameter through a coil of the speaker in response to a first test signal, and can include sending a second test signal through the coil of the speaker. The method can also include measuring a parameter through the coil of the speaker based on the second test signal, and calculating a temperature change of the coil of the speaker based on the parameter and based on the calibration parameter at the calibration temperature.

Abstract: Embodiments of the present invention provide a power feed circuit operable to supply an Ethernet power signal to a coupled Ethernet network. This power feed circuit includes a number of input nodes, differential transistor pairs, active control circuits and output nodes. The input nodes receive a first power signal such as that provided by an isolated 48 volt power supply. Each transistor of the differential transistor pairs couples to one input node. These differential transistor pairs produce a second power signal which may be supplied to the Ethernet network. The active control circuits sense the second power signal passed by each transistor and are operable to apply a feedback signal to the differential transistor pairs based on the sensed power signal. At least one twisted pair couples to each differential transistor pair's output node and is operable to pass the Ethernet power signal.

Abstract: Various embodiments of the present invention include methods and apparatus for receiving a radio frequency (RF) signal spectrum in a receiver; mixing the RF signal spectrum with a first local oscillator (LO) frequency to obtain a first downmixed signal; and converting the first downmixed signal to a first digital signal using an analog-to-digital converter (ADC) having an adjustable clock frequency selected to avoid interference with the first LO frequency. The adjustable clock frequency may be adjusted by a predetermined amount, by phase modulation, or in other manners.

Abstract: A network device comprises an interface coupling an electronic device to a differential pair of signal lines, and an integrated active common mode suppression and electrostatic discharge protection circuit coupled to the interface in parallel to differential signal lines of the electronic device.

Abstract: A network device comprises an interface coupling an electronic device to a differential pair of signal lines, and an active common mode suppression circuit coupled to the interface in parallel to differential signal lines of the electronic device.

Abstract: Power feed circuitry within a power over Ethernet (PoE) device detects fault conditions within power and data distribution lines coupled to the power feed circuitry. This circuitry includes network interface circuitry coupled to the network in order to exchange both data and power signals. The power interface circuitry also communicatively couples to at least one isolated power supply in order to draw power. The power may then be distributed via the attached network interface circuitry. A fault detection module couples to the power interface circuitry and the network interface circuitry. This fault detection module senses fault conditions associated with the power interface circuitry, network interface circuitry, and associated distribution lines in order to better draw and distribute power signals using the power feed circuitry.

Abstract: Embodiments disclosed herein provide a network device comprises a transformer with a primary winding and a secondary winding. The primary winding is coupled to receive input signals from a network connector and supply data signals to a physical layer (PHY) module. An inductance boost circuit is coupled to the secondary winding and operable to increase the impedance of the primary winding. In other embodiments, a network device comprises an autotransformer coupled to receive input signals from a network connector and supply data signals to a physical layer (PHY) module. An electronic load coupled in parallel between the autotransformer and the PHY layer module.

Abstract: In a network device, a connector module comprises a network connector coupled to the connector module in a configuration that transfers power and communication signals and an application connector that comprises serial media independent interface (SMII) pins and power pins. A Power-over-Ethernet (PoE) circuit is coupled between the network connector and the application connector.

Abstract: A network device comprising an integrated circuit configured for coupling to lines between a network connector and an Ethernet physical layer (PHY) and comprising a diode bridge and protection circuitry integrated onto a common integrated circuit whereby parasitics in an energy discharge path and stress on the PHY and the diode bridge are reduced.

Abstract: In one embodiment of the present invention, an apparatus includes a plurality of gain stages each having a gain greater than one, and which are coupled to create a positive feedback at an oscillation frequency. The gain stages may be formed of transconductance gain stages which may be coupled together as a ring oscillator or a latch type circuit. Such circuits may be used as calibration circuits in which small signal parameters of the gain stages are directly calibrated, and are used in turn to directly calibrate small signal parameters of a target circuit.

Abstract: In a network device, an active Electro-Magnetic Interference (EMI) suppression circuit is coupled in parallel to transmit and receive differential signal lines connecting an Ethernet physical layer (PHY) module and a network connector, actively suppressing EMI in a network communications system that replaces a traditional transformer with an active direct connect interface.

Abstract: In a network device, an interface is coupled between an Ethernet physical layer (PHY) module and a network connector, and comprises at least one pair of pins coupled to output connections of the Ethernet physical layer (PHY), a direct current (DC) blocking capacitor coupled to each pin, and a common-mode suppression amplifier coupled between the paired pins.