Abstract: A pulse width modulation (PWM) fan controller includes a sensor, a generator, a selector, and a multiplexer. The sensor is configured for sensing a current temperature of an electronic device. The generator is configured for generating different PWM signals, each of which is suitable for regulating the rotational speed of a fan for dissipating heat for the electronic device of a corresponding temperature. The selector is configured for generating a selection control signal based upon the current temperature of the electronic device. The selection control signal is used for selecting a PWM signal corresponding to the current temperature of the electronic device from the PWM signals from the generator. The multiplexer is configured for performing the selection of the PWM signal.

Abstract: Systems and methods for processing and analyzing samples are disclosed. The system may process samples, such as biological fluids, using assay cartridges which can be processed at different processing locations. In some cases, the system can be used for PCR processing. The different processing locations may include a preparation location where samples can be prepared and an analysis location where samples can be analyzed. To assist with the preparation of samples, the system may also include a number of processing stations which may include processing lanes. During the analysis of samples, in some cases, thermal cycler modules and an appropriate optical detection system can be used to detect the presence or absence of certain nucleic acid sequences in the samples. The system can be used to accurately and rapidly process samples.

Abstract: A server system for improving maintainability includes a rack server comprising at least one server and a heat dissipation system comprising at least one fan, a controller is configured to store a plurality of heat dissipation solutions and an detection program, the controller configured to control a rotate speed of the at least one fan, and a USB converter is connected to the at least one server and the controller. When the controller detects the stored heat dissipation solution does not match with the one server with the detection program, an updated dissipation solution is written in the controller.

Abstract: Improved approaches to providing thermal and power management for a computing device are disclosed. These approaches facilitate intelligent control of a processor's clock frequency and/or a fan's speed so as to provide thermal and/or power management for the computing device.

Abstract: A computing system has a thermal manager that changes a power consuming activity limit in the device based on an estimate of temperature of a target location in the system. There are several temperature sensors that are not at the target location. An estimator computes the target location temperature estimate using a thermal model and, as input to the thermal model, data from the sensors. The thermal model produces different estimates of the target location temperature at different ambient temperatures but without computing or measuring the ambient temperatures. Other embodiments are also described and claimed.

Abstract: Methods and apparatuses to manage working states of a data processing system. At least one embodiment of the present invention includes a data processing system with one or more sensors (e.g., physical sensors such as tachometer and thermistors, and logical sensors such as CPU load) for fine grain control of one or more components (e.g., processor, fan, hard drive, optical drive) of the system for working conditions that balance various goals (e.g., user preferences, performance, power consumption, thermal constraints, acoustic noise). In one example, the clock frequency and core voltage for a processor are actively managed to balance performance and power consumption (heat generation) without a significant latency. In one example, the speed of a cooling fan is actively managed to balance cooling effort and noise (and/or power consumption).

Abstract: In a thermal displacement compensating device and a thermal displacement compensating method for a machine tool, a block temperature obtaining section obtains temperatures of respective blocks based on temperature information detected by temperature sensors wherein temperatures in each of the respective blocks into which a column is divided to be pluralized are defined as a uniform value. An FEM analysis section performs a structural analysis by a finite element method based on the temperatures of the respective blocks obtained by the block temperature obtaining section and infers thermal displacement amounts of the column. A compensation value calculation section calculates a compensation value for a machining command position based on the thermal displacement amounts of the column inferred by the FEM analysis section. A compensation section compensates the machining command position by the compensation value obtained by the compensation value calculation section.

Abstract: A compressor drive torque estimating device to be adapted for a system provided with a refrigeration cycle in which a refrigerant is circulated by a compressor driven by a drive source mounted in a vehicle, comprising heat load detecting means for detecting a heat load of the refrigeration cycle, a storage unit storing a plurality of estimated drive torque characteristics establishing correlation between a drive torque change characteristic of the compressor and an elapsed time from a time of start of operation of the compressor, an estimated drive torque characteristic selecting means for selecting the one of the plurality of estimated drive torque characteristics stored in the storage unit based on detected values detected by the heat load detecting means, and an estimated drive torque calculating means for calculating an estimated drive torque of the compressor based on the estimated drive torque characteristic selected by the estimated drive torque characteristic selecting means.

Abstract: A control system and methods are provided that limit power provided to a power receiving device to a value less that that produced at full line voltage. The system includes at least one power receiving device and a power controller operatively associated with the power receiving device, the power controller comprising a power limiting function that limits the power provided to the power receiving device to a value less than that produced at a full line voltage through the use of a scaling function.

Abstract: A heater energization control apparatus. When an engine is stopped, a microcomputer of a GCU enters a power save mode. When the microcomputer returns to a normal mode in response to an interruption signal periodically generated from an interruption timer, the microcomputer supplies electricity to a heating resistor for a short time and obtains its resistance (S19). When the resistance is greater than a first reference value, the microcomputer determines that a glow plug is removed from the engine; that is, the glow plug is being exchanged (S29). The microcomputer sets an exchange flag to “1” (S30), and performs calibration for the heating resistor of a new glow plug after the engine is operated next time (S35). When the current resistance becomes smaller than the past resistance, the microcomputer determines that the glow plug has been exchanged.

Abstract: The present invention relates to a control system for operating a cooling system comprising components at least including a compressor (2), an evaporator (3), a pressure control element (6) and a condenser (4), and also having a control circuit (9) having electrical connections with at least some cooling system components, through which the control circuit (9) continually measures and stores, over time intervals, electrical operating variables of the cooling system, the control circuit establishes interrelationships among at least some measured values and some stored values of the electrical operating variables of the cooling system and generates a control signal for the cooling system based on at least some measured values and stored values of the electrical operating variables and on the interrelationships established among at least some measured and stored values of the electrical operating variables of the cooling system.

Abstract: A method for diagnosing a bypass valve in a bypass line for an intercooler in a supercharger for an internal combustion engine, including the following steps: ascertaining a value of an efficiency of the intercooler as the reference efficiency; actuating the bypass valve to open the bypass valve; ascertaining a value of a further efficiency of the intercooler as the diagnosis efficiency after actuating the bypass valve to open; and detecting a malfunction of the bypass valve when the absolute value of the deviation between the reference efficiency and the diagnosis efficiency is less than a specified threshold value.

Abstract: A storage apparatus includes: a storage drive providing a physical storage area for creating a logical storage area used by an external apparatus; a storage controller including a plurality of central processing units (CPUs) executing data write processing from the external apparatus to the storage drive, and data read processing from the storage drive; a plurality of cooling fans cooling the storage drive; a temperature sensor detecting a temperature of air introduced or discharged by the cooling fans; and a revolving speed sensor detecting a revolving speed of each cooling fan. Any of the CPUs executes operation control processing in which, through a data network path to the storage drive for the data write and read processing, measurement values of the temperature and revolving speed sensors are acquired and a revolving speed setup value of the fans is calculated and is transmitted to the cooling fans.

Abstract: Systems, methods, and program product to synthesize a grass-roots heat exchanger network for hot process streams to be cooled and cold process streams to be heated and to identify optimal topology for future retrofit, are provided. An exemplary system includes a heat exchange network synthesizing computer and heat exchange network synthesizing program product configured to analyze the waste heat recovery problem, without decomposition, to produce a result having a better number of heat exchanger units and/or better waste heat recovery through application of advanced process-to-process matching schemes for both non-constrained and non-thermodynamically constrained problems.

Abstract: Various embodiments of methods and systems for controlling and/or managing thermal energy generation on a portable computing device are disclosed. Data discarded from one or more processing core registers may be monitored and analyzed to deduce individual workloads that have been processed by each of the cores over a unit of time. From the deduced workloads, the power consumed by each of the cores over the unit of time in order to process the workload can be calculated. Subsequently, a time dependent power density map can be created which reflects a historical and near real time power consumption for each core. Advantageously, because power consumption can be correlated to thermal energy generation, the TDPD map can be leveraged to identify thermal aggressors for targeted, fine grained application of thermal mitigation techniques. In some embodiments, workloads may be reallocated from the identified thermal aggressors to the identified underutilized processing components.

Abstract: An embodiment of a spa control system includes a heater, a pump for circulating water through the pump, one or more sensors for monitoring temperature, and an electronic controller coupled to the heater, pump and sensor(s) for controlling the heater and pump based on the rate of change in temperature at the sensor(s). A method of controlling a heater in a spa with a spa control system is also disclosed.

Abstract: A method and apparatus are provided for implementing Advanced Process Control (APC) for enhanced electrical, magnetic, or physical properties process output control using a sequential segmented interleaving algorithm. The sequential segmented interleaving algorithm includes two tuning equations running in parallel. A deposition time is calculated after a production run based upon the relationship between the electrical, magnetic, or physical properties process output and deposition time process input. A deposition rate offset value is calculated after a calibration run based upon the relationship between a calibration deposition thickness process output and an updated deposition time process input calculated after a last production run.

Abstract: A network of microcontrollers for monitoring and diagnosing the environmental conditions of a computer is disclosed. The network of microcontrollers provides a management system by which computer users can accurately gauge the health of their computer. The network of microcontrollers provides users the ability to detect system fan speeds, internal temperatures and voltage levels. The invention is designed to not only be resilient to faults, but also allows for the system maintenance, modification, and growth—without downtime. Additionally, the present invention allows users to replace failed components, and add new functionality, such as new network interfaces, disk interface cards and storage, without impacting existing users. One of the primary roles of the present invention is to manage the environment without outside involvement. This self-management allows the system to continue to operate even though components have failed.

Abstract: Disclosed is a method of operating a refrigerator, including: providing a plurality of usage environment information which includes national information; selecting the usage environment information corresponding to a nation or region where the refrigerator is used among the plurality of usage environment information; and controlling operation of the refrigerator based on the selected usage environment information.

Abstract: A method is provided to heat a target device of a computer system by a heater equipped therein. The target device is heated to reach a target temperature through multiple temperature intervals. The method senses the current device temperature of the target device to compare with the preset interval temperature of the temperature interval and obtain a phase difference for adjusting a heating power. When heating the target device by the heating power, the current preset interval temperature of the current temperature interval is increased progressively by a preset temperature rising value to obtain the next preset interval temperature of the next temperature interval. Repeat the foregoing steps in every temperature interval until the preset interval temperature or the device temperature reaching the target temperature.

Abstract: A spa control system that measures the flow of water through the heater and accurately reports water temperature in the spa using only one solid-state sensor in the heater. The rate of flow is determined by energizing the pump, with the heater still de-energized, and observing the rate in which the moving water cools the inside of the heater. If there is no circulation of water through the heater, the temperature of the sensor will continue to rise from the energy applied when the heater was briefly energized. This rise will be quite significant and a clear indication of a flow problem. If the flow is found to be adequate, the heater will be energized for a normal period of time. The sensor is now carefully monitored for a sudden increase in temperature, which would indicate loss of a normal flow of water.

Abstract: A system unit for a computer comprising at least one plug-in card provided with components and a ventilator for cooling the components, wherein the system unit is also provided with a controller for setting the ventilator speed as a function of a signal of a temperature sensor. Measures are provided which, irrespective of whether the system unit is integrated in a horizontal or vertical position, such as in a switchgear cabinet, effect a good level of cooling.

Abstract: In a temperature control method in which a target temperature is given in a thermal treatment furnace and plural heaters are controlled according to the target temperature, the correlation of the each heater and plural profile temperature sensors provided in the thermal treatment furnace is determined, a virtual temperature is calculated on the basis of the detection temperature of each profile temperature sensor and a weighting factor calculated from the correlation, and the each heater is controlled so that the virtual temperature is coincident with the target temperature.

Abstract: Methods and apparatuses for dynamically budgeting power usage to control temperatures in a data processing system. In one aspect, a data processing system includes: a first sensor to determine an ambient temperature of an environment in which the data processing system is; and a controller (e.g., a microcontroller or a microprocessor) coupled to the sensor to control operations of the data processing system according to the ambient temperature. In one example, the data processing system further includes a second sensor to determine an actual temperature of a component of the data processing system. In one example, a controller is coupled to the temperature sensors to determine an operating setting of the data processing system based on a prediction of a temperature of the data processing system which is a function of the plurality of actual temperatures and the operating setting of the data processing system.

Abstract: A cooling system includes at least three fan units. A control unit operates each one of the at least three fan units, The control unit (a) operates only a selected two of the fan units, one of the at least three fan units being unselected and being inhibited from operation; (b) monitors operation of said selected two of fan units for a failure; and (c) upon detection of a failure in one of said selected two fan units, inhibits operation of the failed one of fan units and operating the unselected one of the at least three fan units.

Abstract: A system, methods, and user-friendly program product to optimize energy recovery for a process or cluster of processes under all possible combinations of given process changes and stream-specific minimum temperature approach values without enumeration, are provided. The systems, methods, and program product can include steps/operations to identify an optimal set of discrete target temperature values for the process streams for a given heat exchanger network design, to identify which target temperature values of the various process streams have the most significant economic impact on the process or cluster of processes, and to identify process stream supply attribute ranges of variations, e.g., in the form of a criticality list for the plurality of process streams, e.g., resulting from disturbances and/or uncertainty, which have a highly significant or otherwise critical effect on streams target temperature.

Abstract: This document describes various techniques for automatically starting servers at low temperatures. A server may be powered on into a heating mode responsive to determining that a temperature of the server is below an operational temperature range. The server may then be restarted when the temperature of the server has increased to a temperature that is within the operational temperature range.

Abstract: A method and system for maximizing a quality of service (“QoS”) level in a portable computing device (“PCD”) by preempting the generation of thermal energy in excess of a threshold are disclosed. The method includes receiving a workload request for a processing component within the PCD. A processing component is selected for allocation of the workload based on thermal factors associated with the processing component. Thermal factors may comprise data indicative of real-time thermal energy generation near the processing component, predictive data derived from known characteristics of heat producing components that are physically proximate to the processing component, queued workload burdens for the processing component, etc. A processing component is selected for allocation of the workload based on the thermal factors.

Abstract: A kitchenware washing assembly is provided for washing kitchenware. The assembly includes a tank configured to hold fluid for washing the kitchenware, a pump configured to circulate fluid within the tank, and a control system configured to control operation of the pump. The pump is operable at two or more different speeds to create two or more different levels of fluid turbulence within the tank. And, the control system is configured to operate the pump at a first one of the two or more different speeds for a specified time period and then cycle operation of the pump to a second one of the two or more different speeds. A temperature sensor configured to monitor temperature of the fluid is included in communication with the control system. And, the control system is configured to terminate operation of the pump if a temperature of the fluid falls below a specified temperature.

Abstract: A fuel-fired appliance is shut down when a predicted steady state combustion chamber temperature is below a known threshold. The predicted steady state temperature is based on combustion chamber temperatures during heat up of the burner and appliance.

Abstract: A thermal protection method for a computer system comprising a thermal detector, a controller, and an input/output system, the thermal protection method including the thermal detector measuring the temperature of the computer system and generating a temperature value, the controller comparing the temperature value and a threshold value, the controller periodically transmitting an over-temperature indication signal to the input/output system when the temperature value is not lower than the threshold value, the input/output system executing a temperature-lowering process when receiving the over-temperature indication signal, and the controller executing a compulsory thermal protection process when determining that the temperature-lowering process is unsuccessfully executed.

Abstract: A hot water storage type hot water supply device is capable of heating water inside a hot water storage tank appropriately, thereby preventing energy waste. A circulating pump is operated and a burner is incinerated, when the average of detected temperatures from water temperature detectors falls below a predetermined lower limit temperature. The burner is extinguished when an accumulated heating amount from the beginning of operation of a heat source equipment becomes equal to or more than a target heating amount necessary for elevating the total amount of water in the hot water storage tank to a preset hot water delivery temperature. The circulating pump is continuously operated after extinguishing the burner, until an accumulated circulated water amount of a circulating path becomes equal to or more than a predetermined water amount set to be equal to or more than a capacity of the hot water storage tank.

Abstract: A thermal manager has a digital filter whose input is to receive raw temperature values from a sensor and whose output is to provide processed or filtered temperature values according to a filter function that correlates temperature at the sensor with temperature at another location in the device. The thermal manager has a look-up table that further correlates temperature at the sensor with temperature at the other location. The look-up table contains a list of processed temperature sensor values, and/or a list of temperatures representing the temperature at the other location, and their respective power consumption change commands. The thermal manager accesses the look-up table using selected, filtered temperature values, to identify their respective power consumption change commands. The latter are then evaluated and may be applied, to mitigate a thermal at the other location. Other embodiments are also described and claimed.

Abstract: In an electronic device whose source of electric power is a fuel cell and which has a heat radiator that radiates heat by evaporating water generated in accordance with electric power generation of the fuel cell, there are provided a use condition detector that detects use condition of the electronic device, a heat radiation suppression discriminator that discriminates whether to suppress heat radiation by the heat radiator based on use condition detected by the use condition detector, and a heat radiation suppression controller that controls to suppress heat radiation by the heat radiator as a result of the discrimination by the heat radiation suppression discriminator.

Abstract: A system, methods, and user-friendly program product to optimize energy recovery for a process or cluster of processes under all possible combinations of given process changes and stream-specific minimum temperature approach values without enumeration, are provided. The systems, methods, and program product can include steps/operations to identify a set of common-structure heat exchanger network designs which allow for construction of a physically exchanger network easily retrofittable to accommodate time-dependent new operating modes, disturbances, and uncertainty schemes.

Abstract: A method and system for thermal mitigation in a personal computing device is disclosed. A signal associated with an electronic element in the portable computing device is monitored. A thermal condition indicating excessive heat production is determined in response to the monitored signal. An action to mitigate heat production in the portable computing device may be performed in response to the thermal condition.

Abstract: Methods and systems for leveraging temperature sensors in a portable computing device (“PCD”) are disclosed. The sensors may be placed within the PCD near known thermal energy producing components such as a central processing unit (“CPU”) core, graphical processing unit (“GPU”) core, power management integrated circuit (“PMIC”), power amplifier, etc. The signals generated by the sensors may be monitored and used to trigger drivers running on the processing units. The drivers are operable to cause the reallocation of processing loads associated with a given component's generation of thermal energy, as measured by the sensors. In some embodiments, the processing load reallocation is mapped according to parameters associated with pre-identified thermal load scenarios.

Abstract: A method and system for reducing thermal load by monitoring temperatures within a portable computing device and, based on those temperatures, controlling a battery charge function are disclosed. The method includes monitoring a power management integrated circuit (“PMIC”) to determine if it is generating excess thermal energy that is contributory to an elevated temperature in a physically proximate application specific integrated circuit (“ASIC”). If so, and if the excess thermal energy is attributable to an ongoing battery recharge operation executed by the PMIC, a thermal policy manager module may execute a thermal mitigation technique algorithm to override the PMIC battery recharge function. One exemplary thermal mitigation technique may include a reduction of current sent to the battery, thus slowing the charge cycle and reducing the generation of excess thermal energy.

Abstract: In accordance with an example embodiment of the present invention, an apparatus is disclosed. The apparatus includes a driver, a set of first components, a set of second components, a third component, and a switch. The driver includes a first output and a second output. The set of first components is connected to the first output of the driver. The set of first components are connected in series. The set of second components are connected to the second output of the driver. The set of second components are connected in series. The third component is connected in parallel with the set of second components. The switch is connected in parallel with the set of second components. The switch is between the third component and the second output of the driver. The switch is configured to be controlled by the first output of the driver.

Abstract: In an embodiment, an integrated circuit includes an input configured to receive a first control signal and an output module configured to generate an output signal based at least on the first control signal and a second control signal generated based at least on a measured temperature of the IC. The output signal is configured to control a cooling device.

Abstract: A method for determining a maintenance interval for a consumable part and/or for equipment containing a consumable part obtains a plurality of measurements of temperature of the consumable part, receives each of the measurements at a totalizing unit, correlates each of the measurements to one of a plurality of temperature subranges, accumulates for each of the subranges an amount of time the measurements of temperature were correlated to each of the subranges, determines a total time by aggregating the accumulated time for each subrange with a weighting function, and generates a signal to prompt a maintenance event when the total time equals or passes a runtime setpoint. In supplement to or in alternative to the above, the method also correlates a subrange of two sequential measurements, indexes a breakpoint register if the correlated subranges are different, and generates a signal to prompt a maintenance event when a value of the breakpoint register equals or passes a breakpoint setpoint.

Abstract: Demand Flow operates chilled water plants at substantially improved efficiency, regardless of plant load conditions. In general, Demand Flow utilizes an operating strategy which controls chilled and condenser water pumping according to a constant Delta T line, which is typically near or at design Delta T. This reduces or eliminates Low Delta T Syndrome and reduces energy usage by chilled and condenser water pumps for given load conditions. Operation of chilled water pumps in this manner creates a synergy which generally balances flow rates throughout the plant, reducing undesirable bypass mixing and energy usage at air handler fans and other components of the chilled water plant. At plant chillers, application of Demand Flow increases the refrigeration effect through refrigerant sub-cooling and superheating, while preventing stacking. Demand Flow includes a critical zone reset feature which allows the constant Delta T line to be reset to adjust to changing load conditions.

Abstract: Controllers and methods for controlling operation of a climate control appliance for heating and/or cooling a space are provided. One example controller includes a memory for storing at least one temperature offset and a processor coupled to the memory. The processor is configured to receive the reduced operation request from at least one of a utility provider and a user of the controller, to receive a sensed temperature from at least one sensor disposed within the space, and to determine an artificial temperature based on the sensed temperature and the at least one temperature offset associated with the reduced operation request. The processor is configured to, in response to the reduced operation request, operate the climate control appliance based on a comparison of the set-point temperature and artificial temperature during a reduced operation interval, to thereby reduce operation of the climate control appliance in response to the reduced operation request.

Abstract: The disclosure provides an auxiliary controller of a HVAC system, a method of manufacturing a HVAC system, a method of starting a HVAC system and a HVAC system. In one embodiment, the HVAC system includes: (1) a main system controller having a main non-volatile memory and configured to direct operation of the HVAC system and store main controller application information associated therewith on the main non-volatile memory (2) an auxiliary controller having (2A) an interface coupled to the main system controller and configured to communicate therewith, (2B) a processor, coupled to the interface and configured to direct the operation of a component of the HVAC system and (2C) an auxiliary non-volatile memory configured to receive a copy of the main controller application information via the interface and store the main controller application information thereon.

Abstract: A system for cooling a power transformer which generates heat, when driving a load, includes cooling devices, such as fans and pumps, located about the transformer, which are powered for circulating a coolant about the transformer. Each cooling device has a motor which is energized in response to given temperature (heat) conditions. In systems embodying the invention, the currents flowing through the motors of cooling devices are sensed and monitored to determine whether the cooling devices are functioning correctly and to substitute functional cooling devices for those which are malfunctioning. Sensing the currents in the motors enables the early detection of fault conditions in the cooling system. It also enables the monitoring of operating conditions and running time of the cooling devices to aid in the maintenance and operation of the cooling system.

Abstract: An apparatus may include an integrated circuit die having a plurality of temperature sensors and a control unit integrated thereon. The control unit can calculate an average die temperature based on readings from the plurality of temperature sensors, compare the average die temperature to a specification temperature and control an off-die cooling system based on the comparison.

Abstract: A system for managing the operation of a semiconductor device in accordance with varying load conditions that affect the power being dissipated by the semiconductor device, includes a sensor for measuring a temperature related to the junction temperature of an operating semiconductor device; electronic components for measuring the real-time operating load conditions of the operating semiconductor device; and a computer that is adapted by computer executable program instructions to perform the steps of: (a) determining the power being dissipated by the operating semiconductor device in accordance with the measured real-time operating load conditions of the semiconductor device; (b) determining a dynamic temperature cutback threshold for the operating semiconductor device in accordance with the determination of the power being dissipated; and (c) managing the operation of the semiconductor device in accordance with the measured temperature and the dynamic temperature cutback threshold.

Abstract: The present invention provides a metal organic chemical vapor deposition device and a temperature control method therefor. The device comprises: a chamber; a susceptor which is installed inside the chamber to allow rotation therein, wherein at least one substrate is settled thereon; a plurality of heaters which heat the susceptor, wherein the temperature is independently controlled; a gas sprayer which is positioned in the upper part of the susceptor, and sprays gases of group III and V toward the susceptor; a plurality of temperature detection sensors which are positioned in the upper part of the susceptor, and measure the temperature of heating regions heated by each heater; and a controller which retains temperature setting values necessary for the heating regions, and controls the temperature of the heating regions by comparing sensing temperature values detected by each temperature detection sensor with the setting values necessary for the heating regions.

Abstract: The present invention provides a temperature control method for a substrate heat treatment apparatus that achieves high throughput while securing stability in rapid heating where a large-diameter silicon carbide (SiC) substrate having impurity ions implanted thereinto is subjected to an activation annealing treatment. A temperature control method for a substrate heat treatment apparatus (1) that includes a heating element includes: increasing the treatment temperature; continuing the temperature increase by reducing the value of power in a stepwise manner after the treatment temperature reaches a preset temperature (T1) before reaching the annealing temperature, the power being applied to heat the heating element; and maintaining the treatment temperature at a fixed value until an annealing treatment is completed after the treatment temperature reaches the annealing temperature (TA).

Abstract: A method for controlling a controlled variable of a building zone to minimize an error between the controlled variable and a setpoint includes receiving an input at a first interface regarding the controlled variable from a sensor provided in the building. The method further includes using a processing circuit to determine a sign of the error based on the input and the setpoint. The method yet further includes using the processing circuit to cause a controller configured to affect the controlled variable to respond to the error at a first rate when a first sign of the error is present. The method further includes using the processing circuit to cause the controller to respond to the error at a second rate when a second sign of the error is present, the first rate being slower than the second rate. The first sign of the error can be associated with a high energy expenditure required to minimize the error relative to an energy expenditure required to minimize the error relative to the second sign.