Abstract: A fan drive circuit for a variable speed fan motor in a cooling system, includes an inverter configured to supply a current signal to stator windings of the variable speed fan motor, a frequency detection circuit coupled to an output stage of an inverter of a compressor motor of the cooling system and configured to detect a first frequency of a compressor current signal at the output stage of a variable speed compressor drive circuit and generate a frequency signal, and a digital signal processor (DSP) coupled to the inverter and the frequency detection circuit. The DSP is configured to receive the frequency signal corresponding to the first frequency from the frequency detection circuit, select a second frequency corresponding to the first frequency at which to operate the variable speed fan motor, and transmit control signals to the inverter to supply current to the stator windings at the second frequency.

Abstract: A distributed control node enables total harmonic control. The control node measures current drawn by a load, including harmonics of the primary current. A metering device can generate an energy signature unique to the load including recording a complex current vector for the load in operation identifying the primary current with a real power component and a reactive power component, and identifying the harmonics with a real power component, a reactive power component, and an angular displacement relative to the primary current. The control node can control a noise contribution of the load due to the harmonics as seen at a point of common coupling to reduce noise introduced onto the grid network from the load.

Abstract: A machining system includes a machine tool having a camera, and a three-dimensional shape generating apparatus. The three-dimensional shape generating apparatus includes an image capture unit that captures a first image from the camera at a first relative position and captures a second image from the camera at a second relative position, and a shape generator that generates a three-dimensional shape of at least one subject, based on the first image, the second image and a distance between the first relative position and the second relative position.

Abstract: A building management system for generating a building model for a building and operating building equipment of the building based on the building model. The system includes a processing circuit configured to receive a context, wherein the context includes metadata defining the building model for the building and generate a building model editor interface for viewing and editing the received context, wherein the building model interface includes building elements for the building model, wherein the building elements are based on the received context and represent the building equipment. The processing circuit is configured to receive user edits of the context via the building model interface, wherein the user edits include edits to the building elements, generate an updated context based on the user edits of the context, and deploy the updated context to control environmental conditions of the building with the building equipment based on the updated context.

Abstract: A method for producing a scaled-up solid model of microscopic features of a selected surface. A selected surface on a piece of metal exposed to friction, for example, is scanned with a profilometer along X, Y, and Z coordinates to obtain measurements of surface features. A 3-D high resolution spatial map of the surface features is made and the X, Y, and Z measurements are scaled up as desired. The spatial map is transposed into a high resolution 3-D scaled-up meshed surface. A data set of printing instructions is made from the 3-D scaled-up meshed surface acceptable for use in a 3-D printer. A solid scaled-up model of the selected surface is manufactured in the 3-D printer in any desired size using the printing instructions. The method provides a physical hand-held model of the selected surface that can be used to demonstrate accurately the effectiveness of lubrication and anti-friction products, both visually and by touch.

Abstract: An agent engine allocates a collection of agents to scan the surface of an object model. Each agent operates autonomously and implements particular behaviors based on the actions of nearby agents. Accordingly, the collection of agents exhibits swarm-like behavior. Over a sequence of time steps, the agents traverse the surface of the object model. Each agent acts to avoid other agents, thereby maintaining a relatively consistent distribution of agents across the surface of the object model over all time steps. At a given time step, the agent engine generates a slice through the object model that intersects each agent in a group of agents. The slice associated with a given time step represents a set of locations where material should be deposited to fabricate a 3D object. Based on a set of such slices, a robot engine causes a robot to fabricate the 3D object.

Abstract: A method for managing the operation of an AC power distribution network to which connect a plurality of electric vehicles, at random times and at random locations to receive electrical energy for charging. The AC power distribution network is characterized by a dynamic state of balance between power generation and load, and it has an operating reserve which is a supplemental power generation capacity available to the AC power distribution network. The method includes the step of forecasting a power-supply contribution that would be available to the AC power distribution network from the electric vehicles connected to the AC power distribution network in the event the AC power distribution network experiences a state of imbalance resulting from a power-generation deficit. The method further includes adjusting the magnitude of the operating reserve on the basis of the forecasting.

Abstract: An electronic device, which includes a host, and a storage device receiving a command from the host. The storage device processes the received command and returns, to the host, a command response indicating a result of processing the received command, and the command response includes information about an internal temperature of the storage device.

Abstract: An indoor air quality (IAQ) system for a building includes a relative humidity (RH) sensor. The RH sensor is configured to measure a RH of the air within the building. At least one of a thermostat and an IAQ control module is configured to control humidification of the building based on the RH measured by the RH sensor.

Abstract: A product-input-plan developing device for developing product input plans including an input order of products to a manufacture line that includes a branch and a merge, and paths along which the products individually flow in the manufacture line, includes a processor configured to optimize product input plans for k number of products for which a product input plan is developable without causing information explosion from among the products to be input to the manufacture line; and determine adoption of product input plans for first n (n<k) number of products from among the product input plans optimized by the processor, wherein the processor repeatedly executes the process for optimizing the product input plan and the processor repeatedly executes the process for determination for a product for which adoption of the product input plan is not determined by the processor.

Abstract: A system and method for managing a schedule on an irrigation controller is claimed. For each irrigation zone, out of a set of one or more irrigation zones, the process begins by receiving input for an irrigation controller for both i) an offset from an irrigation cycle start time according to a master clock in the irrigation controller and ii) a length of run time. Next the offset from the irrigation cycle start timer and the length of runtime is stored in an ordered array. An overall multiplier for an array is also stored. Continuing further the ordered array with or without the overall multiplier is wirelessly transmitted to the irrigation controller. In one example the set of the one or more irrigation zones are in numerical order. In another example the set of one more irrigation zones is out of numerical order.

Abstract: A method for actuating a valve device as a function of a characteristic curve including actuating the valve device with a dither superimposed on a target value (i_EDS) with such a frequency that the operating condition of the valve device follows the actuation corresponding to the characteristic curve (v_kk). The method further includes determining, with the characteristic curve (v_kk), the output values (“1”, x) which correlate with the target values (i_EDS) at inflection points of a harmonic oscillation impressed upon the valve device with the dither, and determining further output values as a function of the output values (“1”, x). The amplitude of the dither is predefined such that, during an actuation of the valve device, one of the inflection points lies in a first or second characteristic curve range (v_kk1 or v_kk3, v_kk3 or v_kk5), and another inflection point lies in a third characteristic curve range (v_kk2 or v_kk4).

Abstract: Thermal management devices and systems, and corresponding methods of cooling computing devices are described herein. Such devices, systems, and methods may be advantageous in providing optimal thermal management for the computing device and/or minimizing acoustics in the computing device for a plurality of rotational fan speeds. Additionally, optimal thermal management may provide an increase in system performance and an increase in computing device life expectancy. In one example, a thermal management system includes a fan configured to move air through an outlet opening of the fan and at least one airflow guide positioned adjacent to the outlet opening. The at least one airflow guide is configured to direct movement of the air from the outlet opening to dissipate heat within an electronic device, and the at least one airflow guide is configured to pivot about an axis to move between a first position to a second position based on a change in a rotational speed of the fan.

Abstract: Examples may include routing power between a Universal Serial Bus (USB) host and a USB device. In some examples, the power may be routed from a power source at the USB device while the USB host is in a dead battery condition. Various switches at the USB host may be capable of selectively switching to route power from the power source to provide operating power to circuitry at the USB host.

Abstract: Some embodiments of the present disclosure provide a method for judging four key moments in a whole process (a feeding starting moment, an idling process, a cutting starting moment, cutting, a cutting ending moment, an idling process and a feeding ending moment) of a machining step for computer numerical control machine tools. The method includes that: the feeding starting moment and ending moment are determined according to a real-time execution state of a numerical control code; input power of a spindle of a machine tool is compared in real time with idling power to determine the cutting starting moment and ending moment; and for a special machining step in which power does not change obviously in a feeding process, the cutting starting and ending moments are determined in combination with a historical statistical average time of an idling process duration and a feeding moment.

Abstract: A method for suppressing a non-periodic random event in a proximity system includes: receiving an output signal generated by a proximity sensor in the proximity system and monitoring at least a magnitude of the output signal; determining whether a spike having a magnitude exceeding a prescribed threshold value has occurred in the output signal; when a spike in the output signal is detected, setting an output of the proximity system to a prescribed level for a prescribed duration of time; when the prescribed duration of time has elapsed, determining whether the output signal meets one or more prescribed criteria indicative of a shutdown condition; when it is determined that the output signal meets the prescribed criteria, setting the output of the proximity system to a level exceeding an alarm threshold; and when it is determined that the output signal fails to meet at least one of the prescribed criteria, releasing suppression of the output of the proximity system.

Abstract: If a user enters a bed, a sensor in the pump of the bed can detect the user's presence in the bed.

Abstract: A numerical control device includes: an estimation unit to estimate an accumulation amount of swarf to be produced when a tool mounted on a machine tool cuts a workpiece on the basis of a machining condition in cutting the workpiece by the tool and a value of current to be applied to a motor for moving a shaft of the machine tool when the tool cuts the workpiece. The numerical control device further includes a correction unit to correct the accumulation amount of swarf estimated by the estimation unit on the basis of a machining mode specifying a shape of swarf to be produced when the tool cuts the workpiece.

Abstract: A system and method for detecting and compensating for temperature effects in a device having a power supply and a remote node. The system includes a power supply unit having an adjustable voltage output and a feedback circuit. The voltage output is adjusted based on the output of the feedback circuit. A power path is coupled to the power supply unit. The power path has power connectors to supply voltage from the power supply unit to a remote node. The remote node is operable to sense a voltage drop of the power path at the remote node associated with temperature effects on the power connectors. An adjustable resistor has an output coupled to the feedback circuit. A controller is coupled to the remote node and the adjustable resistor. The controller determines a resistance value to compensate for the temperature effects and sets the adjustable resistor to change the power output.

Abstract: Provided are an air conditioner and a mode switching control method thereof. The air conditioner comprises an outdoor unit and an indoor unit. One end of the outdoor unit is connected to one end of the indoor unit via a throttling element, and the other end of the indoor unit is connected to the other end of the outdoor unit via a liquid storage tank. The mode switching control method comprises the following steps: when the indoor unit switches to a refrigeration mode, acquiring an outlet superheat degree of the liquid storage tank, and determining whether the outlet superheat degree is less than a first preset value; and if the outlet superheat degree is less than the first preset value, controlling to turn down the throttling element until the outlet superheat degree is greater than a second preset value that is greater than the first preset value.