Abstract: An apparatus for LED string short circuit detection constituted of: a constant current drive circuit; a plurality of LED strings, a first end of each of the plurality of LED strings coupled to a common output of the constant current drive circuit; a first sense resistor coupled between a second end of each of the plurality of LED strings and a chassis; a second sense resistor coupled between the chassis and a return of the constant current drive circuit; and a comparing circuit arranged to compare the amount of current flow through the first sense resistor with amount of current flow through the second sense resistor, the comparing circuit arranged to assert a fault signal in the event that the amount of current flow through the second sense resistor exceeds the current flow through the first sense resistor by a predetermined minimum value.

Abstract: A signal acquisition circuit detects a wanted signal in a composite signal containing the wanted signal and an unwanted signal, where the highest frequency in the unwanted signal is higher than the highest frequency in the wanted signal. A sensor captures the composite signal and an analog-to-digital converter samples and converts the composite signal to digital format, and a filter subtracts the unwanted signal from the composite signal. The sampled signal contains a first component containing the sum of the wanted signal and the unwanted signal sampled at a first rate at least equal to the Nyquist rate for the wanted signal but less than a second rate that is at least equal to the Nyquist rate for the unwanted signal, and a second component containing the unwanted signal sampled at the second rate.

Abstract: A system can include a semiconductor die having a first side and a second side opposite the first side. The system can also include a first slug coupled to a portion of the first side of the die. The system can further include a second slug coupled to a portion of the second side of the die. The system can additionally include an insulating material voidlessly encapsulating the die. The first slug can include a first portion having a first width in proximity to the die and a second portion having a second width. The first portion can be closer than the second portion to the die and the first width can be smaller than the second width.

Abstract: A millimeter wave energy sensing wand includes a housing adapted to be grasped by a hand of an operator. A number of sensors may be coupled with the housing and include comprising at least one millimeter or terahertz wave energy sensor. A controller coupled with the housing and electrically coupled with the sensors receives signals from the sensors in two or more sensing modes, including an active sending mode and a passive sensing mode, and generates feedback when an anomaly is detected in the received signals. The sensors may also operate in a metal detection sensing mode, and the controller may further generate feedback based on the metal detection sensing mode. The sensors may further be configured to operate in a proximity sensing mode. One or more LEDs may illuminate a portion of a scanning area.

Abstract: Methods, systems, and devices are described for providing fault monitoring for light emitting diode (LED) circuits. Embodiments receive an indication from a fault control module that a fault has occurred in a portion of an LED module (e.g., a series string of LEDs). The fault may represent an open fault or a closed fault condition. In some embodiments, a monitoring module receives the fault indication and generates a further representation that the fault has occurred (e.g., for use by external components or systems). In other embodiments, the monitoring module in configured to further indicate which in the LED module has failed, and/or in what fault condition (e.g., open or closed).

Abstract: A safety mechanism for a solar cell group, the safety mechanism constituted of: a signal receiver arranged to assert a permissive signal indicative of reception by the signal receiver of a predetermined signal; an electronically controlled switch arranged to provide in a closed state an effective short circuit across the output of the solar cell group responsive to the absence of the asserted permissive signal of the signal receiver; and a power harvester in communication with the solar cell group and arranged to provide electric power to the signal receiver when the electronically controlled switch is the closed state.

Abstract: A Vertical Power MOSFET (VDMOS) device with special features that enable the Power MOSFET or IGBT device to withstand harsh radiation environments and the process of making such a device is described. All implanted and diffused layers are “self aligned” to a “Sacrificial Poly” layer, which later on is removed, preparing the wafers for a “late gate” oxide to be grown. A starting material with graded doping profile in the epitaxial layer on the substrate is shown to increase the SEB capability of the Power MOSFET.

Abstract: A driving circuitry arranged to pass a dead time over an isolation transformer, the driving circuitry constituted of: a three-state driver arranged to output a first signal, the first signal selectively at one of two complementary voltage levels and a high impedance state; a first capacitor, a first end of the first capacitor coupled to receive the first signal; and a first isolation transformer, a first end of a first winding of the first isolation transformer coupled to a second end of the first capacitor.

Abstract: A converter constituted of: an inductor; a plurality of electronically controlled switches; and a control circuitry arranged to operate in a buck-boost mode responsive to the output voltage of the converter being within a predetermined range of the input voltage of the converter, the control circuitry arranged in the buck-boost mode: responsive to a current flowing through the inductor being lower than a predetermined low current threshold, to control the switches to couple the inductor between the input voltage and a common potential; responsive to the current flowing through the inductor being greater than a predetermined medium current threshold, to control the switches to couple the inductor between the input voltage and the output voltage; and responsive to the current flowing through the inductor being greater than a predetermined high current threshold, to control the switches to couple the inductor between the output voltage and the common potential.

Abstract: A light emitting diode (LED) based luminaire driving arrangement constituted of: a switched driver; a plurality of LED based luminaries arranged to receive power from the switched driver; at least one electronically controlled switch in series with at least one of the plurality of LED based luminaries and arranged to alternatively pass current through the at least one LED based luminaire when closed and prevent the flow of current through the at least one LED based luminaire when opened; and at least one synchronous driver in communication with the at least one electronically controlled switch, the at least one synchronous driver arranged to close the at least one electronically controlled switch only when the switched driver is actively supplying power.

Abstract: The notion of a “PTP aware” path is one current proposed approach to reduce asymmetry effects. In a fully PTP aware path there is the notion of on-path support mechanisms such as boundary clocks and transparent clocks at every switching or routing node. However, on-path support methods only address time-transfer errors introduced inside network elements and any asymmetry in the transmission medium, such as, for example, the fiber strands for the two directions of transmission, cannot be compensated for by on-path support mechanisms. Furthermore, in a real operational network, which may traverse different operational domains administered by different entities, full on-path support is a difficult challenge. In certain managed network scenarios full on-path support can be contemplated. Nevertheless, the universal asymmetry compensation method described herein mitigates the asymmetry in a network path, without requiring on-path support mechanisms such as transparent clocks and boundary clocks.

Abstract: A power converter constituted of: a control circuitry; an electronically controlled switch responsive to the control circuitry; a power transformer exhibiting a primary winding and a secondary winding; a sense transformer comprising a primary current sense winding, an error current sense winding and a feedback winding, the primary current sense winding of the sense transformer and the primary winding of the power transformer coupled in series with the electronically controlled switch; a transconductance error amplifier coupled to an output of the secondary winding of the power transformer, the transconductance amplifier arranged to drive a current through the error current sense winding of the sense transformer whose value reflects an electrical characteristic of the output of the secondary winding of the power transformer, wherein the feedback winding of the sense transformer is coupled to a feedback input of the control circuitry.

Abstract: An arrangement wherein a plurality of LED strings are driven with a balanced drive signal, i.e. a drive signal wherein the positive side and negative side are of equal energy over time, is provided. In a preferred embodiment, the drive signal is balanced responsive to a capacitor provided between a switching network and a driving transformer. Balance of current between various LED strings is provided by a balancing transformer.

Abstract: A magnetics based hybrid circuit, comprising a receiver side transformer and a transmitter side transformer is described. Power is supplied via respective inductive elements coupled to respective first end of the receiver side transformer and the transmitter side transformer. A DC blocking element is further provided in series between the second end of the receiver side primary winding and the second end of the transmitter side primary winding.

Abstract: A method of operating a power converter so as to maintain an output voltage, the method constituted of: receiving an input voltage; generating the output voltage from the input voltage responsive to at least one electronically controlled switch in communication with an inductor; deriving a gate voltage for the at least one electronically controlled switch of the power converter from the received input voltage; and deriving a gate voltage for the electronically controlled switch from the output voltage in place of the derived gate voltage from the input voltage responsive to a predetermined condition of one of the received input voltage and the generated output voltage.

Abstract: Devices and methods for correcting for start-up transients in integrated power amplifier are disclosed. A power amplifier is responsive to a bias control output and is arranged to provide an amplified power output. In some examples, the boost current is adjusted based on a supply voltage and an input power of the power amplifier. The power amplifier can operate in a low power and a high power mode and the adjustments can be made to the supply voltage and/or the input power vary depending on whether the power amplifier is operating in the high or low power mode. The adjustments for the high power mode operation are different than and correspond to the high power mode input power and voltage and the adjustments for the low power mode operation are different than and correspond to the low power mode input power and voltage.

Abstract: A method and apparatus for determining at least one property of a target material is disclosed. The method is constituted of: providing a time varying signal at comprising frequency content over a range of frequencies; transducing the provided signal so as to interact with the target material; receiving the provided time varying signal after interaction with the target material; mixing the received time varying signal with a portion of the provided time varying signal; determining the propagation delay associated with the target material of the received provided time varying signal at each of a plurality of frequencies within the range of frequencies; and determining at least one property of the target material responsive to the determined propagation delay at each of the plurality of frequencies.

Abstract: The invention provides for an expandable multi channel radiometer imaging method and system. The imaging system includes a scanner for reflecting millimeter wave energy emanating from a pre-determined scene. The millimeter wave energy is focused to a focal plane array using an optical lens and a multi channel radiometer receives the millimeter wave energy. The focal plane array is formed by a plurality of pixels that each includes a single low noise amplifier. The number of pixels of the focal plane array is expendable to increase the resolution of a millimeter wave image. A virtual grid of cells is formed representing different values of millimeter wave energy within the imaging zone. Algorithms calculate differences of millimeter wave energy between cells of said virtual grid to display a composite image to identify concealed objects on an individual.

Abstract: An amplifier arrangement constituted of: a first input lead; a second input lead; a difference amplifier; a first buffer, the input of the first buffer coupled to the first input lead, the output of the first buffer coupled to a first input of the difference amplifier; a second buffer, the input of the second buffer coupled to the second input lead, the output of the second buffer coupled to a second input of the difference amplifier; and a transconductance amplifier, the non-inverting input and the non-inverted output of the transconductance amplifier coupled to the first input of the difference amplifier, the inverting input and the inverted output of the transconductance amplifier coupled to the second input of the difference amplifier. The input signals are thus buffered and the offset of the buffers are compensated for.

Abstract: A driving arrangement for light emitting diode (LED) based illumination constituted of: a comparison circuitry arranged to compare an integral of a target current over a target illumination time for at least one LED based luminaire with an integral of an illumination current over an illumination time for the at least one LED based luminaire, the comparison circuitry arranged to output a comparison signal; and a control circuitry in communication with the comparison circuitry and arranged to alternately: allow the flow of electrical current through the at least one LED based luminaire responsive to a first condition of the comparison signal; and prevent the flow of electrical current through the at least one LED based luminaire responsive to a second condition of the comparison signal, the second condition different from the first condition.