N35 光学测试仪器 标准查询与下载

GJB 5893-2006 末制导激光测距目标指示器性能试验方法

本标准规定了末制导激光测距目标指示器主要性能试验的一般要求和各项性能的试验方法。 本标准适用于末制导激光测距目标指示器（以下简称被试产品）的鉴定（定型）检验和质量一致性检验。同类产品研制阶段的性能验证试验也可参照使用。

Test methods of performance for extremity guidance laser ranging target designator

GJB 2241.4-2006 脉冲激光测距仪性能试验方法 第4部分：距离选通范围和选通精度试验

本部分规定了脉冲激光测距仪距离选通范围和选通精度的试验方法。 本部分适用于脉冲激光测距仪的距离选通范围和选通精度试验。

Test method of performance for pulsed laser rangefinders Part 4: Test of range gating area and gating accuracy

GJB 2241.3-2006 脉冲激光测距仪性能试验方法 第3部分：角分辨力、距离分辨力和多目标指示功能试验

本部分规定了脉冲激光测距仪角分辨力、距离分辨力和多目标指示功能的试验方法。 本部分适用于脉冲激光测距仪的角分辨力、距离分辨力和多目标指示功能试验。

Test method of performance for pulsed laser rangefinders Part 3: Test of angle discrimination, range discrimination and multic target designate function

GJB 2241.5-2006 脉冲激光测距仪性能试验方法 第5部分：动态测距精度、最大测程、全航回波率和距离跟踪波门试验

本部分规定了脉冲激光测距仪动态测距精度、最大测程、全航回波率和距离跟踪波门的试验方法。 本部分适用于脉冲激光测距仪的动态试验。

Test method of performance for pulsed laser rangefinders Part 5: Test of dynamic tracking range accuracy, maximum ranging, all-airway echo ratio and range tracking wave gate

GJB 2241.2-2006 脉冲激光测距仪性能试验方法 第2部分：静态最大测程、最小测程、测距精度和回波率试验

本部分规定了脉冲激光测距仪的静态最大测程、最小测程、测距精度和回波率试验方法。 本部分适用于脉冲激光测距仪的静态试验。

Test method of performance for pulsed laser rangefinders Part 2: Static test of maximum ranging, minimum ranging, range accuracy and echo ratio

EN ISO 24013:2006 光学与光子学.激光和相关设备.测量偏正激光辐射光学组件的偏位差(ISO 24013:2006)

Optics and photonics - Lasers and laser-related equipment - Measurement of phase retardation of optical components for polarized laser radiation

JB/T 10575-2006 光学计

Optimeter

DIN 58759:2006 光学加工.平光镜块规夹持器的托盘

This standard applies for trays for flat lens block holders which are used in production in optical engineering. It defines dimensions, tolerances and surface quality.#,,#

Production in optical engineering - Tray for flat lens block holders

BS EN 62129:2006 光谱分析仪的校正

This International Standard provides procedures for calibrating an optical spectrum analyzer designed to measure the power distribution of an optical spectrum. This analyzer is equipped with an input port for use with a fibre-optic connector. An optical spectrum analyzer is equipped with the following minimum features: a) the ability to present a display of an optical spectrum with respect to absolute wavelength; b) a marker/cursor that displays the optical power and wavelength at a point on the spectrum display. NOTE This standard applies to optical spectrum analyzers developed for use in fibre-optic communications, and is limited to equipment that can directly measure the optical spectrum output from an optical fibre, where the optical fibre is connected to an input port installed in the optical spectrum analyzer through a fibre-optic connector. In addition, an optical spectrum analyzer can measure the spectral power distribution with respect to the absolute wavelength of the tested light and display the results of such measurements. It will not include an optical wavelength meter that measures only centre wavelengths, a Fabry-Perot interferometer or a monochromator that has no display unit. The procedures outlined in this standard are considered to be mainly performed by users of optical spectrum analyzers. The document, therefore, does not include correction using the calibration results in the main body. The correction procedures are described in Annex C. Of course, this standard will be useful in calibration laboratories and for manufacturers of optical spectrum analyzers.

Calibration of optical spectrum analyzers

DIN ISO 15795:2006 光学和光学仪器.光学系统质量评估.彩色相差引起的图像质量下降的评定(ISO 15795-2002)

The document defines terms relating to chromatic aberrations and indicates the mathematical relationships between those terms. It also gives general guidance for the measurement of chromatic aberrations and is valid for optical imaging systems which are constructed to be of rotational symmetric imaging geometry. It is also valid for optoelectronic imaging systems.

Optics and optical instruments - Quality evaluation of optical systems - Assessing the image quality degradation due to chromatic aberrations (ISO 15795:2002);English version of DIN ISO 15795-2006-03

SANS 61315:2006 光纤功率计的校准

Applicable to instruments measuring radiant power emitted from sources which are typical for the fibre-optic communications industry. These sources include laser diodes, light emitting diodes (LEDs) and fibre-type sources. The radiation may be divergent or collimated.

Calibration of fibre-optic power meters

JJG 371-2005 量块光波干涉仪

本规程适用于测量范围从0.5mm～1000mm的激光量块干涉仪及用于高等级量块测量的量块光波干涉仪的首次检定、后续检定和使用中检验。

Gauge Block Interferometers

DIN ISO 11421:2005 光学和光学仪器.光学传递函数(OTF)测量的准确性

This International Standard gives general guidance on evaluating the sources of error in optical transfer function (OTF) equipment and in using this information to estimate errors in a measurement of OTF. It also gives guidance on assessing and specifying a general accuracy value for a specific measuring equipment, as well as recommending methods of routine assessment. The main body of this International Standard deals exclusively with the modulation transfer function (MTF) part of the OTF. The phase transfer function (PTF) is dealt with relatively briefly in annex A.

Optics and optical instruments - Accuracy of optical transfer function (OTF) measurement (ISO 11421:1997)

NF C93-804:2005 光时域反射计(OTDRs)的校准

Calibration of optical time-domain reflectometers (OTDR).

IEC 61746:2005 光时域反射计(OTDRs)的校准

Provides procedures for calibrating single-mode optical time domain reflectometers (OTDR). It only covers OTDR measurement errors and uncertainties. This standard does not cover correction of the OTDR response.

Calibration of optical time-domain reflectometers (OTDR)

KS B 5612-2004 小型生物显微镜

이 규격은 기계통 길이가 80∼120 mm인 것으로서 건조 대물렌즈를 사용하는 호칭 종합

Small size biological microscopes

KS B 5611-2004 干燥物镜用生物显微镜

이 규격은 KS B 5605에 속하지 않는, 기계통 길이 160 mm 또는 170 mm이고

Biological microscopes for dry objectives

WJ 1852-2004 金属外反射膜规范

Specifications for metallic exterior reflectors

ASTM E996-04 俄歇电子光谱仪和X射线光电子能谱的报告数据的标准规程

Include the experimental conditions under which spectra are taken in the “Experiment” section of all reports and publications. Identify any parameters that are changed between different spectra in the “Experiment” section of publications and reports, and include the specific parameters applicable to each spectrum in the figure caption.1.1 Auger and x-ray photoelectron spectra are obtained using a variety of excitation methods, analyzers, signal processing, and digitizing techniques. 1.2 This practice lists the desirable information that shall be reported to fully describe the experimental conditions, specimen conditions, data recording procedures, and data transformation processes. 1.3 This standard does not purport to address all of the safety concerns, if any, associated with its use. It is the responsibility of the user of this standard to establish appropriate safety and health practices and determine the applicability of regulatory limitations prior to use.

Standard Practice for Reporting Data in Auger Electron Spectroscopy and X-ray Photoelectron Spectroscopy

WJ 1853-2004 介质膜规范

Dielectric film specification