| Entries |
| Document | Title | Date |
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| 20080211443 | ELECTRONIC APPARATUS AND METHOD OF CONTROLLING ELECTRIC MOTOR MOUNTED IN ELECTRONIC APPARATUS - An electronic apparatus includes: a timer member that clocks time on the basis of the power supplied from a power source. A power supply member supplies the power to an electric motor of the electronic apparatus and to the timer member from the power source and interrupts the power supply thereto. A heat storage calculating member calculates heat storage of the electric motor and calculates heat storage of the electric motor after stop of the drive on the basis of the time clocked by the timer member. A controller controls the electric motor and controls the power supply member by initiating power-on and power-off operations. This is performed so as to maintain the power supply to the timer member and the heat storage calculating member during a predetermined time, even after the power-off operation of the operation member. | 09-04-2008 |
| 20080224643 | SEMICONDUCTOR DEVICE FOR DRIVING MOTOR, THREE-PHASE MOTOR AND MOTOR DRIVING APPARATUS WITH THE SEMICONDUCTOR DEVICE AND FAN MOTOR - In order to prevent a short circuit of top and bottom arms of a motor driving IC when noise is added to six control signals for controlling six switching elements, there is provided a semiconductor device for driving a motor, being sealed with resin as one package and comprising: six switching elements for driving a three-phase motor; three output terminals for outputting voltages to the three-phase motor; at least one driving circuit for driving the six switching elements; three control signal input terminals; and a function) of generating six control signals for control of the six switching elements based on three control signals inputted through the three control signal input terminals. | 09-18-2008 |
| 20090128077 | THERMALLY ACTUATED OVERLOAD TRIPPING DEVICE - A circuit breaker with overload and short-circuit protection functions for a motor, on which is mounted a thermally actuated overload tripping device including an adjustment dial to set a value corresponding to a rated current value of the motor on a scale. The dial has a standard setting pointer mark and a correction setting pointer mark side-by-side along a perimeter. The standard setting pointer mark applies to using the circuit breaker as a single item. The correction setting pointer mark applies to using a number of circuit breakers arranged in a line in close contact with each other. By setting a mark selected according to the arrangement of the circuit breaker at the rated current value, the steady state current value of the tripping device can be adequately set to correspond to the rated current value of the motor. | 05-21-2009 |
| 20090256512 | PLURALITY OF CONFIGURABLE INDEPENDENT COMPUTE NODES SHARING A FAN ASSEMBLY - A system comprising a chassis that includes a plurality of modules and a fan assembly disposed in a distal end of the chassis for drawing air in parallel pathways through the plurality of modules. At least one of the modules is a compute module having a thermal sensor disposed to sense the temperature of air flowing across a processor mounted on a motherboard. The system further comprises a fan controller receiving output from the thermal sensor, wherein the fan controller operates the fan assembly to cool the plurality of modules and maintain the thermal sensor output within an operating temperature range. The fan controller controls the fan speed according to predetermined thermal profile settings associated with one of the compute modules received in the chassis. For example, the predetermined thermal profile settings may include a minimum fan speed, a maximum fan speed, and control loop feedback settings. | 10-15-2009 |
| 20090261768 | SYSTEM AND METHOD FOR ADJUSTING PULSE WIDTH MODULATION SIGNALS ACCORDING TO COMPONENT TEMPERATURES IN A COMPUTER - A computer-based method for adjusting pulse width modulation (PWM) signals according to temperatures of one or more computer components includes setting a frequency formula for a fan in a computer. The method further includes reading current temperatures of one or more components in the computer from a temperature measuring device. Furthermore, the method includes computing a frequency according to the frequency formula and the current temperatures, and sending the computed frequency to a PWM signal manager for generating an adjustment PWM signal to control the rotational speed of the fan in the computer. | 10-22-2009 |
| 20090289590 | SYSTEM AND METHOD FOR COMPENSATING CHARACTERISTICS OF A FAN - A system for compensating the characteristics of a fan, applied to a heat-dissipating fan of an electronic device. This system comprises of an analyzing module for analyzing the relation between the duty ratio of pulse width modulation (PWM) and the rotational speed of the fan to generate analyzing data, and a compensating module for generating compensating data basing on the analyzing data and a specific proportion relation between the temperature and the duty ratio of PWM. | 11-26-2009 |
| 20100026225 | Electric Device - Provided is an electric device capable of encouraging a user to perform maintenance in a forceful manner when the performance such as safety, operation efficiency or the like decreases. | 02-04-2010 |
| 20100033120 | FAN SPEED CONTROL SYSTEM - A system for controlling the fan speed is described. Specifically, one embodiment of the present invention set forth a computing system, which includes a first processing unit including a first sensor, wherein the first processing unit is configured to generate a first pulse-width modulation signal, and a first transmission line further including a first direct current voltage converter configured to convert the first pulse-width modulation signal to a first direct current voltage and a first diode coupled to the first direct current voltage converter, wherein the first diode determines whether the first direct current voltage passes through the first diode. The computing system further includes an amplifier coupled to the first diode, wherein the amplifier is configured to amplify a selected direct current voltage to drive a fan. | 02-11-2010 |
| 20100097025 | HEAT-DISSIPATING DEVICE AND METHOD FOR CONTROLLING FAN SPEED - A method for controlling fan speed is disclosed. Firstly, a number of temperature ranges are defined. Each temperature range is associated with a corresponding fan speed. Each two adjacent temperature ranges overlap. The temperature of an electronic system is measured and is compared with the defined temperature ranges to determine whether it enters into a new range. If the measured temperature exceeds any one of the limits of a temperature range associated with the current fan speed, it enters into a new temperature range. The fan speed is adjusted to which is associated with the new entered temperature range. The overlap of each two adjacent temperature ranges covers the fluctuation of the temperature of the electronic system caused solely by the adjustment of fan speed caused by the traversing of the measured temperature between the two adjacent temperature ranges. | 04-22-2010 |
| 20100117579 | METHODS AND APPARATUSES FOR OPERATING A DATA PROCESSING SYSTEM - 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). | 05-13-2010 |
| 20100219784 | METHOD AND CIRCUIT FOR CONTROLLING MOTOR SPEED - This invention provides a motor control method which comprises the steps of operating a motor at a fanless operation mode when a ambient temperature is lower than a lower temperature, operating the motor at a silent operation mode when the ambient temperature is higher than the lower temperature and lower than a higher temperature, and operating the motor at a cooling operation mode when the ambient temperature is higher than the higher temperature. When the motor operates at the fanless operation mode, the rotation speed of the motor is zero rpm. When the motor operates at the silent operation mode, the motor operates at a constant rotation speed. When the ambient temperature is higher than the higher temperature, the rotation speed of the motor is a linear function of the temperature and varies between the higher temperature and a maximum temperature corresponding to the full rotation speed of the motor. | 09-02-2010 |
| 20100327792 | CIRCUIT FOR CONTROLLING ROTATION SPEED OF FAN OF ELECTRONIC DEVICE - A circuit for controlling a rotation speed of a fan of an electronic device according to a temperature of the electronic device. The circuit senses the temperature of the electronic device, and outputs a voltage changing with the sensed temperature. The rotation speed of the fan changes with the voltage. The circuit slows the rotation speed of the fan down when the sensed temperature of the electronic device is decreased. | 12-30-2010 |
| 20110068726 | FAN CONTROL SYSTEM - A fan control system includes a linear adjustor, an input/output controller, and a temperature sensor. A first terminal of the linear adjustor is connected to a first power supply. A second terminal of the linear adjustor is connected to a fan and grounded via a first resistor and a second resistor in series. A third terminal of the linear adjustor is connected to a node between the first resistor and the second resistor. A first terminal of the input/output controller is connected to the third terminal of the linear adjustor via a third resistor. A second terminal of the input/output controller is connected to the temperature sensor. | 03-24-2011 |
| 20110080129 | SINGLE-PIN MULTIFUNCTIONAL DEVICE AND METHOD FOR INPUT AND OUTPUT IN CONTROLLING A DIRECT-CURRENT FAN - A single-pin multifunctional device and method for input and output in controlling a direct-current fan use a control chip to control an operation of the fan, thereby protecting issues generated by too high a temperature. The control chip uses a value of a temperature induction unit to determine a range of protection and maintains the fan at an idle speed operation through an idle speed regulation unit. Meanwhile, the temperature induction unit notifies an over-temperature protection unit to switch from the idle speed regulation unit to the over-temperature protection unit. Therefore, the fan is controlled through a single pin to input and output simultaneously. | 04-07-2011 |
| 20110199034 | FAN CONTROL SYSTEM CAPABLE OF MODULATING A ROTATIONAL SPEED OF A FAN AND METHOD THEREOF - A fan control system includes a host device including a detecting unit for detecting a component so as to generate a detecting signal. The host device further includes BIOS for storing relationship information between the detecting signal and a rotational speed of a fan and for generating a rotational signal according to the detecting signal and the relationship information. The fan control system further includes a fan device including a fan and a fan driving unit for driving the fan. The fan device further includes a rotational speed modulating unit for controlling the fan driving unit to drive the fan to rotate at a second rotational speed outside a first range when a first rotational speed corresponding to the rotational signal according to the relationship information is within the first range. | 08-18-2011 |
| 20120091937 | CONTROL CIRCUIT FOR FAN - A control circuit includes a current sensing circuit, an analog digital converter (ADC), an amplifying circuit, a processor, and a switching circuit. The current sensing circuit senses current supplied to an electronic device by a power supply and outputs a first voltage signal. The amplifying circuit amplifies the first voltage signal output from the current sensing circuit to a second voltage signal. The ADC converts the second voltage signal to a digital signal. The processor outputs pulse width modulation (PWM) signals according to the digital signal. The switching circuit receives the PWM signals to control a fan of the electronic device according to the PWM signals. | 04-19-2012 |
| 20120112678 | FAN SPEED CONTROL CIRCUIT - A fan speed control circuit includes a first fan, a second fan, a first temperature sensor, a second temperature sensor, a PWM regulator, and a driving module. The first temperature sensor senses a temperature of the first component to generate a first temperature signal. The second temperature sensor senses a temperature of a second component to generate a second temperature signal. The PWM regulator is connected to the first temperature sensor and the second temperature sensor. The PWM regulator generates a first PWM signal according to the first temperature signal and generates a second PWM signal according to the second temperature signal. The driving module is connected to the PWM regulator. The driving module generates a first driving voltage provided to the first fan according to the first PWM signal. The driving module also generates a second driving voltage provided to the second fan according to the second PWM signal. | 05-10-2012 |
| 20130221890 | ROTATING ELECTRICAL MACHINE - Provided is a rotating electrical machine capable of downsizing. The rotating electrical machine includes: a stator ( | 08-29-2013 |
| 20130300331 | POWER TOOL - A power tool includes a motor, a gear mechanism that changes the speed of an output of the motor, a drive circuit including a switching element that controls power supplied to the motor, a housing that accommodates the motor, a fixture that fixes the motor to the housing, and a temperature sensor that measures a temperature of the switching element. The drive circuit stops supplying power to the motor when the temperature measured by the temperature sensor reaches a predetermined temperature. The fixture functions to radiate heat from the switching element. | 11-14-2013 |
| 20140001995 | FAN CONTROL CIRCUIT | 01-02-2014 |
| 20140001996 | CONTROLLING CIRCUIT FOR FAN | 01-02-2014 |
| 20140062371 | METHOD AND SYSTEM FOR MOTOR THERMAL PROTECTION - Various methods and systems are provided for regulating fraction motor temperature via control of a traction motor blower. In one embodiment, a method comprises adjusting a speed of a traction motor blower based on ambient temperature, traction motor loss, and one or more traction motor temperatures. | 03-06-2014 |
| 20140062372 | FAN SPEED CONTROL CIRCUIT - A fan speed control circuit is provided. The circuit includes a control chip. The control chip stores a relationship table recording a number of duty cycle intervals and a number of rotational speeds of a fan. Each duty cycle interval corresponds to one rotational speed of the fan. The control chip obtains a preset number of PWM signals outputted by a processing chip; determines the average value according to the duty cycle of the obtained preset number of PWM signals; determines which duty cycle interval the average value is in, according to the relationship table; determines the rotational speed of the fan corresponding to the determined duty cycle interval according to the relationship table; and controls the fan to rotate according to the determined rotational speed. | 03-06-2014 |
| 20140070749 | FAN SPEED CONTROL CIRCUIT - A fan speed control circuit is provided. The circuit includes a sensor, a control chip, a first integrated circuit, an integrated operational amplifier, a second integrated circuit, and a feedback comparator. The sensor senses a temperature of an electronic component. The control chip outputs a PWM signal corresponding to the temperature to a fan. The first integrated circuit and the second integrated circuit respectively generate a first equivalent voltage and a second equivalent voltage. The integrated operational amplifier amplifies the first equivalent voltage to generate an upper limit voltage and reduces the first equivalent voltage to generate a lower limit voltage. The feedback comparator compares the second equivalent voltage with the upper limit voltage and the lower limit voltage to generate a comparison value. The control chip adjusts the duty cycle of the PWM signal according to the comparison value, and outputs the adjusted PWM signal to the fan. | 03-13-2014 |
| 20140097781 | CONTROL CIRCUIT FOR FAN - A control circuit includes a temperature measuring module and a control module. The temperature measuring module includes a thermistor. The thermistor is arranged adjacent to an electronic element. The control module includes a monitoring chip and a register. The register stores a number of temperature values and duty cycle of a number of pulse width modulation (PWM) signals corresponding to the temperature values. The monitoring chip obtains temperature of the electronic element measured by the thermistor and outputs a PWM signal according to the measured temperature, to control a rotation speed of the fan. | 04-10-2014 |
| 20140103847 | COOLING APPARATUS FOR INTERNAL COMBUSTION ENGINE - A cooling apparatus for an internal combustion engine includes a fan that cools a coolant by operating at least at a first drive voltage and a second drive voltage higher than the first drive voltage; and a control unit that drives the fan at the first drive voltage when a vehicle is driven at a low vehicle speed that is a vehicle speed lower than a vehicle speed threshold and a coolant temperature is higher than a fan low-voltage activation threshold. | 04-17-2014 |
| 20140117906 | DYNAMICALLY MODIFIED FAN SPEED TABLE FOR COOLING A COMPUTER - A computer program product including computer usable program code embodied on a computer usable medium for controlling a temperature within a computer system using a fan. The computer program product includes computer usable program code for monitoring the temperature within the computer system; dynamically selecting a fan speed step in response to the temperature, wherein the fan speed step is selected from a fan speed table defining a finite number of fan speed steps each having an associated fan speed; operating a fan at the dynamically selected fan speed step; measuring a fan output variation is measured over a prescribed time interval; and automatically modifying the fan speed table to change the fan speeds associated with each fan speed step, wherein the fan speeds are changed as a function of the measured fan output variation while continuing to drive the fan. | 05-01-2014 |
| 20140117907 | PULSE WIDTH MODULATION SIGNAL GENERATING CIRCUIT AND MOTOR DRIVING CIRCUIT - There are provided a pulse width modulation (PWM) signal generating circuit and a motor driving circuit. The PWM signal generating circuit includes: a proportional-to-absolute temperature (PTAT) voltage generating unit generating a PTAT voltage in proportion to an absolute temperature; a reference wave signal generating unit generating a preset reference wave signal; and a PWM signal generating unit comparing the PTAT voltage and the reference wave signal with each other to generate a PWM signal, wherein the PTAT voltage generating unit adjusts the PTAT voltage according to a control signal. | 05-01-2014 |
| 20140117908 | DYNAMICALLY MODIFIED FAN SPEED TABLE FOR COOLING A COMPUTER - A computer-implemented fan control method includes measuring a temperature within a computer system and dynamically selecting a fan speed step in response to the temperature received, wherein the fan speed step is selected from a fan speed table defining a finite number of fan speed steps each having an associated fan speed. A fan is operated at the dynamically selected fan speed step, wherein the fan is positioned to drive air through the computer system where the temperature is being measured. The fan output variation is measured over a prescribed time interval and the fan speed table is automatically modified to change the fan speeds associated with each fan speed step, wherein the fan speeds are changed as a function of the measured fan output variation while continuing to drive the fan. | 05-01-2014 |
| 20140139165 | FAN CONTROL SYSTEM, COMPUTER SYSTEM, AND FAN CONTROLLING METHOD THEREOF - A fan control system, a computer system, and a fan controlling method thereof are disclosed. The fan control system is used in the computer system for controlling a fan device. The fan controlling method includes the following steps: obtaining a temperature value of the computer system; determining whether the temperature value of the computer system is larger than or equal to a predetermined temperature value; if yes, controlling a rotation speed of the fan device according to the temperature value; if no, further obtaining a current value via a heat generating electronic component of the computer system; determining whether the current value of the computer system is larger than or equal to a predetermined current value; and if yes, changing the rotation speed of the fan device according to a variation of the current value. | 05-22-2014 |
| 20140145663 | ELECTRONIC APPARATUS CAPABLE OF CONTROLLING FLOW RATE OF AIR FROM COOLING FAN, METHOD OF CONTROLLING THE SAME, AND STORAGE MEDIUM - An electronic apparatus that is capable of properly controlling a cooling fan according to characteristics of a semiconductor device included in the electronic apparatus. Temperature characteristics indicative of a degree of increase in temperature of the semiconductor device are measured. A system controller controls the fan to operate at a predetermined air flow rate when a result of the temperature characteristics measurement indicates a degree of increase in temperature not smaller than a predetermined reference value, and controls the fan to operate at an air flow rate lower than the predetermined air flow rate when the measurement result indicates a degree of increase in temperature smaller than the predetermined reference value. | 05-29-2014 |
| 20140159634 | FAN CONTROL DEVICE - A rotation number deciding unit decides a rotation number of a cooling fan based on the result of detection by an intake air temperature sensor. A determining unit determines whether the degree of increase of intake air temperature is equal to or more than a threshold based on the result of detection by the intake air temperature sensor. When the determining unit determines the degree of increase of intake air temperature is equal to or more than the threshold, the controlling unit determines whether there is a possibility of occurrence of condensation based on the result of detection by the intake air temperature sensor and the result of detection by an intake air humidity sensor. When determining there is a possibility of occurrence of condensation, the controlling means causes the cooling fan to rotate at a rotation number lower than the rotation number decided by the rotation number deciding unit. | 06-12-2014 |
| 20140265976 | METHOD TO IMPLEMENT DRIVE DIAGNOSTICS AND PROGNOSTICS AUTOMATICALLY - An electric motor drive system includes a fan configured to cool power electronic components of the electric motor drive system. The electric motor drive system also includes a temperature sensor disposed proximate an air inlet of the fan and configured to sense an ambient temperature of air entering the air inlet. In addition, the electric motor drive system includes a processor communicatively coupled to the temperature sensor and configured to determine at least one of a drive prognostic and a derating requirement based on the sensed ambient temperature. | 09-18-2014 |
