L15 敏感元器件及传感器 标准查询与下载

DLA MS24482 REV A VALID NOTICE 2-2005 卡口锁定型铠装电阻温度传感器(50至300摄氏度)

The activities above were interested in this document as of the date of this document. Since organizations and responsibilities can change, you should verify the currency of the information above using the ASSIST Online database at h_t_t_p_:_/_/_a_s_s_i_s_t_._d_a_p_s_._d_l_a_._m_i_l_

TRANSMITTER, TEMPERATURE, ELECTRICAL RESISTANCE, ARMORED, BAYONET LOCKING TYPE, (50 DEG. C TO 300 DEG. C)

KS C IEC 60854:2004 超声波脉冲.回波诊断设备性能的测定方法

이 규격에서는 음향 주파수 0.5 MHz에서 25 MHz 대역에서 구동되는 단일 소자로

Methods of measuring the performance of ultrasonic pulse-echo diagnostic equipment

KS C IEC 60782:2004 超声波磁致伸缩变换器的测量

이 규격은 액체 또는 고체 매질에서 음파 또는 초음파 음향 파워를 발생시키기 위해 사용되고

Measurements of ultrasonic magnetostrictive transducers

BS EN 60539-2:2004 直热式负温度系数热敏电阻器.分规范.表面安装负温度系数热敏电阻器

This part of IEC 60539 is applicable to surface mount directly heated negative temperature coefficient thermistors, typically made from transition metal oxide materials with semiconducting properties. These thermistors have metallized connecting pads or soldering strips and are intended to be mounted directly on to substrates for hybrid circuits or on to printed boards.

Directly heated negative temperature coefficient thermistors - Sectional specification - Surface mount negative temperature coefficient thermistors

BS EN 60539-2:2004+A1:2010 直热式负温度系数热敏电阻器.分规范.表面安装负温度系数热敏电阻器

This part of IEC 60539 is applicable to surface mount directly heated negative temperature coefficient thermistors, typically made from transition metal oxide materials with semiconducting properties. These thermistors have metallized connecting pads or soldering strips and are intended to be mounted directly on to substrates for hybrid circuits or on to printed boards.

Directly heated negative temperature coefficient thermistors. Sectional specification. Surface mount negative temperature coefficient thermistors

ARMY ADS-65-HDBK-2004 电光传感器系统的适航资格及验证准则

This document establishes the guidance for airworthiness qualification and discusses the methods of verification for Electro-Optical(EO) and Sensor Systems(SS), mission sensor group, and any other targeting/pilotage systems installed on U.S. Army aircraft. It also establishes the guidance for ancillary equipment, including displays, lasers and targeting systems.

AIRWORTHINESS QUALIFICATION AND VERIFICATION GUIDANCE FOR ELECTRO-OPTICAL AND SENSOR SYSTEMS

JEDEC JESD22-A105C-2004 动力和温度周期变化

This test method applies to semiconductor devices that are subjected to temperature excursions and required to power on and off during all temperatures. The power and temperature cycling test is performed to determine the ability of a device to withstand alternate exposures at high and low temperature extremes with operating biases periodically applied and removed. It is intended to simulate worst case conditions encountered in typical applications.

Power and Temperature Cycling

DIN ISO 16063-21:2004 振动和冲击传感器的校准方法.第21部分:与标准传感器比对进行振动校准

The document describes the calibration of rectilinear vibration transducers by comparison to primary national or international standards through a secondary, reference, working or check standard in the frequency range from 0,4 Hz to 10 kHz. It is applicable between all levels in the calibration hierarchy under both laboratory conditions and field conditions. It gives detailed specification and evaluation of measurement uncertainty, i.e. the error budget.

Methods for the calibration of vibration and shock transducers - Part 21: Vibration calibration by comparison to a reference transducer (ISO 16063-21:2003)

UL 2075-2004 气体和蒸气探测器和传感器

These requirements cover toxic and combustible gas and vapor detectors and sensors intended to be portable or employed in indoor or outdoor locations in accordance with the National Electrical Code, NFPA 70. A gas detector and/or sensor and/or vapor detector, as covered by these requirements, consists of an assembly of electrical components coupled with a sensing means inside a chamber, or by separate components to detect toxic and/or combustible gases or vapors. The detector includes provision for the connection to a source of power and signaling circuits. These requirements cover the following types of detectors: a) Detectors intended for monitoring the environment and detectors intended for open area protection and for connection to a compatible power supply or control unit for operation as part of gas detection or emergency signaling systems; b) Detectors intended solely for control of ventilation or shut off devices such as fans or control valves; c) Detectors intended for both the above applications; d) Sensors and sensing circuits intended for use with or in gas detectors, alarms or gas detection circuits within fuel cell systems; e) Portable gas detectors; f) Multi-gas gas detectors; g) Multi-gas sensors and h) Equipment intended for use in hazardous locations. Note, the equipment must comply with the applicable hazardous location requirements prior to evaluation to UL 2075. 1.3 These requirements also cover all remote accessories that are intended to be connected to a gas or vapor detector and/or sensor. 1.4 This standard does not cover the following: a) Control units to which the detectors are intended to be connected that are covered by the Standard for Control Units for Fire-Protective Signaling Systems, UL 864; b) Control units to which the detectors are intended to be connected that are covered by the Standard for General Purpose Signaling Devices and Systems, UL 2017; c) Self-contained single and multiple station carbon monoxide alarms or residential combustible gas detectors, not intended for connection to a system control unit, that are covered by the Standard for Single and Multiple Station Carbon Monoxide Alarms, UL 2034 or Residential Gas Detectors, UL 1484. 1.5 Users of these requirements will additionally need to ensure that influencing factors not addressed in this standard for the end product installation, such as mechanical movement, field placement of conductive material, and product damage, will not affect the system for insulation coordination or performance operation. Examples are the deformation of the enclosure, movement of the fittings for conduit or armored cable, or the improper installation of field wiring.

UL Standard for Safety Gas and Vapor Detectors and Sensors First Edition; Reprint with revisions through and including September 28, 2007

ANSI/ESD SP5.3.2-2004 静电放电敏感元件的保护用ESD协会标准规程.灵敏度试验.套接设备模型(SDM).元件等级

This draft standar practice pvodides a test method for generating a "Socketed Device Model" test on a component integrated circuit device.

ESD Association Standard Practice for the Protection of Electrostatic Discharge Susceptible Items - Sensitivity Testing - Socketed Device Model (SDM) - Component Level

SJ 54409/2-2003 CY-YZ-003型绝压传感器详细规范

Detail specification of absolute pressure sensors for type CY-YZ-003

SJ 54409/1-2003 CY-YZ-002型抗电磁干扰动态压力传感器详细规范

Detail specification of anti-radio interference dynamic pressure sensors for type CY-YZ-002

SJ 54409/3-2003 CY-YZ-004型差压传感器详细规范

Detail specification of differential pressure sensors for type CY-YZ-004

KS B ISO 16063-11:2003 振动与冲击传感器的校准方法.第11部分:激光干涉法振动绝对校准

이 규격은 정상 상태의 사인파형 진동과 레이저 간섭 측정법에 의한 복소 민감도의 진폭

Methods for the calibration of vibration and shock transducers－Part 11：Primary vibration calibration by laser interferometry

KS B ISO 16063-13:2003 振动和冲击传感器的校准方法.第13部分:激光干涉法冲击绝对校准

이 규격은 충격 도중에 시간 종속 변위를 감지하는 레이저 간섭 측정법을 이용하여 직선

Methods for the calibration of vibration and shock transducers－Part 13：Primary shock calibration using laser interferometry

KS B ISO 16063-1:2003 振动与冲击传感器的校准方法.第1部分:基本概念

이 규격은 진동 및 충격 변환기의 교정 방법에 대하여 규정한다. 또한 이 규격은 민감도

Methods for the calibration of vibration and shock transducers－Part 1：Basic concepts

IEC 60539-2:2003 直热式负温度系数热敏电阻器.第2部分:分规范.表面安装负温度系数热敏电阻器

Is applicable to surface mount directly heated negative temperature coefficient thermistors, typically made from transition metal oxide materials with semiconducting properties. These thermistors have metallized connecting pads or soldering strips and ar

Directly heated negative temperature coefficient thermistors - Part 2: Sectional specification; Surface mount negative temperature coefficient thermistors

IEC 62211:2003 电感元件.可靠性管理

Sets up a broad basis of electric and mechanical criteria of failure test procedures. Is applicable to inductive components (chokes and transformers) based on magnetically soft materials. Covers also discrete type components and the different types of su

Inductive components - Reliability management

BS ISO 16063-21:2003 振动和冲击传感器的校准方法.与基准传感器比对进行振动校准

This part of ISO 16063 describes the calibration of rectilinear vibration transducers by comparison. Although it mainly describes calibration using direct comparison to a standard calibrated by primary methods, the methods described can be applied between other levels in the calibration hierarchy. This part of ISO 16063 specifies procedures for performing calibrations of rectilinear vibration transducers by comparison in the frequency range from 0,4 Hz to 10 kHz. It is primarily intended for those who are required to meet ISO standardized methods for the measurement of vibration under laboratory conditions, where the uncertainty of measurement is relatively small. It can also be used under field conditions, where the uncertainty of measurement may be relatively large. From knowledge of all significant sources of uncertainty affecting the calibration, the expanded uncertainty can be evaluated using the methods given in this part of ISO 16063. It also covers the assessment of uncertainties for calibrations performed using a check standard. Comparison calibrations made in accordance with this part of ISO 16063 need to allow for the environmental conditions of the reference transducer calibration. NOTE Transducer calibrations made under extreme environmental conditions are covered by other International Standards.

Methods for the calibration of vibration and shock transducers - Vibration calibration by comparison to a reference transducer

ISO 16063-21:2003 振动和冲击传感器的校准方法.第21部分:振动比较法校准

本部分描述了直线式振动传感器的比较法校准，虽然本部分主要描述的是与一只经过绝对法校准 的参考传感器进行直接比较的校准方法，该方法也能够用于校准体系中不同等级之间的校准。 本部分详细地说明了在振动频率从O．4 Hz～10 kHz范围内，运用比较法校准直线式振动传感器 的步骤。它主要针对在实验室条件下使用标准方法的振动测量，其测量不确定度相对较小。它也能用 于现场条件的测量，这样测量不确定度可能较大。 所有重要的不确定度源将影响校准结果，本部分也给出了评定扩展不确定度的方法。它包含使用 一个核查标准来进行校准时不确定度的估计。 本部分比较法校准的环境条件应与参考传感器校准时一致。 注：在极端环境条件下做传感器校准已包含在其他的标准中。

Methods for the calibration of vibration and shock transducers - Part 21: Vibration calibration by comparison with a reference transducer