共查询到19条相似文献,搜索用时 250 毫秒
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数据传输设备综合自动测试系统设计 总被引:1,自引:0,他引:1
介绍了数据传输设备综合自动测试系统的基本原理和设计方法。采用先进的系统集成技术,利用标准总线和通用模块化仪器来组建系统。具有综合化、可靠性高和性价比好的优点。实验样机经测试,基本达到设计要求,进一步完善后可用于实际工程设计中。 相似文献
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针对飞机液压系统地面测试设备校准方法和校准装置欠缺的问题,为了提高飞机液压系统地面测试设备的测试性能和可靠性,设计了一套力值加载校准系统,该校准系统能够按着设置的参数输出精确的力值,实现对飞机液压系统地面测试设备的校准.满足了飞机液压系统地面测试设备对校准方法和校准装置的需求. 相似文献
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本文根据IEEE-488总线、测量仪器和计算机组成的自动测试系统的结构,研究了对机载电子设备实现自动测试及故障实时自动诊断的自动测试系统,以及主要由自动测试系统组成的机载电子设备测试方舱。该方舱主要用于内、外场对机载电子设备的测试、校准、定检、故障诊断及恢复。 相似文献
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为解决装备可靠性差、维护费用高等问题,保持并提高部队装备保障能力,在结合装备实际使用需求的基础上开发了一套针对该装备的自动测试系统。在研究分析某型设备的典型故障特性的基础上,对部分故障进行了总结归纳,并初步建立了测试设备的故障树模型,再运用了基于表达式分析的故障诊断推理方法建立推理机制。最后,在明确系统功能要求和设计原则的基础上,设计了测试设备检测系统,部队实践验证该系统满足设计要求。 相似文献
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基于可靠性指标的测试系统校准周期优化 总被引:1,自引:0,他引:1
通过对测试系统校准周期的直接反应法(SRM)和威布尔(Weibull)可靠性模型法的分析、改进,以及对校准过程中误判率的分析测算,解决了测试系统检定决策的风险问题.首先介绍了测试系统可靠性指标的相关计量技术规范,然后通过对常用的校准周期确定方法的介绍与分析,进一步给出了测量可靠性观测值的可靠性概率函数描述方法,并利用主元分析法来综合评价不同测量参数的影响,修正了最佳校准周期的计算.通过对自动测试系统DMM(数字万用表)测量通道的检定,表明这些优化措施是可行的. 相似文献
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针对飞机电气系统绝缘测试部位和设备数量繁多、手动测试效率低、容易造成事故隐患等问题,介绍了一种航空电气系统绝缘电阻的自动化测试方法,设计并实现了通用航空电气系统绝缘电阻自动测试系统、该系统运用工控机自动控制与测试技术,自动完成测试,并实现数据处理、信息存贮等功能。应用表明该系统安全可靠、自动化程度高、测试速度快、可扩展性强。 相似文献
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微小型数据采集系统一般是基于微控制器进行设计的,存储设备主要为SD卡,由于微控制器资源有限,因此很难在保证微小型数据采集系统较高采集速度的同时保证采集系统的可靠性.针对该问题,本文分析了影响数据采集系统采集速率及可靠性的主要影响因素,推导了DMA缓冲区设置大小与数据采集系统采集速率及可靠性之间的模型,并设计了数据采集系统主要参数标定与验证试验.试验结果表明,本文提出的数据采集系统设计方法合理、可根据数据采集处理器内存大小、SD卡文件系统性能指标设计数据采集系统,确保数据采集系统的可靠性,对提高系统设计效率、降低微小型数据采集系统的设计成本以及后续改进完善数据采集系统奠定了重要的理论基础. 相似文献
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Development of computer programs that control test sequences on Automatic Test Equipment (ATE) is costly and time consuming. Test Programs are usually written by specifying the instruments to be used in the ATE and the sequence of the setup and measurement parameters for these instruments. Reuse of test program software on other ATE is usually not possible without rewriting, revalidating and re-releasing the programs. This paper describes an implementation of a test program software development system and a standard of software runtime architecture used in our factories. The object-oriented development environment and its associated class libraries allow test programs to be written without knowledge of the ATE on which they will be run. Two main principles guided the design: the software architecture was based on recognized formal and industry standards; and our implementation used commercial off-the-shelf software products when possible. Emerging standards such as the IEEE-1226 (ABBET) as well as defacto industry standards including VXI Plug and Play have made our implementation possible. The current draft of the ABBET and P&P standards do not promote this instrument independence, but it is hoped that this will be added as the standards mature. Three immediate benefits are: cost savings that result from reusing validated test programs; cycle time reductions that result from concurrently developing test program software and ATE; and software defect reductions that result from using proven software 相似文献
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导弹检测设备用来对导弹技术性能参数进行检测,用以评定导弹的良好性。但导弹检测设备不能对自身所发生的故障进行定位和诊断,将自动检测技术和专家系统相结合。建立故障诊断专家系统,是提高导弹检测设备维护水平,完善其技术保障的一个有效途径。本文对某型导弹检测设备故障诊断专家系统的设计方法进行了研究。包括其系统结构组成,关键技术解决的方法和系统功能实现的策略等。 相似文献
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Automatic Test Equipment (ATE) systems are used to qualify, accept, and troubleshoot electronic products. ATE systems may be in the form of large general-purpose systems that can test a wide variety of products or the more commonly used custom, turnkey systems that are designed for specific test application(s) and requirements. Turnkey ATE systems are labor-intensive; as a result, even a relatively simple turnkey tester is costly and may take months (or even years) to develop, integrate, and deploy. The main reason for this aspect of turnkey ATE systems is that even though the instrumentation may be off-the-shelf components, most everything else is custom and requires design, development, extensive debug and integration. Time and again, systems integrators have tried to find a solution that would combine the cost effectiveness of COTS systems with the flexibility of custom ATE. This paper suggests a solution to this problem and that it is feasible to combine COTS testers with custom requirements. This solution, called CreATE, provides a flexible architecture using COTS components (including instruments, cabling and interfacing products) 相似文献