EXTECH 382100功率分析仪价格及详细参数

合集下载

Partech电子仪器有限公司仪器简介

Partech电子仪器有限公司仪器简介

Partech电子仪器有限公司Partech公司简介Partech(Electronics)Ltd帕泰克(电子仪器)有限公司成立于1967年,是一个在便携式和在线水质监测设备技术领先的制造商。

设备是用于饮用水和废水处理,一般的工业废水、地表水监测等领域。

Partech成立45年来在这个行业已成为一个值得信赖的品牌。

40多年前,在航空航天工业工作的罗杰·帕克Roger Parker成立了Partech(电子仪器)有限公司。

该公司总部位于赫特福德郡,最初是设计并制造电子产品。

后来与水污染研究实验室(WPRL)进行协作设计、开发和生产的一套测量水质的仪器铺平了进入废水监测的道路,直到如今仍然是公司的业务核心。

Partech最新产品7300多参数水质检测仪使一个监测器可与多个传感器连接,节省成本、操作简单、测量准确。

Partech从进入中国市场就开始与Beijing LAB Hightech instrument Ltd.北京兰铂高科检测仪器有限公司倾力合作,已经为中国上百家水处理厂和实验室提供了优质的服务。

双方保持每个季度至少互访一次的见面交流。

未来Partech和北京兰铂希望让每个污水处理厂都能用上质优价廉的Partech监测设备。

主力产品740便携式污泥浓度、悬浮物和浊度测定仪提供客户快速,精确之测定悬浮固体物,污泥坛厚度及浊度。

以直觉式目录操作,本机具坚固之IP65外壳,手提式设计附安全皮带以防止本机意外摔落,LCD高对比显示器,可适应于各种不同温度情况,而不影响其清晰度。

适用工业:环境监测站、废污水处理厂,纸业纸浆厂,拓广场,采石厂废水,食品饮料排放流水、湖泊等。

应用场合:MLSS监控,污泥坛监控,混凝加药控制,放流水监测等。

715便携式污泥界面仪715便携式污泥界面仪,它与Soil-Tech10探头一起监测悬浮固体和污泥/水界面。

这个仪器可通过沉淀池提供悬浮固体模组的情况,也可用于检测污泥界面。

量单

量单

1.2JPD-600 中压高架导体及电缆 1.2JPD-601 185mm2 交联聚乙烯包裹自动振幅控制导体 1.2JPD-602 95mm2 交联聚乙烯包裹自动振幅控制导体 1.2JPD-603 300mm2 33KV 3/C 铜电缆 交联聚乙烯 小计 中压高架导体及电缆 1.2JPD-700 杆,其他中压线支撑结构及配件 pcs pcs pcs pcs 250 5000 100 5350 1.2JPD-701 10m 水泥杆 1.2JPD-702 12m 水泥杆 1.2JPD-703 15m 水泥杆 1.2JPD-704 杆号码牌
价格表 表 1 海外提供的工厂强制备品备件
单价 物品 (1) 1.2JPD-705 杆帽盖 1.2JPD-706 危险板 1.2JPD-707 有刺铁丝网(防止攀爬) 小计 杆和配件 1.2JPD-800 强制配件及工具和维护维修 1.2JPD-801 33kV 变压器套管(5个 变压器每个额定功率各配备一个) 1.2JPD-802 0.4kV 变压器套管(5个 变压器每个额定功率各配备一个) 调压抽头, 包括跳线,连接,螺母,为终端盘准备(5个 变压器每个额定功 1.2JPD-803 率各配备一个) 1.2JPD-804 33Kv 馈线保护仪表盘 1.2JPD-805 1.2JPD-807 变压器油滤器(配备轮胎) 继电保护测试仪(有6个电源流, 能够测试所有保护系统,包括线路保护) 1.2JPD-806 电缆故障指示器 1.2JPD-808 导航(美国天宝) 1.2JPD-809 接地 1.2JPD-810 变压器油 1.2JPD-811 保险器和保险连接器及其他配件 1.2JPD-812 33KV 1.2JPD-813 33KV 耐张力绝缘子串及硬件 配有所有配件的逗留装配系统 lot lot lot lot No No No No No liters set set set set No No No No No No No 1 1 1 1 1 1 1 2 2 10000 50 20 20 20 5 5 2 2 2 2 2 描述 (2) 单位 (3) pcs pcs pcs 数量 (4) 5350 5350 5350 厂家 (5) 编号 (6) 预编目录 (7) 总价 (4)x(7)

EXTECH382100三相功率分析仪

EXTECH382100三相功率分析仪

用户手册1200A 三相功率分析仪/数据记录仪型号 382100目录1.0 简介1-1 特点 ....................................................... .31-2 安全 ....................................................... .42.0 规格2-1 一般规格 ...................................................... .52-2 电气规格 ...................................................... .53.0 仪表描述 ...................................................... .94.0 测量准备4-1 初始化屏幕 ....................................................... .104-2 进入测量屏幕 (10)4-3 键区概览 ....................................................... .104-4 设置按钮 ......................................................... .114-5 仪表设置功能(SD 卡、电压/电流、蜂鸣器、小数点、钳口类型、RS-232、时间/日期、重置按钮) ................................................. .125.0 测量制式5-11Φ 2W(单相两线)测量 ........................................ .255-21Φ 3W(单相三线)测量 ........................................ .265-33Φ 3W(三相三线)测量 ........................................ .275-43Φ 4W(三相四线)测量 ........................................ .285-5 CT 和 PT 测量 .................................................... .295-6 数据记录仪 (30)5-7 数据保持 ..................................................... .315-8 显示屏背光按钮 ............................................... .325-9 A (电流)量程按钮 ............................................... .335-10 LOWBAT(低电量)屏幕 ........................................ .345-11 附录 - 测量定义 ............................................... .356.0 维护6-1 清洁 ........................................................... .356-2 电池更换 ....................................................... .357.0 PC 接口7-1 RS-232 协议 .............................................. .367-2 从 SD 卡下载数据 (37)1.0 简介恭喜您购买 382100 型功率分析仪。

Tek_PA1000泰克功率计使用手册

Tek_PA1000泰克功率计使用手册

电流量程 (1 A 分流器 ) 2.0 Apeak, 1.0 Apeak, 0.4 Apeak, 0.2 Apeak, 0.1 Apeak, 0.04 Apeak, 0.02 Apeak, 0.01 Apeak,
0.004 Apeak, 0.002 Apeak
测量精度 - 电压
电压精度 , Vrms (45 Hz - 850 Hz)1
Байду номын сангаас
电压量程
1000 Vpeak, 500 Vpeak, 200 Vpeak, 100 Vpeak, 50 Vpeak, 20 Vpeak, 5 Vpeak
电流量程 (20 A 分流器 ) 100 Apeak, 50 Apeak, 20 Apeak, 10 Apeak, 5 Apeak, 2 Apeak, 1 Apeak, 0.5 Apeak, 0.2 Apeak, 0.1 Apeak
/power-analyzer-series/pa1000 5
PA1000 功率分析仪
订货信息
PA1000
标配附件 电压线组 特定国家电源线 USB 通讯电缆 文档光盘
校准证明 五年产品保修
推荐附件 BB1000-NA BB1000-EU BB1000-UK BALLAST-CT CL200 CL1200 PA-LEADSET
通过任何仪器通信端口与 PA1000 通信 远程改变仪器设置 从仪器实时传送、查看和保存测量数据,包括波形、 谐波柱状图和曲线 记录一段时间的测量数据 与多台 PA1000 仪器通信,从多台 PA1000 仪器记录 数据 创建公式,计算功率转换效率和其它值 把测量数据导出到 .csv 格式,以导入其它应用 对特定应用测试,使用设置向导界面,只需点击几下 鼠标,即可自动完成仪器设置、数据采集和报告生成 根据 IEC 62301 第二版低功率待机要求自动执行全 面一致性测试 在未来版本中将增加其它自动测试功能

Extech CD Regulated Power Supply Modelos 382203 y

Extech CD Regulated Power Supply Modelos 382203 y

Manual del usuarioFuente de poder CD regulada con tres salidas Modelos 382203 (Análogo) y 382213 (Digital)IntroducciónFelicitaciones por seleccionar la Fuente de poder CD regulado Modelos 382203 (análogo) o 382213 (digital) de Extech. Los modelos 382203 y 382213 son fuentes de poder reguladas de estado sólido y compactos, apropiadas para muchas aplicaciones incluyendo pruebas de banco, servicio de campo, equipo de telecomunicaciones y diversión.Descripción del medidor1. Pantallas LCD Voltaje y Corriente2. LED indicador de estado de límite de corriente3. Interruptor de encendido con LED de estado4. Terminales de salida 5V y 12V fijo5. Terminales de salida alimentación variable6. Perillas de ajuste de voltaje y corriente variableNota: El Modelo 382213 (escalas LCD) se muestra arriba. El Modelo 382203 (mostrado en la portada) usa escala análoga.Operación1. La Fuente de poder debe ser alimentada con voltaje de línea nominal (110V ó 220V) dentro de+ 5%.2. Antes de encender, retire todas las cargas conectadas y fije la perilla de ajuste de voltajetotalmente contrarreloj (salida 0V CD).3. Para operar la fuente de alimentación como fuente de corriente constante, la salida de corrientedebe fijarse entre 10% y 100% del valor nominal (3A). El indicador de limitación de corriente se iluminará al activarse el circuito limitador de corriente.4. Use las perillas para ajuste de corriente y voltaje para fijar las salidas variables de corriente yvoltaje respectivamente. Use las terminales de salida variable para conexiones.5. Para las salidas de 5VCD y 12VCD, use las terminales de salida fija.6. Las pantallas análoga o digital indicaran las salidas reales de corriente y voltaje.7. Mantenga libre de obstrucciones las rejillas de ventilación del medidor (arriba y lados) paraprevenir sobrecalentamiento.Especificaciones382203382213Indicador Análogo doble conescalas Pantalla LCD doble de 3dígitosSalida de voltaje, CD0-30VSalida de corriente, CD0 - 3 amperiosIndicador de límite decorrienteLED de estadoPrecisión ± 7% de la escala total ± 1% de la escala total + 2dígitosOndulación y Ruido< 5mVRegulación de línea< 0,05% + 10mVVoltaje fijo de salida5V / 0,5A (Continuo); 1A (máx.)12V / 0,5A (Continuo); 1A (máx.)Tensión110/220VCA 50/60Hz (conmutable) Dimensiones152 x 142 x 242mm(6 x 5,6 x 9,5") (WxHxD)Peso4,5 kg (10 lbs.)Copyright (c)2012 Extech Instruments Corporation (a FLIR company) Reservados todos los derechos, incluyendo el derecho de reproducción total o parcial en cualquier medi o.。

艾克斯特 382270 型直流电源 说明书

艾克斯特 382270 型直流电源 说明书

用户手册型号382270高精度四路输出直流电源导言祝贺您购买艾克斯特382270型直流电源。

该型电源有多种用途,可供基准测试、现场服务、业余爱好、教育、设备维护和通信设备使用。

382270型高精度直流稳压电源,带有四路输出。

其中,两路是完全可调,另两路为半可调。

两路可调输出可配置为恒定电压或恒定电流,并可以并联或串联。

上方的3位LED 显示屏可以显示该两路可调输出的负载电压和电流。

两路半可调输出(一路为3-6.5V/3A,另一路为8-15V/1A)稳定性和波纹率佳,过载保护装置可以有效地防止电路过载或短路。

电源在出厂前都经全面检测和校准,合理使用本电源,可保数年可靠无虞。

安全信息安全防范措施为保证安全操作,消除由短路(电弧)引起的危险事故,请严格遵守下列安全防范措施:在连接设备到交流电源插座之前,检查供电的交流电源电压是否与设备电压设置相符;♦务必将设备的电源插头插入带有地线的电源插座中;♦勿将设备置于潮湿的地面上;♦勿将设备置于直射或极端高温的环境中;♦勿将设备置于极度潮湿的环境中;♦务必按照原始额定值更换不良保险丝。

勿将保险丝或保险丝座短路;♦接入电流不得超过允许的额定输入值;♦严格遵守设备上的警告或其它信息;♦勿将金属物件经由通风孔插入设置中;♦勿将盛有水的容器置于设备上方;♦勿在有强磁场的环境中(如发动机、变压器等)操作设备;♦勿将设备置于电击或强烈震动的环境中;♦务必使设备远离电铬铁;♦务必使设备适应室温后再行使用;♦务必不要以任何形式改变设备;♦勿将设备倒置于桌面、工作台面以及类似的任何平面上;♦所有服务与维修必须由合格的服务人员提供。

清洁外壳在清洁外壳之前,请将电源插头从电源插座中拔出。

在清洁时,务必使用湿软抹布和一般家用清洗剂。

务必防止有水进入设备中以引起可能的短路或损坏。

电源描述1.电源按钮2.CH4电压调节3.CH4过载状态指示灯4.CH2电流调节旋钮5.CH4恒定电流/电压状态指示灯6.CH2电压调节旋钮7.电压输出显示(CH2/4)8.电流输出显示(CH2/4)9.电流输出显示(CH1/3)10.电压输出显示(CH1/3)11.CH1电压调节旋钮12.CH1恒定电流/电压状态指示灯13.CH1电流调节旋钮14.CH4过载状态指示灯15.CH3电压调节旋钮16.CH3输出正极17.CH1/CH3显示选择按钮18.CH3输出负极19.CH1输出正极20.串联/并联/独立跟踪选择按钮21.CH1输出负极22.GND端子23.串联/并联/独立跟踪选择按钮24.CH2输出正极25.输出开/关状态指示灯26.CH2输出负极27.输出开/关按钮28.CH4输出正极29.CH4输出负极30.CH2/CH4显示选择按钮操作独立连接(独立连接(11路和2路,可调输出)弹出跟踪开关(20)和(23)(独立连接),按下输出开/关按钮(27)。

IEPE-YE3820原理图及电源要求

IEPE-YE3820原理图及电源要求

Endevco技术论文—TP326—在当代数据采集系统中使用IEPE加速度计需要考虑的实际因素多年来,传感器制造商都会给传感器提供相应的高质量信号调理放大器。

特别是电荷式压电传感器(PE)及电压式压电传感器(IEPE,内部带集成电路的压电传感器),加速度计制造商都会提供相应的放大器。

这些放大器使用非常灵活,它允许用户为下游的数据采集系统设置任一的加速度计输入灵敏度及输出放大倍数。

大多数情况下,加速度计制造商只满足于提供信号调理放大器,将数据采集系统市场空间置身于身外。

然而,随着使用IEPE加速度计快速普及及增长,并且组建IEPE加速度计的信号调理器看起来非常简单容易,有一些数据采集系统厂商开始提供集成在数据采集系统中的IEPE加速度计信号调理器。

当使用这些信号调理器/数据采集系统时非常方便,并且可以降低用户成本的同时保证他们的测量达到他们所要求的高水准。

这些因素下面会单独讨论。

电源要求---电流不像电荷式压电加速度计, IEPE加速度计需要电源才能工作。

这些信号调理器/数据采集系统必须能够提供适合加速度计要求的电源。

由于不同的IEPE加速度计要求的电源不同,因此用户必须参考加速度计技术说明书上的电源要求。

(这里没有针对IEPE的统一行业标准,比如ISA或ANSI没有定义IEPE).如果没有合适的电源满足加速度计的规格要求,用户就不能保证加速度计正常工作,这样就会有得到低质量或无效测试数据的风险。

IEPE的电源模式是独特的,它使用恒流电源,而不是使用恒压电源给加速度计的内部电路提供电源。

参照图1所示的IEPE电源模式的通用示意图。

首先要考虑的因素就是用户必须确认他们的数据采集系统能够提供足够的恒流电源。

IEPE加速度计经常定为在一个很宽的电流范围下都可以正常工作,通常最小电流定义为2mA。

无论加速度计定义的最小电流为何数值,用户必须保证他们的数据采集系统可以提供这个最小电流。

这个应该在数据采集系统的规格书详细说明,或它也可以被测量出来。

Thermal_TMA

Thermal_TMA
压缩
该模式中,样品能在静态力、线性变化力或动态振荡力的作用下,并且在设定的温度程 序和气氛下进行测量。样品变形(应变)用膨胀或穿透实验记录,通过样品变形的特点来分 析材料的内在性质;动态实验用于测量粘弹性参数(DTMA)、检测热效应和分离重叠转变 (MTMATM)。
三点弯曲
在该弯曲形变中,样品被放置在两个石英刀口支架上,固定的静态力通过锲形的石英探 头垂直施加在样品的中部。材料的性质通过力和测量探头偏移来测定。因为没有夹具效 应,所以该模式是“纯”形变方式。它主要用来测定硬材料(如复合材料)在温度变化条件 下的弯曲性质。该夹具对Q400EM动态测量(DTMA)同样适用,这时用一个专门的低摩擦金属 支架代替石英刀口支架。
111
Strain
Strain (Force)
标准模式
T
Force Strain
Temperature (Time) 标准模式
F
T
Force (Time)
应力/应变模式(Q400EM)
在恒定的温度下,施加线性变化的应力或应变,测量对应的 应变或应力, 从而得到应力/应变图谱及相关的模量信息。另 外所计算出的模量作为应力、应变、温度或时间的函数来显示。
107
炉体 样品室
线性差动位移传感器
Q400 TMA样品测量系统的核心是精确的线性差
动位移传感器(LVDT)。它可根据位移变化产生
一个准确的与样品尺寸变化成比例的输出信号,
在很宽温度范围内(-150~1000℃)具有精确快速
的响应,十分有利于提高TMA测试数据结果的
重现性。LVDT位于炉子的下方,避免了温度效
拉伸
三点弯曲 110
TMA原理 / 操作模式
TMA是在设定的力、气氛、时间和温度的条件下测量材料的形变。施加力可采用压缩、弯曲或拉伸的形变方式(参见P109-110页)。 TMA测量材料固有的性质(如热膨胀系数、玻璃化转变温度、杨氏模量)等,以及工艺/产品性能参数(如软化点)。这些参数均具有 广泛的应用价值,它们既可通过Q400也可通过Q400EM获得。

Keysight 高功率测量器和高功率传感器选购指南说明书

Keysight 高功率测量器和高功率传感器选购指南说明书

S E L E C T I O N G U I D E Power Meters andPower SensorsPeak power measurement8990B peak power analyzer N8262A P-Series modular powermeters N1911A/2A P-Series powermetersE4416A/7A EPM-P Series powermeters–5 ns rise time/fall time–160 MHz VBW–100 MSa/s sampling rate–2 RF channels and 2 oscilloscopechannels–15 inch XGA color and touchscreendisplay–1U half-rack size–100 MSa/s continuous sampling,single-shot 30 MHz VBW–Wireless presets include WLAN, radarand MCPA–Code-compatible with N1912AP-Series power meter–100 MSa/s continuous sampling,single-shot 30 MHz VBW–Includes time-gated and statistical(CCDF) power measurements–Wireless presets include WiMAX™,HSDPA and DME–20 MSa/s continuous sampling,5 MHz VBW–Bundled analyzer software for pulseand statistical analysis–Wireless presets include GSM,Bluetooth® and W-CDMA Average power measurementN1913A/14A EPM Series power metersN432A thermistor power meters–Single, dual or four-channel measurements–Frequency range of 9 kHz to 110 GHz; powerrange of –70 dBm to +44 dBm (depending onpower sensor)–Fast measurement speed of 400 readings/s–Code-compatible with legacy E4418B/9B EPMSeries, 436A, 437B and 438A power meters (43Xcompatibility only with option N191xA-200)–High Accuracy (≤ 0.2% ± 0.5 uW), excellent for1 mW transfer calibration (with 478A-H75/H76)–Built-in 6.5-digit ADC eliminates the need for anexternal DMM–Digital color LCD display and user-friendlyinterfacePortable power measurementV3500A handheld RFpower meterU2000 Series USB powersensorsU8480 Series USBthermocouple powersensorsU2020 X-Series USB peakand average power sensorsU2040/53/63 andL2050/60 X-Series USB/LAN wide dynamic rangepower sensors–Broad 10 MHz to 6 GHzfrequency range–Wide dynamic range(–60 dBm to +20 dBm)–Absolute accuracy up to± 0.21 dB–Built-in display with backlightand integrated power sensor–Internal power referenceenables self-calibrationbefore use–3-ways power up capability(via AA batteries, USBinterface, and AC poweradaptor)––60 dBm to +44 dBm, 9 kHzto 26.5 GHz average powermeasurements without powermeters–Quick and easy set up withUSB connectivity–Internal zeroing withoutdisconnecting from deviceunder-test–DC to 18/33/50/67/120 GHz–35 dBm to +20 dBm–Measurement speed of 900readings/second and powerlinearity of < 0.8%–Real time measurementuncertainty feature––40 dBm to +20 dBm (peak/gated), –45 dBm to 20 dBm(average only mode), 50 MHzto 18/40/50 GHz–25,000 readings/secondmeasurement speed (buffermode)–Internal zero and calibration–Built-in trigger in/trigger out–50000 readings/second(fast/buffered mode)–USB sensors–10 MHz to 6/18 GHz––70 dBm to +26 dBm–LAN sensors–10 MHz to 6/33 GHz––70 dBm to +20/26 dBmPower sensorsPeak and average power sensorsAverage power sensors–N1921A/22A P-Series power sensors–N1923A/24A wideband power sensors–E9320 E-Series power sensors–E4410, E9300 E-Series power sensors–N8480 Series thermocouple powersensors–848xD Series, E/V/W8486A diodepower sensors–478A thermistor power sensorsKey FeaturesDesigned for manufacturing–Up to 100 MSa/s sampling rate and 1500 readings/s for high productivity withP-Series power meters–Achieve super-fast measurement speed of 50,000 readings/s for highermanufacturing throughput with U2040/53/63 and L2050/60 X-Series wide dynamic range power sensors–Code-compatible with legacy power meter so you save time and effort in developing new codes–Backward-compatible with all legacy power sensors to protect sensor investment–Wide selection of average and peak power sensors for various applications–CCDF statistical measurement in graphical and tabular formats for wirelesscomponent manufacturingDesigned for R&D–Calibration factors in EEPROM ensures accurate measurements–Intuitive user interface enables quick setup time–Graphical representation of delta measurements eases visualization and analysis–Trace zoom helps in investigating glitches, overshoot, and rise/fall time–Enable faster and easier testing with built-in wireless and radar presets for common–signals such as DME, GSM, EDGE, WCDMA, WLAN and LTE100 MSa/s continuous samplingensures signal glitches are not missedaverage ratio power measurementsDesigned for installation and maintenance and remote measurements–Light weight and palm size V3500A and the U2040/53/63 X-Series, U2020 X-Series,U8480 Series and U2000 Series USB power sensors bring greater convenience in field tasks–Lightweight U2049XA and L2050/60 X-Series LAN power sensor for remoteoperation via LAN networkWhen you need to take power measurements on the road or up a base station tower, smaller, lighter and fewer is better. With Keysight Technologies, Inc. USB/LAN power sensors, the only other thing you’ll need is a laptop with BenchVue BV0007B Power Meter/Sensor Control and Analysis App.Aerospace and Defense applications–The 8990B peak power analyzer (5ns rise/fall time), the U2020 X-series peak and average power sensors (13ns rise/fall time), and the N1911/2A P-series powermeters with the N1921/22A peak power sensors (13ns rise/fall time) allow you to capture pulsed radar signals and evaluate several power and waveform parameters: peak, min, average, and peak-to-average ratio power, rise time, fall time, pulsewidth, pulse period, duty cycle, time to positive occurrence, and time to negative occurrence time.–The U2049XA LAN power sensor with Option TVA is meticulously designed byselecting components with minimum outgassing properties. The sensor is alsosubject to temperature cycling in a vacuum chamber to stabilize the materials and to remove outgassing particles.Wireless applications–The U2040/53/63 and L2050/60 X-Series USB/LAN power sensors have widedynamic ranges (96/90 dB) and make very fast measurements (50000 readings/second). Both these power sensors and the N1911/2A P-Series power meterswith the N1921/22A power sensors allow you to easily set up and make themeasurements with built-in wireless presets for common signals such as DME, GSM, EDGE, WCDMA, WLAN and LTE. You can also make CCDF statistical measurements in graphical and tabular formats.–The 8990B peak power analyzer is a combination of high performance power meter and oscilloscope. It has two RF channels and two oscilloscope channels. You can easily evaluate the power added efficiency (PAE) of power amplifiers by capturing the input and output RF signals with the RF channels and the DC voltage and current with the oscilloscope channels and showing each data over time with multiple traces on the display.–The 8990B peak power analyzer with the N1923A/24A power sensors can measure the peak power of modulated signals up to 160 MHz like IEEE802.11ac. Calibration lab applications–The N432A thermal power meter with the 478A thermistor mount sensors provides metrology-class accuracy for instrument calibration.Various average power measurement solutions–U8480 series USB thermocouple sensors have wide frequency ranges, In particular, the U8489A covers DC to 120 GHz. The power calibration of broadband RF/uW measurements such as network analyzers can be performed with a singleconnection of the U8480 series.–The 8486 waveguide power sensors with N1913/14A EPM power meter offer power measurements to microwave and millimeter waveguide banded applications.–The U2041/43/53 and L2051/52/53XA USB/LAN power sensors have the widest dynamic range of 96 dB and achieve very fast measurements at 50000 readings/second and meet various power measurement needs in both R&D and manufacturing applications.–The classic power meter and power sensor configuration with the N1913A/14A EPM power meters with the E9300 E-series power sensors fit rack and stack style test systems.Power Measurement Software for Simplified Data CaptureBenchVue softwareThe Keysight BenchVue software for the PC accelerates testing by providing intuitive, multi instrument measurement visibility and data capture with no programming necessary. You can derive answers faster than ever by easily viewing, capturing and exporting measurement data and screenshots.The Power Meter/Sensor Control and Analysis App (BV0007B) for BenchVue enables control of power meters and power sensors to data log and visualize measurementsin a wide array of display formats. It can control multiple meters/sensors from a single instance. Calibrations can be done fast with software buttons. Presets allow quick analysis of power levels of industry standard communications signals. Trial licensescan be started with one-click using the button to the left. Licenses may be purchased from Keysight or directly from your preferred Keysight Distributor. This app supports Keysight’s USB/LAN power sensors and some power meters. Measurement Display options include:–Digital Meter View: Displays precise and exact reading (up to 4 decimal points)measured by the instrument–Analog Meter View: Displays measured reading in analog form for easiervisualization of large measurement differences–Strip Chart: Displays measured reading in a graphical form (Power/time)–CCDF View: Displays the Complementary Cumulative distribution function–Trace View: Displays traces of modulated signal–Multilist View: Displays multiple power measurementsKey features and specifications–Control and setup your Power meters and sensors–Setup all necessary parameters for your critical measurements–Control multiple power meters/sensors from one instance of the software–Log and view measurement data in the format you need:–With 6 different display types seeing what you care about has never been easier or more flexible–Export results in three clicks:–Export data quickly to popular tools such as Matlab and Microsoft Excel or Word for documentation or further analysis.Supported models–U2021XA, U2022XA, U2041XA, U2042XA, U2043XA, U2044XA, U2049XA,U2053XA, U2063XA, L2051XA, L2052XA, L2053XA, L2061XA, L2062XA, L2063XA, U2000A, U2000B, U2000H, U2001A, U2001B, U2001H, U2002A, U2004A–U8481A, U8485A, U8487A, U8488A, U8489A–N1911A, N1912A, N1913A, N1914A–N8262A Highlights–Visualize multiple measurementssimultaneously–Easily log data, screen images andsystem state–Recall past state of your bench toreplicate results–Fast measurement data export indesired formats–Quickly access manuals, drivers,FAQs and videos–Monitor and control your benchfrom mobile devicesPower Meters Selection Chart for Wireless Communication Peak power measurementEPM-P E4416A/17A (VBW: 5 MHz)Power sensor options–E932x Peak-and-Average Sensors (300 kHz, 1.5 MHz, 5 MHz)–* Also compatible with all average power sensorsP-Series N1911A/12A (VBW: 30 MHz)U2020 X-Series USB powersensors (VBW: 30 MHz)P-Series modular N8262A(VBW: 30 MHz)Power sensor options for theP-Series meters–N1921A/22A Wideband Sensors(30 MHz)–E932x Peak-and-Average Sensors(300 kHz, 1.5 MHz, 5 MHz)–* Also compatible with all averagepower sensorsU2042/44/49/63 and L2061/62/63XAX-Series USB/LAN power sensors(VBW: 5 MHz)8990B peak power analyzer (VBW: 160 MHz)Power sensor options–N1923A/24A Wideband Sensors (150 MHz)–N1921A/22A Wideband Sensors (30 MHz)Average power measurementEPM N1913A/14A N432A thermistor power meter U8480 Series USB thermocouple powersensorsPower sensor options–848xD Diode Sensors–N848x Thermocouple Sensors–8486 Waveguide Sensors–E441x 1-Path Diode CW-only Sensors–E930x 2-Path Diode True-Average Sensors–USB SensorsPower sensor options–478A and 8478B Thermistor SensorU2000 Series USB power sensors U2041/43/53 and L2051/52/53XA X-SeriesUSB/LAN power sensorsV3500A handheld RF power meterPower Meters Selection Chart for Wireless Communication (Continued)Power Sensors Selection ChartD 9 k H 100 k H 1 M H 10 M H 50 M H 1 G H 2 G H 3 G H 4.2 G H 6 G H 10 G H 18 G H 24 G H 26.5 G H 33 G H 40 G H 50 G H 60 G H 67 G H 75 G H 78 G H 90 G H 110 G H 120 G H FrequencyU2040/53/63 and L2050/60 X-Series Wide Dynamic U848x USB Thermocouple Power SensorsU2020 X-Series USB Peak and Average Power Sensors N192x Wideband Sensors E932x Peak-and-Average Sensors N848x Thermocouple Sensors 848X Diode and Thermocouple Sensors 8486 Waveguide SensorsE441x 1-Path Diode CW-only Sensors E930x 2-Path Diode True-Average Sensors 478A and 8478B Thermistor Sensors U200x USB SensorsV3500A Handheld RF Power Meter1. With Option H50, warranted specifications to+8 dBm only from 40 GHz to 50 GHz. Options 1A7/A6J/UK6 are not available with Option H50. Refer to the U2020XA datasheet or the Option H50 product note, U2022-90001 for more information.Power Meters and Sensors Compatibility Table1. Requires BenchVue Power Meters/Sensors Control and Analysis App software.2. Available in average mode only.For the complete list of sensor options, please visit our Web site at /find/powermeters.Power Meters and Sensors Compatibility Table (Continued)1. Requires BenchVue Power Meters/Sensors Control and Analysis App software.For the complete list of sensor options, please visit our Web site at /find/powermeters.Related Keysight LiteraturePublication title Publication number BrochuresPower Meters and Power Sensors - Brochure5989-6240EN SpecificationsN432A Thermistor Power Meter - Data Sheet5990-5740ENN8262A P-Series Modular Power Meter and Power Sensors - Data Sheet5989-6605ENN1911A/N1912A P-Series Power Meters and N1921A/N1922A Wideband Power Sensor – Data Sheet5989-2471ENU2000 Series USB Power Sensors - Data Sheet5989-6278ENE4416A/E4417A EPM-P Series Power Meters and E-Series E9320 Peak and Average Power Sensors – Data Sheet5980-1469EN1913A and N1914A EPM Series Power Meters E-Series and 8480 Series Power Sensors – Data Sheet5990-4019ENN8480 Series Thermocouple Power Sensors - Data Sheet5989-9333ENV3500A Handheld RF Power Meter – Data Sheet5990-5483EN 8990B Peak Power Analyzer and N1923A/N1924A Wideband Power Sensors - Data Sheet5990-8126ENU2020 X-Series USB Peak and Average Power Sensors - Data Sheet5991-0310ENU8480 Series USB Thermocouple Power Sensors - Data Sheet5991-1410EN Waveguide Power Sensors - Data Sheet5991-3676ENU2040 X-Series Wide Dynamic Range Power Sensors - Data Sheet5992-0040EN Application notesChoosing the Right Power Meter and Sensor - Application Note5968-7150E Fundamentals of RF and Microwave Power Measurements (Part 1) - Application Note5988-9213EN Fundamentals of RF and Microwave Power Measurements (Part 2) - Application Note5988-9214EN Fundamentals of RF and Microwave Power Measurements (Part 3) - Application Note5988-9215EN Fundamentals of RF and Microwave Power Measurements (Part 4) - Application Note5988-9216ENP-Series Wideband Power Sensors - Application Note5989-6509ENN1911A/N1912A P-Series Power Meters For WiMAX™ Signal Measurements - Application Note5989-6423EN4 Steps for Making Better Power Measurements - Application Note5965-8167E EPM-P Series Power Meters used in Radar and Pulse Applications - Application Note5988-8522EN Compatibility of USB Power Sensors with Keysight Instruments - Application Note5989-8743EN。

WT1800高精度功率分析仪

WT1800高精度功率分析仪

日本横河 WT1800 高精度功率分析仪集成多种功率测量基本功率精度:±0.1%DC 功率精度:±0.05%电压/电流带宽:5MHz *1 (‐3dB,典型值)采样率:约 2MS/s(16 位)输入单元:最多 6 个电流测量:100μA~55A*1:不包括50A输入单元的直接电流输入创新功能提升测量效率电机、变频器、照明装置、EV/HEV、电池、电源、飞行器、新能源、功率调节器测量:高精度、宽量程、快速采样、同步进行谐波测量·电压和电流频率带宽 5MHz(-3dB,典型值)随着开关频率的加快,要求的测量频率范围也越来越宽。

WT1800提供比之前量程宽5 倍的 电压和电流频率带宽(5MHz),能够更正确地捕捉快速切换的信号。

·将视在功率的低功率因数误差降至 0.1%(前一型号的 2/3)*1在低功率因数下,功率因数误差是保证高精度测量的重要元素之一。

除了高达±0.1%的基本 功率精度外,WT1800还将功率因数误差(0.1%)降低到了前一型号的 2/3。

·宽电压和电流量程允许直接输入直接输入测量信号可测量使用电流传感器难以测量的微小电流。

WT1800 提供 1.5V到1000V(12 个量程)的电压直接输入范围,以及 10mA到 5A(9 个量程)或 1A到 50A(6个量程) 的电流直接输入范围。

·0.1Hz 低速信号功率测量和最快 50ms 的高速数据采集频率下限从之前的 0.5Hz 降低至 0.1Hz(比前一型号低 5 倍),可满足低速信号的功率测量要 求。

不仅如此,数据更新率可达 50ms 的高速数据采集性能得以延续。

除了常规测量数据, 还可同时测量并保存高达 500次的谐波数据。

可以在从 50ms 到 20s 的 9 个选项中选择数据 更新率。

*2 数据更新率为50ms时,最高可测量100次谐波。

·可选择特定电压和电流量程宽广的电压和电流输入范围具有扩展测量应用范围的优势。

TA Instruments Q1000和Q100热分析仪商品介绍说明书

TA Instruments Q1000和Q100热分析仪商品介绍说明书
ONLY 10 AVAILABLE
LIQUID NITROGEN COOLING SYSTEM
The Liquid Nitrogen Cooling System (LNCS) provides the highest performance and greatest flexibility in cooling. It has the lowest operational temperature (to -180 °C), greatest cooling rate capacity (to 140 °C/min), and an upper temperature limit of 550 °C. It is ideal for isothermal crystallization studies. The LNCS uses liquid nitrogen efficiently, thus reducing operating costs. Its autofill capability allows the LNCS to be automatically refilled from a larger liquid nitrogen source for continuous DSC operation. The LNCS is available for the Q1000, Q100, and Q10 DSC modules.
ONLY 2 AVAILABLE
Q SERIES™ ACCESSORIES
4
THERMOGRAVIMETRIC ANALYZERS - DEMO INVENTORY
Q500
Q50
Prices starting at
17.000£

EXTECH 382275单输出实验室等级直流电源PDF文档资料下载

EXTECH 382275单输出实验室等级直流电源PDF文档资料下载

9
382275_382276-zh-CN_V4.4 06/15
电压/电流遥控
电压和电流有两种遥控方法(方法 A 和方法 B,如下)。每种方法都需要电流遥控部分功能正常,否 则设备将永远处于恒电流模式。
遥控方法 A: 采用两个外部直流电压可调的电源 把 0~5VDC 的外部可变电源输入到遥控端子中,调整输出电压。. 警告! 输入电压不能高于 5V,否则可能启动超电压保护(OVP)功能。
1. 如图所示,拆下螺丝,取下遥控接头的黑色部分。
1
7
286
345
2. 如果第五线脚是开放的,说明输出处于开启状态。 . 3. 如果第五线脚与地线(第四线脚)短接,说明输出处于开闭状态。 4. 如果输出处于关闭状态,那么恒电压和恒电流指示灯闪亮。在面板上显示当前的输出
电压和电流设置值。
5. 当输出处于关闭状态时,可以通过输出电压和电流控制旋钮调整到所需的值。
开关输出电源 调整电压和电流 通过三项用户预设值可快速地访问常用的电压和电流设置值。本款电源在出厂之前经过了完整测试 和校准,如精心使用,可保证多年的可靠服务。.
安全
警告 •
• • • • • • 提醒 • • • • • •
• • •
POR ningún motivo使用ESTA丰德tensión con motores eléctricos O准“cargar” dispositivos de electroplateado O dispositivos similares。 杜斯坎普斯洛 electromagnéticos Y洛杉矶voltaje乡间generados波洛motores eléctricos pueden dañar ESTA tensión丰德。 ESTA丰德tensión FUE diseñada准普遍服务EN DECA Equipo electrónico solamente Y无段落普遍服务EN cualquier otro tipo de DECA Equipo electríco.没有使用ESTA丰德tensión Cerca del Agua。 该电源在使用时不能靠近水。 不要用湿手操作或碰触本仪表。 在连接到交流电源时,不要打开电源外壳。 所有维修工作都只能由合格的维修人员执行。 在更换保险丝之前,应找出问题,解决问题。 用规定类型和额定值的保险丝更换损坏的保险丝。

接地电阻测试仪EXTECH艾士科382252技术资料下载

接地电阻测试仪EXTECH艾士科382252技术资料下载

6
382252 型-zh-CN_V1.3 版本-12/14
量程规格 测量 量程 20 接地电阻 200 2000 接地电压 频率:40 至 500Hz 0 至 200kΩ 电阻值 过载保护: 交流电压 40Hz 至 400Hz 0 至 750V 250 Vrms 1V ±(1.2% 读数值 + 10 个数 字) 0 至 200VAC 0.1V 0.1k ±(3% 读数值 + 3 个数字) ±(1% 读数值 + 2 个数字) 分辨率 0.01 0.1 1 精确度 ±(2% 读数值 + 10 个数字) ±(2% 读数值 + 3 个数字)
4
382252 型-zh-CN_V1.3 版本-12/14
接地电压测试 1. 将选择开关的功能设定至 EARTH VOLATAGE (接地电压)位置。 2. 确认电压测量值小于 10V AC ,否则不能测量到准确的接地电阻。如果电压已存在(大于 10V AC ),在继续测试前必须确定电压源并对其进行调整。 3. 再次按下 TEST (测试)按钮以终止测试。注意 LCD 的读数值。 接地电压测试 1. 将仪表的功能开关设置在所需的电阻测量范围。 2. 按下 TEST (测试)按钮。.“ ”图标将闪烁,并发出提示音。 3. 注意显示的读数值。 4. 如果探测到较大电阻值,记录下来,必要时,采取适当措施来调整地线。 5. 再次按下 TEST (测试)按钮以终止测试。 6. 当测试导线没有连接至仪表时,读数值“1”… 是常规值。 H O LD (保持)功能 HOLD (保持)功能用于冻结显示屏上的最新测量值。 1. 按下 HOLD (保持)按钮以冻结 LCD 显示屏上的读数 2. 再次按下 HOLD (保持)按钮以退出 HOLD (保持)功能。 3. 如果仪表关闭,HOLD (保持)功能将不会保留测量数据。 背光 1. 2. 2 0 0k 1. 2. 3. 4. 按下“ ”按钮以打开背光。

布恩顿电子RF峰值功率仪 分析器说明书

布恩顿电子RF峰值功率仪 分析器说明书

BOONTON ELECTRONICSa Wireless Telecom Group Company4400A/4500A MANUAL ADDENDUMApplies to Instruction Manual Model 4500A RF Peak Power Meter /Analyzer, Model 4400A RF Peak Power Meter, Part Number 98404700A, revised 09/97.Effective for Control Software Revision 20020511 and later.1.0 NEW FEATURES1.1 Peak Sensor Temperature CompensationWhen used with a peak sensor that contains a valid temperature compensation table, the model 4400A and 4500A Peak Power Meters can provide temperature compensated power measurements. The default mode for temperature compensation is active. The Chan n > Calibration>Temp Comp menu box will be visible with “Sensor Tbl” displayed. To turn off temperature compensation press the menu button and “Off” will be displayed. The “Off” setting is volatile and not preserved through power cycles or major mode changes. If the sensor in use does not have a temperature compensation table the Temp Comp menu box will not appear at all.The Spcl>Chan n Sensor report will include the message “Sensor has Temperature Compensation Table” when appropriate. The Spcl>Servicing>Configuration report shows TC system status if either channel has a sensor with a valid table. The format of this messageif present is:TC System Status 1:[err code] #### 2:[err code] ####The error codes are:0 No error.145 TC # of Temps Err Table parameter error146 TC # of Powers Err Table parameter error147 TC Interp Err Table interpolation error148 TC Expand Err Table expansion error149 TC Extend Err Table extension error150 TC Chksum Err Table read checksum error151 TC Table Length Error152 TC Temp Value Err A temperature value is out of range98404706A1 1981153 TC Temp Non-mono A temperature array is non-monotonic154 TC Power Value Err A power value is out of range155 TC Power Non-mono A power array is non-monotonic156 TC Corr Value Err A correction value is out of range Use CH1 or CH2 to specify to which channel the following temperature compensation related GPIB commands apply:TCON Turn on temperature compensation if available. If not, ignore.TCOFF Turn off temperature compensation. This is a volatile setting ifavailable.compensationis1.2 Sensor Auto-calibration File RetentionSensor auto-calibration files are now saved by channel as .AC1 and .AC2 files in non-volatile (flash) memory. This avoids the need to perform auto-cal every time a sensor is removed and replaced by a different one, provided the sensors are known to the channel(s) involved. When a sensor is plugged-in a search is made to find an existing auto-cal file. If one is found, it is installed. If not, the “Needs Auto-cal” message will appear. When auto-cal is performed the existing file is overwritten with the new result. If no previous file exists, one is created. Sensor filenames have the form SEN#####.AC n, where ##### is the serial number and n is the channel number.The file directory system is expanded to display auto-calibration files in flash memory as well as the previous files on the floppy disk. The Utility>Disk>Flash Disk path lists sensor auto-cal files by channel. The Select File <> menu contains a sequence number which refers to the position of the file in the list. The selected file is shown in RED and may be deleted by pressing the menu button next to the “Delete” box. Deletion of files must be confirmed or cancelled.There are no GPIB operations on the file directory.1.3 Color *.bmp File of DisplayThe Hardcopy section now includes a color *.bmp file of the current display that can be saved to the floppy disk, sent to the COM1 port or the GPIB. To select this feature set the Util>Hardcopy>Device menu to “Plotter”. Then select Util>Hardcopy>Model “.BMP”.Choose the Plot Label, Output Port and File Select number if the output is the floppy disk. Graph & Text is not applicable. Note that the “IEEE-488” output selection applies to the listen only (lon) GPIB addressing mode only. For controller directed GPIB output298404706Asee below. Press the PLOT key to send the file to the selected output. The .bmp extension is added to the floppy disk file directory to allow viewing the filenames saved on disk. The GPIB commands for controller directed return of the .bmp file contents are:Send the sequence PLOTTER PLOT.BMP to select the bit-map mode.Send TKPLOT to set the talk mode that returns the file when addressed to talk.The GPIB commands to send the plot file contents to an output other than the GPIB are:Send the sequence PLOTTER PLOT.BMP to select the bit-map mode.Send PLOTSER1, PLOTCOM1, PLOTLPT1 or PLOTDISK to select the output.{Use PLOT488 only with the front panel PLOT key manually to send in the talk only (ton) mode to a listen only (lon) device}.For PLOTDISK send FILENO ## to select a filename.Send PLOT to simulate pressing the PLOT key to send the file to the selected output.1.4 External Trigger Input CalibrationA provision to zero and calibrate the external trigger inputs has been added to provide better accuracy for voltage measurements made with the trigger inputs. The following procedure is used to calibrate each external trigger input:Set Time>Timebase to “5 ms/Div”Set Trig>Trig Mode to “Auto”Select the external trigger input in the Trig>Trig Source menu corresponding to the selected measurement channel (CH1 to 1EXT or CH2 to 2EXT).Set the Chan#>Extensions>Display to “Trig” (Trigger View Mode)Set the Chan#>Vert Scale to 1.00 V/DivSpcl>Servicing>Cal Mode “On”SettheWith Cal Mode “On” two boxes labeled Ext Trig Zero and Ext Trig Cal will appear in the Chan#>Extensions menu. Ext Trig Zero will have a bright “Start” label.With no input to the selected external trigger input, press the menu button for Ext Trig Zero “Start”. The input will be zeroed and the Ext Trig Cal “Start” label will be bright.With +3.00 volts applied to the selected external trigger input, press the menu button for Ext Trig Cal “Start”. The input will be calibrated for 3 divisions of deflection at 1 V/Div.Set the Spcl>Servicing>Cal Mode “Off”The results of the calibration are stored in non-volatile memory with file extension .TRV. Absent a file, default data is supplied automatically and simulates the existing software. External trigger level calibration is not available on the GPIB.398404706A1.5 UNDIM Command.A GPIB command, UNDIM, is added to reset the screen saver without touching the panelor re-loading the color table. This is helpful in remotely controlled applications.2.0 Changes2.1 Instrument Setup Save/Recall change.The instruments setup save and recall system has been modified to save a binary file instead of an ASCII file. The binary file is smaller and more comprehensive and is identical to the internal save/recall format. The new file has the extension .ISU. For customers with existing .INS files the ability to read an .INS file is still present, but new features will not be available using this method. Existing files should be converted by reading the .INS files and saving them as .ISU. The file directory is modified to display .ISU files. The GPIB commands are not affected.2.2 GPIB command *OPT? change.An installed hardware options list has been appended to the *OPT? GPIB command format previously used. For example, a single channel instrument with Option 04 hardware installed and a sensor plugged-in returns:1,1,0,0,42.3 Configuration report change.Installed options are now identified in the Configuration Report. For example:The Spcl>Servicing>Configuration Report for Option 04 installed reports:Opt 04 – Trigger Delay by Events installed2.4 Sensor Temperature Reporting change.Sensor auto-cal temperature and current temperature readings have been moved from the Utility>Report to the Spcl>Ch 1 Sensor>Report and Spcl>Ch 2 Sensor>Report.498404706A3.0 Corrections1. Remove glitches that occur when in Triggered mode (as opposed to Auto) and certaincommands are executed. Also, measurement traces can now be moved and re-scaledwhen Waiting for Trigger on the slow time bases.2. Calculate the auto-measure parameter “OFF TIME”. This function has always beenenabled but there was no calculation method included.3. Correct an overflow error in the cal table expansion that overwrites the first positionof the channel 2 table when channel 1 is expanded. This may cause the channel 2PDF to not appear.4. GPIB command TKBMEAS now reports the sign of Pk/Avg ratio correctly.5. Marker math mode changes now occur immediately even in wait for trigger.6. When both markers are in trigger view mode the marker math functions MK1-MK2,MK2-MK1, MAX-MIN and MIN-MAX are computed as voltage difference andappear in the middle window with voltage difference units. The PK/AVG mode is notrecognized in trigger view mode but is not an error. This correction also appears inthe parameters of GPIB commands TKMEAS, TKBMEAS and TKUNITS whenappropriate.7. The trigger pointer is now removed when the direct set of a statistical mode occurs.8. Restore the legacy GPIB command MKDELTA to set the marker math to powerdifference in the linear units mode only. This command was deleted by mistake in the“A” series.9. Update the RUN/STOP message in the recall stored setup function to avoid out ofsync messages.10. Change the linear mode reference lines to track vertical offset in “divisions” ratherthan watts, which is incorrect.Revised 20020513598404706A。

使用说明书- 泰克 DSA8300 数字串行分析仪 80A00 和 82A00 系列模块

使用说明书- 泰克 DSA8300 数字串行分析仪 80A00 和 82A00 系列模块

Read This First80A00and82A00Series ModulesSupported instrumentsThe80A00and82A00Series Modules are for use with the Tektronix DSA8300Digital Serial Analyzer,as well as the legacy TDS/CSA8000,TDS/CSA8000B,and TDS/CSA/DSA8200series instruments.Handle modules to prevent electrostatic damageCAUTION.Electrostatic discharge(ESD)can damage sampling module electricalinputs and outputs.Always use a grounded wrist strap(provided with your instrument)wheninstalling or removing modules from the mainframe and when connecting cables.Wear anti-static clothing and work in a static-free workstation when usingsampling modules.Discharge cables to ground before connecting them to modules.Do not create an ESD antenna by leaving cables attached to the sampling-moduleinput with the other end of the cable open.Use a Tektronix80A02EOS/ESD Protection Module when taking TDRmeasurements.Do not drop the module since damage and misalignment of the photodiode opticalassembly can result.Always store and transport modules in a static-free container,with all suppliedterminations installed.To prevent loss of optical power or damage to the optical connectors,keep theconnectors clean at all times.Check that all connectors,jumpers,and protectivecaps are clean before connecting them to the module.Do not transport or ship the instrument with the modules installed in the modulecompartments.Copyright©Tektronix*P071138613*Read This First80A00and82A00Series ModulesInstall a moduleFigure1:Module insertion1.Connect an antistatic wrist strap to the instrument front-panel groundconnection.Place the strap on your wrist.2.For optical modules,turn the module lock screws counterclockwise to rotatethe retaining tabs to a vertical position before inserting the module.e the power cycle that is appropriate for your instrument:DSA8300instruments with TekScope application version6.1.X andgreater:Click Tools>View/Change Module Config and follow theon-screen instructions.Legacy instruments and DSA8300with TekScope application version6.0.X:Power off the instrument using the front-panel On/Standby switch.4.Push the module into a compartment,usingfirm pressure.When the moduleis seated,turn the lock screw(s)clockwise to tighten the module in the slot.5.Power on the instrument(legacy instruments or DSA8300with TekScope6.0.X software)or complete the View/Change Module Config process(TekScope version6.1.X and later).Let the instrument warm up for20minutes.NOTE.The warm-up cycle is not required if you installed the module using theView/Change Module Config function(TekScope version6.1.X and later).6.In the TekScope application,click Utilities>Compensate and runa compensation on the newly-installed module.You must also run acompensation if a module is moved from one slot to another,or an extenderis installed,changed,or removed from a module.Read This First80A00and82A00Series Modulese the Differential Channel Alignment application(Applications>DiffChAlign)to align both channels(and TDR steps when applicable)ofsupported two-channel electrical modules,to the module input connectors.This application steps through the connection setup to align both theacquisition and the TDR steps.For more information,see the helpfile forthe application.The Differential Channel Alignment application is available for DSA8300instruments running TekScope version6.2.X and later,and legacy instrumentsrunning TekScope version5.2.x and later.Remove a moduleCAUTION.Always use the module ejectors to eject a module from a compartment.Do not pull the module by the connectors;you can damage the connectors if youuse them to pull out a module.1.Connect an antistatic wrist strap to the instrument front-panel groundconnection.Place the strap on your wrist.e the power cycle that is appropriate for your instrument:DSA8300instruments with TekScope application version6.1.X andgreater:Click Tools>View/Change Module Config and follow theon-screen instructions.Legacy instruments and DSA8300with TekScope application version6.0.X:Power off the instrument using the front-panel On/Standby switch.3.Remove all cables or probes from the module connectors.4.Turn the module lock screws counterclockwise until loose or they stop turning.5.Push the module ejector lever to unseat the module.The arrow near an ejectorlever shows which compartment that ejector controls.e the module lock screws to pull the module partly out of the compartment.Then hold the module chassis and pull the module from the instrument.Read This First80A00and82A00Series ModulesMoving modules while powered onThe TekScope View/Change Module Config function lets you remove,install,or move modules in the instrument without powering down the mainframe.Seethe DSA8300Digital Serial Analyzer Quick Start User Manual for informationon how to use this function.CAUTION.Installing or changing modules while the instrument is powered onrequires DSA8300TekScope software version6.1.X or greater.For DSA8300TekScope software versions earlier than6.1.X,or all legacy instruments(TDS/CSA/DSA8200,TDS/CSA8000B,and TDS/CSA8000B),always power offthe mainframe to remove,install,or move modules.Failure to do so may resultin damage to the module or mainframe.You can download and install the latest DSA8300software from/software.User documentation for modulesTo download the most recent versions of manuals from the Tektronix Web site:1.Go to .2.Enter the module nomenclature,or the manual part number,in the DownloadsEnter Model Numberfield.3.Select Manuals from the Select Download Type list and click GO.4.Click Sort by DATE to place the newestfiles at the top of the list.5.Click the document link to download thefile.Contact Tektronix Customer Support to purchase printed copies of manuals.Read This First80A00and82A00Series ModulesGet latest softwareTo determine if you need a newer TekScope application software for yoursampling module,do the following:1.Click Help>About in the TekScope application to show the current softwareversion.e the Module software compatibility tables tofind the TekScope applicationsoftware version required for your module and instrument.(See page6.)3.To download a newer version of the application software:a.Go to .b.Enter the model number for your instrument in the Downloads EnterModel Numberfield.c.Select Software from the Select Download Type list and click GO.d.Select the appropriate software and follow the on-screen instructions todownload and install the software.NOTE.Newer software versions support all previously-released modules.Read This First80A00and82A00Series ModulesModule software compatibility tablesUse the following tables to verify that your TekScope application software versionsupports a specific sampling module or is appropriate for the version of MicrosoftWindows loaded on your mainframe.DSA8300instrument software and module compatibility.Supported modules1,2,3Required operating systemTekScope software version6.0.3.X:80A01,80A02,80A03,80A05,80C01,80C01,80C02,80C03, 80C04,80C05,80C06,80C07/B,80C08/B/C/D,80C09,80C10/B/C,80C11/B,80C12/B,80C14,80C25GBE,80E01, 80E02,80E03,80E04,80E06,80E07,80E08,80E09,80E10, 82A04Microsoft Windows7 Ultimate(32bit)v0.9TekScope software version6.2.X:80E07B,80E08B,80E09B,80E10B,80E11,80E11X1,82A04B Microsoft Windows7 Ultimate(32bit)v0.91Listed version number or greater.Newer versions of the TekScope application software and the DSA8300 operating system support all previously-released modules.2Listed modules include all available options unless noted otherwise.3The DSA8300does not support the80A06module.Read This First80A00and82A00Series Modules Legacy instruments software and module compatibility(TDS/CSA8000,TDS/CSA8000B and TDS/CSA/DSA8200).TekScopesoftwareversion1Supported modules Required operating system1.080C01,80C01-CR,80C02/-CR,80C03/-CR,80E01,80E02,80E03,80E04,80A01,80A021.180C04-CR11.280C04-CR2,80C05,80C06Microsoft Windows981.380C07/-CR1,80C08/-CR1,80C09/-CR1,80A031.480C08B/-CR1-CR2,80C10,80E061.580C07B/-CR1,80C08C/-CR1/-CR2/-CR4,80C11/-CR1/-CR2/-CR3/-CR42.0.1.3280C12(limited),80A05(limited)2.0.1.580C12,80A052.182A04(Must be installed in a DSA8200,Microsoft Windows2000 CSA8200,or TDS8200mainframe)2.480A062.580E07,80E08,80E09,80E1035.080C02Option01,80C08C Option01,80C10B,80C11Option01,80C12Option01,80C25GBEMicrosoft Windows XP5.1.280C08D,80C10C,80C11B,80C12B,80C145.2.X80E07B,80E08B,80E09B,80E10B,80E11,80E11X1,82A04B1Newer versions of the TekScope application software and instrument operating system software support all previously-released modules.2Replace product application software version2.0.1.3with the latest available version from the Tektronix Web.3Using the80E07,80E08,80E09,or80E10modules in mainframes with older versions of software may prevent the application from starting.。

iTEMP TMT72温度传感器操作手册说明书

iTEMP TMT72温度传感器操作手册说明书

Products Solutions Services操作手册iTEMP TMT72温度变送器BA01854T/28/ZH/04.20715255132020-10-20自下列版本起生效01.01(版本号)iTEMP TMT72目录Endress+Hauser 3目录1文档信息 (4)1.1文档功能 (4)1.2安全指南(XA) (4)1.3信息图标 (4)1.4工具图标 (5)1.5文档资料代号 (6)1.6注册商标 (6)2基本安全指南 (7)2.1人员要求 (7)2.2预定用途 (7)2.3操作安全 (7)3到货验收和产品标识 (8)3.1到货验收 (8)3.2产品标识 (8)3.3供货清单 (9)3.4证书和认证 (10)3.5运输和储存 (10)4安装 (11)4.1安装条件 (11)4.2安装 (11)4.3安装后检查 (16)5电气连接 (17)5.1接线 (17)5.2快速接线指南 (18)5.3连接传感器电缆 (18)5.4连接变送器 (19)5.5特殊接线指南 (20)5.6连接后检查 (21)6操作方式 (22)6.1操作方式概览 (22)6.2操作菜单的结构和功能 (25)6.3通过调试软件访问操作菜单 (27)6.4通过SmartBlue App 访问操作菜单 (29)7系统集成 (31)7.1设备描述文件概述 (31)7.2HART 通信的测量变量 (31)7.3支持的HART ®命令 (31)8调试 (34)8.1安装后检查 (34)8.2打开变送器 (34)8.3设置测量设备 (34)8.4写保护设置,防止未经授权的访问 (36)9诊断和故障排除...................379.1常规故障排除........................379.2现场显示单元上的诊断信息..............399.3通过通信接口查看诊断信息..............399.4诊断信息列表........................399.5事件日志............................409.6诊断事件概览........................409.7固件变更历史........................4110维护..............................4211维修..............................4211.1概述...............................4211.2备件...............................4211.3返厂...............................4211.4废弃...............................4212附件..............................4212.1设备专用附件........................4312.2通信专用附件........................4312.3服务专用附件........................4312.4系统组件............................4413技术参数..........................4513.1输入...............................4513.2输出...............................4613.3电源...............................4713.4性能参数............................4813.5环境条件............................5513.6机械结构............................5613.7证书和认证..........................5913.8补充文档资料........................6114操作菜单和菜单参数说明...........6214.1Diagnostics:诊断菜单.................6614.2Application:应用菜单.................7214.3System:系统菜单....................82索引.. (97)文档信息iTEMP TMT724Endress+Hauser1 文档信息1.1 文档功能文档中包含仪表生命周期各个阶段内所需的所有信息:从产品标识、到货验收和储存,至安装、电气连接、操作和调试,以及故障排除、维护和废弃。

Extech 380820 使用手册说明书

Extech 380820 使用手册说明书

User's GuideUniversal AC Power Source + AC Power AnalyzerModel 380820IntroductionCongratulations on your purchase of the Extech Model 380820. This Universal AC Power Source and AC Power Analyzer can be used to test products in the range of 85 to 250VAC with a frequency range of 45 to 65Hz. This unit also features a Standby PowerMeasurement feature (10mW to 100W) for testing desktop and notebook PCs, LCD TVs, AC adaptor/chargers, and other products that continue to use power when connected to AC even though they are not in use. The Power Quality Measurement function can monitor Watts, Power Factor, Voltage, Current and Harmonics and includes a Cost FunctionCalculation mode for finding a product’s cost per day, month or year. This meter is shipped fully tested and calibrated and, with proper use, will provide years of reliable service. SafetyTo ensure safe operation of the equipment and to eliminate the danger of serious injury from short-circuits (arcing), the following safety precautions must be observed: •Prior to connection of the equipment to the mains outlet, check that the available mains voltage corresponds to the voltage setting of the equipment.•Connect the mains plug of the equipment only to a mains outlet with an earth ground connection.•Do not place the equipment on damp or wet surfaces.•Do not subject the equipment to direct sunlight or extreme temperatures.•Do not subject the equipment to extreme humidity or dampness.•Replace a defective fuse only with a fuse of the original rating. Never short circuit the fuse or the fuse housing.•Do not exceed the maximum permissible input rating.•Comply with the warning labels and other information printed on the equipment.•Do not insert metal objects into the equipment by way of the ventilation slots.•Do not place water-filled containers on the equipment.•Do not operate the equipment near strong magnetic fields (motors, transformers, etc.).•Do not subject the equipment to shock or strong vibration.•Keep hot soldering irons away from the equipment.•Allow the equipment to stabilize at room temperature before use.•Do not modify or customize the equipment.•Do not place the equipment face-down on a work surface, table or work bench.•All service and repair must be performed by qualified service personal.•Do not block the ventilation openings of the unit.•This unit must be used within the specified ratings, regular excessive continuous loading may cause damage to the power supply.•The gauge size of the input power cable must be at least 3” (75mm) and the total length of power cable must not exceed 118” (3m)Safety SymbolsPlease read the statement thoroughly to prevent injury or loss of life, and preventdamage to this product.Earth/Ground Terminal ~This unit has been tested and meets or exceeds the following standards: 1. EN61326-1: 2006: (CISPR11, IEC/EN 61000-3-2:2006, IEC/EN61000-3-3: 1995+A1: 2001+A2: 2005 IEC/EN 61000-4-2/-3/-4/-5/-6/-11)2. EN61010-1: 2001AC (Alternating Current)Front Panel Description81.Front Output Socket: Use the following formula to determine the continuous use capability of the output: Time (t) = 100 / Watt (w). For example, 100W power can be continuously output for 1 minute and 50W could be continuously output for 2 minutes. Switch off the tester for 20 minutes (for ventilation) between output sessions.2.OPER/STBY: Press to enable/disable the output. When the unit is in STBY mode, the output is 0 volts. When the unit is in OPER mode, the power will not output until the voltage level is stable; this is to prevent damage to connected devices from unstable voltage.3. Å Backspace: If a typing error is made, use the Å button to clear the digit to the left.4. LCD: Liquid Crystal Display5.RECALL: Recalls stored voltage and frequency values (there are 99 sets of preset values in the memory). The currently selected voltage and frequency values will clear when the RECALL button is pressed. Type a memory location number (1 to 99) and then press the V.ENTER button to confirm. If no data is stored in a particular location, the LCD will display “BLANK number” (e.g. “BLANK 33”). Use the STORE button to save a voltage/frequency value to a memory location.6. Numeric Keypad: The numeric keypad is a user programming interface.7. Moves the cursor to the next digit.8. OUTPUT FRONT/REAR: Selects the output. Press downward to display the Rear Output status. Press upward to display the Front Output status. 9.Increases a value.10. Decrease a value.11. POWER ON/OFF: Press to switch the supply ON or OFF. 12. V.ENTER: Press to confirm a program entry.13. $: Calculates the power rate. Type the power rate first, then press $ to confirm. Whenthe unit is in OPER mode, the power rate per day/month/year will be displayed. 14. OCP: Preset value of the Over Current Protection. Type the value for over-currentprotection and then press OCP to confirm. 15. Hz: Press to enter the frequency programming mode for the front output. Type thedesired frequency and then press Hz to confirm. 16. FUNC: Press to view THD (total harmonic distortion), voltage, current, and harmonics(1st to 50th) for the output power. 17. STORE: Press to save the currently programmed voltage and frequency to one of thememory locations (1 to 99) and press V.ENTER to confirm. The currently selected voltage and frequency will be stored in the selected memory location.1. Ventilation: Please keep these openings clean and always leave room for ventilation at the rear of the unit.2.POWER INPUT: Socket for external power input (contains a 10A fuse). The input is selectable (110V or 220V) and must match the voltage selected by the Voltage Switch.3. RS232 Connector: For connection to a PC serial port.4. Voltage Switch: Selects the voltage (110 or 220V) of the input power.5.Rear Output SocketCAUTION! The rear output socket is “LIVE” whenever the instrument power cord is plugged in!OperationPreparation for use1. Place the supply on a flat levelsurface.2. Select the input voltage using theswitch (1) on the rear of the supply.3. Ensure that the sides and the back ofthe unit are not blocked. Leave atleast 2” (5 cm) of space for goodventilation.Basic Test Setup DiagramConnect the Unit Under Test to the 380820.Front and Rear Output SelectWhen the unit is switched ON,use the OUTPUT button to select the display for the Front or Rear output data. When the push button is in the out position, the LCD displays the data for the Front output. Whendepressed, the LCD will display the power data for the Rear output.Setting the Voltage Output (Front Output)1. Type the desired voltage value and press V.ENTER to confirm. The available voltagerange is 85 to 250V.2. Check that the displayed voltage output settings are as desired on the LCD display.3. If a typing error is made use the Å button to clear a digit.4. Press the STBY/OPER button to enable the power supply output.5. To change the values of voltage use thedesired digit and then use the ▲▼to increase or decrease the value.Warning: When the unit is placed in STBY mode, the output is 0V;however the output terminals are still physically connected tothe internal circuit.Frequency Output (Front Output)1. Type the desired frequency value and then press the Hz button to confirm. Thefrequency range is 45 to 65 Hz.2. Ensure that the displayed frequency output settings are as desired.3. If a typing error is made, use the Å button to clear a digit.4. Press the STBY/OPER button to enable the power supply output.5. To change the voltage value, use thedesired digit and then use the ▲▼to increase or decrease the value.Setting the Over Current Protection (OCP) value (Front Output)1. Type the desired OCP (Over Current Protection) value and press the OCP button toconfirm. The OCP range: is 0.100A to 1.500A. Carefully verify this critical OCP value;this value will not change when the unit is powered OFF.2. When the unit is in the OPER Output mode, changing the OCP value or the Voltagevalue will cause the mode to change from OPER to STBY (standby) mode. Therefore pay careful attention to this operation.Storing and Recalling Voltages and Frequencies (Front Output)Often used Voltage and Frequency values can be stored in memory for quick recall. This instrument offers 99 memory locations.To Store:1. Ensure that the desired voltage and frequency values are correctly set.2. Press the STORE button (“verify STORE _” appears on display).3. Assign a memory location number from 1 to 99 using the numeric keypad.4. Press the V.ENTER button to confirm and save to the memory location.5. When the unit is in the OPER Output mode, changing the OCP value or the Voltagevalue will cause the mode to change from OPER to STBY (standby) mode. Therefore pay careful attention to this operation.To Recall:1. Press the RECALL button (“Verify RECALL_” appears on display).2. Select the desired memory location (1 to 99) using the numeric keypad.3. Press the V.ENTER button to confirm. The previously stored voltage/frequencyconfiguration for the selected memory location will now be recalled.Note: For an empty memory location, the LCD will display ‘BLANK’‘Cost of Electricity’ FunctionCalculate the cost of electricity in kilowatt-hours (KWh) over a specific period of time using the ‘Cost of Electricity’ function.1. Program the power cost per KWh and press the $ button.2. When the unit is in OPER Output Mode, changing the OCP value or the Voltage valuewill switch the mode from OPER to STBY (standby). Therefore pay careful attention to this operation. 3. In the OPER Mode, press the OPER/STBY button. The cost for the tested instrumentper DAY/ MONTH/ YEAR will be displayed (left to right). 4. Press the $ button again to return to the normal power data display mode.Month Year DayHarmonics Display: (Rear Output)1. The LCD displays the power data of the Rear Output.2. When the FUNC button is pressed, the LCD will display Voltage, THD andharmonics (n=1~50). Use the ▲▼ buttons to select the harmonics to be displayed.3. When the FUNC button is pressed again, the LCD will display the value of Current.Press the FUNC button again, the LCD will return to the power source display forthe Rear Output.SafetyIf the power supply does not switch ON or if the previous load was larger than 10A, it is possible that the 10A fuse was blown. Please remove the input power source and check the fuse located under the input power source connector on the rear of the unit. If the fuse is damaged please replace it using a high quality fuse which meets the specifiedrequirements (250V, 10A).Front Output Overheating ProtectionThe maximum output for the front output is 100VA (V x A) for 2 minutes. The output duration is longer when the VA is smaller. When VA is less than 25VA, the output is continuous.If the output value exceeds the specified limits, the output will be placed in STANDBY mode and the LCD will display “OVERHEATED”. A displayed timer indicates the remaining cooling time that must elapse before the unit can be switched ON again; When thedisplayed timer counts down to zero press the OPER button.Warning: Switch the unit OFF within 10 minutes of an overheating condition. The unit should then be left idle for 5 minutes after power is switched ON.PC Interface for Data AcquisitionThe 380820 can be connected to a PC where readings can be logged in real-time as they are taken. Transferred reading data can be viewed, plotted, statistically analyzed, printed, and saved in the software program included with the unit. The data can also be exported and saved in a .csv format which can be easily opened in spreadsheet programs. Please refer to the Software User Manual for the 380820 for further instructions.SpecificationsFront Panel Specifications (AC sine wave output, bandwidth 1kHz)Function Range Resolution Accuracy Comment Voltage 85V to 250V 0.1V ±1% THD < 2%Frequency 45Hz to 65Hz 0.01Hz ± 0.1 Hz - Power 10mW to 100W 0.1mW ± 1 % ± 0.05W -5mA to 0.6A ± 1 % ± 0.5mA Current0.6A to 1.5A0.1mA/ 1mA± 1 % ± 5mASee notes: 1, 2Power FactorPF (0 ~ 1)0.001PF ± 0.04- NOTE 1: The maximum output power is approximately 100VA for duration of 2 minutes; therefore the output current may be varied according to the voltage value. For example, after setting the voltage to ≧150V, the maximum output current will be 0.75A.NOTE 2: The output duration can be longer than 2 minutes if the output is less than 100VA. If the output is less than 25VA then the output can run continuously.Rear Panel Specifications(Max. 2000VA/220V, 1100VA/110V, AC Measurement)Function Range Resolution Accuracy Power 100mW to 2000W 0.1mW/1mW/ 0.01W/0.1W/1W± 1 % ± 0.5WVoltage 85V to 250V 0.1V ± 1 % 5mA to 0.6A ± 1 % ± 5mA 0.6A to 1.5A ± 1 % ± 50mA Current1.5A to 10A0.1mA/ 1mA/ 0.01A ± 1 % ± 0.1A Power Factor PF (0~1) 0.001PF ± 0.04 Frequency 45Hz to 65Hz 0.01Hz± 0.1Hz THD (0.0 - 20.0%) ± 2%THD (20.0 –100%) ±3% of reading ±5%THDTHD (100 –999.9%)0.1%±10% of reading ±10% Hn (1 – 10th) mA: ±1.4% of reading ±5mA A: ±1.4% of reading ±0.3A Hn (11 – 20th ) mA: ±4% of reading ±5mAA: ±4% of reading ±0.3A Hn (21 – 50th ) Amp range mA: ±10% of reading ±5mA A: ±10% of reading ±0.3A HarmonicsHn (21 –50th ) mA range0.1mA/ 0.001A/0.01AmA: ±20% of reading ±5mA A: ±20% of reading ±0.3AGeneral SpecificationsInput Power Source: 110V (90V - 130V) / 220V (200V - 240V),45Hz – 65Hz, Max. 10APower Fuse: 250V 10AOperation Humidity: ±85% RHOperation Temperature: 4℃ to 60℃ (40°F to 140°F)Accessories: Power cord, Software CD-ROM, RS232C to USB cable Dimensions: 260mm x 151mm x 305 mm (10.2” x 5.9” x 12.0”)Weight: 9.9 kg s (21.8 lb)Copyright © 2009 Extech Instruments Corporation (a FLIR company)All rights reserved including the right of reproduction in whole or in part in any form.。

Extech 381395 5MHz 双通道数据记录多频率测试仪说明书

Extech 381395 5MHz 双通道数据记录多频率测试仪说明书

Ordering Information:381395..........5MHz Dual Channel Datalogging MultiScope ®Specifications subject to change without notice.Copyright © 2007-2008 Extech Instruments Corporation.All rights reserved including the right of reproduction in whole or in part in any form.Features:•Easy to use menu driven operation •Internal or External Triggering•Auto or Manual setup for horizontal and vertical scaling •Single shot mode•Window freeze locks waveform in the display •Roll Mode for slow repetition waveforms •Store and Recall up to 16 waveforms and setups•Sampling Time: 25MS/s Dual Channel; 50MS/s Single Channel •132 x 128 Pixel Super-Twist two level backlit display •Data Hold and Low Battery indication•MultiMeter functions include AC/DC Voltage, Resistance, Continuity,Frequency, RPM, Pulse Width, % Duty Cycle, Max/Min/Avg,Relative, and Compare (Go-NoGo)•USB Interface and software for transferring waveforms and dataDatalogging functionStores up to 17,000 data points with 25MS/s dual channel sampling time (50MS/s single channel)5MHz Dual Channel Datalogging MultiScope ®Specifications:Oscilloscope Bandwidth5MHzMax.Sample Rate per Channel 25MS/s (dual channel); 50MS/s (single channel)Record Length 512 single shot; 256 all other modes Sample ModeSingle shot,Roll,Normal Max Vertical Sensitivity 50mVMax Input Voltage 600V DC or AC rms Trigger Modes Auto,Normal,SingleTrigger Source Channel A,Channel B,External Trigger Coupling AC,DC Timebase1µS to 5S Input Impedance 1MΩSpecifications:Datalogger Memory17,000 points Sampling Rate 0.25S/s to 60S/s Sampling Mode Peak,Sampling Time ClockReal Time Clock Specifications:MultiMeterDC Voltage0.1mV to 1000V (0.3% basic accuracy)AC Voltage (TRMS)0.m1 to 750V (50-20kHz bandwidth)Resistance 0.001kΩto 5MΩContinuity Test voltage 1.7V; threshold 100 digits Frequency 0.01Hz to 10MHz RPM240-60,000Pulse Width 2µs to 500ms Duty Cycle25% to 75%Dimensions/Weight 7.7 x 3.5 x 1.6”(195 x 90 x 40mm)/1.6lbs (730g)Complete with meter,4 test leads with alligator clips,protective holster,Ni-MH battery pack,Universal AC adaptor/ charger,cable,Windows ®compatible software,and case。

Amprobe 38XR-A 数字多功能多 Samuel Multimeter 产品说明书

Amprobe 38XR-A 数字多功能多 Samuel Multimeter 产品说明书

Data Sheet38XR-ADigital Multimeter Frequency to 10 MHz,■capacitance to 400 uF,temperature to 2372 °FDuty cycle, dBm and 4 to 20 mA■True RMS digital multimeter with opticalPC interface for engineers designingand troubleshooting industrialautomation and control systems.Amprobe® Test ToolsData SheetFunctionRangeAccuracySpecifications (23 °C ± 5 °C, <75 % R.H. non-condensing)General Specifications38XR-A Digital Multimeter DC Voltage Ranges 1000 mV, 10 V, 100 V, 1000 V ± (0.25 % rdg + 5 dgt)Resolution 100 μV AC Voltage (45 Hz to 2 kHz) True RMS Ranges 1000 mV, 10 V, 100 V, 750 V Accuracy 750 V range: 45 to 1 kHz: ± (2.0 % rdg + 10 dgts)All other ranges, 45 to 500 Hz: ± (1.2 % rdg + 10 dgts) All other ranges, 500 to 2 kHz: ± (2.0 % rdg + 10 dgts)AC coupled True RMS specified from 5% to 100 % of range AC + DC Voltage (45 Hz to 2 kHz) Ranges 1000 mV, 10 V, 100 V, 750 V Accuracy 750 V range: 45 to 1 kHz: ± (2.5 % rdg + 10 dgts) All other ranges, 45 to 500 Hz: ± (1.5 % rdg + 10 dgts) All other ranges, 500 to 2 kHz: ± (2.5 % rdg + 10 dgts)Resolution 100 μVDC coupled True RMS specified from 5 % to 100 % of range DC Current Ranges 100 μA, 1000 uA, 10 mA, 100 mA, 400 mA, 10 A Accuracy 100 μA range: ± (0.5 % rdg + 10 dgt) 1000 uA to 400 mA ranges: ± (0.5 % rdg + 5 dgts) 10 A range: ±(1.5 % rdg + 10 dgt)Resolution 0.01 μA AC Current (True RMS) ( AC + DC) (45 Hz – 1kHz) Ranges 100 μA, 1000 μA, 10 mA, 100 mA, 400 mA, 10 A Accuracy 100 μA to 100 mA ranges: ± (1.5 % rdg + 20 dgts) 400 mA range: ± (2.0 % rdg + 10 dgts) 10 A range: ± (2.5 % rdg + 20 dgts)Resolution 0.01 μAAC coupled True RMS specified from 5 % to 100 % of range AC + DC Accuracy 100 μA to 400 mA ranges: ± (2.0 % rdg + 20 dgts) 10 A range:± (3.0 % rdg + 20 dgts)AC + DC: AC coupled True RMS specified from 10 % to 100 % of range Resistance Ranges 1000 W , 10 k W , 100 k W , 1000 k W , 10 M W , 40 M W Accuracy 1000 W to 1000 k W ranges: ± (0.5 % rdg + 8 dgts) 10 M W range: ± (1.0 % rdg + 10 dgts) 40 M W range: ± (2.0 % rdg + 10 dgts)Resolution 100 m WAutoranging Display:4-3/4 digit LCD, 10,000 counts with 41-segment analog bar graph Display Update Rate: 2/sec, nominalPower Battery: 9 V NEDA 1604, JIS 006P, IEC 6F22Battery Life:150 hrs typical (alkaline) frequent use of backlight will decrease battery life; Operating Temperature: 0 °C to 45 °C at < 70% R.H.Storage Temperature: -20 °C to 60 °C, 0 to 80 % R.H. with battery removed from meter Temperature Coefficient: 0.1 x (specified accuracy) per °C (0 °C to 18 °C , 28 °C to 45 °C)Altitude: 2000 m (6562 ft)Dimensions: 196mm x 96mm x 60 mm (7.8” x 3.55” x 2.4”) Weight:400 gr (1 lb) without holster, including batteryData SheetFunctionRangeAccuracySpecifications (23 °C ± 5 °C, <75 % R.H. non-condensing), cont.Capacitance Ranges 40 nF, 400 nF, 4 μF, 40 μF, 400 μF Accuracy 40 nF, 400 μF ranges: ± (3.0 % rdg + 10 dgts)400 nF to 40 μF ranges: ± (3.0 % rdg + 5 dgts)Resolution 0.01 nFTemperature Ranges -20 °C to 1300 °C, -4 °F to 2372 °F Accuracy -20 °C to 10 °C: ± (2.0 % rdg + 4 °C ) 10 °C to 200 °C: ± (1.0 % rdg + 3 °C ) 200 °C to 1300 °C: ± (2.0 % rdg + 2 °C ) -4 °F to 50 °F: ± (2.0 % rdg + 8 °F) 50 °F to 400 °F: ± (1.0 % rdg + 6 °F)400 °F to 2372 °F: ± (2.0 % rdg + 4 °F)Resolution 1 °C, 1 °FFrequency Ranges 100 Hz, 1000 Hz, 10 kHz, 100 kHz, 1000 kHz, 10 MHz ± (0.1% rdg + 5 dgts) Resolution 0.01 HzDuty Cycle Ranges 0 to 90 % Accuracy 5 V logic: ± (2.0% rdg + 10 dgts)Resolution0.01 %Frequency Range 0 % to 10 %: 40 Hz to 990 Hz10 % to 90 %: 40 Hz to 20 kHz 4 - 20 mA DC Current Test Range0 – 100 % ± (0.5 % + 5 dgts)Resolution 0.01 %dBmRanges -13 dBm to + 50 dBmAccuracy 45 Hz to 5 kHz: ± (0.7 dB + 8 dgts)5 kHz to 10 kHz: ± (2.5 dB + 8 dgts) Resolution 0.01 dBm ContinuityAudible Indication < 40 WDiode TestTest Current0.5 mA (approximate) Open Circuit Volts 3.0 V DC typicalPeakAC Volts Accuracy 100 V, 750 V ranges:± (3.0 + 200 dgts) AC Current1000 mV, 10 V ranges: unspecified± (3.0 + 200 dgts)Overload Protection AC/DC Voltage 1000 V DC or 750 V AC RMSAC/DC Current μA/mA input: F0.5 A /1000 V fast-blow ceramic 6.3 x 32 mm10A input: F10 A /1000V fast-blow ceramic 10 x 38 mmAmprobe® Test Tools Data SheetAmprobe® Test Toolswebsite: email:****************Everett, WA 98203 Tel: 877-AMPROBEAmprobe® Test Tools Europe In den Engematten 1479286 Glottertal, Germany Tel.: +49 (0) 7684 8009 - 0©2007 Amprobe Test Tools. All rights reserved.9/2007 3128715 Rev A38XR-A Digital MultimeterIncluded AccessoriesTest leads with threaded alligator clips (TL36A), temperature adaptor (TA-1), Type K thermo-couple probe (TP255A), 9 V battery (installed), Magne-Grip™ Holster with magnetic hanging strap, spare fuse, users manualOptional Accessories VC221B Padded Vinyl Carry Case DL248D Deluxe Test Lead Kit DC207C Heavy Duty Case HV231-10A High Voltage Probe TP254A High Temperature Probe 38-SWARS232 Cable and Software。

Power Xpert Meter 1000 Series 电源级功率和能耗计量仪说明说明书

Power Xpert Meter 1000 Series 电源级功率和能耗计量仪说明说明书

Help control and reduce your costs with revenue grade power and energy meteringGeneral descriptionThe Power Xpert ® Meter 1000 Series power and energy meters monitor the most critical aspects of an electrical distribution system. This premier metering instrument uses the latest in advanced technology to make it simple to use, powerful, scalable, and highly flexible. ApplicationsIdentify power quality problems to help:• Protect motors from damage •Preserve the integrity of processes and batches •Prevent blown capacitor bank fuses•Protect transformers and conductors from overheatingMonitor circuit loading to help:•Avoid overloads and nuisance overload trips •Maximize equipment utilization•Manage emergency overloadsManage energy utilization to help:•Reduce peak demand charges and power factor penalties •Identify excessive energy consumptionFinding a solution to accurately control and manage your energy usage to save money is not always easy. Having the ability to accurately allocate billing in a light commercial property would be an ideal solution to help solve this problem. Not to mention meeting today’s stringent energy codes, system compatibility, and a solution that helps prevent facility downtime along with actionable insights can be even more difficult. Eaton’s Power Xpert Meter 1000 (PXM1000)gives you the ability to do just that.Power Xpert Meter 1000Power Xpert Meter 1000 SeriesFeatures* The PXM1300 takes 512 samples per cycle. For the waveform capture function on the PXM1300 the sample rate is 64 samples. 2Features• 100 ms refresh, true rms measurement• ANSI C12.20 (0.2 Class) and IEC 62053-22 (0.2S Class)• CT input to measure neutral current available on some models• Up to 16 MB onboard memory • Power quality analysis• Over/under limit alarm• RS-485 communication port • Supports Modbus® RTU, DNP 3.0• Switch status monitoring• Waveform capture• Measure individual harmonicsfrom 2nd to 63rd• Physical anti-tampering seal• 50/60 Hz and 400 Hz ratedfrequency metering• Modular design• Panel Mounted• DIN Rail Transducer option• Data logging• TOU (time of use), 4 tariffs,12 seasons, 14 schedules• Optional communicationsmodules are available forModbus TCP, BACnet IP andEthernet IP.Why Eaton?We understand saving andaccurately allocating your energyusage is important, alongwith meeting stringent codesand standards, and findingthe perfect fit for your powermanagement system. That’s whyEaton is continuing to developinnovative and connectedmetering solutions that will helpsolve your day to day challenges,no matter the application.ANSI C12.20 | IEC 62053-22 Metering accuracyCT TYPE INPUTS5A | 333mV | Rogowski coilsFor more information, please visit:eatoncanada.ca/metersor contact your local Power Xpertapplication engineer, for more information.Eaton is a registered trademark.All other trademarks are property oftheir respective owners.EatonElectrical Sector Canadian Operations 5050 Mainway Burlington, ON L7L 5Z1 Canada EatonCanada.ca© 2023 EatonAll rights reservedPrinted in CanadaPublication number: SA005018EN July 2023Follow us on social media to get the latest product and support information.。

  1. 1、下载文档前请自行甄别文档内容的完整性,平台不提供额外的编辑、内容补充、找答案等附加服务。
  2. 2、"仅部分预览"的文档,不可在线预览部分如存在完整性等问题,可反馈申请退款(可完整预览的文档不适用该条件!)。
  3. 3、如文档侵犯您的权益,请联系客服反馈,我们会尽快为您处理(人工客服工作时间:9:00-18:30)。

3
382100-zh-CN_V2.5
4/15
1.2 安全
小心:触电风险。在测量时不要尝试打开或拆卸仪表 小心:不要尝试测量超出指定限额的电压或电流 打开电池仓盖之前从仪表上卸下测试线 清洁时,只用干布擦拭仪表外壳。不要使用任何类型的液体清洁仪表 安全符号: 小心 触电风险
环境条件 装置类别 III 600V 污染等级 2 最大海拔高度:2000m 仅限室内使用 最大相对湿度:80%
o o
数据记录错误 数据输出 工作温度 工作相对湿度 电源
功 耗 最大 导线尺寸 重量 尺寸
仪表:300 mA DC;钳口:34 mA DC 钳口可以容纳直径长达 86 mm(3.4”)的导线 仪表:955g(2.1 lbs.)(含电池);钳口:467g(1.0 lbs.) 仪表:225 X 125 X 64 mm(8.86 X 4.92 X 2.52“) 钳口:210 X 64 X 33mm(8.3 X 2.5 X 1.3”) 钳口:86 mm(3.4”)
分辨率
0.1V
精度
±(0.5% + 0.5V)
ACA
量程
20A 200A 1200A
分辨率
0.001A (<10A) / 0.01A (≥10A) 0.01A (<100A) / 0.1A (≥100A) 0.1A (<1000A) / 1A (≥1000A)
精度
±(0.5% + 0.1A) ±(0.5% + 0.5A) ±(0.5% + 5A)
包括附件
说明书 测试导线:1 套(4 条) 鳄鱼夹:1 套(4 个) 钳式探头(3) 交流转 9V 直流适配器 SD 卡(4G) 便携箱
2.1 电气规格
注:当处于活动状态的电源值(P1,P3)和视在功率值(S1 和 S3)显示“-”符号,当前探头放在极性反接关于 测量的电流。 ACV
量程
10.0V 至 600.0V 相到中性线 10.0V 至 600.0V 相到相
± 1°* ACOS (PF)
频率
量程
45 至 65 Hz
分辨率
0.1 Hz
精度
0.1 Hz
有功(有效)功率
量程
0.000 至 9.999 KW 10.00 至 99.99 KW 100.0 至 999.9 KW 1.000 至 9.999 MW *更改分辨率根据 ACA 范围 视在功率
分辨率
0.001/0.01/0.1 KW* 0.01/0.1 KW* 0.1 KW 0.001 MW
VA 小时(视在功率小时):SH
量程
0.000 至 9.999 KVAH 10.00 至 99.99 KVAH 100.0 至 999.9 KVAH 1.000 至 9.999 MVAH
分辨率
0.001 KVAH 0.01 KVAH 0.1 KVAH 0.001 MVAH
精度
±(2%+0.008 KVAH) ±(2%+0.08 KVAH) ±(2%+0.8 KVAH) ±(2%+0.008 MVAH)
功率系数
量程
0.00 至 1.00 PFH(功率因数小时):长期功率因数 配置: 1Φ 3W PF ห้องสมุดไป่ตู้ / S 配置: 1Φ 2W PF1 = P1 / S1
分辨率
0.01
精度
± 0.04
6
382100-zh-CN_V2.5
4/15
相位角
量程
-180° 至 180°
分辨率
0.1°
精度
1.0
简介
恭喜您购买 382100 型功率分析仪。本仪表在发货前已经过全面测试和校准;正确并小心使用此仪 表,便可常年享受其可靠服务。
1.1 功能特点
大屏幕点阵、数字、背光液晶屏 多达 35 个参数的全系统分析: V(相到相)、V(相对地) A(相对地) KW / KVA / KVAR / PF(相) KW / KVA / KVAR / PF(系统) KWH / KVAH / KVARH / PFH(系统) 相位角
分辨率
0.001/0.01/0.1 KVA* 0.01/0.1 KVA* 0.1 KVA 0.001 MVA
精度
±(1%+0.008KVA) ± (1%+0.08KVA) ± (1%+0.8KVA) ±(1%+0.008MVA)
量程
0.000 至 9.999 KVAR 10.00 至 99.99 KVAR 100.0 至 999.9 KVAR 1.000 至 9.999 MVAR *更改分辨率根据 ACA 范围
用户手册
型号 382100
目录
1.0 简介 1-1 特点 ....................................................... .3 1-2 安全 ....................................................... .4 2.0 规格 2-1 一般规格 .......................................................5 2-2 电气规格 ...................................................... .5 3.0 4.0 仪表描述 ...................................................... .9 测量准备 4-1 初始化屏幕 ....................................................... .10 4-2 进入测量屏幕.................................................... 10 4-3 键区概览 ....................................................... .10 4-4 设置按钮 ......................................................... .11 4-5 仪表设置功能(SD 卡、电压/电流、蜂鸣器、小数点、钳口类型、RS-232、时间/ 日期、重置按钮) ................................................. .12 5.0 测量制式 5-11Φ 2W(单相两线)测量 .........................................25 5-21Φ 3W(单相三线)测量 .........................................26 5-33Φ 3W(三相三线)测量 .........................................27 5-43Φ 4W(三相四线)测量 .........................................28 5-5 CT 和 PT 测量 .................................................... .29 5-6 数据记录仪.......................................................... 30 5-7 数据保持 ..................................................... .31 5-8 显示屏背光按钮 ............................................... .32 5-9 A (电流)量程按钮............................................... .33 5-10 LOWBAT(低电量)屏幕 ........................................ .34 5-11 附录 - 测量定义............................................... .35 6.0 维护 6-1 清洁 ........................................................... .35 6-2 电池更换 ....................................................... .35 7.0 PC 接口 7-1 RS-232 协议 .............................................. .36 7-2 从 SD 卡下载数据 .......................................... 37 2 382100-zh-CN_V2.5 4/15
4/15
瓦小时(有功功率小时):WH
量程
0.000 至 9.999 KWH 10.00 至 99.99 KWH 100.0 至 999.9 KWH 1.000 至 9.999 MWHR
分辨率
0.001 KWH 0.01 KWH 0.1 KWH 0.001 MWH
精度
±(2%+0.008 KWH) ±(2%+0.08 KWH) ±(2%+0.8 KWH) ±(2%+0.008 MWH)
40 Hz 至 1 KHz 45 至 65 Hz ACV ACA 720 ACV RMS 钳式探头 1300 ACA
超量程指示 欠量程指示 数据保持 数据记录 采样时间 数据记录仪
“OL”字符 “OR”字符 冻结显示的读数 SD 存储卡 约 1 秒 实时数据记录仪将数据保存到 SD 存储卡并下载到 PC(数据文件直 接以电子表格格式打开) 采样率:从 2 秒至 7200 秒 ≤0.1%的总数量的已保存的数据(典型) 串口或 USB 连接(随附电缆) 0 至 50 C(0 至 122 F) 最高相对湿度 80% 八(8)节‘AA’1.5VDC 电池或 AC - DC 9V 电源适配器 5 382100-zh-CN_V2.5 4/15
相关文档
最新文档