首页
产品
黄页
商标
征信
会员服务
注册
登录
全部
|
企业名
|
法人/股东/高管
|
品牌/产品
|
地址
|
经营范围
发明名称
Method for determining a contact thermal resistance in differential scanning calorimeters
摘要
申请公布号
EP1340969(B1)
申请公布日期
2006.05.24
申请号
EP20030004195
申请日期
2003.02.27
申请人
WATERS INVESTMENTS LIMITED
发明人
DANLEY, ROBERT L.
分类号
G01K17/00;G01N25/20
主分类号
G01K17/00
代理机构
代理人
主权项
地址
您可能感兴趣的专利
System and method for creating machine-readable codes in combination with other images such as logos
Printing control method and printing system sending color components to the printer except for color components that contain zeros for all content
Image creating apparatus having color arrangement changing unit and image creating apparatus having color arrangement restoring unit
Systems and methods for detecting a location of an image forming device using mobile device localization
Transmission apparatus, reception apparatus, serial communication apparatus, and printing apparatus including the serial communication apparatus
Device for referenced measurements of reflected light and a method for calibrating such a device
Servo control system, lithographic apparatus and control method
Liquid crystal display device
Display device including sub-backlight
Liquid crystal display device having improved electrostatic discharge resistance
Electro-active diffractive lens and method for making the same
Systems and methods for adaptive scaling of digital images
System, method, and apparatus for providing improved high definition video from upsampled standard definition video
Depth of focus in digital imaging systems
Distortion correction processing apparatus, distortion correction processing method and storage medium
Information processing apparatus, stage-undulation correcting method, program therefor
Method and device for optical scanning of three-dimensional objects by means of a dental 3D camera using a triangulation method
Optical scanning apparatus and image forming apparatus including optical scanning apparatus
Printing apparatus and printing method
Method for estimating a pose of an articulated object model
