基本信息

• 发明名称： 【发明专利】 Methods and apparatus for the determination of resistivity or thickness of semiconductive bodies
• 申请日： 1970-08-16
• 申请号/专利号： GB1413761
• 专利权人： 无
• 申请人： WESTERN ELECTRIC CO
• 分类号： G01R31/26
• 发明人/设计人： 无
• 公开日/公告日： 1970.08.16
• 优先权号： G01R31/26
• 代理机构：
• 代理人：
• PCT申请号： 无
• PCT申请日期： 无
• PCT进入国家阶段日： 无
• 生物宝藏信息： 无
• 审查员： 无

摘要：987,613. Measuring physical dimensions; measuring resistivity of semi-conductive material. WESTERN ELECTRIC CO. Inc. April 19, 1961 [April 27, 1960; May 31, 1960], No. 14137/61. Headings G1N and G1U. In an arrangement for determining the resistivity or thickness of a semi-conductive material, a sample is placed, if necessary with a conductive backing, in an aperture in a conductive wall portion of a hollow, wave transmission path and the transmission characteristics of the path including the sample, when it is energized by ultra high frequency radio, are measured, the thickness or resistivity being determined by comparison with transmission characteristic measurements of semiconductors of known resistivity and/or thickness. The wave guide 13, Fig. 1 including the sample 18 under test, is energized through an attenuator 12 by a generator 11 producing energy in the range of 8000-65000 megacycles per second, and a directional coupler 15 comprising a four terminal hybrid junction directs the incident signal from the generator to detector circuit 16 and the reflected signal from the line terminating test sample to detector circuit 17, the two detector outputs being applied alternately to an oscilloscope 28 by a change over switch 27 oscillating at 30 C.P.S. To measure the return loss attenuators 20, 26 are zeroed and attenuators 22, 24 adjusted for equal signal amplitudes from the detector circuits. The sample is then replaced by a good conductor, and attenuator 26 is adjusted to again produce equal detector outputs, the loss being determined from the attenuator setting. Resistivity can be determined by reference to a graph. The penetration determined by the frequency chosen should not be greater than the thickness of the semi-conductor but if unavoidable a method employing backings of differing resistivity may be used. The sample support structure may be adapted for rapid change of slide-mounted backing materials, change of backing being achieved without removing the sample from the aperture. In a modified arrangement Fig. 2 a high Q resonant cavity 31 lightly couples a detector 33 to a generator 32, and a directional coupler 38 couples the input of cavity 31 to a second detector circuit 40, the outputs of the two detector circuits being connected to an oscilloscope as before. Isolaters are provided on each side of the cavity to prevent feedback. Cavity 51, Fig. 3, is bounded by brass plates 53, 54, half a wave length apart and apertures 55 couple the cavity to the remainder of the guide. Opening 72 in the smaller wall is provided for receipt of the test sample which may be supported from wings 56. A screw 59 is provided to adjust the transition impedance between wave-guide and cavity.

摘要附图：