fluke测试仪操作手册

fluke使用说明书福禄克flukedtx系列(dtx-1800,dtx-1200,dtx-lt)简单操作步骤说明:一、福禄克测试仪初始化步骤：1、充电：产品主机、辅机分别用电源适配器充电，直至电池显示灯转为绿色；2、设置语言：操作方式：将flukedtx系列产品主机旋钮转回至“setup”档位，按右下角绿色按钮开机；采用↓箭头；选上第三条“instrumentsetting”（本机设置）按“enter”步入参数设置，首先采用→箭头，按一下；步入第二个页面，↓箭头挑选最后一项language按“enter”步入;↓箭头挑选最后一项chinese按“enter”挑选。

将语言选择成中文后才展开以下操作方式。

3、自校准：取flukedtx系列产品cat6a/classea永久链路适配器，装在主机上，辅机装上cat6a/classea通道适配器。

然后将永久链路适配器末端插在cat6a/classea通道适配器上；打开辅机电源，辅机自检后，“pass”灯亮后熄灭，显示辅机正常。

“specialfunctions”档位，关上主机电源，表明主机、辅机软件、硬件和测试标准的版本（辅机信息只有当辅机开机并和主机相连接时才表明），自测后表明操作界面，挑选第一项“设置基准”后（例如看错用“exit”选择退出重复），按“enter”键和“test”键已经开始自校准，表明“设置基准已完成”表明自校准顺利顺利完成。

二、设置福禄克测试仪基本参数操作：将flukedtx系列产品主机旋钮转至“setup”档位，使用“↑↓”来选择第三条“仪器值设置”，按“enter”进入参数设置，可以按“←→”翻页，用“↑↓”选择你所需设置的参数，按enter进入参数修改，用“↑↓”选择你所需采用的参数设置，选好后按enter选定并完成参数设置。

1、新机第一次采用须要设置的参数，以后不须要修改。

（将旋钮转回至“setup”档位，采用↓箭头；选上第三条：仪器设置值按enter步入如果回到上一级恳请按exit）：1)线缆标识码来源：（一般使用自动递增，会使电缆标识的最后一个字符在每一次保存测试时递增一般不用更改）2)图形数据存储：（就是）（否）通常情况下挑选（就是）3)当前文件夹：default可以按enter进入修改其名称（你想要的名字）4)结果存放位置：（使用默认值“内部存储器”假如有内存卡的话也可以选择“内存卡”）5)按→进入第2个设置页面，操作员：youname按enter进入按f3删除原来的字符“←→↑↓”来选择你要的字符选好后按enter确定11)长度单位：通常情况下挑选米（m）2、新机不须要设置使用原机器默认值的参数：1)电源停用超时：预设30分钟2)背光超时：预设1分钟3)可以听音：预设就是4)电源线频率：默认50hz5)数字格式：预设就是00.06)将旋钮转至“setup”档位选择双绞线按enter进入后nvp不用修改7)光纤里面的设置，在测试双绞线是不须修改3、采用过程中经常须要改动的参数：将旋钮转至“setup”档位，选择双绞线，按enter进入：线缆类型：按enter进入后按↑↓选择你要测试的线缆类型例如我要测试超5类的双绞线在按enter进入后选择utp按enter↑↓选择“cat5eutp”按enter返回。

FLUKE 922风速测试仪使用方法
FLUKE922风速仪的操作使用
FLUKE922风速仪是利用皮托管测量空气流速和使用橡胶软管测量差压的仪器。

FLUKE922差压仪操作非常简单，现将FLUKE922风速仪的操作要点总结如下，供大家参考！
电源
要启动或关闭Fluke922风速检测仪，请按O。

仪表由四节AA电池供电。

要更换电池，请参见“维护”。

度量单位
仪表可支持公制和美制度量单位。

使用Setup（设置）菜单选择希望使用的度量单位类型。

参见“设置菜单”。

注意
如果参数的测量值超出指定量程，仪表会显示“OL”。

背照灯
按C启动背照灯。

背照灯会在2分钟后自动熄灭。

自动关机
为了节约电池电量，仪表在20分钟无活动后会转换为睡眠模式。

要重新启动仪表，请按O。

若想禁用自动关机功能，启动仪表时请同时按住O和C，直到显示屏显示APO OFF。

重复此步骤可重新启用该功能。

The Fluke 62 Mini Infrared ThermometerFor quick, basic temperature checksAdvances in technology have made the smallest infrared ther-mometers, such as the Fluke 62 Mini, especially practical. They’re convenient to carry and afford-able enough for everyone on an entire crew to own one, so that infrared temperature measure-ment isn’t limited to specialists. And the latest models are more accurate and measure greater temperature ranges than earlier “mini” generations.Point, shoot and readTo use the Fluke 62 Mini Infrared Thermometer, use the laser sight-ing to pinpoint the target, and pull the trigger to see the tem-perature on the built-in display.Increases in temperature are often the first sign of trouble for mechanical equipment, electri-cal circuits and building systems such as heating, ventilation and air conditioning (HVAC). A quick temperature check of key compo-nents and equipment can detect potential problems and prevent catastrophic failures. Regular contact measurement with a thermometer and probe takes time and can require gettingclose to dangerous or inaccessible operational equipment or shutting equipment down. Non-contact infrared (IR) thermometers take quick, safe measurements from a distance while equipment is operational.Application NoteFor more information on Fluke Predictive PART TWOof a predictive maintenance seriesCheck motor temperatures quickly, without contact.The thermometer works by measuring the infrared energy emitted from surfaces and con-verting the information into a temperature reading. It measures temperatures from -30 °C to +500 °C (-20 °F to +932 °F), is accurate to ± 1% of reading and can capture the maximum reading among a range of readings.While there are endless ways to use an infrared thermometer, here are the three primary ones:1) M easure the absolutetemperature at a spot. This is useful for trending thetemperature of an object such as a bearing housing over time. With a repeatability of ± 0.5 %, the new thermom-eters make this practice quite accurate.2) C ompare the temperature differential of two spots. For example to compare the run-ning temperatures of two like objects to determine if one is overheating.3) S can an object and detect changes within a continuous area on it, to find hot or cold spots on housings, panels and structures.Securing accurate measurementsThe uses for handheld infrared thermometers are limited only by the nature of infrared technology. The key restriction is the sur-face of the target object. Simply stated, these instruments cannot accurately measure shiny sur-faces. The issue is emitted versusreflected energy.CHAPTER 2.3EmissivityOf the kinds of energy—reflected, transmitted and emitted—emanat-ing from an object, only emitted infrared energy indicates the object’s surface temperature. Transmitted and reflected energy do not. When IR thermometers measure surface temperatures, they sense all three kinds of en-ergy. Therefore, they have to be adjusted to read emitted energy only. The Fluke 62 Mini Infrared Thermometer has a fixed, pre-set emissivity of 0.95, which is the emissivity value for most organic materials as well as painted or oxidized surfaces.To accurately measure the surface temperature of a shinyobject, cover the target surfacewith masking tape or flat blackpaint and allow enough timefor the tape or paint to reachthe temperature of the material underneath.Distance-to-spot ratioThe optical system of an infrared thermometer collects the infrared energy from a circular area or spot and focuses it on the detec-tor. The farther a target is fromcreated on the target will be. Optical resolution is defined by the ratio of the distance from theglass and, as noted, will be inac-curate if used to measure shiny or polished metal surfaces (stainless steel, aluminum, etc.).Users of IR thermometers also must be alert to environmen-tal conditions. Steam, dust and smoke, for example, can prevent accurate temperature readings by obstructing a unit’s optics. A dirty lens can also affect read-ings. Lenses should be cleaned with dry, clean plant air or a fluid made specifically for cleaning lenses. Also, changes in ambi-ent temperature can influence a thermometer’s performance. If an IR unit is exposed to abrupt temperature changes of 11 °C (20 °F) or more, the user should allow at least 20 minutes for the unit to adjust to the new ambienttemperature.instrument to the object com-pared to the size of the spot (“dis-tance-to-spot” or D:S ratio). For the Fluke 62 Mini the distance-to-spot ratio is 10:1. This means that at a distance of 10 inches the spot is about one inch in diam-eter. The larger its ratio number the better is the instrument’s resolution. Resolution is important becauseit relates directly to getting good readings by ensuring that the target is larger than the spot size. The smaller the target, the closer one must be to it. When accuracy is critical, the target should be at least twice as large as the spot. Other factors to consider These instruments measure only surface temperatures, not internal temperatures. Furthermore, they cannot take readings throughEven considering the limitations of infrared temperature moni-toring, there are still so many possible uses for this technology that trying to list them all would be fruitless. Here are some of the most common and particularly successful applications. Predictive maintenance Regular maintenance in industrial and institutional locations keeps motors, pumps and gearboxes from experiencing catastrophic failures that can halt production or pose safety problems. In an infrared maintenance program, technicians set up an inspection route and measurement param-eters for each piece of key equip-ment and/or component. Then, they take an infrared temperature measurement on a regular basis, record the measurement, and compare against previous read-ings for any changes.As an example, a technician can use a Fluke 62 Mini to check the operation of an induction motor on a critical piece of equip-ment. She or he would start by reading the unit’s specifications on the plate attached to it. The plate will reveal either a Temper-ature Rise Rating or a Motor Class Rating for the motor. The rise rat-ing gives the maximum allowable operating temperature above am-bient. The motor class rating, e.g. “Class A,” will reveal an absolute maximum operating temperature. Both pertain to internal-winding temperatures. Of course, a contact thermometer cannot measure these temperatures while the motor is running. However, an operator or technician can use a non-contact IR thermometer to measure the temperature of the motor case. She or he should add 10 °C (18 °F) to surface scans to determine the internal operating temperature. For each 10 °C (18 °F) above the maximum operating temperature, the life of the motor is likely to decrease by 50%.If the motor is extremely hot it could be a fire hazard.Using infrared thermometryfor plant maintenance reducesrepair costs and avoids equip-ment stoppages. Industrialmaintenance personnel, buildingmanagers, HVAC technicians andeven homeowners can reducecosts by repairing only whatneeds to be fixed. They can avoidunplanned equipment stoppagesby making specific, necessaryrepairs before equipment fails.Then, after repairs, they can per-form new temperature measure-ments on the same equipment todetermine whether the repairswere successful.Electrical inspectionsElectrical systems supply essen-tial power to every industrial,commercial and residential set-ting. With degradation over timeand the general vulnerability ofelectrical connections, it’s impor-tant to monitor electrical sys-tems for loose, dirty or corrodedconnections, flaws in transformerwindings, hot spots in panelboxes and other telltale signs oftrouble.The Fluke 62 Mini can beinvaluable for finding developinghotspots in electrical equipmentthat may indicate a short circuit,a fused switch or an overload. Ingeneral, higher operating temper-atures reduce the life of electricalcomponents by damaging insula-tion and raising the resistance ofconductor materials. Pinpointedby a non-contact IR thermometer,these situations signal that actionis required.Measure moving targets easily.Use unit in close range fornear-distance targets.HVAC inspectionsHeating and cooling systems, whether for maintaining pro-duction parameters or human comfort, are easily monitored with the Fluke 62 Mini Infrared Thermometer. Check air stratifica-tion, supply and return registers, furnace performance and steam distribution systems and conduct energy audits to pinpoint system upgrade opportunities.For example, IR non-contact thermometers can be used to troubleshoot steam traps, which are designed to remove water (condensate) that has condensed from the steam as it travels in transfer pipes. If a steam trap fails while open, it will leak steam, causing an energy loss. If it fails while closed, it won’t remove condensate from the steam line, making it useless. A faulty steam trap can cost a plant $500 USD or more per year, and in any given year, 10 % of all industrial steam traps fail. Since many plants have as many as 1,000 traps, they can quickly become high-value main-tenance targets.To verify whether a steam trap is working properly, use a non-contact thermometer like the 62 Mini to measure from input to output. On a properly operating trap, the temperature should drop significantly. If the temperature doesn’t drop, the steam trap has failed open and is passing super-heated steam into the condensate line. If the temperature drop is overly large, the trap may be stuck closed and is not ejecting heated condensate. Condensate in steam lines reduces the effec-tive energy of the steam and can cause difficulties in steam drivenprocesses.Use non-contact temperature measurements for inaccessible targets.Fluke.Keeping your worldup and running.Fluke CorporationPO Box 9090Everett, WA USA 98206Fluke Europe B.V.PO Box 1186, 5602 BDEindhoven, The NetherlandsFor more information call:U.S.A. (800) 443-5853 orFax (425) 446-5116Europe/M-East/Africa (31 40) 2 675 200 orFax (31 40) 2 675 222Canada (800) 36-FLUKE orFax (905) 890-6866Other countries (425) 446-5500 orFax (425) 446-5116Web access: ©2005 Fluke Corporation. All rights reserved.Printed in U.S.A. 6/2005 2517382 A-EN-N Rev A。

®Model T50Voltage/ContinuityTester Manual de instruccionesPN 2438510May 2005© 2005 Fluke Corporation. All rights reserved.Printed in China.Advertencias indicadas en el instrumento o en el manual de instrucciones:Atención! Advertencia:sitio peligroso.Observe el manual de instrucciones Advertencia! Importante.Tener en cu-enta.Cuidado! Peligro de tensión.Peligro de descarga eléctricaAislación doble o reforzada completa según clase II IEC 61140.hasta 690 V .Sello de conformidad CE, certifica el cumpli-miento de las normas vigentes.Se cumple el lineamiento EMV (89/336/EWG) i T am-bién cumple las normas de baja tensión (73/23/EWG).El manual de instrucciones contiene informaciones y advertencias necesa-rias para una correcta y segura utiliza-ción del instrumento.Antes de la utili-zación (puesta en marcha / montaje)del instrumento se debe leer atenta-mente el manual de instrucciones y cumplirlo en todos sus puntos.Si no se atienden las instrucciones o si se omite prestar atención a las adver-tencias y observaciones, se pueden producir lesiones graves al usuario o daños al instrumento.Generalidades / Volumen de entregaLa línea FLUKE T50 está comprendida por una serie de tester de voltaje y continui-dad.Los voltímetros son de extrema ayuda tanto en el área industrial como para el técnico electricista y el electrónico amateur Fluke T502cuando se trata de realización mediciones usuales.Estos modelos están provistos de las sigu-ientes funciones:• Construido de acuerdo la las normas DIN EN 61243-3, DIN VDE 0682 sección 401(anteriormente DIN VDE 0680 sección 5),IEC 61010• Visor LED• Medición de tensión alterna y continua hasta 690V• T est monopolar de las fases• T est de continuidad y de diodosConstatar al desembalar el instrumento si éste se encuentra en perfectas condicio-nes.El volumen de entrega consiste de:1 voltímetro FLUKE T502 baterías 1,5V IEC LR031 manual de instruccionesIndicaciones de seguridadLos instrumentos FLUKE T50 fueron con-struidos y probados de acuerdo a las nor-mas para voltímetros DIN EN 61243-3,DIN VDE 0682 sección 401 (anteriormente DIN VDE 0680 sección 5), EN 61010 y IEC 61010.Estos han dejado nuestra planta en perfecto estado.Para mantener este esta-do el usuario debe de observar las indica-ciones de seguridad contenidas en este manual.Para evitar un golpe eléctrico, deben cumplirse las disposiciones de seguri-dad y VDE sobre tensiones de con-tacto excesivas, cuando se trabajen con tensiones mayores de 75V (60V)CC ó 50V (25V) ef CA.Los valores entre paréntesis rigen para ámbitos circunscriptos (como p.ej.medicina,agricultura)Fluke T50Indicaciones de seguridad3Antes de realizar una medición asegu-rarse que las líneas de medición asícomo el instrumento se encuentren en perfecto estado.Las puntas de prueba sólo se deben sostener por las superficies previstas para ello.Siempre se debe evitar el con-tacto directo con las puntas de prueba.El instrumento sólo debe ser utilizado dentro de los rangos especificados y en instalaciones de baja tensión de hasta 690 V .Antes de cada uso debe asegurarse que el instrumento funcione perfecta-mente (p.ej.en una fuente de tensión conocida)Los voltímetros no deben ser más utili-zados si una o más funciones están fuera de uso o si no se puede recono-cer que el instrumento está en condi-ciones de ser utilizado.No está permitido el realizar mediciones en condiciones ambientales húmedas.Una visualización correcta solamente es posible dentro de una temperatura de – 10°C a + 55°C y una humedad re-lativa ambiente de menos de 85%.Si ya no está garantizada la seguridad del operador, el instrumento debe po-nerse fuera de funcionamiento y ase-gurarse contra uso involuntario o inde-bido.Este es el caso cuando el instrumento:• presenta daños evidentes• ya no realiza las mediciones deseadas •fue almacenado un tiempo excesivo en condiciones adversas• estuvo expuesto a exigencias mecánicas durante el transporteEn todos los trabajos deben cumplirse las normas de prevención de acciden-tes de las asociaciones profesionales que se encuentren vigentes para insta-laciones eléctricas y equipos.Fluke T50Indicaciones de seguridad4Utilización de acuerdo a su funciónEl instrumento sólo debe ser utilizado bajo las condiciones y con el fin para el cual éste fue construido.Para ello debe de ob-servarse las advertencias de seguridad,los datos técnicos con las condiciones am-bientales y la utilización en un ambiente seco.La seguridad en la operación no se podrá garantizar si el usuario realiza modificaciones o cambios en la con-strucción.Si fuera necesario abrir el instrumento,p.ej.para cambiar los fusibles, esto sólo deberá ser realizado por un técni-co.Antes de abrir el instrumento, éste debe ser apagado y desconectado de todo circuito de corriente.ElementosPunta de prueba de mano – (L1)Punta de prueba del instrumento +(L2)LEDs para la visualización de tensión LED para indicación monopolar de las fases LED para continuidad Indicador de polaridad Compartimiento para las bateríasFluke T50Manual de instrucciones5Realización de mediciones Preparación de seguridadPara cada test deben de observarse las advertencias de seguridad mencio-nadas.Antes de cada utilización debe realizarse primeramente un test para constatar que el instrumento funcione debidamente.Prueba de funcionamiento:• Unir una punta de prueba con la otra • Se escuchará un sonido y el LED Rx/Ωse iluminaráLa indicación de tensión del FLUKET50 funciona también aunque las ba-terías estén agotadas o sin baterías.Los voltímetros no deben ser más utili-zados si una o más funciones están fuera de uso o si no se puede recono-cer que el instrumento está en condi-ciones de ser utilizado.Los instrumentos FLUKE T50 poseen una carga integrada que posibilita el disparo de un diferencial de 10 mA o 30 mA.En el caso de pruebas de tensión (L con PE) en instalaciones con disyuntor diferencial puede dispararse el mismo.Para evitarlo, debe realizarse primero el test entre L y N (aproximadamente 5segundos).A continuación se puede probar L con PE sin disparar el diferen-cial.Medición de tensiónObserve las medidas de seguridad in-dicadas.•Unir ambas puntas de prueba con el ob-jeto a medir.Fluke T50Manual de instrucciones6A partir de una tensión > 12 V el voltí-metro entra en funcionamiento auto-máticamente.•Visualización de la tensión por LEDs (3) •En el caso de trabajarse con tensión al-terna, se iluminarán los LEDs con los símbolos "+”y "-" y adicionalmente se escuchará una señal.•En caso de tensión DC el LED (6) destel-la y se escucha una senal.•Los instrumentos poseen una cadena de LEDs con los valores 12V, 24V, 50V, 120V, 230V, 400V y 690V.•En el caso de trabajarse con tensión continua, la polaridad de la tensión indi-cada se refiere a la punta de prueba (+).•Por razones técnicas el instrumento no se encenderá con tensión continua en el rango de aprox.0V hasta –3V. Indicación monopolar de las fasesLa determinación unipolar de fasesfunciona a partir de una tensión alter-na de aprox.100 V (polaridad > 100VCA).En el caso de realizar un test de lasfases para determinar un conductorexterno es posible que la función delvisor bajo determinadas condiciones(como p.ej.cuando hay protectoresaislantes o en lugares aislados) seaperjudicada.El test unipolar de fases no es el medio adecuado para determinar la presen-cia de tensión.Para ello es necesario un test bipolar de voltaje.•Conectar las puntas de prueba con el objeto a medir•Una señal acústica indicará la fase y en el visor se iluminará el LED (4)Fluke T50Manual de instrucciones7Medición de tensión con dis-paro de diferencialEn caso de realizar un test de voltaje en ins-talación que poseen un disyuntor diferencial con 10 mA o 30 mA de corriente nominal de fuga, éste puede ser disparado.Para ello se debe medir la tensión entre L y PEentre L y N por aproximadamente 5 se-gundos.A continuación se puede pro-bar L con PE sin disparar el diferencial. Test de continuidadAntes de probar todo diode debe de asegurarse que el diodo a probar no esté bajo tensió polaridad de la tensión de prueba en la punta de prue-ba de mano es positiva (+).•Probar en forma bipolar la existencia de tensión en el objeto a medir.• Conectar ambas puntas de prueba con el objeto a medir.Si existe continuidad se escuchará una señal y el LED con la indicación conti-nuidad Rx/Ω(5) se iluminará. MantenimientoUtilizado de acuerdo al manual de instruc-ciones, el instrumento no requiere ningún mantenimiento especial.Si a pesar de ello surgiera algún desperfecto en la función, nuestro servicio técnico se ocupará de controlar el instrumento.Fluke T50Manual de instrucciones8LimpiezaSi el instrumento se llegara a ensuciar por el uso cotidiano, se lo podrá limpiar con un paño húmedo y algo de detergente suave.Antes de comenzar con la limpieza, cerció-rese que el instrumento esté desconecta-do del suministro externo de tensión y de los demás instrumentos conectados.Nunca utilice productos agresivos o sol-ventes para la limpieza.Una vez limpiado,el instrumento no debe ser utilizado por aproximadamente 5 horas.Intervalo de calibraciónPara conservar la precisión de los resulta-dos de medición indicada, el instrumento debe ser calibrado periódicamente por nuestro servicio técnico.Recomendamos un intervalo de calibración de un año.Reemplazo de bateríasSi al unir las puntas de prueba no suena una señal deben cambiarse las baterías.•Antes de cambiar una batería se debe separar el voltímetro FLUKE T50 de todo circuito a medir.•Abrir el compartimiento de las baterías girándolo (p.ej.con una moneda) en el sentido indicado con la flecha.•Quitar las baterías agotadas.Fluke T50Manual de instrucciones9Por favor, piense también en nuestro medio ambiente.No tire las baterías usa-das a la basura doméstica normal, sino entréguelas a los depósitos o colectores de basura especiales.Deberán observarse las respectivas disposiciones en vigor sobre la recogi-da, el aprovechamiento y la eliminaci-ón de baterías y acumuladores usa-dos.Datos técnicosRango de tensión12...690V CA/CC Resolución LED ±12, 24, 50, 120, 230, 400,690 VTolerancia DIN VDE 0682, sección 401Determinación de tensión automáticaSeñal acústica (tensión AC) siDeterminación de polaridad para todos los rangos Determinación de rangoautomáticaTiempo de reacción <0,1 s LEDRango de frecuencia DC, 0...65 HzCarga automática (disy.dif.) siCarga interna aprox.2,1W para 690V Corriente de prueba < 3,5 mACorriente pico Is = 0.2 ATiempo de encendido ED (DT) = 30 sTiempo de recreo:240sAuto Power On > 12 V CA/CCDeterminación unipolar de fasesRango de tensión 100...690 V CAFrecuencia 50...65 HzPrueba de continuidadRango de resistencia 0...200 k ΩPrecisión RN + 50%Corriente de prueba 3 µAProteción de sobretensión 690V CA/CCSuministro de energía 2 de 1,5V Micro IEC LR03Toma de corriente max.30mA / aprox.250 mW Temperatura -10°C...55°CHumedad max.85% humedad relativaambienteAltura sobre el nivel del mar:hasta 2000 m Categoría de sobretensión:CAT III / 600V Grado de polución:2Protección IP54De acuerdo a:DIN EN 61243-3, DIN VDE 0682 partie 401 (DIN VDE 0680Partie 5, EN 61010, EN 61010,IEC 61010)Peso:130g (incl.Baterías)Dimensiones:210 x 40 x 22 mm Fluke T50Datos técnicos10Garantía limitada y limitación de responsabilidad Se garantiza que este producto de Fluke no tendrádefectos en los materiales ni en la mano de obra durante un año a partir de la fecha de adquisición.Esta garantía no incluye fusibles, baterías desechab-les ni daños por accidente, maltrato, uso indebido,alteración, contaminación o condiciones anormales de funcionamiento o manipulación.Los revendedores no están autorizados para otorgar ninguna otra garantía en nombre de Fluke.Para obtener servicio degarantía, póngase en contacto con el centro de servi-cio autorizado por Fluke más cercano para obtener la información correspondiente de autorización de la devolución, y luego envíe el producto a dicho centro de servicio con una descripción del problema.ESTA GARANTÍA ES SU ÚNICO RECURSO.NO SE CONCEDE NINGUNA OTRA GARANTÍA, EXPRESA O IMPLÍCITA, T AL COMO AQUELLA DE IDONEIDAD PARA UN PROPÓSITO DETERMINADO.FLUKE NO SE RESPONSABILIZA DE PÉRDIDAS NI DAÑOS ESPECIALES, MEDIATOS, INCIDENTALES O INDI-RECTOS, EMERGENTES DE CUALQUIER CAUSA O TEORÍA.Dado que algunos países o estados no permiten la exclusión o limitación de una garantía implícita, ni de daños incidentales o indirectos, es posible que las limitaciones de esta garantía no sean de aplicación a todos los compradores.Fluke T50Garantía11Fluke CorporationP .O.Box 9090Everett WA98206-9090Fluke Europe B.V .P .O.Box 11865602 B.D.Eindhoven NetherlandsFluke T50 12。

Fluke 805 FC Vibration MeterThe reliable, repeatable, accurate way to check bearings and overall vibration.Make go or no-go maintenance decisions withconfidence. The Fluke 805 FC Vibration Meter is the most reliable vibration screening device available for frontline mechanical troubleshooting teams that need repeatable, severity-scaled readings of overall vibration and bearing condition.What makes the Fluke 805 FC the most reli-able vibration screening device available?•Innovative sensor design minimizes measure-ment variations caused by device angle or contact pressure• Consistent data quality at both low and high frequency ranges• Four-level severity scale assesses urgency of prob-lems for overall vibration and bearing condition • Exportable data via USB• Trending in Microsoft ® Excel using pre-built templates•Overall vibration measurement (10 Hz to 1,000 Hz)for acceleration, velocity and displacement units of measurement for a wide variety of machines•Crest Factor+ technology provides reliable bearing assessment using direct sensor tip measurementsbetween 4,000 Hz and 20,000 Hz• Compare vibration levels with ISO-10816 severity scales and store results to the Fluke Connect Cloud •Get authorization to take next steps in an instant if machine health is at risk via Fluke Connect™ Share-Live ™ video call*•Colored lighting system (green, red) and on-screen comments indicate how much pressure needs to be applied to take measurements• Temperature measurement with Spot IR Sensor increases diagnostic capabilities• On-board memory holds and saves up to 3,500measurements• External accelerometer support for hard to reach locations• Flashlight for viewing measurement locations in dark areas• Large screen with high resolution for easy naviga-tion and viewingWhat is Crest Factor +?Built withSee it. Save it. Share it.All the facts, right in the field.Now compatible with Fluke Connect ™ Mobile AppTechnical DataSmart phone not included with purchase.Fluke Connect with ShareLive ™ is the only wireless measurement system that lets you stay in contact with your entire team without leaving the field*. The Fluke Connect mobile app is available for Android™ (4.3 and up) and iOS (4s and later) and works with over 20 different Fluke products—the largest suite of connected test tools in the world. And more are on the way. Go to the Fluke website to find out more.Make the best decisions faster than ever before by viewing all temperature, mechanical, electrical and vibration measurements for each equipment asset in one place. Get started saving time and increasing your productivity. Download the app at:*Within provider’s wireless service area.1.888.475.5235*********************Fluke -Direct .com2 Fluke Corporation Fluke 805 FC Vibration MeterFluke 805 FC with Crest Factor + takes the confusion out of bearing assessmentThe original Crest Factor is used by vibration analysts to identify bearing faults. It is defined as the ratio ofthe peak value/RMS value of a time domain vibration signal.A key limitation of using Crest Factor to identifybearing faults is that the Crest Factor does not increaselinearly as the bearing degrades. In fact, the CrestFactor can actually decrease as a bearing nears cata-strophic failure due to large RMS values.In order to overcome this limitation, Fluke uses a proprietary algorithm known as Crest Factor + (CF+). CF+ values range from 1 to 16. As the bearingcondition worsens, the CF+ value increases. To keepthings simple, Fluke has also included a four-level severity scale that identifies the bearing health as Good, Satisfactory, Unsatisfactory or Unacceptable.Export and Trend in ExcelTrending, or repeated vibration measurements kept in a spreadsheet over time, allows you to better track machine health. With 805 FC you can easily:• Export your result to Excel through USB connection • Trend the readings with the pre-built Excel templates and plot graphs• Compare the overall vibration readings to ISO Standards (10816-1, 10816-3, 10816-7)Import measurements from the 805 FC Vibration Meter to an Excel template on your PC in order to trend the bearing parameters: overall vibration, CF+, and temperature. Looking at just the number alone for the overall vibration or temperature might not be of much benefit to the operator or technician if they don’t know what the number means. The user may not know what is normal or what indicates a problem.If measurements taken on the operator rounds are easily loaded into Excel, then the trend will show patterns of something that is becoming abnormal. The user can now see a clear picture of the changing bearing condition and deteriorating health of the machine.Bearing Vibration (CF+)Overall VibrationIR TemperatureHigh Frequency 4,000 Hz to 20,000 Hz Overall Vibration Frequency Range 10 Hz to 1,000 HzTemperature -20 °C to 200 °C Sample trend plot using the Fluke 805 FC trending template.1.888.475.5235*********************Fluke -Direct .com• Horizontal centrifugal double suction pumps – direct coupled• Boiler feed pumps (turbine or motor driven)Positive Displacement Pumps• Positive displacement horizontal piston pumps (under load)• Positive displacement horizontal gear pumps (under load)Air compressors • Reciprocating • Rotary screw• Centrifugal with or without external gearbox • Centrifugal – internal gear (axial meas.)• Centrifugal – internal gear (radial meas.)Blowers• Lobe-type rotary blowers (belt or direct drive)• Multi-stage centrifugal blowers (direct drive)Generic gearboxes (rolling element bearings)• Single stage gearboxMachine tools • Motor• Gearbox input • Gearbox output• Spindles – roughing operations • Spindles – machine finishing • Spindles – critical finishingChiller (refrigeration)• Reciprocating (Open motor and compressor separate)• Reciprocating (Hermetic motor and compressor)• Centrifugal (Hermetic or Open MotorFans• Belt-driven Fans 1800 to 3600 RPM • Belt-driven fans 600 to 1799 RPM• General direct drive fans (direct coupled)• Vacuum blowers (belt or direct drive)• Large forced draft fans (fluid film brgs.)• Large induced draft fans (fluid film brgs.)• Shaft-mounted intergral fan (extended motor shaft)• Axial flow fans (belt or direct drive)Cooling tower drives• Long, hollow drive shaft (motor)• Belt drive (motor and fan - all arrangements)• Direct drive (motor and fan - all arrangemetnsCentrifugal PumpsNote: height is measured from grade to top motor bearing• Vertical pumps (12’ to 20’ height)• Vertical pumps (8’ to 12’ height)• Vertical pumps (5’ to 8’ height)• Vertical pumps (0’ to 5’ height)•Horizontal centrifugal end suction pumps – direct coupled3 Fluke Corporation Fluke 805 FC Vibration Meter1.888.475.5235*********************Fluke -Direct .com4 Fluke Corporation Fluke 805 FC Vibration Meter Fluke-805 FC Vibration MeterIncludes: 805 FC Vibration Meter, USB cable, storage case, belt holster, quick reference guide,CD-ROM (includes MS Excel template and documentation), and four AA batteries. Ordering informationFluke. Keeping your worldup and running.®©2012-2014 Fluke Corporation.Specifications subject to change without notice.Printed in U.S.A. 11/2014 6002302c-enModification of this document is not permittedwithout written permission from Fluke Corporation.*RF connection time (binding time) can take up to 1 minute.1.888.475.5235 *********************。

®360 Leakage Current Clamp Meter说明书安全须知XW请先阅读：安全须知为了避免触电或人身伤害，确保漏电流钳表（“钳表”）的安全操作和使用，请遵循以下规定：•使用前先阅读操作说明并遵守所有安全指示。

•始终依照操作说明的规定使用钳表，否则仪器的安全特性可能无法提供保护。

•遵守当地和国家安全法规。

在危险带电导线外露的环境中，必须使用个人保护设备来防止触电和电弧放电的伤害。

•每次使用前都应检查钳表。

查看夹钳外壳是否有破裂或缺损。

还要查看是否有连接松脱或功能弱化的组件。

特别注意钳口附近的绝缘。

•在打开机壳更换电池之前，应将钳表从被测导线上断开。

•如果仪器曾被雨水浸湿或处于潮湿的环境中，或者您的双手潮湿，则请勿使用仪器。

•请勿在有爆燃性气体存在的环境中使用本仪器。

•请勿在发出噪音的设备附近或者温度可能发生骤变的环境中使用钳表。

否则钳表可能产生不稳定的读数或错误。

•切勿在电压大于 300 V 第三类（CAT III）的电路上使用本钳表。

CAT III（第三类）设备用于保护固定设备装置中的设备，如配电盘、馈线和短分支电路及大型建筑中的防雷设施免受瞬态电压的损害。

•在裸露的导线或母线附近工作时要格外小心。

与导线接触可导致触电。

•在电压超出 60 伏直流（dc）或 30 伏交流（ac）时，请特别留意。

该类电压有导致触电的危险。

•请勿让钳表长时间受到阳光直射或者放在高温或潮湿的场所。

•将手指放置在触摸挡板之后。

请见图 1。

PN 2726405October 2006 (Simplified Chinese)© 2006 Fluke Corporation, All rights reserved. Printed in Japan.All product names are trademarks of their respective companies.符号表 1. 符号符号符号T产品有双重绝缘保护。

fluke 435用户手册
测量范围：
1.1电压输入：
a)最大输入电压：1000Vrms
b)标称电压范围：50至500V，内部分为三个范围：500V、250V、125V
c)最大峰值电压：6KV
d)输入阻抗：4MΩ//5PF
1.2 电流输入：
a)输入范围：用仪表附带的电流夹i5s，1至5Arms；用可选电流夹i430flex-4pk，0.1至3000 Arms
b)输入阻抗：50KΩ
1.1.2标称频率：40…70Hz
1.2菜单功能介绍：Fluke435菜单主要有SETUP、SCOPE、MENU、MONITOR、MEMORY、SAVE SCREEN
1.2.1对测试仪进行设置：使用设置（SETUP）功能
1.2.2检查电压导线和电流线夹是否正确连接：使用示波器波(Scope Waveform)和示波相量（Scope Phasor）功能
1.2.3查看电力系统的各项数据：使用菜单（MENU）功能
1.2.4对测试仪数据集进行内存管理：使用内存（MEMORY0）功能
1.2.5对电力系统电能质量有一个总体了解：使用检测（MONITOR）功能。

打开测试仪，会出现一个开机欢迎屏幕，按F1键可查看测试仪设置的系统接线方式，点击SETUP键，进入设置菜单界面。

相位颜色（Phase Colors）使用功能键F1 至F4 来依照在美国、欧盟、英国使用或依照IEC 选择颜色。

或者定义您自己的一个颜色组：使用上/下箭头键来选择一个相位，然后使用左/右箭头键来选择颜色。

按功能键F5确定（OK）来确认。

7-600电能测试仪使用说明书P请先阅读：安全说明要确保安全使用测试仪，请遵循以下的说明：·如果测试仪或测试导线看起来已损坏，或者怀疑测试仪的运作不正常，请勿使用测试仪。

·先断开带电的测试导线，再断开公共测试导线。

·使用测试探针时，手指应保持在探针的保护装置的后面。

·请勿使用测试仪来测量会被测试仪的低输入阻抗（@2 千欧 (k W)）损坏的电路的电压。

·切断、焊开、或断开电路前，应先切断通往被测电路的电源。

小量电流有危险性。

·不要在 7-600 测试仪端子和地线间施加超出 600 V均方根电压。

·在超出 60 V直流电压或 30 V交流电压均方根时使用电表，请特别留意。

该类电压有导致电击的危险。

PN 2063524 December 2002 (Simplified Chinese)ã2002 Fluke Corporation. All rights reserved. Printed in China.自动选择测试仪会自动选择正确的测量模式及量程。

在启动期间，测试仪会在“电阻/连通性”模式中开启。

如果输入端子间有大约 4.5 V以上的直流电压或交流电压，测试仪便会切换至直流电压或交流电压模式。

W警告在直流电压总线上的重复性瞬变，将使“自动选择”(Automatic Selection) (k) 选择交流电压，即使可能存在有危险的直流电压。

在直流电压及交流电压模式中，测试仪的输入阻抗很低（在@2 千欧 (k W)至 100 千欧 (k W) 之间）。

这个低阻抗会对叠加在被测 电路中，仅适用于测量阻抗电源电压。

不要使用测试仪来测量会被 2 千欧 (k W) 负荷损坏的电路的电压。

连通性电阻ah01i.eps直流电压及交流电压请参见“自动选择”部分。

直流电压 >4.5 V交流电压 >4.5 V均方根(VRMS)输入阻抗@2 千欧 (k W) 输入阻抗@2 千欧 (k W)ah02i.eps 待机模式如果测试仪已开启但超过 45 分钟不活动或未连接电压，显示屏会变成空白来保留电池寿命。

FLUKE网络测试仪器说明书班级：330910姓名：***学号：********一、福禄克测试仪初始化步骤：1、充电：将Fluke dtx系列产品主机、辅机分别用电源适配器充电，直至电池显示灯转为绿色；2、设置语言：操作：将fluke dtx系列产品主机旋钮转至“SET UP”档位，按右下角绿色按钮开机；使用↓箭头；选中第三条“Instrument setting ”（本机设置）按“ENTER”进入参数设置，首先使用→箭头，按一下；进入第二个页面，↓箭头选择最后一项Language按“ENTER”进入; ↓箭头选择最后一项Chinese 按“ENTER”选择。

将语言选择成中文后才进行以下操作。

3、自校准：取fluke dtx系列产品Cat 6A/Class EA 永久链路适配器，装在主机上，辅机装上Cat 6A/Class EA 通道适配器。

然后将永久链路适配器末端插在Cat 6A/Class EA 通道适配器上；打开辅机电源，辅机自检后，“PASS”灯亮后熄灭，显示辅机正常。

“SPECIAL FUNCTIONS”档位，打开主机电源，显示主机、辅机软件、硬件和测试标准的版本（辅机信息只有当辅机开机并和主机连接时才显示），自测后显示操作界面，选择第一项“设置基准”后（如选错用“EXIT”退出重复），按“ENTER”键和“TEST”键开始自校准，显示“设置基准已完成”说明自校准成功完成。

二、设置福禄克测试仪基本参数操作：将fluke dtx系列产品主机旋钮转至“SET UP”档位，使用“↑↓”来选择第三条“仪器值设置”，按“ENTER”进入参数设置，可以按“←→”翻页，用“↑↓”选择你所需设置的参数，按ENTER进入参数修改，用“↑↓”选择你所需采用的参数设置，选好后按ENTER选定并完成参数设置。

三、福禄克测试仪测试过程：⒈根据需求确定测试极限值和电缆类型：通道测试还是永久链路测试？是CAT5E还是CAT6还是其他？⒉关机后将测试标准对应的适配器安装在主机、辅机上，如选择“TIA CAT5E CHANNEL”通道测试标准时，主辅机安装“DTX-CHA002”通道适配器，如选择“TIA CAT6A PERM.LINK”永久链路测试标准时，主辅机各安装一个“DTX-PLA002”永久链路适配器。

®October 2007© 2007 Fluke Corporation. All rights reserved. Specifications are subject to change without notification. All product names are trademarks of their respective companies.1360AC Leakage Current Clamp MeterCalibration InformationIntroductionThis document provides the following information for the 360 AC Leakage Current Clamp Meter (hereafter referred to as the Meter or UUT): • Safety information • Symbols • Specifications • Maintenance • Performance Tests • Replacement Parts List • Product Warranty StatementFor complete operating instructions, refer to the 360 Instruction Sheet .Contacting FlukeTo order parts, or for warranty service, contact Fluke as follows: USA: 1-888-99-FLUKE (1-888-993-5853) Canada: 1-800-36-FLUKE (1-800-363-5853) Europe: +31 402-675-200 Japan: +81-3-3434-0181 Singapore: +65-738-5655Anywhere in the world: +1-425-446-5500 Or, visit Fluke's Web site at . To register your product, go to .360AC Leakage Current Clamp Meter2 Safety InformationXW Safety InformationTo avoid electric shock or personal injury, and ensure safeoperation and service of the Meter, follow these instructions:•Read the operating instructions before use and follow all safety instructions.•Use the Meter only as specified in the operating instructions otherwise the Meter’s safety features may be impaired.•Adhere to local and national safety codes. Individual protective equipment must be used to prevent shock and arc blast injurywhere hazardous live conductors are exposed.•Before each use, inspect the Meter. Look for cracks or missing portions of the clamp housing. Also, look for loose or weakenedcomponents. Pay particular attention to the insulationsurrounding the jaws.•Disconnect the Meter from measurable conductors under test before opening the case to replace the battery.•Avoid using the Meter if it has been exposed to rain or moisture or if your hands are wet.•Do not use the Meter in an atmosphere where flammable or explosive gas is present.•Do not use the Meter near noise-emitting equipment or where there may be sudden changes in temperature. Otherwise, theMeter may produce unstable readings or errors.•Never use the Meter on a circuit with voltages greater than 300 V CAT III.CAT III equipment is designed to protect against transients inequipment in fixed-equipment installations, such asdistribution panels, feeders and short branch circuits, andlighting systems in large buildings.•Use extreme caution when working around bare conductors or bus bars. Contact with the conductor could result in electricshock.•Use caution when working with voltages above 60 V dc or30 V ac. Such voltages pose a shock hazard.•Do not leave the Meter exposed to direct sunlight or in a hot or humid location for any prolonged period.•Keep fingers behind the tactile barrier (see Figure 3).AC Leakage Current Clamp MeterSymbols3SymbolsTable 1 describes the symbols that appear on the Meter or in this document.Table 1. SymbolsSymbol ExplanationT Product is protected by double insulation W Risk of Danger. Important information. X Hazardous voltage. Risk of electrical shock. B AC (Alternating Current) F DC (Direct Current) J Earth ground,Application to or removal from hazardous, live conductors is permitted~Do not dispose of this product as unsorted municipal waste. Go to Fluke’s Web site for recycling information.P Conforms to requirements of European Union MBatterySpecificationsGeneral SpecificationsMeasurement functions ........................................AC currentAdditional functions .............................................Data hold and auto power off Display (LCD)Digital reading.....................................................3200 counts Bar graph............................................................32 segments “OL” over-range indication Low-battery symbol Range selection ....................................................AutomaticSamplingDigital reading.....................................................2 times per second Bar graph............................................................12 times per secondOperating temperature and humidity range .......0 °C to 50 °C (32 °F to 122 °F) with a maximum humidity of 80 % RH(no condensation) Storage temperature and humidity range ...........-20 °C to 60 °C (-4 °F to 140 °F) with humidity range 20 to 70 % RH(no condensation) Temperature coefficient ......................................± 0.05 % of measuring range / °C (< 18 °C or > 28 °C) Measuring range.................................................0 to 50 AEffect of external magnetic fields ........................0.0005 % typical value (in terms of the magnitude of current in adjacentwires) Maximum conductor size .....................................40 mm (1.6 in) Maximum circuit voltage ......................................300 V rms Power consumption ..............................................6 mW maximumAutomatic power off .............................................Automatically turns off the power approximately 10 minutes after thelast switch operation. The beeper will turn on 15 seconds before power off. Power supply .........................................................CR2032 lithium batteryBattery life .............................................................Approximately 90 hours of continuous operation360AC Leakage Current Clamp Meter4 Dimensions (W x H x D)........................................70 mm x 176 mm x 25 mm (2.8 in x 6.9 in x 1.0 in)Weight (including battery)....................................Approximately 200 g (0.44 lb)Safety SpecificationsCategory rating......................................................CAT III 300 V per IEC/EN61010-1, and 61010-2-032 Pollution Degree2, indoor use EMC........................................................................EN61326-1Effect of radiated immunity..................................Rated accuracy + 4.0 % in an electromagnetic field of 3 v/m Operating altitude.................................................2,000 m (6,562 ft) Accessories...........................................................C75soft carrying caseElectrical SpecificationsReference conditions...........................................23 ± 5 °C and 80 % RH maximumAC Current MeasurementRange ResolutionAccuracy (50/60 Hz)± (% of reading + digit)Maximum Allowable Current3 mA 0.001 mA30 mA 0.01 mA1 % + 530 A 0.01 A60 A 0.1 A0 to 50 A: 1 % + 550 to 60 A: 5 % + 560 A rmsZero correction: Fractions smaller than approximately 0.01 mA are calibrated to zero.MaintenanceBasic maintenance for the Meter includes cleaning, checking the battery charge, and replacing depleted batteries.CleaningPeriodically wipe the case with a damp cloth and mild detergent.W CautionTo avoid damage, do not use abrasives or solvents to clean themeter.Open the jaws and blow air to remove dust or debris at the jaw mating surfaces.Battery ReplacementIf battery voltage drops below the operating voltage, the battery symbol (M) appears on the display. If this happens, replace the battery as soon as possible.XW WarningTo avoid risk of electric shock during battery replacement,always remove the Meter from measurable conductors undertest before replacing the battery. Always use the correctreplacement battery (see Table 5).To replace the battery, complete the following steps and refer to Figure 1:1.Ensure the power is off.2.Place the Meter on its face and turn the battery cover counterclockwise using aPhillips screwdriver.3.Remove the cover and the installed battery.4.Insert the battery ensuring the polarity is correct.5.Close the battery cover, aligning the arrow’s tail with the dot and then turnclockwise.AC Leakage Current Clamp MeterPerformance Tests5epq003.epsFigure 1. Changing the BatteryPerformance TestsXW WarningTo avoid possible electric shock, do not perform the performance test procedures unless the Meter is fully assembled and you are qualified to do so.The following performance tests verify the complete operation of the Meter and check theaccuracy of each Meter function against its specifications. The recommended calibration interval is 12 months. In the performance tests, the Meter is referred to as the unit under test (UUT). Before you perform any of the following tests, check the battery and replace if necessary. For more information, see Battery Replacement . If the UUT fails any performance test, contact Fluke Service for repair. See Contacting Fluke .Required EquipmentTable 2 lists the equipment required to complete the performance tests.Table 2. Required EquipmentEquipmentMinimum Required Characteristics Recommended Model CalibratorAC current: • AccuracyACmA: ± 0.25 %Amps: 30 A = ± 0.19% 60 A = ± 0.49% • Frequency = 50/60 HzFluke 5520A High Performance Multi-Product CalibratorMagnet wire coil 3 turns, 14-gauge film-coated copper wire, 6-in. diameter--- Magnet wire coil 2 turns, 14-gauge film-coated copper wire, 6-in. diameter--- Copper wire coil1 turn, 14-gauge copper wire, 6-in. diameter---360AC Leakage Current Clamp Meter6 Testing the LCDUse the following procedure to test the LCD:1.Press the power button and observe the LCD during the selftest startup mode.pare the LCD with the example in Figure 2.3.Check all display segments for clarity and contrast.Figure 2. LCD TestData Hold TestUse the following procedure to test the Data Hold function:1.Press the Power button to turn on the UUT.2.Press the Hold button and verify that the beeper sounds and the D•H symbol appearson the display.Accuracy TestsAccuracy specifications are valid for one year after calibration when measured at an operating temperature of 18 °C to 28 °C. Allow the UUT to stabilize at room temperature before you perform the accuracy tests.To verify the accuracy of the UUT functions, complete the following steps:1.Connect the wire coils, listed in Table 2, across the current output terminals of thecalibrator.2.Set the Calibrator Output for the value listed in Table3.3.Clamp the UUT around the wire coil at the output terminals.pare the UUT displayed reading with the Display Reading Limits in Table 3. Ifany of the display readings fall outside of these limits, the UUT requires calibrationadjustment or repair.AC Leakage Current Clamp MeterCalibration Adjustment7Table 3. 360 Accuracy TestsDisplay Reading Limits StepRangeWire CoilCalibrator OutputLow LimitHigh Limit1 None 0.000 mA 0.000 0.0052 0.3 mA, 50 Hz 0.292 0.308 3 3 mA, 50 Hz 2.965 3.0354 3 mA3 mA, 60 Hz 2.965 3.035 5 3 mA, 50 Hz 2.92 3.08 630 mA1 Turn30 mA, 50 Hz29.6530.357 None 0.00 A 0.00 0.05 8 1 Turn 3 A, 50 Hz 2.92 3.08 9 30 A2 Turns 15 A, 50 Hz 29.65 30.35 10 16 A, 50 Hz 47.4 48.6 1160 A 3 Turns20 A, 50 Hz56.563.5Calibration AdjustmentBefore accessing the adjustment locations, remove the face and serial number decals as follows:1. Use an exacto knife to lift one corner of the face decal from the top case.2. Peel the entire decal from the case.3. Use an exacto knife to lift one corner of the serial number decal from the bottomcase. 4. Peel the entire decal from the case.NoteIt is possible to reuse the face decal. However, the serial number decal is easily damaged. If either decal needs replacement, see Table 5 and Contacting Fluke.Refer to Figure 3 for the adjustment locations and complete the adjustments listed in Table 4.1. Connect the wire coils to the appropriate output current terminals of the Calibrator.See Table 4. 2. Set the Calibrator Output.3. Clamp the UUT around the wire coils.4. Perform the adjustment for each step listed in Table 4 to obtain display readingwithin the adjustment limits shown. If the UUT fails to meet any expected results, contact Fluke Service for repair. See Contacting Fluke .360AC Leakage Current Clamp Meter8Table 4. Calibration Adjustment StepsStep Selected Range Wire Coils Calibrator Output Adjustment Adjustment Limits1 30 A2 13.5, 60 Hz VR1 26.97 to 27.032 3 mA, 60 Hz VR6 2.998 to 3.002320 mA, 50 Hz20 mA, 60 HzVR5Adjust VR5 for samereading at 50 and 60 Hz4 0.008 mA, 60 Hz VR7 0.000 to 0.005 mA5mA None0.012 mA, 60 Hz N/A0.009 to 0.012 mAFigure 3. Adjustment LocationsThe calibration adjustment is complete.AC Leakage Current Clamp MeterReplacement Parts List9Replacement Parts ListTable 5 lists the replacement parts that are available for the Meter. Figure 4 shows the location of each part. To order replacement parts, see Contacting Fluke .Table 5. Replacement Parts ListReference Description Fluke Part NumberQTY A Face Decal 3014486 1 B Side Decal 3014499 1 CSerial Number Decal3014506 1 D Top Case 3014514 1 E Bottom Case 3014523 1 F Battery Cover 3014538 1 G Lithium Battery, 3.0 V, 0.18 AH 929369 1 H Positive Battery Contact 3033481 1 I Negative Battery Contact 30334961J360 Calibration InstructionsN/A – see 1Figure 4. Replacement Parts360AC Leakage Current Clamp Meter10 Limited Warranty and Limitation of LiabilityEach Fluke product is warranted to be free from defects in material and workmanship under normal use and service. The warranty period is one year and begins on the date of shipment. Parts, product repairs, and services are warranted for 90 days. This warranty extends only to the original buyer or end-user customer of a Fluke authorized reseller, and does not apply to fuses, disposable batteries, or to any product which, in Fluke's opinion, has been misused, altered, neglected, contaminated, or damaged by accident or abnormal conditions of operation or handling. Fluke warrants that software will operate substantially in accordance with its functional specifications for 90 days and that it has been properly recorded on non-defective media. Fluke does not warrant that software will be error free or operate without interruption.Fluke authorized resellers shall extend this warranty on new and unused products to end-user customers only but have no authority to extend a greater or different warranty on behalf of Fluke. Warranty support is available only if product is purchased through a Fluke authorized sales outlet or Buyer has paid the applicable international price. Fluke reserves the right to invoice Buyer for importation costs of repair/replacement parts when product purchased in one country is submitted for repair in another country.Fluke's warranty obligation is limited, at Fluke's option, to refund of the purchase price, free of charge repair, or replacement of a defective product which is returned to a Fluke authorized service center within the warranty period.To obtain warranty service, contact your nearest Fluke authorized service center to obtain return authorization information, then send the product to that service center, with a description of the difficulty, postage and insurance prepaid (FOB Destination). Fluke assumes no risk for damage in transit. Following warranty repair, the product will be returned to Buyer, transportation prepaid (FOB Destination). If Fluke determines that failure was caused by neglect, misuse, contamination, alteration, accident, or abnormal condition of operation or handling, including overvoltage failures caused by use outside the product’s specified rating, or normal wear and tear of mechanical components, Fluke will provide an estimate of repair costs and obtain authorization before commencing the work. Following repair, the product will be returned to the Buyer transportation prepaid and the Buyer will be billed for the repair and return transportation charges (FOB Shipping Point). THIS WARRANTY IS BUYER'S SOLE AND EXCLUSIVE REMEDY AND IS IN LIEU OF ALL OTHER WARRANTIES, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO ANY IMPLIED WARRANTY OF MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE. FLUKE SHALL NOT BE LIABLE FOR ANY SPECIAL, INDIRECT, INCIDENTAL, OR CONSEQUENTIAL DAMAGES OR LOSSES, INCLUDING LOSS OF DATA, ARISING FROM ANY CAUSE OR THEORY.Since some countries or states do not allow limitation of the term of an implied warranty, or exclusion or limitation of incidental or consequential damages, the limitations and exclusions of this warranty may not apply to every buyer. If any provision of this Warranty is held invalid or unenforceable by a court or other decision-maker of competent jurisdiction, such holding will not affect the validity or enforceability of any other provision.Fluke CorporationP.O. Box 9090Everett, WA 98206-9090U.S.A.Fluke Europe B.V.P.O. Box 11865602 BD EindhovenThe Netherlands11/99To register your product online, visit .。

福禄克Fluke dsp-4000/4300网络测试仪使用操作说明Fluke DSP4000/4300产品操作,福禄克DSP系列产品说明，操作步骤一、福禄克DSP系列产品使用步骤：1、充电：将福禄克DSP系列产品主机、辅机分别用变压器充电，直至电池显示灯转为绿色；2、自校准：取校准模块(上有DSP4000 CAL MODULE字样)，用校准模块将主Fluke DSP4000/4300产品操作,福禄克DSP系列产品说明，操作步骤一、福禄克DSP系列产品使用步骤：1、充电：将福禄克DSP系列产品主机、辅机分别用变压器充电，直至电池显示灯转为绿色；2、自校准：取校准模块(上有“DSP—4000 CAL MODULE”字样)，用校准模块将主机及辅机连接好。

打开辅机电源，辅机自检后，“PASS”灯亮后熄灭，显示辅机正常。

将旋钮开关转到任何模式即可打开主机电源，显示主机、辅机软件、硬件和测试标准的版本（辅机信息只有当辅机开机并和主机连接时才显示），自测后显示操作界面，将旋扭转至“SPECIAL FUNCTIONS”档位，用“↑↓”箭头选择第七项“SELF CALIBRATION”后（如选错用“EXIT”退出重复），按“ENTER”键和“TEST”键开始自校准，显示“SELF CALIBRATION COMPLETE”说明自校准成功完成。

3、设置参数：操作：将旋钮转至“SET UP”档位，在第一个黑块处按“ENTER”进入测试标准和电缆类型选择，常用的是“TIA CA T 5E CHANNEL”（超五类通道标准，使用通道适配器）；“TIA CAT 6 CHANNEL”（六类通道标准，使用通道适配器），“TIA CAT 6 PERM LINK”（六类永久链路测试标准，使用永久链路适配器），其他不常用，用“↑↓”和“PAGE UP (3号按键)、PAGE DOWN(4号按键)”选择你所需的标准，按“ENTER”确认，回到主菜单。

FLUKEFluke 123Industrial ScopeMeter使用手册第一章 测试仪的使用本章的目的本章对测试仪进行分步介绍。

介绍内容并不包括测试仪的所有性能，而只是通过一些基本的例子来介绍如何使用手册，进行基本的操作。

给测试仪接能电源按图1-1中的步骤（分3步），在标准交流电源上给测试工具接通电源。

关于如何使用电池电源请参阅第2章。

测试仪按最后一次的设置开始运行。

图1-1：给测试仪接通电源将测试仪复位按照如下步骤，可将测试仪恢复到出厂时的设置状态：这时视屏图象如图1-2。

图1-2：复位后的视屏改变背衬光接通电源时，视屏处于高亮度显示状态。

在使用电池时（无外接电源），视屏可置于节能光亮显示状态，以便节省电池。

请注意节能显示功能可使电池使用时间延长1小时。

视屏判读视屏划分为三个区域：判读区，波形区和菜单区。

阅读如下部分时请参照图1-3。

图1-3：视屏各区域判读区（A）：提供各种数据显示。

因为只有输入端口A被打开，所以您只能看到输入端口A中的显示。

波形区（B）：显示输入端口A中的波形。

下面的线显示量程/格和电源指示（交流电或电池）。

因为只有输入端口A被打开，所以您只能看到输入端口A中的波形显示。

请注意当使用电池时，会通过电池指示显示出电池的电量情况：菜单区（C）：显示可以通过蓝色功能键进行选择的菜单。

当改变设置时，视屏的一部分则用来显示各种选择。

这一部分中会出现一种或多种可通过箭头键进行选择的菜单：菜单的选择先后执行①至④打开菜单并进行选择。

请注意再次按下灰色键将会关闭此菜单，并回到正常测量。

这一功能使您在不妨碍您的设置的情况下就可核对菜单。

图1-4显示测试仪的基本操作图1-4：基本操作请注意当你没有用蓝色箭头键更换选择，重复按F4 键可使您退出菜单而不改变测试仪的设置。

测量接口在测量工具上部有两个安全铠装的4mm香蕉插口（红色的为输入端口A，灰色的为输入端口B）和一个4mm安全香蕉插口（COM）。

f l u k e测试仪操作手册(总12页)--本页仅作为文档封面，使用时请直接删除即可----内页可以根据需求调整合适字体及大小--fluke测试仪配置手册神州数码系统集成服务有限公司2013-10目录1.界面功能介绍........................................... 错误!未定义书签。

2.主机与备机查看 ......................................... 错误!未定义书签。

地址配置................................................. 错误!未定义书签。

4.对端口进行吞吐量的测试 ................................. 错误!未定义书签。

5.报告文件的查看 ......................................... 错误!未定义书签。

fluke测试仪主要是针对端口速率及流量的测试，下面将对怎么配置使用进行简单说明。

1.界面功能介绍包括有连接状态，端口速率等信息如下图所示：2.主机与备机查看主机与备机之间的决定是根据设置的密钥代码所决定的，如下图为主机，选项会有LAN选件、RFC 2544/ITO 选件。

下图为备机：选项只有LAN选件。

地址配置点击100MB的对话框后，再选择TCP/IP选项。

在右边的对话框会出现IP地址，输入对应的IP与掩码后，点OK，如图所示：提示：输入的键盘点击最下面的“键盘”图案，即可输入文字。

4.对端口进行吞吐量的测试1.点击标有蓝色按钮“主页”的图案，再点击ITO测试旁边的+2.选择吞吐量测试3.点击标有蓝色按钮“详细信息”的选项远程设备选择对端的备机，内容：全部是0，超时：10，大小里面包含了64K，128K，512K，1024K，1280K，1518K，Sweep。

一般选择Sweep，代表全部。

速率和持续时间上，就选择针对要测试的商品类型，如图以百兆商品为例作为测试，时间设置一般为60秒，再点开始就会进行测试。

福禄克FLUKE PM6306/PM6304数字电桥LCR测试仪操作说明仪器面板按键【LOCAL】从远程控制切换到面板操作，正在通信时请不要按此键，以免通信发生错误。

【INTERFACE】通过IEEE-488或RS-232接口进行远程控制仪器时的参数设置。

【AUTO】自动测量模式屏幕上显示首项和第二项参数，串/并联等效电路。

【SER/PARA】选择串联或并联测试模式并联模式（Lp、Cp）采用恒压方式测量；而串联模式（Ls、Cs）采用恒流方式测量。

测量时显示等效电路图为单个元器件，如，则该元件呈纯阻抗性。

【AVERAGE】增大平均时间指数以减小测量数值波动。

再次按此键，显示初始设置的平均时间指数。

有三个平均时间等级可选（PM6304只有一个等级可用），或关闭不用此功能。

【RCL POSITION】选择阻抗或容感抗作为首项显示。

当选择了该设置，第二行测量值前显示“DOMINANT”，即元件的标称值。

【DEVIATION SET REF】设置测量值偏差，AUTO→DEV→按旋钮选择偏差值→再按一次DEV。

显示的偏差百分数＝（测量值－设置的偏差）/测量值，为负数证明设置的偏差大于测量值。

【BIN SORT】元件分级。

具体见后面介绍。

显*号表明测量数值超出基本精度。

【＠/Z】相角/阻抗（复合阻抗）。

在理想状态下，相角（θ）在纯电阻下是0°，在纯电容下是-90°，纯电感则为+90°。

在测量时，出现一个负的电抗值，为呈容抗的元件。

【Q/D】显示品质因数/损耗因数。

【Vx/Ix】加在测量元件上的电压/电流。

【HI LEVEL/ NORMAL /LOW LEVEL】测试信号源高电平交流有效值（方均根值）或直流2V，400欧的内阻。

常用电平交流有效值（方均根值）或直流1V，内阻100欧。

低电平交流50 mV或直流300mV，内阻100欧。

PM6304只可选这三个等级的测试电平，对应于PM6306的AC 50mV-2V测试信号源。

Chapter 9 SpecificationsIntroductionPerformance CharacteristicsFLUKE guarantees the properties expressed in numerical values with the stated tolerance. Specified non-tolerance numerical values indicate those that could be nominally expected from the mean of a range of identical ScopeMeter test tools.Environmental DataThe environmental data mentioned in this manual are based on the results of the manufacturer’s verification procedures.Safety CharacteristicsThe test tool has been designed and tested in accordance with Standards ANSI/ISA S82.01-1994, EN 61010.1 (1993) (IEC 1010-1), CAN/CSA-C22.2No.1010.1-92 (including approval), UL3111-1 (including approval) Safety Requirements for Electrical Equipment for Measurement, Control, and Laboratory Use.This manual contains information and warnings that must be followed by the user to ensure safe operation and to keep the instrument in a safe condition. Use of this equipment in a manner not specified by the manufacturer may impair protection provided by the equipment.198187Fluke 192/196/199Users Manual88Dual Input OscilloscopeIsolated Inputs A and B (Vertical)Bandwidth, DC CoupledFLUKE 199.......................................200 MHz (-3 dB)FLUKE 196.......................................100 MHz (-3 dB)FLUKE 192.........................................60 MHz (-3 dB)Lower Frequency Limit, AC Coupledwith 10:1 probe......................................<2 Hz (-3 dB)direct (1:1).............................................<5 Hz (-3 dB)Rise TimeFLUKE 199.......................................................1.7 ns FLUKE 196.......................................................3.5 ns FLUKE 192.......................................................5.8 ns Analog Bandwidth Limiters..............20 MHz and 10 kHz Input Coupling ...................................................AC, DC Polarity................................................Normal, Inverted Sensitivity Rangeswith 10:1 probe............................50 mV to 1000 V/div direct (1:1)......................................5 mV to 100 V/div Trace Positioning Range..............................±4 divisions Input Impedance on BNCDC Coupled.....................1 M Ω (±1 %)//15 pF (±2 pF)Max. Input Voltagewith 10:1 probe......................................600 V CAT III1000 V CAT IIdirect (1:1).............................................300 V CAT III (For detailed specifications, see “Safety ”)Vertical Accuracy....................±(1.5 % + 0.04 range/div)Digitizer Resolution...................8 bits, separate digitizerfor each inputHorizontalMaximum Time Base Speed:FLUKE 199.....................................................5 ns/div FLUKE 196.....................................................5 ns/div FLUKE 192...................................................10 ns/div Minimum Time Base Speed (Scope Record)....2 min/div Real Time Sampling Rate (for both inputs simultaneously)FLUKE199:5 ns to 2 µs /div.................................up to 2.5 GS/s 5 µs to 120 s/div..........................................20 MS/s FLUKE 196:5 ns to 2 µs /div....................................up to 1 GS/s 5 µs to 120 s/div..........................................20 MS/s FLUKE 19210 ns to 2 µs /div..............................up to 500 MS/s 5 µs to 120 s/div..........................................20 MS/sSpecificationsDual Input Oscilloscope989Record LengthScope Record Mode..........27500 points on each input Scope Normal Mode............1000 points on each input Scope Glitch Capture Mode...500 points on each input Glitch Detection5 µs to 120 s/div.......displays glitches as fast as 50 ns Waveform Display...............A, B, A+B, A-B, A*B, A vs BNormal, Average (2,4,8,64 x), Persistence Time Base Accuracy......................................±100 ppmTrigger and DelayTrigger Modes.....................................Automatic, Edge,External, Video, Pulse Width Trigger Delay............................... up to +1000 divisions Pre Trigger View...........................one full screen length Max. Delay...................................................10 secondsAutomatic Connect-and-View TriggerSource...........................................................A, B, EXT Slope.................................................Positive, NegativeEdge TriggerScreen Update..........Free Run, On Trigger, Single Shot Source...........................................................A, B, EXT Slope.................................................Positive, NegativeTrigger Level Control Range.........................±4 divisions Trigger Sensitivity A and BDC to 5 MHz at >5 mV/div........................0.5 divisions DC to 5 MHz at 5 mV/div..............................1 division 200 MHz (FLUKE 199).................................1 division 250 MHz (FLUKE 199)...............................2 divisions 100 MHz (FLUKE 196).................................1 division 150 MHz (FLUKE 196)...............................2 divisions 60 MHz (FLUKE 192)...................................1 division 100 MHz (FLUKE 192)...............................2 divisionsIsolated External TriggerBandwidth...........................................................10 kHz Modes..................................................Automatic, Edge Trigger Levels (DC to 10 kHz).................120 mV, 1.2 VVideo TriggerStandards...........................PAL, PAL+, NTSC, SECAM Modes.....................Lines, Line Select, Field 1 or Field 2Source........................................................................A Polarity...............................................Positive, Negative Sensitivity.....................................0.7 division sync levelFluke 192/196/199Users Manual90Pulse Width TriggerScreen Update...........................On Trigger, Single Shot Trigger Conditions..........<T, >T, ≈T (±10 %), ≠T(±10 %)Source.........................................................................A Polarity...................................Positive or negative pulse Pulse Time Adjustment Range.......1/100 div. to 250 div.with a maximum resolution of 50 ns.Continuous Auto SetAutoranging attenuators and time base, automatic Connect-and-View ™ triggering with automatic source selection.ModesNormal..................................15 Hz to max. bandwidth Low Frequency.......................1 Hz to max. bandwidth Minimum Amplitude A and BDC to 1 MHz.....................................................10 mV 1 MHz to max. bandwidth..................................20 mVAutomatic Capturing Scope ScreensCapacity..........................100 dual input scope Screens For viewing screens, see Replay function.Automatic Scope MeasurementsThe accuracy of all readings is within ± (% of reading +number of counts) from 18 °C to 28 °C. Add 0.1x (specific accuracy) for each °C below 18 °C or above 28 °C. For voltage measurements with 10:1 probe, add probe accuracy unless the probe has been calibrated on the test tool. At least 1.5 waveform period must be visible on the screen.GeneralInputs..................................................................A and B DC Common Mode Rejection (CMRR)................>100 dB AC Common Mode Rejection at 50, 60, or 400 Hz......>60 dBDC Voltage (VDC)Maximum Voltagewith 10:1 probe..................................................1000 V direct (1:1)...........................................................300 V Maximum Resolutionwith 10:1 probe.....................................................1 mV direct (1:1).........................................................100 µV Full Scale Reading........................................1100 counts Accuracy at 5 s to 5 µs/div..................±(1.5 % +5 counts)Normal Mode AC Rejection at 50 or 60 Hz ...........>60 dBSpecificationsAutomatic Scope Measurements991AC Voltage (VAC)Maximum Voltagewith 10:1 probe................................................1000 V direct (1:1).........................................................300 V Maximum Resolutionwith 10:1 probe...................................................1 mV direct (1:1).......................................................100 µV Full Scale Reading.....................................1100 counts AccuracyDC coupled:DC to 60 Hz..............................±(1.5 % +10 counts)AC coupled, low frequencies:50 Hz direct (1:1).....................±(2.1 % + 10 counts)60 Hz direct (1:1).....................±(1.9 % + 10 counts)With the 10:1 probe the low frequency roll off point will be lowered to 2 Hz, which improves the AC accuracy for low frequencies. When possible use DC coupling for maximum accuracy.AC or DC coupled, high frequencies:60 Hz to 20 kHz.......................±(2.5 % + 15 counts)20 kHz to 1 MHz.........................±(5 % + 20 counts)1 MHz to 25 MHz......................±(10 % + 20 counts)For higher frequencies the instrument ’s frequency roll off starts affecting accuracy.Normal Mode DC Rejection...........................>50 dBAll accuracies are valid if:• The waveform amplitude is larger than one division • At least 1.5 waveform period is on the screenAC+DC Voltage (True RMS)Maximum Voltagewith 10:1 probe................................................1000 V direct (1:1).........................................................300 V Maximum Resolutionwith 10:1 probe...................................................1 mV direct (1:1).......................................................100 µV Full Scale Reading.....................................1100 counts AccuracyDC to 60 Hz ...............................±(1.5 % + 10 counts)60 Hz to 20 kHz..........................±(2.5 % + 15 counts)20 kHz to 1 MHz............................±(5 % + 20 counts)1 MHz to 25 MHz ........................±(10 % + 20 counts)For higher frequencies the instrument ’s frequency roll off starts affecting accuracy.Fluke 192/196/199Users Manual92Amperes (AMP)With Optional Current Probe or Current ShuntRanges...........................same as VDC, VAC, VAC+DC Probe Sensitivity................100 µV/A, 1 mV/A, 10 mV/A,100 mV/A, 1 V/A, 10 V/A, and 100 V/A Accuracy ........................same as VDC, VAC, VAC+DC(add current probe or current shunt accuracy)PeakModes.........................Max peak, Min peak, or pk-to-pk Maximum Voltagewith 10:1 probe...............................................1000 V direct (1:1)........................................................300 V Maximum Resolutionwith 10:1 probe................................................10 mV direct (1:1).........................................................1 mV Full Scale Reading.......................................800 counts AccuracyMax peak or Min peak.............................±0.2 division Peak-to-peak..........................................±0.4 divisionFrequency (Hz)Range....................................1.000 Hz to full bandwidth Full Scale Reading....................................9 999 counts with at least 10 waveform periods on screen.Accuracy1 Hz to full bandwidth....................±(0.5 % +2 counts)Duty Cycle (DUTY)Range...................................................4.0 % to 98.0 %Pulse Width (PULSE)Resolution (with GLITCH off).......................1/100 division Full Scale Reading.......................................999 counts Accuracy1 Hz to full bandwidth....................±(0.5 % +2 counts)SpecificationsAutomatic Scope Measurements993PowerPower Factor .....................ratio between Watts and VA Range......................................................0.00 to 1.00Watt.................................RMS reading of multiplicationcorresponding samples of input A (volts)and Input B (amperes)Full Scale Reading ....................................999 counts VA............................................................Vrms x Arms Full Scale Reading ....................................999 counts VA Reactive................................................√((VA)2-W 2)Full Scale Reading ....................................999 countsPhaseRange..........................................-180 to +180 degrees Resolution.......................................................1 degree Accuracy0.1 Hz to 1 MHz........................................±1 degrees 1 MHz to 10 MHz......................................±3 degreesTemperature (TEMP)With Optional Temperature ProbeRanges (°C or °F)...............................-40.0 to +100.0 °-100 to +250 °-100 to +500 °-100 to +1000 °-100 to + 2500 °Probe Sensitivity..........................1 mV/°C and 1 mV/°FDecibel (dB)dBV..............................................dB relative to one volt dBm.................dB relative to one mW in 50 Ω or 600 ΩdB on........................................VDC, VAC, or VAC+DC Accuracy.........................same as VDC, VAC, VAC+DCFluke 192/196/199Users Manual94MeterMeter InputInput Coupling ..........................................................DC Frequency Response.....................DC to 10 kHz (-3 dB)Input Impedance..............1 M Ω(±1 %)//10 pF (±1.5 pF)1000 V CAT II600 V CAT III(For detailed specifications, see “Safety ”)Meter FunctionsRanging....................................................Auto, Manual Modes.................................................Normal, RelativeDMM Measurements on Meter InputsThe accuracy of all measurements is within ± (% of reading + number of counts) from 18 °C to 28 °C.Add 0.1x (specific accuracy) for each °C below 18 °C or above 28 °C.GeneralDC Common Mode Rejection (CMRR)................>100 dB AC Common Mode Rejection at 50, 60, or 400 Hz......>60 dBOhms (Ω)Ranges..............................500.0 Ω, 5.000 k Ω, 50.00 k Ω,500.0 k Ω, 5.000 M Ω, 30.00 M ΩFull Scale Reading500 Ω to 5 M Ω...........................................5000 counts 30 M Ω........................................................3000 counts Accuracy.............................................±(0.6 % +5 counts)Measurement Current.................0.5 mA to 50 nA, ±20 %decreases with increasing ranges Open Circuit Voltage.................................................<4 VContinuity (CONT)Beep.......................................................<50 Ω (±30 Ω)Measurement Current............................0.5 mA, ±20 %Detection of shorts of...........................................≥1 msSpecificationsDMM Measurements on Meter Inputs995DiodeMaximum Voltage Reading....................................2.8 V Open Circuit Voltage..............................................<4 V Accuracy.............................................±(2 % +5 counts)Measurement Current............................0.5 mA, ±20 %Temperature (TEMP)With Optional Temperature ProbeRanges (°C or °F)...............................-40.0 to +100.0 °-100.0 to +250.0 °-100.0 to +500.0 °-100 to +1000 °-100 to + 2500 °Probe Sensitivity..........................1 mV/°C and 1 mV/°FDC Voltage (VDC)Ranges....500.0 mV, 5.000 V, 50.00 V, 500.0 V, 1100 V Full Scale Reading.....................................5000 counts Accuracy..........................................±(0.5 % +5 counts)Normal Mode AC Rejection at 50 or 60 Hz ±1 %>60 dBAC Voltage (VAC)Ranges....500.0 mV, 5.000 V, 50.00 V, 500.0 V, 1100 V Full Scale Reading.....................................5000 counts Accuracy15 Hz to 60 Hz...............................±(1 % +10 counts)60 Hz to 1 kHz.............................±(2.5 % +15 counts)For higher frequencies the frequency roll off of the Meter input starts affecting accuracy.Normal Mode DC Rejection................................>50 dBAC+DC Voltage (True RMS)Ranges....500.0 mV, 5.000 V, 50.00 V, 500.0 V, 1100 V Full Scale Reading.....................................5000 counts AccuracyDC to 60 Hz ...................................±(1 % +10 counts)60 Hz to 1 kHz.............................±(2.5 % +15 counts)For higher frequencies the frequency roll off of the Meter input starts affecting accuracy.All accuracies are valid if the waveform amplitude is larger than 5 % of full scale.Fluke 192/196/199Users Manual96Amperes (AMP)With Optional Current Probe or Current ShuntRanges...........................same as VDC, VAC, VAC+DC Probe Sensitivity................100 µV/A, 1 mV/A, 10 mV/A,100 mV/A, 1 V/A, 10 V/A, and 100 V/A Accuracy ........................same as VDC, VAC, VAC+DC(add current probe or current shunt accuracy)RecorderTrendPlot (Meter or Scope)Chart recorder that plots a graph of min and max values of Meter or Scope measurements over time.Measurement Speed...................> 2.5 measurements/s Time/Div.......................................10 s/div to 20 min/div Record Size................................13500 points per input Recorded Time Span...........................90 min to 8 days Time Reference...................time from start, time of dayScope RecordRecords scope waveforms in deep memory while displaying the waveform in Roll mode.Source...................................................Input A, Input B Max. Sample Speed (10 ms/div to 1 min/div).....20 MS/s Glitch capture (10 ms/div to 1 min/div)..................50 ns Time/Div in normal mode.............10 ms/div to 2 min/div Record Size.................................27500 points per input Recorded Time Span............................11 s to 30 hours Acquisition Modes.....................................Single SweepContinuous Roll External Triggering Time Reference...................time from start, time of dayZoom, Replay and CursorsZoomHorizontal MagnificationScope Record........................................... up to 100x TrendPlot.....................................................up to 50x Scope............................................................up to 8x ReplayDisplays a maximum of 100 captured dual input Scope screens.Replay modes..........Step by Step, Replay as Animation Cursor MeasurementsCursor Modes................................single vertical cursordual vertical cursorsdual horizontal cursors (Scope mode)Markers....................automatic markers at cross points Measurements.....................................value at cursor 1value at cursor 2 difference between values at cursor 1 and 2time between cursorsTime of Day (Recorder modes)Time from Start (Recorder modes)Rise Time MiscellaneousDisplayView Area......................................132 mm (5.2 inches) Backlight...................Cold Cathode Fluorescent (CCFL)Temperature compensated Brightness.............................Power Adapter: 60 cd / m2Batteries: 35 cd / m2 Rechargeable NiMH Batteries:Operating Time...............................................4 hours Charging Time.................................................4 hours Allowable ambienttemperature during charging:.0 to 40 °C (32 to 104 °F) Auto power downtime (battery saving):............5 min, 30 min or disabled Battery Charger / Power Adapter BC190:•BC190/801 European line plug 230 V ±10 %•BC190/803 North American line plug 120 V ±10 %•BC190/804 United Kingdom line plug 230 V ±10 %•BC190/806 Japanese line plug 100 V ±10 %•BC190/807 Australian line plug 230 V ±10 %•BC190/808 Universal switchable adapter 115 V ±10 % or 230 V ±10 %, with plug EN60320-2.2GLine Frequency........................................ 50 and 60 Hz97Users Manual98Probe CalibrationManual pulse adjustment and automatic DC adjustment with probe check.Generator Output....................................3 Vpp / 500 Hzsquare waveMemoryNumber of Scope Memories.......................................10Each memory can contain two waveforms plus corresponding setupsNumber of Recorder Memories....................................2Each memory can contain:• a dual input TrendPlot(2 x 13500 points per input)• a dual input Scope Record (2 x 27500 points per input)• 100 dual input Scope screensMechanicalSize.....................64 x 169 x 254 mm (2.5 x 6.6 x 10 in)Weight..................................................1.95 kg (4.3 lbs)including batteryOptical InterfacePortType.......................................RS-232, optically isolated To Printer...........................supports Epson FX, LQ, andHP Deskjet ®, Laserjet ®, and Postscript• Serial via PM9080 (optically isolated RS-232 Adapter/Cable, optional).• Parallel via PAC91 (optically isolated Print Adapter Cable, optional).To PC/Notebook• Serial via PM9080 (optically isolated RS-232 Adapter/Cable, optional), using SW90W (FlukeView ®softwarefor Windows 95®, 98®, Me ®, 2000® and NT4®).Environmental -PRF-28800F, Class 2TemperatureOperating:battery only.........................0 to 50 °C (32 to 122 °F) power adapter....................0 to 40 °C (32 to 104 °F) Storage..........................-20 to +60 °C (-4 to +140 °F)HumidityOperating:0 to 10 °C (32 to 50 °F).....................noncondensing10 to 30 °C (50 to 86 °F).................................. 95 %30 to 40 °C (86 to 104 °F).................................75 %40 to 50 °C (104 to 122 °F)...............................45 % Storage:-20 to +60 °C (-4 to +140 °F)............noncondensingAltitude Operating.......................................3 km (10 000 feet) Storage........................................12 km (40 000 feet)Vibration (Sinusoidal).......................................max. 3 gShock............................................................max. 30 g Electromagnetic Compatibility (EMC)Emission and immunitiy...........EN-IEC61326-1 (1997) Enclosure Protection...........................IP51, ref: IEC52999Users Manual100Designed for measurements on 1000 V Category II Installations, 600 V Category III Installations, Pollution Degree 2, per:• ANSI/ISA S82.01-1994• EN61010-1 (1993) (IEC1010-1)• CAN/CSA-C22.2 No.1010.1-92• UL3111-1Max. Input VoltagesInput A and B directly.............................300 V CAT III Input A and B via 10:1 probe.................1000 V CAT II600 V CAT IIIMETER/EXT TRIG inputs......................1000 V CAT II600 V CAT III From any terminal to ground.................1000 V CAT II600 V CAT IIIBetween any terminal............................1000 V CAT II600 V CAT III Voltage ratings are given as “working voltage”. They should be read as Vac-rms (50-60 Hz) for AC sinewave applications and as Vdc for DCapplications.Figure 51. Max. Input Voltage v.s. FrequencyNoteOvervoltage Category III refers to distribution level and fixed installation circuits inside abuilding. Overvoltage Category II refers to local level, which is applicable for appliances and portable equipment.Figure 52. Safe Handling: Max. Input Voltage Between Scope References, and BetweenScope References and Meter Reference 10:1 ProbeSafetyMax. Input Voltage..........................1000 V CAT II600 V CAT III Max. Floating Voltagefrom any terminal to ground...................1000 V CAT II600 V CAT IIIup to 400 Hz Electrical specificationsInput Impedance at probe tip10 MΩ (±2 %)//14 pF (±2 pF)Capacity Adjustment Range.........................10 to 22 pF Attenuation at DC (1 MΩ input)....................10 x (±2 %) Bandwidth (with FLUKE 199)......DC to 200 MHz (-3 dB) EnvironmentalTemperatureOperating...........................0 to 50 °C (32 to 122 °F) Storage........................-20 to +60 °C (-4 to +140 °F) AltitudeOperating....................................3 km (10 000 feet) Storage......................................12 km (40 000 feet) HumidityOperating at 10 to 30 °C (50 to 86 °F).............. 95 %101Users Manual102FR E QUE NCY (MHz)MAX. INPUTVOLT Figure 53. Max. Voltage From Probe Tip to Groundand From Probe Tip to Probe ReferenceFR E QUE NCY (MHz)MAX. VOLT AGEF ROM PR OBE R E FE R E NCE T O GROUNDFigure 54. Safe Handling: Max. Voltage From ProbeReference to GroundElectromagnetic ImmunityThe Fluke 190 series, including standard accessories, conforms with the EEC directive 89/336 for EMC immunity, as defined by EN-61326-1, with the addition of the following tables.Scope Mode (10 ms/div): Trace disturbance with VPS200 voltage probe shortedTable 1No visible disturbance E = 3V/mFrequency range 10 kHz to 20 MHz 5 mV/div to 100 V/divFrequency range 20 MHz to 100 MHz100 mV/div to 100 V/divFrequency range 100 MHz to 1 GHz500 mV/div to 100 V/div *)(*)With the 20 MHz Bandwidth Filter switched on: no visible disturbance.With the 20 MHz Bandwidth Filter switched off: disturbance is max 2 div.Table 2Disturbance less than 10% of full scale E = 3V/mFrequency range 20 MHz to 100 MHz10 mV/div to 50 mV/divTest Tool ranges not specified in tables 1 and 2 may have a disturbance of more than 10% of full scale.Meter Mode (Vdc, Vac, Vac+dc, Ohm and Continuity): Reading disturbance with test leads shortedTable 3Disturbance less than 1% of full scale E = 3V/mFrequency range 10 kHz to 1 GHz500mV to 1000V , 500Ohm to 30 MOhm ranges103。

Three Phase Power Quality AnalyzerFluke435使用手册2010年8月12日Fluke整体介绍1测量范围：1.1电压输入：a)最大输入电压：1000Vrmsb)标称电压范围：50至500V，内部分为三个范围：500V、250V、125Vc)最大峰值电压：6KVd)输入阻抗：4MΩ//5PF1.2 电流输入：a)输入范围：用仪表附带的电流夹i5s，1至5Arms;用可选电流夹i430flex-4pk，0.1至3000 Armsb)输入阻抗：50KΩ1.1.2标称频率：40…70Hz1.2菜单功能介绍：Fluke435菜单主要有SETUP、SCOPE、MENU、MONITOR、MEMORY、SAVE SCREEN1.2.1对测试仪进行设置：使用设置〔SETUP〕功能1.2.2检查电压导线和电流线夹是否正确连接：使用示波器波形(ScopeWaveform)和示波相量〔Scope Phasor〕功能1.2.3查看电力系统的各项数据：使用菜单〔MENU〕功能1.2.4对测试仪数据集进行内存管理：使用内存〔MEMORY0〕功能1.2.5对电力系统电能质量有一个总体了解：使用检测〔MONITOR〕功能。

1.2.6 制作屏幕画面：使用制作屏幕画面〔SAVE SCREEN〕功能示波器设置菜单记忆、存储检测屏幕画面确定2具体使用介绍：打开测试仪，会出现一个开机欢迎屏幕：按F1键可查看测试仪设置的系统接线方式2.1设置测试仪：点击SETUP键，进入设置菜单界面我们按照设置菜单界面选项按从上到下的界面进行设置。

2.1.1 User用户参数选择：按F4键进入测用户参数选择菜单。

a)相位标记〔Phase Identification〕：使用下/下箭头键来选择A、B、C 或 L1、L2、L3。

按功能键 F5 –确定〔OK〕来确认。

b)相位颜色〔Phase Colors〕使用功能键F1 至F4 来依照在美国、欧盟、英国使用或依照IEC 选择颜色。