数据采集卡企业产品标准范本样本

资料内容仅供您学习参考，如有不当或者侵权，请联系改正或者删除。

北京市工业产品标准登记申请登记表企业名称( 盖章) : 企业法人代表: 企业地址: 北京市海淀区知春路邮编: 100086 组织代码:资料内容仅供您学习参考，如有不当或者侵权，请联系改正或者删除。

填表日期: 06月13日填表人: 负责人: 联系电话: 82665082资料内容仅供您学习参考，如有不当或者侵权，请联系改正或者删除。

L64Q/HD北京XXX科技有限公司企业标准Q/HDZTYO001-数据采集卡( 器)-06-05发布 -06-20实施北京XXX科技有限公司发布Q/HDZTYO001-前言本标准的编写符合GB/T1.1- 《标准化工作导则第1部分标准的结构和编写规则》编写。

本标准根据国家标准GB/T9813- 《微型计算机通用规范》拟制。

本标准由北京XXX科技有限公司提出.本标准起草单位: 北京XXX科技有限公司。

本标准主要起草人: 章磊。

本标准 06月首次发布。

资料内容仅供您学习参考，如有不当或者侵权，请联系改正或者删除。

资料内容仅供您学习参考，如有不当或者侵权，请联系改正或者删除。

Q/HDZTYO001-数据采集卡( 器)1 范围本标准规定了数据采集卡( 器) 的要求、试验方法、检验规则及标志、包装、运输、贮存。

本标准适用于XXX数据采集产品( 以下称: 本产品) 。

2 规范性引用文件下列文件中的条款经过本标准的引用而成为本标准的条款。

凡是注日期的引用文件, 其随后所有修改单( 不包括勘误的内容) 或修订均不适用于本标准, 然而, 鼓励根据本标准达成协议的各方研究是否可使用这些文件的最新版本。

凡是不注日期的引用文件, 其最新版本适用于本标准。

GB 191- 包装储运图示标志( eqvISO/IEC646-1991)GB/T2421-1999 电工电子产品环境试验规程第1部分: 总则( eqvIEC68-1: 1988) GB/T2422-1995 电工电子产品环境试验规程术语( eqvIEC68-5-2: 1990)GB/T2423.1-1989 电工电子产品环境试验规程试验A: 低温试验方法( eqvIEC68-2-1: 1974)GB/T2423.2-1989 电工电子产品基本环境试验规程试验B: 高温试验方法( eqvIEC68-2-2: 1974)GB/T2423.3-1993 电工电子产品基本环境试验规程试验Ca: 恒定湿热试验( eqvIEC68-2-3: 1984)GB/T2423.5-1995 电工电子产品环境试验第二部分: 试验方法试验Ea和导则: 冲击( eqvIEC68-2-27: 1987)GB/T2423.6-1995 电工电子产品环境试验第二部分: 试验方法试验Eb和导则: 碰撞( eqvIEC68-2-29: 1987)资料内容仅供您学习参考，如有不当或者侵权，请联系改正或者删除。

NI 6143 SpecificationsThis document lists the I/O terminal summary and specifications for theNI PCI/PXI-6143.For the most current edition of this document, refer to /manuals.Refer to the DAQ Quick Start Guide for more information about accessingdocuments on the NI-DAQ CD.Note With NI-DAQmx, National Instruments has revised its terminal names so they areeasier to understand and more consistent among NI hardware and software products. Therevised terminal names used in this document are usually similar to the names they replace.For a complete list of Traditional NI-DAQ terminal names and their NI-DAQmxequivalents, refer to the Terminal Name Equivalents table in the S Series Help.Table 1. I/O Terminal SummaryTerminal Name TerminalType andDirectionImpedanceInput/OutputProtection(Volts)On/OffSource(mA at V)Sink(mAat V)RiseTime(ns)BiasAI <0..7>AI100 MΩ inparallel with10 pF15/15————AI GND———————D GND———————+5 V—0.1 ΩShort-circuitto ground1A———P0.<0..7>DIO—V CC+0.58 at(V CC–0.4)11 at 0.4 1.150kΩ puEXTSTROBE*DO—— 3.5 at(V CC–0.4)5 at 0.4 1.550kΩ puPFI 0 or PFI 0/ (AI START TRIG or AI START)DIO—V CC+0.5 3.5 at(V CC–0.4)5 at 0.4 1.550kΩ puPFI 1 or PFI1/ (AI REF TRIG or REF TRIG)DIO—V CC+0.5 3.5 at(V CC–0.4)5 at 0.4 1.550kΩ puNI 6143 Specifications PFI 2DIO —V CC +0.5 3.5 at (V CC –0.4) 5 at 0.4 1.550k Ω pu PFI 3 or PFI 3/ (CTR 1 SOURCE or CTR 1 SRC)DIO—V CC +0.53.5 at (V CC –0.4) 5 at 0.41.550k Ω puPFI 4 or PFI 4/ CTR 1 GATE DIO —V CC +0.53.5 at (V CC –0.4) 5 at 0.4 1.550k Ω pu CTR 1 OUT DO —— 3.5 at (V CC –0.4) 5 at 0.4 1.550k Ω pu PFI 5 or PFI 5/ (AO SAMP CLK or AO SAMP)DIO—V CC +0.53.5 at (V CC –0.4) 5 at 0.41.550k Ω puPFI 6 or PFI 6/ (AO START TRIG or AO START)DIO —V CC +0.53.5 at (V CC –0.4) 5 at 0.4 1.550k Ω puPFI 7 or PFI 7/ (AI SAMP CLK or AI SAMP)DIO —V CC +0.53.5 at (V CC –0.4) 5 at 0.4 1.550k Ω puPFI 8 or PFI 8/ (CTR 0 SOURCE or CTR 0 SRC)DIO —V CC +0.53.5 at (V CC –0.4) 5 at 0.4 1.550k Ω puPFI 9 or PFI 9/ CTR 0 GATE DIO —V CC +0.53.5 at (V CC –0.4) 5 at 0.4 1.550k Ω pu CTR 0 OUT DO —— 3.5 at (V CC –0.4) 5 at 0.4 1.550k Ω pu FREQ OUT or F OUTDO——3.5 at (V CC –0.4)5 at 0.41.550k Ω pu* Indicates active lowAI = Analog Input DIO = Digital Input/Output pu = pull-upAO = Analog Output DO = Digital OutputNote : The tolerance on the 50k Ω pull-up resistors is large. Actual value might range between 17k Ω and 100k Ω.Table 1. I/O Terminal Summary (Continued)Terminal Name Terminal Type and Direction Impedance Input/ OutputProtection (Volts) On/Off Source (mA at V)Sink (mA at V)Rise Time (ns)BiasSpecificationsThe following specifications are typical at 25°C unless otherwise noted. Analog InputInput CharacteristicsNumber of channels...............................8 differentialADC resolution......................................16 bits, 1 in 65,536Sampling rateMaximum........................................250 kS/sMinimum........................................0 S/sAccuracy.........................................±50 ppm for internal timebaseInput coupling........................................DCInput range.............................................±5 VInput impedanceAI + to AI GND..............................100 MΩ in parallel with 10 pFAI – to AI GND..............................100 MΩ in parallel with 10 pFInput bias current...................................±20 pA typ, ±150 pA maxInput offset current.................................±3 pA typ, ±20 pA maxMax working voltage for all analog input channelsPositive input (AI +).......................±7 VNegative input (AI –)......................±7 VOvervoltage protection(AI +, AI –)............................................±15 VInput current duringovervoltage conditions...........................±5.7 mA maxInput FIFO size......................................2,046 samplesData transfers.........................................DMA, interrupts,programmed I/ODMA mode............................................Scatter-gather© National Instruments Corporation3NI 6143 SpecificationsNI 6143 Specifications DC Transfer CharacteristicsDNL........................................................±0.8 LSB typ, no missing codes INL..........................................................±1.5 LSB typ, ±3.0 LSB max System noise...........................................0.8 LSB rmsDynamic CharacteristicsPhase mismatch......................................±0.5° at 100 kHz Crosstalk.................................................–90 dB at 50 kHz Bandwidth...............................................490 kHz SINAD....................................................89 dB at 10 kHz CMRR.....................................................75 dB at 60 Hz SFDR......................................................98 dB at 10 kHz THD........................................................–96 dBc at 10 kHzStabilityRecommended warm-up time.................15 min Onboard Calibration ReferenceLevel................................................2.50 V (±2.5 mV)(actual value stored in EEPROM)Temperature coefficient...................±7.0 ppm/°C max Long-term stability..........................±20 ppm/Table 2. NI 6143 Analog Input DC Accuracy InformationNominal Range at Full Scale (V)Absolute AccuracyGain Error (%of Reading)Offset +INL Error (µV)Gain Tempco Ext./Int. Cal (%/°C)Offset Tempco (µV/°C)Random Noise (µV rms )Absolute Accuracy at Full Scale (mV)Relative Accuracy (mV)±5.00.056000.0007/0.00031041223.6130.0488Note : Accuracies are valid for measurements following an internal S Series calibration. Averaged numbers assume averaging of 100 single-channel readings. Measurement accuracies are listed for operational temperatures within ±1°C of internal calibration temperature and ±10 °C of external or factory-calibration temperature. NI recommends a one-year calibration interval. The Absolute Accuracy at Full Scale calculations were performed for a maximum range input after one year and 100points of averaged data.1,000 hTypical Performance Graphs© National Instruments Corporation5NI 6143 SpecificationsNI 6143 Specifications Digital I/ONumber of channels................................8 input/output Compatibility..........................................TTL/CMOSPower-on state........................................Input (high-impedance)Data transfers..........................................DMA, interrupts,programmed I/OTiming I/OCounter/TimersNumber of channels................................2 up/down counter/timers Resolution...............................................24 bits Compatibility..........................................TTL/CMOSTable 3. Digital Logic LevelsLevelMin Max Input low voltage Input high voltageInput low current (V in = 0 V)Input high current (V in = 5 V)0.0 V 2.2 V ——0.8 V 5.0 V –320 µA 10 µA Output low voltage (I OL = 24 mA) Output low voltage (I OL = 11 mA)Output low voltage (I OL = –13 mA)Output high voltage (I OH = –8 mA)——4.1 V 4.35 V0.83 V 0.4 V ——Table 4. Digital Logic LevelsLevelMin Max Input low voltage Input high voltage0.0 V 2.2 V 0.8 V 5.0 V Output low voltage (I OL = 5 mA)Output high voltage (I OH = –3.5 mA)—4.35 V0.4 V —Base clock frequency.............................20 MHzBase clock accuracy...............................±0.01%Max source frequency............................20 MHzMin source pulse duration......................10 ns, edge-detect modeMin gate pulse duration..........................10 ns, edge-detect modeData transfers.........................................DMA, interrupts,programmed I/OFrequency ScalerNumber of channels (1)Resolution..............................................4-bitCompatibility.........................................TTL/CMOSDigital logic levels.................................Refer to Table 4Base clock frequency.............................10 MHz, 100 kHzBase clock accuracy...............................±0.01%Digital TriggerPurpose...................................................Start, reference, and pause trigger,sample clockExternal sources.....................................PFI <0..9>, RTSI <0..6>Compatibility.........................................TTLResponse................................................Rising or falling edgePulse width.............................................10 ns minRTSI Bus (PCI Only)Trigger lines <0..6> (7)RTSI clock (1)© National Instruments Corporation7NI 6143 SpecificationsPXI Trigger Bus (PXI Only)Trigger lines <0..5> (6)Star trigger (1)Clock (1)Power Requirement+5 VDC (±5%).......................................40 mA+3.3 VDC (±5%)....................................140 mA+12 VDC (±5%).....................................150 mA–12 VDC (±5%)......................................80 mAPower available at I/O connector............+4.65 to +5.25 VDC at 1 APhysicalDimensions(not including connectors)......................15.5 cm by 10.6 cm(6.10 in. by 4.17 in.)I/O connector..........................................68-pin VHDCIEnvironmentalThe NI 6143 is intended for indoor use only.Operating EnvironmentAmbient temperature range....................0 to 50 °C (tested in accordancewith IEC-60068-2-1 andIEC-60068-2-2)Relative humidity range..........................10 to 90%, noncondensing(tested in accordance withIEC-60068-2-56)Altitude...................................................2,000 m (at 25 °C ambienttemperature)NI 6143 © National Instruments Corporation 9NI 6143 SpecificationsStorage EnvironmentAmbient temperature range....................–20 to 70 °C (tested in accordancewith IEC-60068-2-1 and IEC-60068-2-2)Relative humidity range.........................5 to 95%, noncondensing(tested in accordance with IEC-60068-2-56)Shock and VibrationOperational shock..................................30 g peak, half-sine, 11 ms pulse(Tested in accordance with IEC-60068-2-27. Test profile developed in accordance with MIL-PRF-28800-F.)Random vibrationOperating ........................................5 to 500 Hz, 0.3 g rmsNonoperating ..................................5 to 500 Hz, 2.4 g rms(Tested in accordance with IEC-60068-2-64. Nonoperating test profile exceeds the requirements ofMIL-PRF-28800-F, Class 3.)Note Clean the device with a soft, non-metallic brush. Make sure that the device iscompletely dry and free from contaminants before returning it to service.SafetyThis product is designed to meet the requirements of the following standards of safety for electrical equipment for measurement, control, and laboratory use:•IEC 61010-1, EN 61010-1•UL 3111-1, UL 61010B-1•CAN/CSA C22.2 No. 1010.1Note For UL and other safety certifications, refer to the product label, or visit /hardref.nsf , search by model number or product line, and click theappropriate link in the Certification column.National Instruments™, NI™, ™, NI-DAQ™, and RTSI™ are trademarks of National Instruments Corporation. Product and company names mentioned herein are trademarks or trade names of their respective companies. For patents covering National Instruments products, refer to the appropriate location: Help»Patents in your software, the patents.txt file on your CD, or /patents .© 2004 National Instruments Corp. All rights reserved.370835A-01Feb04*370835A-01*Electromagnetic CompatibilityEmissions................................................EN 55011 Class A at 10 mFCC Part 15A above 1 GHz Immunity ................................................EN 61326:1997A2:2001, Table 1EMC/EMI...............................................CE, C-Tick, and FCC Part 15(Class A) CompliantNote For EMC compliance, you must operate this device with shielded cabling.CE ComplianceThis product meets the essential requirements of applicable European Directives, as amended for CE marking, as follows:Low-Voltage Directive (safety).............. 73/23/EEC Electromagnetic CompatibilityDirective (EMC)..................................... 89/336/EECNote Refer to the Declaration of Conformity (DoC) for this product for any additionalregulatory compliance information. To obtain the DoC for this product, visit /hardref.nsf , search by model number or product line, and click theappropriate link in the Certification column.。

TP1608产品资料产品规格产品名称RS485-1608外形尺寸110×75.5×25.6mm工作温度范围30℃~70℃储藏温度范围-40℃~85℃仪表重185g产品展商TOPRIE（深圳拓普瑞电子有限公司）产品性能1.信号万能输入，类型自由切换，只需一个采集卡就可完成温度、湿度、压力、流量、电压、电流、振动、光照等信号的采集工作2.多种协议选择，更好的为您所用，采集卡支持三种协议：modbus-rtu协议、研华Adam4017协议、主动上报协议3.完美的隔离保护，更放心、安全的数据采集;电源与通道之间耐压1500VAC(50/60HZ),通道与通道之间600VAC(50/60HZ)，被测物体带电也能正常运行。

4.高精度输入测量，展现更精准数值；热电偶、热电阻信号精度可达0.2%（F.S）0-5V精度可达0.05%F.S，4-20ma精度达0.05%F.S。

产品参数有效分辨率16位通道8路差分通道独立配置8路输入信号热电偶K,E,R,B,N,T,E,J,S,WRE5-26,WRE3-25热电阻Pt100,Cu50电流4-20mA,0-10mA,0-20mA电压0-5V,0-10V类型与温度范围J0～760℃K0～1370℃T-100～400℃E0～1000℃R00～1750℃S500～1750℃B500～1800℃PT100-200～600℃测量精度±0.2%F.S零漂移±3uV/℃采样周期1-19999s自主设定隔离电压3000Vdc故障与过压保护最大承受电压±400V满量程漂移±25ppm/℃；92dB(最小CMR@50/60Hz)记录模式电脑软件循环记录通讯RS485标准ModBus RTU通讯协议、Adam4017通讯协议、主动上报协议波特率1200,2400,4800,9600,38400,57600,115200bps电源+5V/DC或24V/DC电源保护电源反向保护机体材质采用CNC工艺氧化铝合金外形尺寸110×75.5×25.6mmEMI符合FCC Class A工作温度-30℃～+75℃储存温度-25℃～+85℃工作湿度5～95%无凝结数据采集卡软件展示极具友好的操作界面、更人性化界面设计，拥有曲线、数显、帮图、列表等多种窗口界面，满足各种使用场景和使用习惯细腻、灵活的曲线界面简单、大方的数显界面清晰、直观的列表界面动态、立体的帮图界面开发多种实用性功能，更便捷的数据处理，报表、图文一键生成，就是这么简单多坐标曲线显示功能Shift键+选中区域生成最大值、最小值、平均值功能Ctrl键+选中区域放大曲线功能曲线保存图片功能历史数据列表、曲线追踪查询功能数据时段一键导出多联系人短信报警功能曲线一键打印功能。

数据管控产品规格说明书第一章引言1.1编写目的本文档作为数据管控产品体系(元数据和数据质量管理)的产品方案说明书，介绍元数据和数据质量的解决方案。

1.2项目背景经过多年建设，企业一般已经初步建成了各类管理信息系统，虽然在运用和分析数据支持经营决策方面已初见成效，但是对比战略发展要求和国内外最佳实践经验，还是存在数据管控水平不高，以及配套体系建设相对滞后的问题。

为解决这些问题，企业会做种种努力，但由于未采用系统性的管控治理，数据问题并未能从根本上解决，阻碍了企业管理精细化的进程。

参考国内外同业先进理念、做法，一般会从数据标准、数据质量、数据模型、数据分布、数据安全、数据生命周期管理等6个方面，采用全面规划、分步实施的策略，分阶段有序推进数据管控项目建设，包括构建统一的数据管控制度体系、优化数据管控流程、实施有针对性的数据管控配套系统建设，实现对数据资产的全面管理和深度利用，进而提升数据资产管理水平和信息服务水平，形成差异化的竞争优势和核心竞争力。

第二章方案概述2.1方案目标本方案主要完成以下工作：①完成元数据管理系统和数据质量评估管理系统的引进、集成部署和客户化定制；②完成风险相关数据标准在元数据管理系统的落地；③完成风险相关数据质量的评估及数据质量评估分析模型的开发。

④完成其他业务需求中明确的试点系统的数据标准发布和质量评估落地工作。

2.2项目范围2.2.1实施内容1)元数据管理系统和数据质量评估管理系统相关基础性工作根据业务需求，结合企业现有系统的情况，制定具体项目实施方案，确保能完成相关咨询成果在系统内的部署和设置。

完成系统接口设计、系统架构设计和形成实施所需的需求规格化文档等工作。

完成产品的集成安装和初步调试工作。

若提供的软硬件配置建议书不能完全满足企业软硬件选型需要的，需要协助事先完成必要的产品测试工作，确定最终的系统软硬件配置清单。

2)元数据管理系统和数据质量评估管理系统的客制化开发实施根据企业的业务需求，对产品或应用进行客制化实施。

数据采集标准说明
模板介绍
本模板包含11个字段，依次为：姓名、性别、身份证号码、缴费基数、人员状态、人员类别、民族、户口性质、参保时间、参加工作时间、单位内序号。

其中性别、人员状态、人员类别、民族、户口性质字段均为列表选项；姓名、身份证号码、申报工资、参保时间、参加工作时间、单位内序号字段均为文本项。

示例图
详细说明
类型说明
1)文本类型：直接输入（必须为纯文本），但不允许存在空格符（如：‘’）。

2)列表类型：从下拉列表中进行手动选择，杜绝拖拽。

字段说明
字段
类型
位置说明文本列表
姓名 A列应如实填写，姓名是两个字的中间不允许存在空格性别 B列应从模板列表进行选择，字段具体值请参考附表一。

身份证号码 C列字段值应为15位或18位真实、有效的公民身份号码。

缴费基数 D列应如实填写，保留两位小数位
人员状态 E列应从模板列表进行选择，字段具体值请参考附表一。

人员类别 F列应从模板列表进行选择，字段具体值请参考附表一。

民族 G列应从模板列表进行选择，字段具体值请参考附表一。

户口性质 H列应从模板列表进行选择，字段具体值请参考附表一。

参保时间 I列字段格式为：YYYY-MM-DD，如：2011-01-01
参加工作时间 J列字段格式为：YYYY-MM-DD，如：2011-01-01
单位内序号 K列单位内自己管理序号（即：医疗保险证号）
请严格按照规范填写职工参保信息表。

附表一。

采集卡技术指标1 .支持的操作系统Windows7/8/8.1/10/2008/2008R2∕2012（x86&x64）1inux（支持x86,x64&ARM架构）MacOSX（10.9及以上）2 .输入接口4xHDMItypeΛ,输入视频高支持2048x2048分辨率3 .输出接口PCIeGen2x4,输出信号分辨率高可支持2048x2048像素输出帧率高可支持120fps（实际输出帧率可能会受限于PCIe带宽，对于更高的画面分辨率，即1280x1024以上分辨率，实际输出帧率可能会受限于板载视频处理硬件的像素时脉，即1920x1080分辨率可达到的大的帧率约为80fps）支持4:2:08-bit输出格式：NVI2、1420、YV12支持4:2:28-bit输出格式：YUY2、YUYV、UYVY支持4:4:48-bit输出格式：V308、IYU2、V408、RGB24、RGB32支持4:4:41O-bit输出格式：V410>Y410可通过ProCaptureSDK（基于DirectKS的版本）支持更多的输出格式4 .视频处理功能使用两条视频处理流水线，每条流水线的处理带宽可达180M像素/s5 全达到1O-bit视频处理视频剪裁视频缩放视频去隔行视频宽高比变换视频色彩空间转换视频帧率变换视频OSD合成6 .多路输出流对于任一路输入信号可输出任意路输出流可以对每一路输出流单独设置剪裁、宽高比、色彩空间、分辨率、帧率、去隔行方式、色彩调节、OSD等属性。

支持超低延迟64行视频延迟通过SDK实现部分完成通知模式7 .功耗12V电源的大电流：~1.1A3.3V电源的大电流："0.9A7、质保期：1年。

Q/3201XYY01-2023前言本标准是对Q/3201XYY01-1999《XX成像系统》的修订。

本次修订电器安全增长了全面贯彻GB9706.3-2023.GB9706.11-1997、GB9706.12-1997和GB9706.14-1997的规定, 其规定及实验方法列为本标准附录A（规范性附录）。

本标准编写格式按GB/T1.1-2023和GB/1.3-1997规定。

本标准附录A是规范性附录。

本标准自实行之日起代替Q/3201XYY01-1999。

本标准由XX系统（南京）有限公司提出并负责起草。

本标准重要修订人: XXX本标准初次发布日期: 1999年05月20日本标准第一次修订日期: 2023年03月28日XX成像系统1 范围本标准规定了XX影像系统的分类与命名、规定、实验方法、检查规则、标志与使用说明书、包装、运送和贮存。

本标准合用于XX影像系统（以下简称系统）。

2 规范性引用文献下列文献中的条款通过在本标准的引用而构成为本标准的条款。

凡是注日期的引用文献, 其随后所有的修改单（不涉及勘误的内容）或修订版均不合用于本标准, 然而, 鼓励根据本标准达成协议的各方研究是否可使用这些文献的最新版本。

凡是不注日期引用的引用文献, 其最新版本合用于本标准。

GB191 包装储运图示标志GB5665-1985 XX机械装置通用技术条件GB9706.1-1995 XX 第一部分: 安全通用规定GB9706.3-2023 XX 第2部分: 诊断X射线发生装置的高压发生器安全专用规定GB9706.11-1997 XX 第二部分: 医用诊断X射线源组件和X射线管组件安全专用规定GB9706.12-1997 XX 第一部分:安全通用规定三.并列标准诊断X射线设备辐射防护通用规定GB9706.14-1997 XX 第2部分: X射线设备附属设备安全专用规定GB9969.1 工业产品使用说明书总则SJ/T11094-1996 医用X射线图像增强器电视系统性能参数及测量方法YY0076-1992 金属制作的镀层分类、技术条件YY/T0291-1997 医用X射线设备环境规定及实验方法YY/T91055-1999 医疗器械油漆涂层分类技术条件YY91099-1999 医用X射线设备标志、包装、运送和贮存3分类与命名3.1 系统属于Ⅰ类、B型、普通移动式设备。

NI 6143 SpecificationsThis document lists the I/O terminal summary and specifications for theNI PCI/PXI-6143.For the most current edition of this document, refer to /manuals.Refer to the DAQ Quick Start Guide for more information about accessingdocuments on the NI-DAQ CD.Note With NI-DAQmx, National Instruments has revised its terminal names so they areeasier to understand and more consistent among NI hardware and software products. Therevised terminal names used in this document are usually similar to the names they replace.For a complete list of Traditional NI-DAQ terminal names and their NI-DAQmxequivalents, refer to the Terminal Name Equivalents table in the S Series Help.Table 1. I/O Terminal SummaryTerminal Name TerminalType andDirectionImpedanceInput/OutputProtection(Volts)On/OffSource(mA at V)Sink(mAat V)RiseTime(ns)BiasAI <0..7>AI100 MΩ inparallel with10 pF15/15————AI GND———————D GND———————+5 V—0.1 ΩShort-circuitto ground1A———P0.<0..7>DIO—V CC+0.58 at(V CC–0.4)11 at 0.4 1.150kΩ puEXTSTROBE*DO—— 3.5 at(V CC–0.4)5 at 0.4 1.550kΩ puPFI 0 or PFI 0/ (AI START TRIG or AI START)DIO—V CC+0.5 3.5 at(V CC–0.4)5 at 0.4 1.550kΩ puPFI 1 or PFI1/ (AI REF TRIG or REF TRIG)DIO—V CC+0.5 3.5 at(V CC–0.4)5 at 0.4 1.550kΩ puNI 6143 Specifications PFI 2DIO —V CC +0.5 3.5 at (V CC –0.4) 5 at 0.4 1.550k Ω pu PFI 3 or PFI 3/ (CTR 1 SOURCE or CTR 1 SRC)DIO—V CC +0.53.5 at (V CC –0.4) 5 at 0.41.550k Ω puPFI 4 or PFI 4/ CTR 1 GATE DIO —V CC +0.53.5 at (V CC –0.4) 5 at 0.4 1.550k Ω pu CTR 1 OUT DO —— 3.5 at (V CC –0.4) 5 at 0.4 1.550k Ω pu PFI 5 or PFI 5/ (AO SAMP CLK or AO SAMP)DIO—V CC +0.53.5 at (V CC –0.4) 5 at 0.41.550k Ω puPFI 6 or PFI 6/ (AO START TRIG or AO START)DIO —V CC +0.53.5 at (V CC –0.4) 5 at 0.4 1.550k Ω puPFI 7 or PFI 7/ (AI SAMP CLK or AI SAMP)DIO —V CC +0.53.5 at (V CC –0.4) 5 at 0.4 1.550k Ω puPFI 8 or PFI 8/ (CTR 0 SOURCE or CTR 0 SRC)DIO —V CC +0.53.5 at (V CC –0.4) 5 at 0.4 1.550k Ω puPFI 9 or PFI 9/ CTR 0 GATE DIO —V CC +0.53.5 at (V CC –0.4) 5 at 0.4 1.550k Ω pu CTR 0 OUT DO —— 3.5 at (V CC –0.4) 5 at 0.4 1.550k Ω pu FREQ OUT or F OUTDO——3.5 at (V CC –0.4)5 at 0.41.550k Ω pu* Indicates active lowAI = Analog Input DIO = Digital Input/Output pu = pull-upAO = Analog Output DO = Digital OutputNote : The tolerance on the 50k Ω pull-up resistors is large. Actual value might range between 17k Ω and 100k Ω.Table 1. I/O Terminal Summary (Continued)Terminal Name Terminal Type and Direction Impedance Input/ OutputProtection (Volts) On/Off Source (mA at V)Sink (mA at V)Rise Time (ns)BiasSpecificationsThe following specifications are typical at 25°C unless otherwise noted. Analog InputInput CharacteristicsNumber of channels...............................8 differentialADC resolution......................................16 bits, 1 in 65,536Sampling rateMaximum........................................250 kS/sMinimum........................................0 S/sAccuracy.........................................±50 ppm for internal timebaseInput coupling........................................DCInput range.............................................±5 VInput impedanceAI + to AI GND..............................100 MΩ in parallel with 10 pFAI – to AI GND..............................100 MΩ in parallel with 10 pFInput bias current...................................±20 pA typ, ±150 pA maxInput offset current.................................±3 pA typ, ±20 pA maxMax working voltage for all analog input channelsPositive input (AI +).......................±7 VNegative input (AI –)......................±7 VOvervoltage protection(AI +, AI –)............................................±15 VInput current duringovervoltage conditions...........................±5.7 mA maxInput FIFO size......................................2,046 samplesData transfers.........................................DMA, interrupts,programmed I/ODMA mode............................................Scatter-gather© National Instruments Corporation3NI 6143 SpecificationsNI 6143 Specifications DC Transfer CharacteristicsDNL........................................................±0.8 LSB typ, no missing codes INL..........................................................±1.5 LSB typ, ±3.0 LSB max System noise...........................................0.8 LSB rmsDynamic CharacteristicsPhase mismatch......................................±0.5° at 100 kHz Crosstalk.................................................–90 dB at 50 kHz Bandwidth...............................................490 kHz SINAD....................................................89 dB at 10 kHz CMRR.....................................................75 dB at 60 Hz SFDR......................................................98 dB at 10 kHz THD........................................................–96 dBc at 10 kHzStabilityRecommended warm-up time.................15 min Onboard Calibration ReferenceLevel................................................2.50 V (±2.5 mV)(actual value stored in EEPROM)Temperature coefficient...................±7.0 ppm/°C max Long-term stability..........................±20 ppm/Table 2. NI 6143 Analog Input DC Accuracy InformationNominal Range at Full Scale (V)Absolute AccuracyGain Error (%of Reading)Offset +INL Error (µV)Gain Tempco Ext./Int. Cal (%/°C)Offset Tempco (µV/°C)Random Noise (µV rms )Absolute Accuracy at Full Scale (mV)Relative Accuracy (mV)±5.00.056000.0007/0.00031041223.6130.0488Note : Accuracies are valid for measurements following an internal S Series calibration. Averaged numbers assume averaging of 100 single-channel readings. Measurement accuracies are listed for operational temperatures within ±1°C of internal calibration temperature and ±10 °C of external or factory-calibration temperature. NI recommends a one-year calibration interval. The Absolute Accuracy at Full Scale calculations were performed for a maximum range input after one year and 100points of averaged data.1,000 hTypical Performance Graphs© National Instruments Corporation5NI 6143 SpecificationsNI 6143 Specifications Digital I/ONumber of channels................................8 input/output Compatibility..........................................TTL/CMOSPower-on state........................................Input (high-impedance)Data transfers..........................................DMA, interrupts,programmed I/OTiming I/OCounter/TimersNumber of channels................................2 up/down counter/timers Resolution...............................................24 bits Compatibility..........................................TTL/CMOSTable 3. Digital Logic LevelsLevelMin Max Input low voltage Input high voltageInput low current (V in = 0 V)Input high current (V in = 5 V)0.0 V 2.2 V ——0.8 V 5.0 V –320 µA 10 µA Output low voltage (I OL = 24 mA) Output low voltage (I OL = 11 mA)Output low voltage (I OL = –13 mA)Output high voltage (I OH = –8 mA)——4.1 V 4.35 V0.83 V 0.4 V ——Table 4. Digital Logic LevelsLevelMin Max Input low voltage Input high voltage0.0 V 2.2 V 0.8 V 5.0 V Output low voltage (I OL = 5 mA)Output high voltage (I OH = –3.5 mA)—4.35 V0.4 V —Base clock frequency.............................20 MHzBase clock accuracy...............................±0.01%Max source frequency............................20 MHzMin source pulse duration......................10 ns, edge-detect modeMin gate pulse duration..........................10 ns, edge-detect modeData transfers.........................................DMA, interrupts,programmed I/OFrequency ScalerNumber of channels (1)Resolution..............................................4-bitCompatibility.........................................TTL/CMOSDigital logic levels.................................Refer to Table 4Base clock frequency.............................10 MHz, 100 kHzBase clock accuracy...............................±0.01%Digital TriggerPurpose...................................................Start, reference, and pause trigger,sample clockExternal sources.....................................PFI <0..9>, RTSI <0..6>Compatibility.........................................TTLResponse................................................Rising or falling edgePulse width.............................................10 ns minRTSI Bus (PCI Only)Trigger lines <0..6> (7)RTSI clock (1)© National Instruments Corporation7NI 6143 SpecificationsPXI Trigger Bus (PXI Only)Trigger lines <0..5> (6)Star trigger (1)Clock (1)Power Requirement+5 VDC (±5%).......................................40 mA+3.3 VDC (±5%)....................................140 mA+12 VDC (±5%).....................................150 mA–12 VDC (±5%)......................................80 mAPower available at I/O connector............+4.65 to +5.25 VDC at 1 APhysicalDimensions(not including connectors)......................15.5 cm by 10.6 cm(6.10 in. by 4.17 in.)I/O connector..........................................68-pin VHDCIEnvironmentalThe NI 6143 is intended for indoor use only.Operating EnvironmentAmbient temperature range....................0 to 50 °C (tested in accordancewith IEC-60068-2-1 andIEC-60068-2-2)Relative humidity range..........................10 to 90%, noncondensing(tested in accordance withIEC-60068-2-56)Altitude...................................................2,000 m (at 25 °C ambienttemperature)NI 6143 © National Instruments Corporation 9NI 6143 SpecificationsStorage EnvironmentAmbient temperature range....................–20 to 70 °C (tested in accordancewith IEC-60068-2-1 and IEC-60068-2-2)Relative humidity range.........................5 to 95%, noncondensing(tested in accordance with IEC-60068-2-56)Shock and VibrationOperational shock..................................30 g peak, half-sine, 11 ms pulse(Tested in accordance with IEC-60068-2-27. Test profile developed in accordance with MIL-PRF-28800-F.)Random vibrationOperating ........................................5 to 500 Hz, 0.3 g rmsNonoperating ..................................5 to 500 Hz, 2.4 g rms(Tested in accordance with IEC-60068-2-64. Nonoperating test profile exceeds the requirements ofMIL-PRF-28800-F, Class 3.)Note Clean the device with a soft, non-metallic brush. Make sure that the device iscompletely dry and free from contaminants before returning it to service.SafetyThis product is designed to meet the requirements of the following standards of safety for electrical equipment for measurement, control, and laboratory use:•IEC 61010-1, EN 61010-1•UL 3111-1, UL 61010B-1•CAN/CSA C22.2 No. 1010.1Note For UL and other safety certifications, refer to the product label, or visit /hardref.nsf , search by model number or product line, and click theappropriate link in the Certification column.National Instruments™, NI™, ™, NI-DAQ™, and RTSI™ are trademarks of National Instruments Corporation. Product and company names mentioned herein are trademarks or trade names of their respective companies. For patents covering National Instruments products, refer to the appropriate location: Help»Patents in your software, the patents.txt file on your CD, or /patents .© 2004 National Instruments Corp. All rights reserved.370835A-01Feb04*370835A-01*Electromagnetic CompatibilityEmissions................................................EN 55011 Class A at 10 mFCC Part 15A above 1 GHz Immunity ................................................EN 61326:1997A2:2001, Table 1EMC/EMI...............................................CE, C-Tick, and FCC Part 15(Class A) CompliantNote For EMC compliance, you must operate this device with shielded cabling.CE ComplianceThis product meets the essential requirements of applicable European Directives, as amended for CE marking, as follows:Low-Voltage Directive (safety).............. 73/23/EEC Electromagnetic CompatibilityDirective (EMC)..................................... 89/336/EECNote Refer to the Declaration of Conformity (DoC) for this product for any additionalregulatory compliance information. To obtain the DoC for this product, visit /hardref.nsf , search by model number or product line, and click theappropriate link in the Certification column.。