(完整版)NI-PXIe4496数据采集卡中文翻译

PCI/PXI/PCIe-7265 250kS/s隔离单端48路/差分24路轮询模拟量输入2路任意波形发生8路可编程数字量IO多功能数据采集卡用户手册版本号：Q7-30-02修订日期:2017-1-12国控精仪（北京）科技有限公司2017年版权所有本软件文档及相关套件均属国控精仪(北京)科技有限公司所有，包含专利信息，其知识产权受国家法律保护，除非本公司书面授权许可，其他公司、组织不得非法使用和拷贝。

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国控精仪公司信息网址: 英文中文销售服务: **************电话: 400 9936 400、************传真: ************地址: 北京市海淀区安宁庄东路18号2号办公楼420-423室请将您下列的信息通过邮件或传真发送给我们目录1概述...................................................................................................................................... - 1 -1.1产品特性.................................................................................................................. - 1 -1.2产品应用.................................................................................................................. - 2 -1.3产品详细指标.......................................................................................................... - 2 -1.3.1模拟量输入(AI) ........................................................................................... - 2 -1.3.2通用数字IO................................................................................................. - 4 -1.3.3通用定时计数器.......................................................................................... - 5 -1.3.4模拟量触发（A.Trig） ............................................................................... - 5 -1.3.5数字量触发（D.Trig） ............................................................................... - 6 -1.3.6设备同步接口.............................................................................................. - 6 -1.3.7系统稳定时间.............................................................................................. - 6 -1.3.8物理特征...................................................................................................... - 6 -1.3.9产品功耗(典型值) ..................................................................................... - 7 -1.3.10工作环境...................................................................................................... - 7 -1.3.11存储环境...................................................................................................... - 7 -1.4软件支持.................................................................................................................. - 7 -2设备安装.............................................................................................................................. - 9 -2.1产品开箱.................................................................................................................. - 9 -2.2软件安装.................................................................................................................. - 9 -2.3产品布局图............................................................................................................ - 10 -2.4产品硬件配置........................................................................................................ - 11 -3信号连接说明.................................................................................................................... - 13 -3.1连接器管脚分配.................................................................................................... - 13 -3.2模拟量输入的信号连接方式................................................................................ - 16 -3.2.1信号源类型................................................................................................ - 16 -3.2.2单端连接方式............................................................................................ - 16 -3.2.3差分连接方式............................................................................................ - 17 -4产品功能详细介绍............................................................................................................ - 19 -4.1AI 转换 ................................................................................................................. - 19 -4.1.1AI数据获取模式....................................................................................... - 19 -4.1.2AI数据格式............................................................................................... - 20 -4.1.3时钟源相关................................................................................................ - 21 -4.1.4AI启动方式............................................................................................... - 22 -4.1.5触发功能.................................................................................................... - 22 -4.1.6DMA数据传输功能 ................................................................................. - 27 -4.2数字量输入、输出................................................................................................ - 28 -4.2.1方向控制.................................................................................................... - 28 -4.2.2电气特性.................................................................................................... - 28 -4.3计数器.................................................................................................................... - 28 -4.3.1方式0：计数模式0；.............................................................................. - 29 -4.3.2方式1：计数模式1；.............................................................................. - 29 -4.3.3方式2：频率周期模式0；...................................................................... - 29 -4.3.4方式3：频率周期模式1；...................................................................... - 30 -4.3.5方式4：频率周期模式2；...................................................................... - 30 -4.3.6方式5：脉冲发生模式0；...................................................................... - 31 -4.3.7方式6：脉冲发生模式1；...................................................................... - 31 -4.3.8方式7：脉冲发生模式2；...................................................................... - 32 -5产品校准............................................................................................................................ - 33 -图目录图2-1 PCI-7265产品布局图........................................................................................ - 10 -图2-2 PXI-7265产品布局图........................................................................................ - 11 -图2-3 PCIe-7265产品布局图 ...................................................................................... - 11 -图3-1 端子示意图 ........................................................................................................ - 13 -图 3-2 单端连接方式.................................................................................................... - 17 -图3-3 差分连接方式 .................................................................................................... - 18 -图4-1 AI工作时钟 ....................................................................................................... - 21 -图 4-2 预触发模式........................................................................................................ - 24 -图 4-3 后触发模式........................................................................................................ - 24 -图4-4 延时触发模式 .................................................................................................... - 25 -图 4-5 中间触发模式.................................................................................................... - 25 -图4-6 中间触发触发点分割数据 ................................................................................ - 26 -图4-7 持续触发模式 .................................................................................................... - 26 -图4-8 窗触发 ................................................................................................................ - 27 -图 4-9 重复触发............................................................................................................ - 27 -图4-19 计数模式0 ....................................................................................................... - 29 -图 4-20 计数模式1....................................................................................................... - 29 -图 4-21 频率周期模式0............................................................................................... - 30 -图 4-22 频率周期模式1............................................................................................... - 30 -图 4-23 频率周期模式2............................................................................................... - 31 -图 4-24 脉冲发生模式0............................................................................................... - 31 -图 4-25 脉冲发生模式1............................................................................................... - 32 -图4-26 脉冲发生模式2 ............................................................................................... - 32 -表目录表1-1 -3dB 小信号带宽 ................................................................................................ - 3 -表1-2 Spurious-Free Dynamic Range ............................................................................. - 3 -表1-3 Signal-to-Noise Ratio ........................................................................................... - 3 -表1-4 Total Harmonic Distortion .................................................................................... - 3 -表1-5 Signal-to-(Noise + Distortion) .............................................................................. - 3 -表1-6 Differential Linearity Error ................................................................................... - 3 -表1-7 Integral Linearity Error ......................................................................................... - 4 -表1-8 Gain Error ............................................................................................................. - 4 -表1-9 Offset Error ........................................................................................................... - 4 -表3-1 68-pin scsi接口定义.......................................................................................... - 14 -表3-2 68-pin scsi接口说明.......................................................................................... - 15 -表3-3 20-pin DSI接口定义.......................................................................................... - 15 -表3-4 20-pin DSI接口说明.......................................................................................... - 16 -表4-1 AI双极性量程及码值 ....................................................................................... - 21 -1概述PCI/PXI-7265是基于32位PCI架构的高性能数据采集卡，PCIe-7265是基于PCI Express 1X架构的高性能数据采集卡。

采集卡又称视频捕捉卡，用它可以获取数字化视频信息，并将其存储和播放出来。

很多视频采集卡能在捕捉视频信息的同时获得伴音，使音频部分和视频部分在数字化时同步保存、同步播放。

视频采集卡，英文全称为：“Video Capture Card”，其功能是将视频信号采集到电脑中，以数据文件的形式保存在硬盘上。

视频捕获设备--视频采集卡是我们进行视频处理必不可少的硬件设备，通过它，我们就可以把摄像机拍摄的视频信号从摄像带上转存到计算机中，利用相关的视频编辑软件，对数字化的视频信号进行后期编辑处理、比如剪切画面、添加滤镱、字幕和音效、设置转场效果以及加入各种视频特效等等，最后将编辑完成的视频信号转换成标准的VCD、DVD 以及网上流媒体等格式，方便传播。

编辑本段分类1、视频采集卡从视频信号源和采集卡的接口来分，视频采集卡共分为两大类：一类是模拟采集卡，另一类是数字采集卡。

模拟采集卡通过A V或S端子将模拟视频信号采集到PC中，使模拟信号转化为数字信号，其视频信号源可来自模拟摄像机、电视信号、模拟录像机等。

数字采集卡通过IEEE1394数字接口，以数字对数字的形式，将数字视频信号无损地采集到了PC中，其视频信号源主要来自DV（数码摄像机）及其它一些数字化设备。

模拟采集卡与数字采集卡的一个重要区别就是：使用数字采集卡，在采集过程中视频信号没有损失，可以保证得到与原始视频源一模一样的效果，而使用模拟采集卡则视频信号会有一定程度的损失。

有人曾形象地作了一个类比：模拟采集类似于利用录像机翻录影带，翻录的子带总是不如母带清晰，如果再利用子带翻录，效果会更差;而数字采集就像用电脑拷贝数据文件一样，无论复制多少次，复制的文件与原文件都完全一样的，没有任何区别。

二合一采集卡，指的是数字模拟采集卡，A V+DV采集卡。

数字输入输出，模拟接口输入（DV/A V/S-video），全接口板卡。

2、采集卡按照其用途可以分为广播级视频采集卡，专业级视频采集卡，民用级视频采集卡。

NI推出基于PXI Express的高通道数动态信号采集模块
佚名
【期刊名称】《测控技术》
【年(卷),期】2011(30)3
【摘要】美国国家仪器有限公司（NI）近日发布了NIPXIe-449x系列模块，这是NI推出的最灵活的高通道数动态信号采集（DSA）模块。

该模块提供可选的AC
／DC耦合功能，既可用于麦克风或加速度传感器测量，又可对转速计或其他待测设备进行电压测量。

工程师可以只通过一个设备就满足所有的声音与振动采集要求。

【总页数】1页(P122-122)
【关键词】信号采集模块;Express;通道数;NI;美国国家仪器有限公司;PXI;加速度传感器;电压测量
【正文语种】中文
【中图分类】TP393.098
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因版权原因，仅展示原文概要，查看原文内容请购买。

校准程序B/E/M/S/X系列关于NI-DAQ mx这个文件包含了NI-DAQ B/E/M/S/X系列数据采集设备的校准须知。

这个文件没有讨论编程技术或者编译程序。

NI-DAQ mx驱动包含了编译程序须知和详细的函数功能说明的在线帮助文件。

当你在校准计算机上安装NI-DAQ mx后，你能添加这些帮助文件。

内容协议。

2 软件。

3 文档。

3 校准区间。

4 密码。

4 测试设备。

4 测试条件。

6 校准程序。

6 初始化安装。

7 自我校准。

7 设备温度测控。

8 验证程序。

9 模拟输入验证。

10模拟输出验证。

15 计数器验证。

18 调整程序。

20 测试限度。

23 M系列测试极限NI6250/6251/6224/6255/6259----16-位分辨率。

601协议下面是出现在手册中的协议。

》这个引号引导你进入菜单栏，对话框选择最后功能，File>>Page Setup>>Options的顺序引导依次为菜单，安装页，选择，直到最后对话框。

插图显示注释，报警你有重要信息。

图为警告符，建议你采取预防措施，避免损坏设备，数据丢掉，系统破坏。

当符号出现，提及第一安全信息，介绍预防措施。

2Bold 黑粗体正文，你必须选择或链接软件，例如菜单和对话框选择，粗体正文也表示参数名称和硬件标签。

italic斜体正文表示变量，强调参考或介绍一个关键概念，为正文主题，你必须提供一个词或数值形式。

Mono space显示特征，你应从键盘输入片段代号。

例如编程，句法，用于磁盘驱动器的真名，路径，目录，程序，子程序，设备名称，函数，操作，变量，文件名和扩展名。

Mono space italic 这种字体表示斜体文本中的文本，是你必须提供的一个词或数值占位符。

Platform 这种字体的文本显示一个特殊的平台，表明接下来的文本仅应用于那个平台。

软件最新NI-DAQ mx驱动的校准要求。

包括NI-DAQ mx 高级函数调用，以简化的任务来为校准设备写软件。

NI公司采集卡按照采样频率排序：1NI PXI-611512位, 10 MS/s/通道, 同步采样多功能DAQRMB 34,770 - RMB 43,460模拟输入: 4 DI · 10 MS/s/通道· 12 bits 模拟输出: 2 · 4 MS/s · 12 bits数字I/O:8 DIO · 10 MHz计时器/定时器: 2 · 24 bits · 20 MHz2NI PCI-611512位, 10 MS/s/通道, 同步采样多功能DAQRMB 31,455 - RMB 40,150模拟输入: 4 DI · 10 MS/s/通道· 12 bits 模拟输出: 2 · 4 MS/s · 12 bits数字I/O:8 DIO · 10 MHz计时器/定时器: 2 · 24 bits · 20 MHz3NI PCI-611012位, 5 MS/s/通道, 同步采样多功能DAQRMB 26,075模拟输入: 4 DI · 5 MS/s/通道· 12 bits 模拟输出: 2 · 4 MS/s · 16 bits数字I/O:8 DIO计时器/定时器: 2 · 24 bits · 20 MHz4NI PCI-611112位, 5 MS/s/通道, 同步采样多功能DAQRMB 19,450模拟输入: 2 DI · 5 MS/s/通道· 12 bits 模拟输出: 2 · 4 MS/s · 16 bits数字I/O:8 DIO计时器/定时器: 2 · 24 bits · 20 MHz5NI PXIe-612416位, 4 MS/s, 同步采样多功能DAQRMB 28,970模拟输入: 4 DI · 4 MS/s/通道· 16 bits 模拟输出: 2 · 4 MS/s · 16 bits数字I/O:24 DIO · 10 MHz计时器/定时器: 2 · 32 bits · 80 MHz6NI PXI-613214位, 3 MS/s/通道, 同步采样多功能DAQRMB 15,725模拟输入: 4 DI · 2.5 MS/s/通道· 14bits数字I/O:8 DIO · 10 MHz计时器/定时器: 2 · 24 bits · 20 MHz测量类型:数字, 频率, 正交编码器,电压7NI PXI-613314位, 3 MS/s/通道, 同步采样多功能DAQRMB 21,935 - RMB 25,245模拟输入:8 DI · 2.5 MS/s/通道· 14 bits 数字I/O:8 DIO · 10 MHz计时器/定时器: 2 · 24 bits · 20 MHz测量类型:数字, 频率, 正交编码器, 电压8NI PCI-613314位, 3 MS/s/通道, 同步采样多功能DAQRMB 21,935 - RMB 25,245模拟输入:8 DI · 2.5 MS/s/通道· 14 bits 数字I/O:8 DIO · 10 MHz计时器/定时器: 2 · 24 bits · 20 MHz测量类型:数字, 频率, 正交编码器, 电压9NI PCI-613214位, 2.5 MS/s/通道, 同步采样多功能DAQRMB 15,725模拟输入: 4 DI · 2.5 MS/s/通道· 14 bits 数字I/O:8 DIO · 10 MHz计时器/定时器: 2 · 24 bits · 20 MHz测量类型:数字, 频率, 正交编码器, 电压10NI PCIe-6363X系列数据采集RMB 13,240模拟输入:32 SE/16 DI · 2 MS/s · 16 bits 模拟输出: 4 · 2.86 MS/s · 16 bits数字I/O:48 DIO · 10 MHz计时器/定时器: 4 · 32 bits · 100 MHz。

第一章 NI 数据采集卡使用说明书编写人：梅飞一、 安装与配置1. 在安装板卡之前，请首先安装NI-DAQ驱动程序软件。

您可以在随卡附带的光盘内找到这个驱动程序软件。

另外，NI公司的网站上也提供这个驱动程序软件的免费下载：/softlib.nsf/websearch/90B60D5899BCCCDB86256FC700581B 89?opendocument&node=132070_US如果您使用LabVIEW或LabWindows/CVI 等软件来进行编程,需要在安装驱动软件之前先安装开发平台LabVIEW或LabWindows/CVI等软件。

安装过程中，安装程序会提醒您插入DAQ驱动光盘。

2. NI-DAQ驱动软件正确安装后,请关闭计算机,插入数据采集板卡,启动计算机,即可自动找到板卡并安装好，完成整个安装过程。

注意：在安装PCI或者PXI板卡时，一定要将电脑电源关闭；PC机则最好将电源线拔掉，以免电脑主板关机后仍然带电，造成各类损伤。

二、模拟输入说明1. 信号类型根据信号的参考情况， 一个电压源可以分为两类： 接地信号、浮地信号。

接地信号:接地信号是信号的一端直接接地的电压信号。

它的参考点是系统地（例如大地或建筑物的地）。

最常见的接地信号源是通过墙上的电源插座接入建筑物地的设备，例如信号发生器和电源供电设备等。

浮地信号:一个不与任何地（如大地或建筑物的地）连接的电压信号称为浮地信号。

一些常见的浮地信号有电池、热电偶、变压器和隔离放大器。

2． 测量方式按信号连接方式不同可分为三种测量方式：差分(DIFF)；参考单端(RSE)；非参考单端（NRSE）。

注意：NI公司的部分型号数据采集卡不一定完全支持上述三种测量方式，请查询对应数采卡的使用手册。

按测量方式分类可以分为以下两大类测试系统：1）差分测试系统(DIFF)可避免接地回路干扰可避免因环境引起的共模干扰当输入信号有以下情况时，使用差分测试系统：低电平信号（例如小于1V）。

NI 446x SpecificationsThis document lists specifications for the NI PCI/PXI-4461 and NI PCI/PXI-4462 (NI446x) Dynamic Signal Acquisition (DSA) devices. These specifications are typical at 25°C unless otherwise stated. The operating range for the PXI-446x is0to55°C, and the operating range for the PCI-446x is 0 to 50°C. All accuracies listed are valid for up to one year from the time of the device external calibration. All specifications are subject to change without notice. Visit /manuals for the most current specifications and product documentation.Caution The inputs of this sensitive test and measurement product are not protected for electromagnetic interference for functional reasons. As a result, this product may experience reduced measurement accuracy or other temporary performance degradation when cables are attached in an environment with electromagnetic interference present. Refer to the Declaration of Conformity (DoC) for this product for details of the standards applied to assess electromagnetic compatibility performance. To obtain the DoC, visit /certification, search by model number or product line, and click the appropriate link in the Certification column.Analog InputThis section lists the NI446x analog input (AI) specifications.Input CharacteristicsNumber of simultaneously sampled input channels NI4461 (2)NI4462 (4)Input configuration.........................Differential orpseudodifferential (50Ωbetween negative inputand chassis ground), eachchannel independentlysoftware selectable Input coupling.................................AC or DC, each channelindependently softwareselectableA/D converter (ADC) resolution....24 bits ADC type.........................................Delta-sigmaSample rates (f s),samples-per-second (S/s).................1kS/s to 204.8kS/s in181.9μS/s increments,maximumADC modulator oversample rate1.0kS/s≤f s≤51.2kS/s..............128f s51.2kS/s<f s≤102.4kS/s..........64 f s102.4kS/s<f s≤204.8kS/s........32 f sSample Clock Timebase RateRatio between sample rate (f s) and sample clock timebase rateFIFO buffer size..............................2,047 samplesData transfers...................................Direct memory access(DMA)Input Common Mode Range Input Overvoltage Protection Differential configuration...............±42.4V pkPseudodifferential configurationPositive terminal.........................±42.4V pk Negative terminal (shield)..........±10.0V pkInput Signal RangeTransfer CharacteristicsAI Offset (Residual DC)Sample Rate (f s)Sample Clock Timebase Rate Low-FrequencyAlias RejectionEnabled(Default)Low-FrequencyAliasRejectionDisabled1.0kS/s≤f s≤1.6kS/s16,384f s512f s 1.6kS/s<f s≤3.2kS/s8,192f s3.2kS/s<f s≤6.4kS/s4,096f s6.4kS/s<f s≤12.8kS/s2,048f s12.8kS/s<f s≤25.6kS/s1,024f s25.6kS/s<f s≤51.2kS/s512f s51.2kS/s<f s≤102.4kS/s256f s256f s 102.4kS/s<f s≤204.8kS/s128f s128f sGain(dB)Input Differential*Pseudodifferential*≥0+±12V pk±12V pk–±12V pk±10V pk<0+±42.4V pk±42.4V pk–±42.4V pk±10V pk* Voltages with respect to chassis groundGain (dB)Full-Scale Range (V pk)* 30±0.31620±1.0010±3.160±10.0–10±31.6–20±42.4* Each input channel gain is independently software selectable.Gain(dB)DC-CoupledOffset*, †, Max,T cal‡ ±5°C(±mV)DC-Coupled Offset*,Max, Over OperatingTemperature Range(±mV) 300.11200.22100.5300.77–10530–20770* Source impedance≤50Ω.† Listed offset is valid 24 hours following a self calibration.‡ T cal=ambient temperature at which last self calibration was performed.NI 446x © National Instruments Corporation 3NI 446x SpecificationsAI Gain Amplitude Accuracy1kHz input toneT cal ±5 °C....................................±0.03dB max(T cal =ambient temperature at which last self calibration was performed.)(Listed accuracy is valid 24 hours following a self calibration.)Over operatingtemperature range.......................±0.2dB maxAmplifier CharacteristicsInput ImpedanceCommon-Mode Rejection Ratio (CMRR)Dynamic Characteristics 1AC coupling–3dB cutoff frequency...............3.4Hz –0.1dB cutoff frequency...........22.6HzInput Impedance Differential Configuration Pseudodifferential Configuration Between positive input and chassis ground Betweennegative input and chassis ground50Ω1 M Ω217 pF|| 1 M Ω217 pF||1 M Ω229 pF||Gain (dB)DC-Coupled CMRR (dBc)*, †AC-Coupled CMRR (dBc)†, ‡3010570201011090080–20, –106065* ≤1kHz† Differential configuration ‡ 50 or 60Hz1 Test system equipped with a liquid crystal display (LCD) monitor for AI noise and distortion measurements to avoid possiblemagnetic interference caused by cathode ray tube (CRT)-based monitors.Specification Low-Frequency Alias RejectionEnabled (Default)Low-Frequency Alias Rejection Disabled Alias-free bandwidth (BW) (passband)DC to 0.4 f s DC to 0.4535 f s Alias rejection, minimum 104dBc120dBcAlias rejection by frequencyInput frequency >0.6f s0.5465f s <input frequency <127.4535f s ,where 1.0kS/s ≤f s ≤51.2kS/s 0.5465f s <input frequency <63.4535f s ,where 51.2kS/s <f s ≤102.4kS/s 0.5465f s <input frequency <31.4535f s ,where 102.4kS/s <f s ≤204.8kS/s–3dB BW 0.484f s0.491f sFigure 1. Magnitude Response of AC Coupling Circuit (1Hz to 1kHz)Figure 2. Phase Response of AC Coupling Circuit (1Hz to 1kHz)NI 446x © National Instruments Corporation 5NI 446x SpecificationsADC Filter DelayAI FlatnessLow-Frequency Alias Rejection Enabled (Default)Low-Frequency Alias Rejection Disabled Sample Rate (kS/s)Filter Delay (Samples)Sample Rate (kS/s)Filter Delay (Samples)1.0≤f s ≤1.632.96875 1.0≤f s ≤1.6631.6<f s ≤3.233.9375 1.6<f s ≤3.23.2<f s ≤6.435.875 3.2<f s ≤6.46.4<f s ≤12.839.75 6.4<f s ≤12.812.8<f s ≤25.647.512.8<f s ≤25.625.6<f s ≤204.86325.6<f s ≤204.8Gain (dB)DC-Coupled Flatness * (dB),Max (Typical)20Hz to 20kHz 20Hz to 45kHz 20Hz to 92.2kHz 0, 10, 20, 30±0.006 (±0.003)±0.03 (±0.02)±0.1 (±0.08)–20, –10±0.2 (±0.1)±0.6 (±0.33)±1 (±0.55)* Relative to 1kHzNI 446x Specifications AI Spectral Noise DensityAI spectral noise density(with EAR turned on)......................8nV/ at 30dB gain,1kHzFigure 3. AI Spectral Noise Density (30dB Gain)AI Idle Channel NoiseAI Spurious Free Dynamic Range (SFDR)HzSample Rate (kS/s)Idle Channel Noise *, †dBV rms μV rms 1.0kS/s ≤f s <51.2kS/s –118dBV rms 1.3μV rms 51.2kS/s ≤f s <102.4kS/s –115dBV rms 1.8μV rms 102.4kS/s ≤f s ≤204.8kS/s–111dBV rms2.8μV rms* Source impedance ≤50Ω† 30dB gainGain Setting (dB)SFDR (dBc)*, †, ‡301060, 10, 20108–20, –10110* f s = 204.8kS/s† 1kHz input tone, input amplitude is the lesser of –1dBFS or 8.91V pk .‡ Measurement includes all harmonics.–10–20–30–40–50–60–70–80–90–100–110–120–130–140–150–160Figure 4. SFDR 51.2kS/s (–1dBFS, 0dB Gain, 1kHz Sine Wave Input)–10–20–30–40–50–60–70–80–90–100–110–120–130–140–150Figure 5. SFDR 102.4kS/s (–1dBFS, 0dB Gain, 1kHz Sine Wave Input)© National Instruments Corporation7NI 446x SpecificationsNI 446x Specifications Figure 6. SFDR 204.8kS/s (–1dBFS, 0dB Gain, 1kHz Sine Wave Input)AI Dynamic Range–150–140 –130 –120 –110 –100 –90–80 –70 –60 –50 –40 –30 –20 –10 0 Gain Setting(dB)Dynamic Range (dBFS)*, Min (Typical)1kS/s ≤f s ≤51.2kS/s51.2kS/s <f s ≤102.4kS/s102.4kS/s <f s ≤204.8kS/s30103 (105)100 (102)96 (98)20111 (113)108 (110)104 (106)10114 (117)111 (114)106 (110)0116 (118)113 (114)107 (110)–10107 (108)104 (105)101 (102)–20105 (107)102 (104)98 (101)* 1kHz input tone, –60dBFS input amplitude© National Instruments Corporation 9NI 446x SpecificationsAI Total Harmonic Distortion (THD), Balanced SourceAI THD, Unbalanced SourceFigure 7. AI THD (Balanced Source with Differential Configuration, 204.8kS/s, 0dB Gain)AI THD Plus Noise (THD+N), Balanced SourceGain (dB)THD (dBc)*, †20Hz to 20kHz20Hz to 92.2kHz30–100–9720–109–1060, 10–107–104–10–108–107–20–107–106* f s = 204.8kS/s, 92.8kHz BW, differential configuration† Input amplitude is the lesser of –1dBFS or 8.91V pk .Gain (dB)THD (dBc)*, †20Hz to 20kHz20Hz to 92.2kHz30–100–9320–106–9410–105–920–97–87–10–90–88–20–91–89* f s = 204.8kS/s, 92.8kHz BW† Input amplitude is the lesser of –1dBFS or 8.91V pk .Gain (dB)THD+N (dBc)*51.2kS/s 20Hz to 20kHz †204.8kS/s 20Hz to 92.2kHz ‡30–103–9420–107–9510–108–960–107–96–10–96–91–20–94–88* Input amplitude is the lesser of –1dBFS or 8.91V pk ,differential configuration.† 23.2kHz measurement BW ‡ 92.8kHz measurement BWGain (dB)THD+N (dBc)*51.2kS/s 20Hz to 20kHz †204.8kS/s 20Hz to 92.2kHz ‡AI THD+N, Unbalanced SourceAI Intermodulation Distortion (IMD) Crosstalk, Input Channel Separation AI Interchannel Gain MismatchAI Interchannel Phase MismatchNote All gain and phase mismatch specificationsare for the same device and are not applicablebetween different NI 446x devices.AI Phase LinearityOnboard Calibration ReferenceDC level..........................................5.000V±2.5mV Temperature coefficient..................±5ppm/°C maxLong-term stability.........................±15ppm/Gain (dB)THD+N (dBc)*51.2kS/s20Hz to20kHz†204.8kS/s20Hz to92.2kHz‡30–103–9120–107–9310–108–910–104–87–10–94–86–20–93–86* Input amplitude is the lesser of –1dBFS or 8.91V pk.† 23.2kHz measurement BW‡ 92.8kHz measurement BWGain (dB)IMD (dBc)*20, 30–10910–1070–104–20, –10–111* CCIF 14kHz+15kHz, each tone amplitude is the lesser of –6dBFS or 5V pk.Gain (dB)Crosstalk for Adjacent (Nonadjacent)Channels (dBc)*, †1kHz Signal92.2kHz30–130 (–140)–110 (–124) 0, 10, 20–138 (–145)–110 (–124)–20, –10–96 (–124)–60 (–108) * Source impedance≤50Ω† Input amplitude is the lesser of –1dBFS or 8.91V pk.Gain(dB)DC-Coupled Mismatch(dB)*AC-CoupledMismatch(dB)*20Hz to20kHz20Hz to92.2kHz20Hz300.0040.0080.0040, 10, 200.0030.003–20, –100.040.250.006* Identical channel configurationsGain(dB)DC-Coupled Mismatch(deg)*AC-CoupledMismatch(deg)*20Hz to20kHz20Hz to92.2kHz20Hz300.100.600.08200.040.150, 100.0150.08–20, –100.71* Identical channel configurationsGain (dB)Linearity (deg)20Hz to 20kHz20Hz to 92.2kHz 0, 10, 20, 30±0.01±0.03–20, –10±0.10±11,000 hrNI 446x © National Instruments Corporation 11NI 446x SpecificationsIntegrated Electronic Piezoelectric (IEPE)Current............................................0mA, 4mA ±15%,or 10mA ±15%, each channelindependently software selectable Compliance.....................................24V minNote Use the following equation to make sure that your configuration meets the IEPE compliance voltage range.V common-mode + V bias + V full-scale must be 0 to 24 V,whereV common-mode is the common-mode voltage seen by the input channel,V bias is the DC bias voltage of the sensor, and V full-scale is the AC full-scale voltage of the sensor.Channel input impedancewith IEPE enabled ..........................,pseudodifferential Current noise...................................Transducer Electronic Data Sheet (TEDS) SupportThe PCI-4461, PCI-4462, PXI-4461 (revision M or later), and PXI-4462 inputs support Transducer Electronic Data Sheet (TEDS) according to the IEEE 1451 Standard. For more information about TEDS, go to /info and enter the info code rdteds .Analog Output (NI 4461 Only)This section lists the NI 4461 analog output (AO) specifications.Output CharacteristicsNumber of output channels.............2, simultaneouslysampled Output configuration.......................Differential orpseudodifferential (50Ω to chassis ground on shield), each channel independently software selectable DAC resolution...............................24 bits DAC type........................................Delta-sigmaUpdate rates (f s )...............................1kS/s to 204.8kS/s in181.9μS/s increments, maximumDAC modulator oversample rate1.0kS/s ≤f s ≤1.6kS/s................8,192f s 1.6kS/s <f s ≤3.2kS/s................4,096f s 3.2kS/s <f s ≤6.4kS/s................2,048f s 6.4kS/s <f s ≤12.8kS/s..............1,024f s 12.8kS/s <f s ≤25.6kS/s............512f s 25.6kS/s <f s ≤51.2kS/s............256f s 51.2kS/s <f s ≤102.4kS/s..........128f s 102.4kS/s <f s ≤204.8kS/s........64f sFIFO buffer size..............................1,023 samples Data transfers...................................DMAOutput Signal RangeTransfer CharacteristicsAO Offset (Residual DC)Gain (Amplitude Accuracy)Specifications valid at any attenuation setting with a 1kHz output signal.T cal ±5 °C....................................±0.04dB max(T cal =ambient temperature at which last self calibration was performed.)(Listed accuracy is valid 24 hours following a self calibration.)Over operating temperaturerange............................................±0.1dB max1 M Ω240 pF ||()<300 pA Hz⁄Attenuation (dB)Full-Scale Range (V pk )*40±0.120±1.00±10.0* Each output channel range is independently softwareselectable.Attenuation(dB)Maximum Offset *, T cal ±5 °C †(±mV)Maximum Offset, Over Operating Temperature Range (±mV)20, 40120110* Listed offset is valid 24 hours following a self calibration.† Tcal =ambient temperature at which last self calibration was performed.NI 446x Specifications Voltage OutputOutput coupling...............................DCShort circuit protection....................Indefinite protectionbetween positive and negative Minimum working load...................600ΩOutput ImpedanceDynamic Characteristics 1Image rejection................................75dB min < 768kHz,66dB min > 768kHz –3dB BW........................................0.487f s DAC filter delay (samples), for update rate 1.0kS/s ≤f s ≤1.6kS/s................36.61.6kS/s <f s ≤3.2kS/s................36.83.2kS/s <f s ≤6.4kS/s................37.46.4kS/s <f s ≤12.8kS/s..............38.512.8kS/s <f s ≤25.6kS/s............40.825.6kS/s <f s ≤51.2kS/s............43.251.2kS/s <f s ≤102.4kS/s..........48.0102.4kS/s <f s ≤204.8kS/s........32.0AO FlatnessAll attenuation settings relative to 1kHz20Hz to 20kHz..........................±0.008dB max 20Hz to 92.1kHz.......................±0.1dB maxAO Idle Channel NoiseAO Spurious Free Dynamic Range (SFDR)AO Dynamic RangeOutput Impedance Differential ConfigurationPseudodifferential ConfigurationBetweenpositive output and chassis ground 2.4k Ω70ΩBetweennegative output and chassis ground 2.4k Ω50ΩBetween positive and negative outputs22Ω22Ω1 Test system equipped with an LCD monitor for AO noise and distortion measurements to avoid possible magnetic interferencecaused by CRT-based monitors.Attenuation(dB)Maximum Idle Channel Noise102.5kS/s (30kHz BW)*204.8kS/s (80kHz BW)*204.8kS/s (500kHz BW)*dB V rms μV rms dB V rms μV rms dB V rms μV rms 40–1065–1019–874520–1065–1019–86500–9616–9323–73224* Noise equivalent bandwidthAttenuation (dB)SFDR (dBc)*, †, ‡40872094098* f s=204.8kS/s† 1kHz output frequency, –1dBFS output amplitude‡ Measurement includes all harmonics.Attenuation (dB)Minimum Dynamic Range (dBFS)*102.5kS/s (30kHz BW)†204.8kS/s (80kHz BW)†204.8kS/s (500kHz BW)†40837864201039883011311090* 1 kHz output frequency, –60 dBFS output amplitude † Noise equivalent bandwidth© National Instruments Corporation 13NI 446x SpecificationsAO THDFigure 8. AO THD (204.8kS/s, 0dB Gain, 65,536 Samples, 92.8kHz Measurement BW)AO THD+NAO Intermodulation Distortion (IMD)Attenuat ion (dB)THD (dBc)*102.5kS/s 20Hz to 20kHz †204.8kS/s 20Hz to 20kHz ‡204.8kS/s 20Hz to92.1kHz ‡40–99–92–9220–98–95–930–97–94–83* –1dBFS output amplitude † 30kHz measurement BW ‡ 92.8kHz measurement BWAttenuat ion (dB)THD+N (dBc)*102.5kS/s 20Hz to 20kHz †204.8kS/s 20Hz to 80kHz ‡204.8kS/s 20Hz to 92.1kHz **40–83–76–6320–98–92–790–97–86–68* –1dBFS output amplitude † 30kHz measurement BW ‡ 80kHz measurement BW ** 500kHz measurement BWAttenuation (dB)IMD (dBc)*40–9920–1040–104* CCIF 14kHz +15kHz, each tone amplitude is –6dBFS.Crosstalk, Output to Input Channel SeparationCrosstalk, Output Channel SeparationAll attenuation settings (0, 20, and 40 dB)1 kHz signal................................No measurable crosstalk92.1 kHz signal...........................–110 dBcAO Interchannel Gain MismatchAll attenuation settings20Hz to 92.1kHz.......................0.03dBAO Interchannel Phase MismatchAll attenuation settings20Hz to 20kHz..........................0.1°20Hz to 92.1kHz.......................0.2°Note All gain and phase mismatch specificationsare for the same device and are not applicablebetween different NI 446x devices.AO Phase Linearity Internal Frequency Timebase Characteristics Accuracy.........................................±20ppm, over operatingtemperature range Aging..............................................8ppm in first year;5 ppm max/year afterfirst yearTriggersAnalog triggerPurpose.......................................Start triggerSourceNI4461..................................AI0 or AI1NI4462..................................AI0, AI1, AI2, or AI3 Level...........................................Full scale, programmable Slope...........................................Positive (rising) ornegative (falling),software selectable Resolution...................................24 bitsHysteresis...................................ProgrammableDigital TriggerPurpose.......................................Start or reference trigger Source.........................................PFI0, PXI_Trig<0..6>Compatibility..............................Transistor-transistor logic(5V TTL)Polarity.......................................Rising or falling edgeMinimum pulse width................10nsGeneral SpecificationsThis section lists general specification information for theNI446x.Bus InterfacePCI or PXI......................................3.3 V or 5 V signalenvironmentDMA channelsNI 4461.......................................2, analog input andanalog output NI 4462.......................................1, analog inputSynchronizationPXICLK_10......................................Multiple, full chassisPXI_STAR.................................Up to 14 devices perchassisPCIRTSI...........................................Up to 3 devices acrossribbon cableGain (dB)Crosstalk (dBc)*, †1kHz Signal92.1kHz30–151–118 20–150–11810–144–1150–137–111–20, –10–87–51* Source impedance≤50Ω† Output amplitude is the lesser of –1dBFS or 8.91V pk.Attenuation(dB)Linearity (deg)20Hz to20kHz20Hz to92.1kHz0±0.1±1.720±0.1±1.640±0.1±1.8NI 446x Power RequirementsPhysicalDimensions (not including connectors)PCI..............................................17.5 cm × 9.9 cm(6.9 in. × 3.9in.)PCI slotPXI..............................................16cm × 10cm(6.3in. × 3.9in.)3U CompactPCI slot Analog I/O connectors....................BNC femaleDigital trigger connector.................SMB maleWeightPCI..............................................226.8g (8.0oz)PXI..............................................241g (8.5oz) Measurement Category1 (I)Caution Do not use the NI446x for connections tosignals or for measurements within Categories II,III, or IV.EnvironmentalOperating EnvironmentAmbient temperature rangePXI-446x....................................0 to 55 °C(Tested in accordancewith IEC-60068-2-1and IEC-60068-2-2.) PCI-446x.....................................0 to 50 °C(Tested in accordancewith IEC-60068-2-1and IEC-60068-2-2.)Relative humidity range..................10 to 90%,noncondensing(Tested in accordancewith IEC-60068-2-56.) Altitude............................................2,000 m (at 25 °C ambienttemperature)Pollution Degree(indoor use only) (2)Storage EnvironmentAmbient temperature range.............–20 to 70 °C(Tested in accordancewith IEC-60068-2-1and IEC-60068-2-2.)Relative humidity range..................5 to 95%, noncondensing(Tested in accordancewith IEC-60068-2-56.)Shock and Vibration (PXI Only)Operational shock............................30g peak, half-sine,11ms pulse(Tested in accordancewith IEC-60068-2-27.Test profile developedin accordance withMIL-PRF-28800F.)Voltage NI PXI-4461NI PCI-4461NI PXI-4462NIPCI-4462+5V990mA2,200mA990mA1,900mA+3.3V1,430mA1,750mA1,750mA2,300mA+12V170mA40mA130mA100mA–12V110mA40mA70mA40mA1 Measurement Category is also referred to as Installation Category.© National Instruments Corporation15NI 446x SpecificationsNational Instruments, NI, , and LabVIEW are trademarks of National Instruments Corporation. Refer to the Terms of Use section on /legal for more information about NationalInstruments trademarks. Other product and company names mentioned herein are trademarks or trade names of their respective companies. For patents covering National Instruments products/technology, refer to the appropriate location: Help»Patents in your software, the patents.txt file on your media, or the National Instruments Patent Notice at /patents .© 2004–2008 National Instruments Corporation. All rights reserved.373770J-01Dec08Random vibrationOperating ....................................5 to 500Hz, 0.3g rms Nonoperating ..............................5 to 500Hz, 2.4g rms(Tested in accordance with IEC-60068-2-64. Nonoperating test profile exceeds the requirements of MIL-PRF-28800F, Class 3.)CalibrationSelf-calibration................................On software command,the device computes gain and offset corrections relative to high-precision internal reference.Interval........................................Recommended wheneverambient temperature differs from T cal by more than ±5 °C External calibration interval............1 year Warm-up time..................................15 minutesSafetyThis product meets the requirements of the followingstandards of safety for electrical equipment for measurement, control, and laboratory use:•IEC 61010-1, EN 61010-1•UL 61010-1, CSA 61010-1Note For UL and other safety certifications, refer to the product label or the Online Product Certification section.Electromagnetic CompatibilityThis product meets the requirements of the following EMC standards for electrical equipment for measurement, control, and laboratory use:•EN 61326 (IEC 61326): Class A emissions; Basic immunity•EN 55011 (CISPR 11): Group 1, Class A emissions •AS/NZS CISPR 11: Group 1, Class A emissions •FCC 47 CFR Part 15B: Class A emissions •ICES-001: Class A emissionsNote For the standards applied to assess the EMC of this product, refer to the Online Product Certification section.Note For EMC compliance, operate this product according to the documentation.CE ComplianceThis product meets the essential requirements of applicable European Directives as follows:•2006/95/EC; Low-V oltage Directive (safety)•2004/108/EC; Electromagnetic Compatibility Directive (EMC)Online Product CertificationRefer to the product Declaration of Conformity (DoC) for additional regulatory compliance information. To obtain product certifications and the DoC for this product, visit /certification , search by model number orproduct line, and click the appropriate link in the Certification column.Environmental ManagementNI is committed to designing and manufacturing products in an environmentally responsible manner. NI recognizes that eliminating certain hazardous substances from our products is beneficial to the environment and to NI customers.For additional environmental information, refer to the NI and the Environment Web page at /environment . This page contains the environmental regulations and directives with which NI complies, as well as other environmental information not included in this document.Waste Electrical and Electronic Equipment (WEEE)EU Customers At the end of the life cycle, all products must be sent to a WEEE recycling center.For more information about WEEE recyclingcenters and National Instruments WEEE initiatives, visit /environment/weee.⬉ ѻ ∵ ㅵ⧚ ⊩˄Ё RoHS ˅ЁNational Instruments ヺ Ё ⬉ѻ Ё䰤 Փ⫼ ѯ ⠽䋼 Ҹ (RoHS)DŽ ѢNational Instruments Ё RoHS 㾘 ˈ䇋ⱏ /environment/rohs_china DŽ(For information about China RoHS compliance, go to /environment/rohs_china .)。

Manufacturer: National InstrumentsAssembly Part Numbers:Part Number Description783937-02NI PXIE-5668R 26.5 GHZ VSA, 80 MHZ BW783124-01 NI PXIE-5668R 26.5 GHZ VSA, 80 MHZ BW783124-02 NI PXIE-5668R 26.5 GHZ VSA, 200 MHZ BW783124-03 NI PXIE-5668R 26.5 GHZ VSA, 320/765 MHZ BW783156-01 NI PXIE-5668R 14 GHZ VSA, 80 MHZ BW783156-02 NI PXIE-5668R 14 GHZ VSA, 200 MHZ BW783156-03 NI PXIE-5668R 14 GHZ VSA, 320/765 MHZ BW783546-01 NI PXIE-5668R 14 GHZ VSA, 80 MHZ BW, UPGRADE783546-02 NI PXIE-5668R 14 GHZ VSA, 200 MHZ BW, UPGRADE783546-03 NI PXIE-5668R 14 GHZ VSA, 320 MHZ BW, UPGRADE783547-01 NI PXIE-5668R 26.5 GHZ VSA, 80 MHZ BW, UPGRADE783547-02 NI PXIE-5668R 26.5 GHZ VSA, 200 MHZ BW, UPGRADE783547-03 NI PXIE-5668R 26.5 GHZ VSA, 320 MHZ BW, UPGRADE783901-01 NI PXIE-5668R MIMO EXTENSION KITS - 14 GHZ & 320/765 MHZ BW783902-01 NI PXIE-5668R MIMO EXTENSION KITS - 26.5 GHZ & 320/765 MHZ BW783937-04 4 CHANNEL NI PXIE-5668R MIMO KIT783937-08 8 CHANNEL NI PXIE-5668R MIMO KITVolatile and Non-Volatile MemoryThis device is composed of three independent hardware models. Refer to the Letter of Volatility for each individual model listed below by going to /info and typing in the appropriate Info Code.Model and Description Info CodePXIe-5624R, Intermediate Frequency Digitizer Module exxunxPXIe-5606, Wideband RF Downcoverter Module exiwawPXIe-5653, Synthesizer/Local Oscillator Source ex652kTerms and DefinitionsCycle Power:The process of completely removing power from the device and its components and allowing for adequate discharge. This process includes a complete shutdown of the PC and/or chassis containing the device; a reboot is not sufficient for the completion of this process.Volatile Memory:Requires power to maintain the stored information. When power is removed from this memory, its contents are lost. This type of memory typically contains application specific data such as capture waveforms.Non-Volatile Memory:Power is not required to maintain the stored information. Device retains its contents when power is removed.This type of memory typically contains information necessary to boot, configure, or calibrate the product or may include device power up states.User Accessible:The component is read and/or write addressable such that a user can store arbitrary information to the component from the host using a publicly distributed NI tool, such as a Driver API, the System Configuration API, or MAX. System Accessible:The component is read and/or write addressable from the host without the need to physically alter the product. Clearing:Per NIST Special Publication 800-88 Revision 1, “clearing” is a logical technique to sanitize data in all User Accessible storage locations for protection against simple non-invasive data recovery techniques using the same interface available to the user; typically applied through the standard read and write commands to the storage device.Sanitization:Per NIST Special Publication 800-88 Revision 1, “sanitization” is a process to render access to “Target Data” on the media infeasible for a given level of effort. In this document, clearing is the degree of sanitization described.。

NI数据采集卡使用入门NI (National Instruments) 数据采集卡是一种专门用于测量和记录各种类型的电信号、模拟信号和数字信号的硬件设备。

该采集卡被广泛应用于科研实验室、工业自动化和测试测量等领域。

本文将为您介绍如何使用NI数据采集卡进行基本的数据采集和分析。

首先，确保您已经安装了NI数据采集卡及其相关软件。

NI数据采集卡通常需要安装NI-DAQmx驱动软件以及LabVIEW开发环境。

安装完成后，您可以通过电缆将数据采集卡与被测设备连接起来。

接下来，我们需要编写一个简单的数据采集程序。

在LabVIEW中，您可以利用Drag-and-Drop编程的方式轻松构建这样的程序。

首先，打开LabVIEW软件并创建一个新的VI（Virtual Instrument）。

然后，从函数面板中拖放出一个“DAQ Assistant”组件。

在DAQ Assistant界面中，您可以选择数据采集卡的型号，并配置您希望测量的输入通道和参数。

在配置完成后，您需要添加数据保存和分析的功能模块。

您可以从函数面板中选择合适的函数模块，例如“Write to Measurement File”用于保存数据至文件，或者“Signal Processing”模块用于对数据进行处理和分析。

将这些功能模块拖放到主VI中，并根据需求进行参数配置。

在程序编写完成后，您可以通过点击LabVIEW界面中的运行按钮来启动数据采集和分析。

程序会使用预设的配置参数，自动从数据采集卡读取数据，并按照您的设置进行保存和分析。

此外，如果需要对数据进行实时的监测和显示，您可以在LabVIEW界面中添加相应的控件元素。

例如，您可以在Front Panel中添加一个Chart图表控件，用于实时显示采集到的数据。

同样地，您可以从函数面板中选择合适的控制模块，例如“Loop”结构来循环读取数据进行实时显示。

最后，当您完成数据采集和分析后，可以选择将数据保存至文件或者导出至其他软件进行进一步的处理。

基于USB接口型号NI USB-4432
采用NI公司USB-4432模块，五通道，正负40伏电压输入，USB供电，即插即用，可以直接接涡流传感器、速度传感器、IEPE、光电传感器等各类传感器，包含旋转机械振动瞬态分析、稳态分析功能，广泛应用于电力、石化、冶金、航空等领域。

性能参数：动态声压分析上限101 Db，
价格：17835元
基于PXI的型号NI PXIe-4499
性能
采样率高达204.8 kS/s的16路同步采样模拟输入
24位分辨率ADC具有114 dB动态范围
高达+30 dB的4种增益设置可以保证输入信号的范围从±316 mV至10 V
软件可配置的4 mA IEPE和TEDS用于麦克风和加速度计
0.5 Hz的交流耦合模拟输入
在一个PXI Express机箱中, 以全带宽实现多达272路通道的同步
价格：80320
基于PCI的型号NI PCI-4461
性能：
118dB动态范围；24位分辨率
最高采样和更新速率达204.8kS/s
2路同步模拟输入，2路同步模拟输出
软件可选的IEPE调理和AC/DC耦合
输入范围±316mV－42.4V的6种增益设置
内置式防混叠和TEDS功能
价格：31600
该软件能实现的一些功能
图1 软件界面图
图2 伯德图
图3 波形图
图4 阶比图谱
图5 频谱图
图6 趋势图
图7 轴心轨迹图
图8 轴中心位置图
图9 三层叠图
图10 三维瀑布图。

Board Model Name Board Part Number RangeNI PXIe-5603 199572X-01 including all letter revisionsManufacturer: National InstrumentsVolatile MemoryUser Accessible/ BatteryType1Size System Accessible2Backup? Purpose Method of Clearing3ASIC 208 b No/Yes No PCI communication Cycle powerFPGA BRAM 576 Kb No/Yes No List mode instruction storage Cycle powerNon-Volatile MemoryUser Accessible/ BatteryType Size System Accessible Backup? Purpose Method of ClearingFLASH 4 Mb No/Yes No Device enumeration None available to user FLASH 4 Mb No/Yes No Calibration data storage None available to user FLASH 32 Mb No/Yes No Calibration data storage None available to userMedia StorageUser Accessible/ BatteryType Size System Accessible Backup? Purpose Method of ClearingNONEClearing Notes:User Access:In order to clear the user accessible portion of the PXIe-5603 calibration memory, the user must write a known value to the user string field in the calibration memory. This can be accomplished using the following code excerpt:1 Calibration constants that are stored in device calibration memory include information for the device’s full operating range. Calibration constants do not maintain any unique data for specific configurations in which the device is used unless otherwise specified.2 Items are designated No for the following reason(s): a) Hardware changes or a unique software tool from National Instruments are required to modify contents of the memory listed. b) Hardware modifying software tools are not distributed to public users for any personal access or customization; also known as non-normal use.3 The designation None Available to User indicates that the ability to clear the memory is not available to the user under normal operation. The utilities required to clear the memory are not distributed by National Instruments to customers for normal use.Calibration API:The PXIe-5601 has a user accessible calibration API (Application Programming Interface) for LabVIEW. This API allows the user to perform following calibrations manually, which re-writes the stored calibration constants:1.Downconverter Gain2.LO Export Calibration3.Baseline Calibration Store for Self CalibrationDocumentation for the use of this API is listed in the NI RF Vector Signal Analyzers Help file.If the user performs a manual calibration of this module in a classified location, they may be required to re-calibrate under “default” or “normal” use conditions before the device is cleared for removal from the classified location. These “default” or “normal” use conditions for re-calibration will be defined by the user and the approving declassification group.Self Calibration:The PXIe-5603 also has self calibration capability using the niRFSA Self Cal VI that allows the user to perform a calibration with the currently associated modules. The new calibration constants are stored in the self calibration area in the calibration memory.If the user performs a self calibration of this module in a classified location, they may be required to re-run the self calibration under “default” or “normal” use conditions before the device is cleared for removal from the classified location. These “default” or “normal” use conditions for re-calibration will be defined by the user and the approving declassification group.Terms and DefinitionsUser Accessible User accessible memory allows the user to directly write or modify the contents of the memory during normal instrument operation.System Accessible System accessible memory does not allow the user to access or modify the memory during normal instrument operation, however, may be accessed or modified by background processes. This can be something that is not deliberate by the user and can be a background driver implementation, such as storing application information in RAM to increase speed of use. Under normal use conditions user data is not written to any non-volatile memory locations by the system.Cycle Power The process of completely removing power from the device and its components. This includes a complete shutdown of the PC and/or chassis containing the device; a reboot is not sufficient for the completion of this process.Volatile Memory Volatile memory requires power to maintain the stored information. When power is removed from this memory, its contents are lost.Non-Volatile Non-volatile memory retains its contents when power is removed. This type of memory typically contains calibration or chip configuration information, such as power up states.。