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    • 14. 发明公开
    • 온도 검출 회로, 이 온도 검출 회로를 구비하는 반도체장치 및 온도 검출 방법
    • 温度检测器,具有该温度检测器的半导体器件和用于检测温度的方法
    • KR1020080005096A
    • 2008-01-10
    • KR1020070067453
    • 2007-07-05
    • 가부시키가이샤 리코
    • 히라노야스토시
    • G01K7/00G11C7/04H01L21/66
    • G01K1/026G01K3/005G01K1/022G01K2215/00
    • A temperature detector, a semiconductor device having the same and a method for detecting a temperature are provided to reduce chip area by restraining an increase of circuit size. A temperature detector includes a plurality of temperature sensors(MTD1,MTD2,STD1,STD2), a memory circuit unit, and a voltage comparison control circuit unit. The temperature sensors generate and output voltage signals corresponding to a temperature. The memory circuit unit memorizes and outputs a signal level of input signal according to a control signal. The memory circuit unit is installed corresponding to each temperature sensor. The voltage comparison control circuit unit selects anyone of the signals output from the temperature sensors and compares the selected output signal with a reference voltage. The voltage comparison control circuit unit successively memorizes the compared result in the memory circuit unit.
    • 提供温度检测器,具有该温度检测器的半导体器件和用于检测温度的方法以通过抑制电路尺寸的增加来减小芯片面积。 温度检测器包括多个温度传感器(MTD1,MTD2,STD1,STD2),存储器电路单元和电压比较控制电路单元。 温度传感器产生并输出与温度对应的电压信号。 存储电路单元根据控制信号存储并输出输入信号的信号电平。 对应于每个温度传感器安装存储器电路单元。 电压比较控制电路单元选择从温度传感器输出的任何信号,并将选择的输出信号与参考电压进行比较。 电压比较控制电路单元将比较结果连续地存储在存储器电路单元中。
    • 16. 发明公开
    • 디지털 온도 센서, 디지털 온도 측정 시스템 및 방법
    • 数字温度传感器,系统和测量温度的方法
    • KR1020060007935A
    • 2006-01-26
    • KR1020040057555
    • 2004-07-23
    • 삼성전자주식회사
    • 김동균구자남
    • G01K7/20
    • G01K1/028G01K7/16G01K2215/00G01K2219/00G01K1/022G01K7/22
    • A digital temperature sensor and a system and a method for measuring a temperature are provided. The system includes a reference signal generator including one or more resistance elements; a temperature sensor including a plurality of discrete resistance elements arranged parallel with one another; a multiplexer multiplexing the plurality of discrete resistance elements and the reference resistance element so that the plurality of discrete resistance elements sequentially distribute a power voltage together with the reference resistance element; a comparator having the voltages distributed by the reference resistance element and a discrete resistance element selected by the multiplexer; and a counter counting sequential switchings of the multiplexer. The counter information of the output level transit time of the comparator is provided to the controller, and the system obtains temperature information according to temperature change information from turn information of the discrete resistance elements according to the counter information.
    • 提供数字温度传感器和系统以及测量温度的方法。 该系统包括:参考信号发生器,其包括一个或多个电阻元件; 温度传感器,包括彼此平行布置的多个离散电阻元件; 复用多个分立电阻元件和参考电阻元件,使得多个离散电阻元件与参考电阻元件一起顺序分配电源电压; 比较器,具有由参考电阻元件分配的电压和由多路复用器选择的离散电阻元件; 以及计数器对多路复用器的顺序切换进行计数。 将比较器的输出电平通过时间的计数器信息提供给控制器,并且系统根据计数器信息从离散电阻元件的转向信息中根据温度变化信息获得温度信息。
    • 17. 发明授权
    • 체온 기록 패치
    • 体温记录补丁
    • KR101759806B1
    • 2017-07-19
    • KR1020157011589
    • 2013-06-25
    • 블루 스파크 테크놀러지스, 인크.
    • 가논존리엄매트캐사돈테살바토조셉투촐스키개리알
    • A61B5/01A61B5/00G01K1/02G01K13/00
    • A61B5/01A61B5/0008A61B5/002A61B5/6833A61B2560/0204A61B2562/0271G01K1/022G01K1/024G01K13/002
    • 무선데이터통신기능이있는능동적전원공급형온도데이터기록패치는애노드및 캐소드를구비한프린트형전기화학전지를포함한밀봉형의가요성배터리와, 마이크로프로세서, 대상피검자의온도를감지하도록구성된온도센서, 무선통신송수신기및 안테나를구비한가요성회로를포함한다. 일예에있어서, 상기가요성배터리와상기가요성회로는제1 기판층과제2 기판층 사이에서커버링적층구성으로배열되고, 상기패치는대상피검자의곡면에순응하도록구성된다. 다른예에있어서, 패치는환자의체온을모니터링하기위한능동적전원공급형의료시스템에서사용되고, 환자의피부에제거가능하게적용되도록구성된접착제를구비한다. 외부컴퓨팅장치는전자계를통하여패치의무선통신송수신기와양방향통신을할 수있다.
    • 无线数据通信功能积极供电记录配置为感测一个柔性电池,微处理器补丁温度传感器的温度数据,在密封的,包括包含阳极和阴极的打印类型的电化学电池中,目标对象的温度,这, 无线通信收发器和包括天线的天线。 在一个实例中,它roneun柔性电池和柔性覆盖组件被布置在所述第一基板层的第二基板层的任务,其中,所述贴片被配置为符合所述目标对象的表面之间的堆叠构造。 在另一个例子中,补片是在活性动力式医疗系统用于监测体温患者的,包括被配置为被施加以除去所述患者的皮肤上的粘合剂。 外部计算设备可以是具有通过电磁场贴片的无线通信收发器的双向通信。
    • 18. 发明公开
    • Portable temperature sensing apparatus
    • 便携式温度传感装置
    • KR20120010876A
    • 2012-02-06
    • KR20100072514
    • 2010-07-27
    • PERFECTDATA SYSTEM CO LTD
    • CHAE DONG KOOK
    • G01K1/02G01K13/00H04B7/00
    • Y02D70/00Y02D70/44G01K13/00G01K1/02G01K1/022H04B7/26
    • PURPOSE: A portable temperature sensing apparatus is provided to reduce power consumption by sensing temperature only during a fixed time period. CONSTITUTION: A portable temperature sensing apparatus comprises a communications unit(110), a temperature sensing unit(120), a magnetic field sensing unit(130), and a controlling unit(140). The communications unit communicates with a wireless terminal in a short distance. The temperature sensing unit senses ambient temperature. The magnetic field sensing unit senses an ambient magnetic field. The controlling unit activates the temperature sensing unit and stores ambient temperature information in memory(150) when the magnetic field sensing unit senses the ambient magnetic field in a non-activated state of the controlling unit. The controlling unit controls to transmit information saved in the memory to the wireless terminal through the communication unit.
    • 目的:提供一种便携式温度感测装置,仅在固定时间段内通过感测温度来降低功耗。 构成:便携式温度检测装置包括通信单元(110),温度检测单元(120),磁场感测单元(130)和控制单元(140)。 通信单元在短距离内与无线终端进行通信。 温度感测单元感测环境温度。 磁场感测单元感测环境磁场。 当磁场感测单元感测到处于控制单元的非激活状态的环境磁场时,控制单元激活温度感测单元并将环境温度信息存储在存储器(150)中。 控制单元通过通信单元控制将存储在存储器中的信息发送到无线终端。
    • 19. 发明公开
    • 콘크리트 단열온도상승 실험장치
    • 用于测量混凝土的温度上升和混凝土测试方法的温度上升的设备
    • KR1020110055310A
    • 2011-05-25
    • KR1020090112271
    • 2009-11-19
    • 한국건설기술연구원
    • 박정준김성욱고경택강수태류금성이장화차수원
    • G01K13/12G01K17/00
    • G01N25/20G01K1/022G01K1/026G01K1/028G01K1/14G01K13/12G01K2213/00
    • PURPOSE: A device for measuring the adiabatic temperature rise of concrete and a method for measuring the adiabatic temperature rise of concrete using the same are provided to accurately measure the heating value of concrete when the concrete is cured without heat loss. CONSTITUTION: A device for measuring the adiabatic temperature rise of concrete comprises a housing(110), an insulation unit(130), a temperature detection unit(170), and a data measurement unit(190). The housing has a body(112) with opened top and a cover(114) for covering the opened top. The insulation unit insulates the inside and outside the housing. The temperature detection unit is arranged inside the housing and has multiple sensors(172) for detecting the adiabatic temperature rise of concrete. The data measurement unit is composed of a minicomputer(194) for storing temperature data in a memory unit.
    • 目的:提供一种用于测量混凝土绝热升温的装置,以及使用该装置测量混凝土绝热温升的方法,以便在混凝土固化时无需热损失即可精确测量混凝土的发热量。 构成:用于测量混凝土的绝热温度的装置包括壳体(110),绝缘单元(130),温度检测单元(170)和数据测量单元(190)。 壳体具有敞开的顶部的主体(112)和用于覆盖打开的顶部的盖(114)。 绝缘单元绝缘在外壳的内部和外部。 温度检测单元布置在壳体内部,并具有用于检测混凝土的绝热温度的多个传感器(172)。 数据测量单元由用于将温度数据存储在存储单元中的小型计算机(194)组成。
    • 20. 发明公开
    • 보일러의 내부 온도 계산 시스템 및 방법
    • 电力锅炉温度计算系统及其方法
    • KR1020110001790A
    • 2011-01-06
    • KR1020090059489
    • 2009-06-30
    • 한국전력공사
    • 장석원이인철
    • G01K17/08F24H9/20
    • G06F17/5022F24H9/2064G01K1/022G01K1/028G01K17/08
    • PURPOSE: Inner-temperature computing system and method of a boiler are provided to enable the steam temperatures of heating surfaces with no measuring instruments and of an immeasurable high-temperature boiler to be calculated. CONSTITUTION: An inner-temperature computing system of a boiler comprises a measuring instrument(10), a database(20), a computing module(30), a comparing unit(40) and a monitoring unit(50). The measuring instrument measures the gas inlet temperature, steam inlet temperature, gas rate and steam rate of the heating surface of a boiler. The database stores the data from the measuring instrument and the computed temperature from the computing module. The computing module compares absorbed amount of heat with transferred amount of heat to obtain a gas outlet temperature. The comparing unit compares the computed value with the measured value on the Eco heating surface of the outlet of the boiler to make the computing module compute again. The monitoring unit displays the computed temperature from the computing module.
    • 目的:提供锅炉的内部温度计算系统和方法,以便计算没有测量仪器和不可测量的高温锅炉的加热表面的蒸汽温度。 构成:锅炉的内部温度计算系统包括测量仪器(10),数据库(20),计算模块(30),比较单元(40)和监测单元(50)。 测量仪器测量锅炉加热面的气体入口温度,蒸汽入口温度,气体速率和蒸汽速率。 数据库存储来自测量仪器的数据和计算模块的计算温度。 计算模块将吸收的热量与转移的热量进行比较以获得气体出口温度。 比较单元将计算值与锅炉出口的Eco加热表面上的测量值进行比较,以使计算模块再次计算。 监控单元显示计算模块的计算温度。