Temperature-based CPU operation frequency controller of a CPU powered by a CPU power supply to protect against multiple circuit overheating
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G01K-007/00
G06F-015/00
G06F-001/00
출원번호
US-0460329
(2003-06-13)
등록번호
US-7353133
(2008-04-01)
우선권정보
KR-10-2002-0067860(2002-11-04)
발명자
/ 주소
Park,Seong geun
출원인 / 주소
Samsung Electronics Co., Ltd.
대리인 / 주소
Staas & Halsey LLP
인용정보
피인용 횟수 :
20인용 특허 :
17
초록▼
A system for protecting against overheating of a CPU whose operation frequency is changed due to voltage variation of a driving power, includes a CPU temperature sensor to detect the temperature of the CPU, a reference temperature sensor to detect the temperature of a circuit block or multiple circu
A system for protecting against overheating of a CPU whose operation frequency is changed due to voltage variation of a driving power, includes a CPU temperature sensor to detect the temperature of the CPU, a reference temperature sensor to detect the temperature of a circuit block or multiple circuits heated due to the operation frequency of the CPU, a comparing part to output a signal indicating a higher temperature of the temperature of the CPU and the temperature of the circuit block or multiple circuits by comparing temperature values detected by the respective CPU and reference temperature sensors, and a CPU power supply to supply a stepwise decreasing driving power to decrease the operation frequency of the CPU in a stepwise fashion when the temperature value increases based on the signal indicating the higher temperature indicated by the comparing part.
대표청구항▼
What is claimed is: 1. A multiple circuit overheating protection system for protecting against overheating of a CPU when an operation frequency is changed in accordance with a voltage variation of driving power, comprising: a CPU temperature sensor to detect a temperature of the CPU; a reference te
What is claimed is: 1. A multiple circuit overheating protection system for protecting against overheating of a CPU when an operation frequency is changed in accordance with a voltage variation of driving power, comprising: a CPU temperature sensor to detect a temperature of the CPU; a reference temperature sensor to detect a temperature of a circuit block heated due to the operation frequency of the CPU; a comparing part to output a signal of a higher temperature value obtained by comparing temperature values detected by the CPU temperature sensor and the reference part temperature determining sensor; and a CPU power supply to supply a stepwise decreasing driving power to decrease the operation frequency of the CPU in a stepwise fashion when the temperature value increases based on the signal for the higher temperature value outputted from the comparing part to provide overheating protection of the CPU and the circuit block, wherein the comparing part comprises: a comparing unit, to compare the temperature value of the CPU temperature sensor and the reference part temperature determining sensor to provide a temperature variation signal in accordance with a predetermined scheme; and a quantization unit, comprising: a micom having an A/D input pin to receive the temperature variation signal outputted from the comparing unit, and outputting a control signal as a digital driving signal; and a D/A converter, converting the digital driving signal to an analog driving signal supplied to the CPU power supply to enable the driving voltage power of the CPU to be decreased in a stepwise fashion when a temperature value increases, in accordance with the temperature variation signal. 2. The system for protecting against the overheating of the CPU according to claim 1, wherein: the reference part temperature determining sensor detects the temperature of the CPU power supply to supply driving power to the CPU; and the comparing part compares the temperature value of the CPU and the temperature value of the CPU power supply detected by the respective CPU and reference part temperature determining sensors, and then outputs a signal indicating a higher temperature value of the temperature value of the CPU and the temperature value of the CPU power supply. 3. The system for protecting against the overheating of the CPU according to claim 1, wherein: the CPU power supply includes a quantization circuit to quantize the signal for the higher temperature value received from the comparing part; a driving power control circuit to control a driving power of the CPU to decrease the operation frequency of the CPU in a stepwise fashion when the temperature value increases based on the signal for the variation of the temperature value; and a driving power supply circuit to supply the driving power to the CPU in accordance with the control of the driving power control circuit. 4. The system for protecting against the overheating of the CPU according to claim 1, further comprising a micom having an A/D input pin to receive the signal for the variation of temperature value outputted from the comparing part, and outputting a driving signal to enable a driving voltage power of the CPU to be decreased in a stepwise fashion when the temperature value increases, in accordance with the temperature value inputted through the A/D input pin to be digitized; and wherein the CPU power supply supplies to the CPU the driving power in a stepwise decreasing fashion according to the driving signal received from the micom and decreases the operation frequency of the CPU in stepwise fashion. 5. A temperature-based CPU operation frequency controller of a CPU powered by a CPU power supply to protect against multiple circuit overheating, comprising: a CPU temperature sensor to detect a temperature of the CPU and output a first signal; a reference temperature sensor to detect a temperature of a predetermined circuit block and output a second signal; a comparison-quantization unit to determine a higher signal of the first signal and the second signal to provide the higher signal as a temperature signal, and to quantize the temperature signal to output a control signal to the CPU power supply wherein the control signal controls a driving power provided to the operation frequency controller to provide overheating protection of the CPU and the predetermined circuit blocks, wherein the comparison-quantization unit comprises: a comparing unit, to compare the first signal and the second signal to provide the temperature variation signal in accordance with the predetermined scheme; and a quantization unit, comprising: a micom having an A/D input pin to receive the temperature variation signal outputted from the comparing unit, and outputting a control signal as a digital driving signal; and a D/A converter, converting the digital driving signal to an analog driving signal supplied to the CPU power supply to enable the driving voltage power of the CPU to be decreased in a stepwise fashion when a temperature value increases, in accordance with the temperature variation signal. 6. The temperature-based CPU operation frequency controller of claim 5, wherein the CPU power supply comprises: a driving power control circuit to control the driving power of the CPU to decrease the operation frequency of the CPU in a stepwise fashion in accordance with the analog driving signal, and a driving power supply circuit to supply the driving power to the CPU in accordance with the driving power control circuit. wherein the CPU power supply supplies to the CPU the driving voltage power in a stepwise decreasing fashion in accordance with the analog driving signal received from the D/A converter and decreases the operation frequency of the CPU in the stepwise fashion. 7. A temperature-based CPU operation frequency controller of a CPU powered by a CPU power supply to protect against multiple circuit overheating, comprising: a CPU temperature sensor to detect a temperature of the CPU and output a first digital signal; a reference temperature sensor to detect a temperature of a predetermined circuit block and output a second digital signal; and a comparator to output a control signal to the CPU power supply based on a comparison of the first digital signal and the second digital signal, wherein the control signal controls a driving voltage power provided to the operation frequency controller to provide overheating protection of the CPU and the predetermined circuit blocks, wherein the comparator comprises: a comparing unit, to compare the first digital signal and the second digital signal to provide a temperature variation signal in accordance with a predetermined scheme; and a quantization unit, comprising: a micom having an A/D input pin to receive the temperature variation signal outputted from the comparing unit, and outputting a control signal as a digital driving signal; and a D/A converter, converting the digital driving signal to an analog driving signal supplied to the CPU power supply to enable the driving voltage power of the CPU to be decreased in a stepwise fashion when a temperature value increases, in accordance with the temperature variation signal. 8. A computer-readable medium having stored thereon computer executable instructions for temperature-based controlling an operation frequency of a CPU powered by a CPU power supply using a voltage variation of driving voltage power to protect against multiple circuit overheating, comprising: detecting a temperature of the CPU; detecting a reference part temperature of a predetermined circuit block; comparing the temperature of the CPU with the reference part temperature of the predetermined circuit block to determine a temperature variation signal based on the temperature of the CPU with the reference part temperature of the predetermined circuit block; outputting the temperature variation signal and converting the temperature variation signal to a digital driving signal; and outputting a digital driving signal to control a driving voltage power provided by the CPU power supply to an operation frequency controller of the CPU to enable the driving voltage power of the CPU to be decreased in a stepwise fashion when a temperature value increases, in accordance with the temperature variation signal, to provide overheating protection of the CPU and the predetermined circuit block. 9. The computer-readable medium of claim 7, wherein the control signal outputted is a digital signal. 10. The computer-readable medium of claim 8, wherein the control signal outputted is a multi-step digital signal. 11. The computer-readable medium of claim 8, wherein the control signal outputted is provided to a D/A converter that converts the control signal to an analog control signal, which is then provided to the CPU power supply. 12. A method of temperature-based controlling an operation frequency of a CPU powered by a CPU power supply using a voltage variation of driving voltage power to protect against multiple circuit overheating, comprising: detecting a temperature of the CPU; detecting a reference temperature of a predetermined circuit block; comparing the temperature of the CPU with the reference part temperature of the predetermined circuit block to determine a temperature variation signal based on a higher temperature of the temperature of the CPU and the reference part temperature of the predetermined circuit block; utilizing a quantization unit, comprising a micom having an A/D input pin to receive the temperature variation signal outputted from the comparing unit, and outputting a control signal as a digital driving signal; and utilizing a D/A converter, to convert the digital driving signal to an analog driving signal supplied to the CPU power supply to enable the driving voltage power of the CPU to be decreased in a stepwise fashion when a temperature value increases, in accordance with the temperature variation signal. 13. A temperature-based CPU operation frequency controller of a CPU powered by a CPU power supply to protect against multiple circuit overheating, comprising: a CPU temperature sensor to detect a temperature of the CPU and output a first digital signal; a reference part temperature determining sensor to detect a temperature of a predetermined circuit block and output a second digital signal; and a comparator to output a quantized, multi-step control signal to the CPU power supply based on a comparison of the first digital signal and the second digital signal, wherein the control signal controls a driving power provided to the operation frequency controller to provide overheating protection of the CPU and the circuit blocks, wherein the comparator comprises: a comparing unit, to compare the first signal and the second signal to provide a temperature variation signal in accordance with a predetermined scheme; and a quantization unit, comprising: a micom having an A/D input pin to receive the temperature variation signal outputted from the comparing unit, and outputting a control signal as a digital driving signal; a D/A converter, converting the digital driving signal to an analog driving signal supplied to the CPU power supply to enable the driving voltage power of the CPU to be decreased in a stepwise fashion when a temperature value increases, in accordance with the temperature variation signal. 14. A temperature-based CPU operation frequency controller of a CPU powered by a CPU power supply to protect against multiple circuit overheating, comprising: a first sensor to detect a temperature of the CPU; a second sensor to detect a temperature of a predetermined circuit block; and a comparator to output a quantized voltage to the CPU power supply based on a higher temperature of the temperature of the CPU and the temperature of the predetermined circuit block to adjust the CPU operation frequency controller to provide overheating protection of the CPU and the circuit block, wherein the comparator comprises: a comparing unit, to compare the temperature of the CPU and the temperature of the predetermined circuit block to provide a temperature variation signal in accordance with a predetermined scheme; and a quantization unit, comprising: utilizing a quantization unit, comprising a micom having an A/D input pin to receive the temperature variation signal outputted from the comparing unit, and outputting a control signal as a digital driving signal; and utilizing a D/A converter, to convert the digital driving signal to an analog driving signal supplied to the CPU power supply to enable the driving voltage power of the CPU to be decreased in a stepwise fashion when a temperature value increases, in accordance with the temperature variation signal.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (17)
Nobutaka Nishigaki JP, Apparatus for controlling internal heat generating circuit.
Odaohhara, Shigefumi, Battery having a plurality of temperature sensors for outputting different control information to a connected computer system based upon the temperature relationships of the sensors.
Culbert, Michael; Cox, Keith Alan; Howard, Brian; de Cesare, Josh; Williams, Richard Charles; Falkenburg, Dave Robbins; Huang, Daisie Iris; Radcliffe, David, Methods and apparatuses for controlling the temperature of a data processing system.
Culbert, Michael; Cox, Keith Alan; Howard, Brian; de Cesare, Josh; Williams, Richard Charles; Falkenburg, Dave Robbins; Huang, Daisie Iris; Radcliffe, David, Methods and apparatuses for operating a data processing system.
Cox, Keith; Just, Andrew Bradley; Watson, Matthew G.; Albert, Eric; Powers, David Matthew; West, Daniel Ariel; Novotney, Donald J.; Culbert, Michael F., Thermal management techniques in an electronic device.
Cox, Keith; Just, Andrew Bradley; Watson, Matthew G.; Albert, Eric; Powers, David; West, Daniel Ariel; Novotney, Donald J.; Culbert, Michael F., Thermal management techniques in an electronic device.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.