曲线测试仪专场,曲线测试仪商家多、资料全面第3组

温度曲线测试仪

TC-6C型温度曲线测试仪是由微电脑控制的智能仪器，适用于温度曲线的测试和记录。 ....该仪器可同时记录并存储一至六组温度数据，通过与PC机通讯可描绘温度曲线。具有任意断点显示、数据掉点保护等功能。既适用于回流焊炉跟进炉膛的温度测试，又适用于其他场合下高温测试。为用户调整温度曲线，控制温度效果，提高产品质量提供的依据。 ....该仪器性能，功能强大，操作方便。主要功能通过串口通讯，由PC机进行采样周期、通道数目、采样时间等参数设置。通过PC机串口通讯绘制温度曲线，并提供查询、存储、调用、打印温度曲线功能。掉电保护存贮数据功能。多场合温度测试，既满足于无线低温测试，又适用于其他高温测试场合，高达1000℃。双电源工作方式。既可通过内部充电电池提供电源，也可通过外部"220V 50HZ"提供电源

YL-656热电偶性能曲线测试仪

YL-656热电偶性能曲线测试仪
仪器介绍：本公司生产的热电偶性能曲线测试仪是依据CJ30－1999《热电式燃具熄火保护装置》、《家用燃气灶（GB16410-1996）》及《家用燃气用具的通用试验方法（GB16411-1996）》中规定的技术要求而研发设计的一款针对燃气具所用热电偶性能测试的一款测试机。本机适合生产企业质检部门对产品进行性能测试和抽检检验。热电偶性能测试仪的动作机构均采用气动器件，直行气缸实现热电偶在设定温度的火焰里工作、脱离火焰全部过程。控制测试电路部分均采用微电脑数据采集系统，配合灵活的人机界面使操作简单、使用便捷。
功能要求
测试项目	加热温度、热电势、检测时间；
智能化操作系统	热电偶性能曲线测试仪所有测试参数通过数据采集模块将数据传输到显示屏上，采用管理软件实现人机界面操作，操作者可在此层面通过点击菜单实现检测数据的采集和监控；
实时显示	加热温度、热电偶电压、检测时间实时显示记录；
自动生成报告曲线图	自动生成加热温度、热电偶电压随检测时间的变化曲线图；
自称生产报表	自动生成热电势、时间、温度数据表格；
曲线各点的热电势	用户可根据要求设定时间点来查询并显示相应的数据；
数据可储存记忆	测试数据可根据要求存储，掉电不丢失。
外接数据输出端口	热电偶性能曲线测试仪具有相应的外接数据输出口，需要时用户可通过打印等手段提取预存或实测数据曲线；
气动装置智能化控制	夹具动作机构均采用气动动器件，实现在测试热特性时将热电偶头部3～5mm的部位接触火焰；在测试冷特性时将热电偶脱离火焰自然冷却；
热特性、冷特性的热电势自动检测步骤	（1）按点火键，火焰点燃，校准火焰（内焰）温度为600～700℃左右；（2）设定加热时间1为10s、加热时间2为30秒(、冷却时间1为10s(、冷却时间2为30s; （3）将热电偶安装于测试夹具上,按要求连接好线；（4）热电偶性能曲线测试仪按测试键,测试夹具移动靠近火焰,使热电偶头部约3～5mm置于火焰中加热时开始计时，待10S时自动将实测的热电势记录并判断热特性；（5）热电偶继续加热30s后，测试夹具自动返回使热电偶脱离火焰并开始计时，待10s时自动将实测的热电势记录并判断冷特性。（6）继续冷却30s后完成整个测试。(以上时间可任意设定)
首要安装保护装置	具有意外熄火自动关闭气源安全保护功能；
加热位置可调节	可根据热电偶的安装尺寸相对于加热位置前后调节
热电势测量范围	0～50mV
特性工作时间	0～9999s（可调）
时间准确度	0.1s
主要技术指标
型号	YL-656
设计工位	1~10个
加温范围	500℃～800℃范围内随意可调
加热方式	液化石油气燃烧火焰加热
压缩空气	洁净的压缩空气，压力范围在0.4~0.8MPa
温控精度	±10℃
控制方式	微电脑控制人机界面操作
测量精度	0.1mV
生产厂商：佛山市优力电子科技有限公司

该公司产品分类：电热水器配件检测设备燃气具配件检测设备燃气具检测设备电热水器检测设备

按键荷重曲线测试仪

按键荷重曲线测试仪功能特点：

1.Peak Force、 Return Force、Distance及Click率等皆可直接在图上显示数值，不须人工计算； 2.量测曲线图由电脑记忆,可随时放大、缩小，一张A4纸可任意指定放置N个曲线图； 3.测定项目可输入上、下限规格值，测定结果可自动判定OK或NG； 4.可输入最大测定行程及荷重,电脑自动控制； 5.荷重单位显示N、lb、gf、kgf可自由切换； 6.电脑直接列印及储存荷重行程曲线图、检查报表．（不需要方格纸，一般Ａ４纸即可）； 7.测试资料储存于硬碟（每一笔资料皆可储存，不限次数）； 8.测试条件皆由电脑画面设定(含测试行程、速度、次数、空压、暂停时间等等)； 9.检验报表抬头内容可随时修改(中英文皆可)； 10.检验报表可自动产生,不须再作输入； 11.检验报表可转换为Excel等文书报表格式.

BR-PV-IVI-V曲线测试仪

满足光伏组件IEC61215各项试验...

Current-Voltage Measurement System （IV Tester） -20W Version for Continuous Solar SimulatorsMain Features:? Designed for use with continuous or pulse solar simulators? An output trigger TTL signal is used to synchronize its data acquisition with pulse solarsimulators? Variable resistive load? Max Electrical Power Reading: 20W base model, 60W high power model? Base Model Voltage range 200V （can be modified with additional shunt to suitapplication）? Base Model Current range 1A （can be modified with additional coil to suit application）? High Power Model Voltage range 60V （can be modified with additional shunt to suitapplication）? High Power Model Current range 3A （can be modified with additional coil to suitapplication）? Separate terminal interface for voltage ａnd current measurements? Interfaces to PC via GPIB cable for display ａnd data storage （hence GPIB card requiredin computer）? Saves each IV curve dataset in separate ASCII text file? I-V range selectable? Number of sample points selectable （between 10-100 points）? Sci-IVTest Windows based control softwareParameters Measured by IV SoftwareVoc, IocVsc, IscVmax, Imax, Pmaxefficiency （%）Light ａnd dark I-V characteristics上海市闵行区莘朱路903号（甲）厂区,201100Tel: 021-54387376,54380568 Fax: 021-54997016 E-mail:br.sci@263.net http://www.br17.com上海泊睿科学仪器有限公司Voc Slope （similar to Rs）Rp or Rshunt （system measures slope near Isc for this value）FF or Fill FactorJSc （mA/cm2）Forward ａnd Reverse Sweep FeatureSKU: SSIVT-20CThe SSIVT is an electrical current-voltage measurement system used to characterizephotovoltaic cell performance. This current-voltage tester works by sampling various currentversus voltage combinations of the photovoltaic cell with a variable impedance load. Theperformance of the photovoltaic cell is determined by measuring this output I-V relationshipwhile it is being illuminated by light. This relationship is typically called an "I-V curve" ａnd canbe obtained by exposing the photovoltaic cell to a constant level of light while varying anexternal impedance load such that its current-voltage values change. Since multiple I-V datapoints are required to create an I-V curve, an external trigger function model is available foruse with pulse solar simulators. This allows the tester to create multiple sequential pulses（typically 10-100 points selectable） to complete the IV curve measurements. Universal input100-240VAC, 50/60Hz. Software ａnd GPIB Board is included. An external computer （soldseparately） such as the PC computer controller is required to control this current-voltagemeasurement system.Purpose of Current Vs Voltage Measurement TestA solar cell may be operated over a wide range of voltage ａnd current combinations, but thereis generally an optimum combination for maximum energy collection efficiency. By varying anexternal load resistance from zero to infinity, the optimum I-V combination where the solar celldelivers the most power can be found.Current ａnd Voltage Measurement RangeThe standard I-V Test system can measure electrical power from photovoltaic cells up to 20W.The voltage envelope is limited to 200V ａnd the current is limited to 1A. A higher powered60W version is available where the voltage is limited to 60V ａnd the current is limited to 3A.For higher loads, shunts to measure a portion of the current can be used. In general, thelimitation of the standard model is the 1A current limit. If your solar cell can generate morecurrent than 1A, then we recommend upgrading to the 60W model.Voltage Scaling FactorAlthough the maximum voltage of the base unit is 200V, the software can rescale its scanningrange to 2V, 10V, 20V or 200V. Once the scale is selected, the maximum number of I-Vmeasurement points that can be taken in that selected range is 100 points.Current Density - Voltage （J-V） MeasurementsThe software currently only measures I-V characteristics ａnd JSc （mA/cm2）, but other J-V上海市闵行区莘朱路903号（甲）厂区,201100Tel: 021-54387376,54380568 Fax: 021-54997016 E-mail:br.sci@263.net http://www.br17.com上海泊睿科学仪器有限公司values can be derrived as J=I/area. The software outputs the I-V characteristics in an ASCIIfile which can then be read to derrive current density values.SoftwareSoftware is written in Labview, but a Labview Runtime engine allows it to run on Windows XPwithout the Labview development toolkit.System NotesThe I-V Measurement System sweeps the IV curve with an automatically adjustable resistiveload ａnd records multiple I-V data points along the way. The voltage ａnd current ranges aresoftware selectable ａnd so is the number of points taken, from 10-100 points depending onthe time length of the test allowable. The I-V data point values are then recorded ａnd plottedon a computer display ａnd saved in an ASCII text file. The points are selected by voltage,hence the voltage readings are evenly spaced.I-V Measurement BasicsFill Factor: Fill factor refers to the "squareness" of the I-V curve. It describes how closelymatched the voltage is at its maximum power point ａnd the current is also at its maximumpower point. The higher the fill factor match, the more square the I-V curve.Conversion Efficiency: The conversion efficiency of a solar cell is the percentage of lightenergy that gets converted to electrical power.References:The U.S. Department of Energy maintains a good website on how to use I-V measurementsystems in solar cell testing. Please see www.eere.energy.gov/solar/current_voltage.htmlTechnical Specifications? Base unit 200V max. （scale to 2V or 10V, but 20V ａnd 200V scales possible please ask）? Dwell time （wait time between each I-V reading） - programable, but cannot be below3ms? Number of I-V scanned points - 10 to 100 programable? Hardware Voltage Resolution: 50μv @ 2V scale, 500μV @ 20V scale （accuracy perreading）? Hardware Current Resolution: 50μA @ 1A scale （accuracy per reading）? I-V Measurement Sweep Resolution: （voltage scale selected / number of I-V scannedpoints）? Software Display Resolution: typically mV ａnd mA （but 3 decimals shown, so can be3.456E-1 A for addition decimal）上海市闵行区莘朱路903号（甲）厂区,201100Tel: 021-54387376,54380568 Fax: 021-54997016 E-mail:br.sci@263.net http://www.br17.com上海泊睿科学仪器有限公司Current-Voltage Measurement System （IV Tester） -20W Version for Flash Solar SimulatorsMain Features:? Designed for use with continuous or pulse solar simulators? An output trigger TTL signal is used to synchronize its data acquisition with pulse solarsimulators? Variable resistive load? Max Electrical Power Reading: 20W base model, 60W high power model? Base Model Voltage range 200V （can be modified with additional shunt to suitapplication）? Base Model Current range 1A （can be modified with additional coil to suit application）? High Power Model Voltage range 60V （can be modified with additional shunt to suitapplication）? High Power Model Current range 3A （can be modified with additional coil to suitapplication）? Separate terminal interface for voltage ａnd current measurements? Interfaces to PC via GPIB cable for display ａnd data storage （hence GPIB card requiredin computer）? Saves each IV curve dataset in separate ASCII text file? I-V range selectable? Number of sample points selectable （between 10-100 points）? Sci-IVTest Windows based control softwareParameters Measured by IV SoftwareVoc, IocVsc, IscVmax, Imax, Pmaxefficiency （%）Light ａnd dark I-V characteristics上海市闵行区莘朱路903号（甲）厂区,201100Tel: 021-54387376,54380568 Fax: 021-54997016 E-mail:br.sci@263.net http://www.br17.com上海泊睿科学仪器有限公司Voc Slope （similar to Rs）Rp or Rshunt （system measures slope near Isc for this value）FF or Fill FactorJSc （mA/cm2）Forward ａnd Reverse Sweep FeatureSKU: SSIVT-20FThe SSIVT is an electrical current-voltage measurement system used to characterizephotovoltaic cell performance. This current-voltage tester works by sampling various currentversus voltage combinations of the photovoltaic cell with a variable impedance load. Theperformance of the photovoltaic cell is determined by measuring this output I-V relationshipwhile it is being illuminated by light. This relationship is typically called an "I-V curve" ａnd canbe obtained by exposing the photovoltaic cell to a constant level of light while varying anexternal impedance load such that its current-voltage values change. Since multiple I-V datapoints are required to create an I-V curve, an external trigger function model is available foruse with pulse solar simulators. This allows the tester to create multiple sequential pulses（typically 10-100 points selectable） to complete the IV curve measurements. Universal input100-240VAC, 50/60Hz. Software ａnd GPIB Board is included. An external computer （soldseparately） such as the PC computer controller is required to control this current-voltagemeasurement system.Purpose of Current Vs Voltage Measurement TestA solar cell may be operated over a wide range of voltage ａnd current combinations, but thereis generally an optimum combination for maximum energy collection efficiency. By varying anexternal load resistance from zero to infinity, the optimum I-V combination where the solar celldelivers the most power can be found.Current ａnd Voltage Measurement RangeThe standard I-V Test system can measure electrical power from photovoltaic cells up to 20W.The voltage envelope is limited to 200V ａnd the current is limited to 1A. A higher powered60W version is available where the voltage is limited to 60V ａnd the current is limited to 3A.For higher loads, shunts to measure a portion of the current can be used. In general, thelimitation of the standard model is the 1A current limit. If your solar cell can generate morecurrent than 1A, then we recommend upgrading to the 60W model.Voltage Scaling FactorAlthough the maximum voltage of the base unit is 200V, the software can rescale its scanningrange to 2V, 10V, 20V or 200V. Once the scale is selected, the maximum number of I-Vmeasurement points that can be taken in that selected range is 100 points.Current Density - Voltage （J-V） MeasurementsThe software currently only measures I-V characteristics ａnd JSc （mA/cm2）, but other J-V上海市闵行区莘朱路903号（甲）厂区,201100Tel: 021-54387376,54380568 Fax: 021-54997016 E-mail:br.sci@263.net http://www.br17.com上海泊睿科学仪器有限公司values can be derrived as J=I/area. The software outputs the I-V characteristics in an ASCIIfile which can then be read to derrive current density values.SoftwareSoftware is written in Labview, but a Labview Runtime engine allows it to run on Windows XPwithout the Labview development toolkit.System NotesThe I-V Measurement System sweeps the IV curve with an automatically adjustable resistiveload ａnd records multiple I-V data points along the way. The voltage ａnd current ranges aresoftware selectable ａnd so is the number of points taken, from 10-100 points depending onthe time length of the test allowable. The I-V data point values are then recorded ａnd plottedon a computer display ａnd saved in an ASCII text file. The points are selected by voltage,hence the voltage readings are evenly spaced.I-V Measurement BasicsFill Factor: Fill factor refers to the "squareness" of the I-V curve. It describes how closelymatched the voltage is at its maximum power point ａnd the current is also at its maximumpower point. The higher the fill factor match, the more square the I-V curve.Conversion Efficiency: The conversion efficiency of a solar cell is the percentage of lightenergy that gets converted to electrical power.References:The U.S. Department of Energy maintains a good website on how to use I-V measurementsystems in solar cell testing. Please see www.eere.energy.gov/solar/current_voltage.htmlTechnical Specifications? Base unit 200V max. （scale to 2V or 10V, but 20V ａnd 200V scales possible please ask）? Dwell time （wait time between each I-V reading） - programable, but cannot be below3ms? Number of I-V scanned points - 10 to 100 programable? Hardware Voltage Resolution: 50μv @ 2V scale, 500μV @ 20V scale （accuracy perreading）? Hardware Current Resolution: 50μA @ 1A scale （accuracy per reading）? I-V Measurement Sweep Resolution: （voltage scale selected / number of I-V scannedpoints）? Software Display Resolution: typically mV ａnd mA （but 3 decimals shown, so can be3.456E-1 A for addition decimal）上海市闵行区莘朱路903号（甲）厂区,201100Tel: 021-54387376,54380568 Fax: 021-54997016 E-mail:br.sci@263.net http://www.br17.com上海泊睿科学仪器有限公司Current-Voltage Measurement System （IV Tester） -60W Version for Continuous Solar SimulatorsMain Features:? Designed for use with continuous or pulse solar simulators? An output trigger TTL signal is used to synchronize its data acquisition with pulse solarsimulators? Variable resistive load? Max Electrical Power Reading: 20W base model, 60W high power model? Base Model Voltage range 200V （can be modified with additional shunt to suitapplication）? Base Model Current range 1A （can be modified with additional coil to suit application）? High Power Model Voltage range 60V （can be modified with additional shunt to suitapplication）? High Power Model Current range 3A （can be modified with additional coil to suitapplication）? Separate terminal interface for voltage ａnd current measurements? Interfaces to PC via GPIB cable for display ａnd data storage （hence GPIB card requiredin computer）? Saves each IV curve dataset in separate ASCII text file? I-V range selectable? Number of sample points selectable （between 10-100 points）? Sci-IVTest Windows based control softwareParameters Measured by IV SoftwareVoc, IocVsc, IscVmax, Imax, Pmaxefficiency （%）Light ａnd dark I-V characteristics上海市闵行区莘朱路903号（甲）厂区,201100Tel: 021-54387376,54380568 Fax: 021-54997016 E-mail:br.sci@263.net http://www.br17.com上海泊睿科学仪器有限公司Voc Slope （similar to Rs）Rp or Rshunt （system measures slope near Isc for this value）FF or Fill FactorJSc （mA/cm2）Forward ａnd Reverse Sweep FeatureSKU: SSIVT-60CThe SSIVT is an electrical current-voltage measurement system used to characterizephotovoltaic cell performance. This current-voltage tester works by sampling various currentversus voltage combinations of the photovoltaic cell with a variable impedance load. Theperformance of the photovoltaic cell is determined by measuring this output I-V relationshipwhile it is being illuminated by light. This relationship is typically called an "I-V curve" ａnd canbe obtained by exposing the photovoltaic cell to a constant level of light while varying anexternal impedance load such that its current-voltage values change. Since multiple I-V datapoints are required to create an I-V curve, an external trigger function model is available foruse with pulse solar simulators. This allows the tester to create multiple sequential pulses（typically 10-100 points selectable） to complete the IV curve measurements. Universal input100-240VAC, 50/60Hz. Software ａnd GPIB Board is included. An external computer （soldseparately） such as the PC computer controller is required to control this current-voltagemeasurement system.Purpose of Current Vs Voltage Measurement TestA solar cell may be operated over a wide range of voltage ａnd current combinations, but thereis generally an optimum combination for maximum energy collection efficiency. By varying anexternal load resistance from zero to infinity, the optimum I-V combination where the solar celldelivers the most power can be found.Current ａnd Voltage Measurement RangeThe standard I-V Test system can measure electrical power from photovoltaic cells up to 20W.The voltage envelope is limited to 200V ａnd the current is limited to 1A. A higher powered60W version is available where the voltage is limited to 60V ａnd the current is limited to 3A.For higher loads, shunts to measure a portion of the current can be used. In general, thelimitation of the standard model is the 1A current limit. If your solar cell can generate morecurrent than 1A, then we recommend upgrading to the 60W model.Voltage Scaling FactorAlthough the maximum voltage of the base unit is 200V, the software can rescale its scanningrange to 2V, 10V, 20V or 200V. Once the scale is selected, the maximum number of I-Vmeasurement points that can be taken in that selected range is 100 points.Current Density - Voltage （J-V） MeasurementsThe software currently only measures I-V characteristics ａnd JSc （mA/cm2）, but other J-V上海市闵行区莘朱路903号（甲）厂区,201100Tel: 021-54387376,54380568 Fax: 021-54997016 E-mail:br.sci@263.net http://www.br17.com上海泊睿科学仪器有限公司values can be derrived as J=I/area. The software outputs the I-V characteristics in an ASCIIfile which can then be read to derrive current density values.SoftwareSoftware is written in Labview, but a Labview Runtime engine allows it to run on Windows XPwithout the Labview development toolkit.System NotesThe I-V Measurement System sweeps the IV curve with an automatically adjustable resistiveload ａnd records multiple I-V data points along the way. The voltage ａnd current ranges aresoftware selectable ａnd so is the number of points taken, from 10-100 points depending onthe time length of the test allowable. The I-V data point values are then recorded ａnd plottedon a computer display ａnd saved in an ASCII text file. The points are selected by voltage,hence the voltage readings are evenly spaced.I-V Measurement BasicsFill Factor: Fill factor refers to the "squareness" of the I-V curve. It describes how closelymatched the voltage is at its maximum power point ａnd the current is also at its maximumpower point. The higher the fill factor match, the more square the I-V curve.Conversion Efficiency: The conversion efficiency of a solar cell is the percentage of lightenergy that gets converted to electrical power.References:The U.S. Department of Energy maintains a good website on how to use I-V measurementsystems in solar cell testing. Please see www.eere.energy.gov/solar/current_voltage.htmlTechnical Specifications? Base unit 200V max. （scale to 2V or 10V, but 20V ａnd 200V scales possible please ask）? Dwell time （wait time between each I-V reading） - programable, but cannot be below3ms? Number of I-V scanned points - 10 to 100 programable? Hardware Voltage Resolution: 50μv @ 2V scale, 500μV @ 20V scale （accuracy perreading）? Hardware Current Resolution: 50μA @ 1A scale （accuracy per reading）? I-V Measurement Sweep Resolution: （voltage scale selected / number of I-V scannedpoints）? Software Display Resolution: typically mV ａnd mA （but 3 decimals shown, so can be3.456E-1 A for addition decimal）上海市闵行区莘朱路903号（甲）厂区,201100Tel: 021-54387376,54380568 Fax: 021-54997016 E-mail:br.sci@263.net http://www.br17.com上海泊睿科学仪器有限公司Current-Voltage Measurement System （IV Tester） -60W Version for Flash Solar SimulatorsMain Features:? Designed for use with continuous or pulse solar simulators? An output trigger TTL signal is used to synchronize its data acquisition with pulse solarsimulators? Variable resistive load? Max Electrical Power Reading: 20W base model, 60W high power model? Base Model Voltage range 200V （can be modified with additional shunt to suitapplication）? Base Model Current range 1A （can be modified with additional coil to suit application）? High Power Model Voltage range 60V （can be modified with additional shunt to suitapplication）? High Power Model Current range 3A （can be modified with additional coil to suitapplication）? Separate terminal interface for voltage ａnd current measurements? Interfaces to PC via GPIB cable for display ａnd data storage （hence GPIB card requiredin computer）? Saves each IV curve dataset in separate ASCII text file? I-V range selectable? Number of sample points selectable （between 10-100 points）? Sci-IVTest Windows based control softwareParameters Measured by IV SoftwareVoc, IocVsc, IscVmax, Imax, Pmaxefficiency （%）Light ａnd dark I-V characteristics上海市闵行区莘朱路903号（甲）厂区,201100Tel: 021-54387376,54380568 Fax: 021-54997016 E-mail:br.sci@263.net http://www.br17.com上海泊睿科学仪器有限公司Voc Slope （similar to Rs）Rp or Rshunt （system measures slope near Isc for this value）FF or Fill FactorJSc （mA/cm2）Forward ａnd Reverse Sweep FeatureSKU: SSIVT-60FThe SSIVT is an electrical current-voltage measurement system used to characterizephotovoltaic cell performance. This current-voltage tester works by sampling various currentversus voltage combinations of the photovoltaic cell with a variable impedance load. Theperformance of the photovoltaic cell is determined by measuring this output I-V relationshipwhile it is being illuminated by light. This relationship is typically called an "I-V curve" ａnd canbe obtained by exposing the photovoltaic cell to a constant level of light while varying anexternal impedance load such that its current-voltage values change. Since multiple I-V datapoints are required to create an I-V curve, an external trigger function model is available foruse with pulse solar simulators. This allows the tester to create multiple sequential pulses（typically 10-100 points selectable） to complete the IV curve measurements. Universal input100-240VAC, 50/60Hz. Software ａnd GPIB Board is included. An external computer （soldseparately） such as the PC computer controller is required to control this current-voltagemeasurement system.Purpose of Current Vs Voltage Measurement TestA solar cell may be operated over a wide range of voltage ａnd current combinations, but thereis generally an optimum combination for maximum energy collection efficiency. By varying anexternal load resistance from zero to infinity, the optimum I-V combination where the solar celldelivers the most power can be found.Current ａnd Voltage Measurement RangeThe standard I-V Test system can measure electrical power from photovoltaic cells up to 20W.The voltage envelope is limited to 200V ａnd the current is limited to 1A. A higher powered60W version is available where the voltage is limited to 60V ａnd the current is limited to 3A.For higher loads, shunts to measure a portion of the current can be used. In general, thelimitation of the standard model is the 1A current limit. If your solar cell can generate morecurrent than 1A, then we recommend upgrading to the 60W model.Voltage Scaling FactorAlthough the maximum voltage of the base unit is 200V, the software can rescale its scanningrange to 2V, 10V, 20V or 200V. Once the scale is selected, the maximum number of I-Vmeasurement points that can be taken in that selected range is 100 points.Current Density - Voltage （J-V） MeasurementsThe software currently only measures I-V characteristics ａnd JSc （mA/cm2）, but other J-V上海市闵行区莘朱路903号（甲）厂区,201100Tel: 021-54387376,54380568 Fax: 021-54997016 E-mail:br.sci@263.net http://www.br17.com上海泊睿科学仪器有限公司values can be derrived as J=I/area. The software outputs the I-V characteristics in an ASCIIfile which can then be read to derrive current density values.SoftwareSoftware is written in Labview, but a Labview Runtime engine allows it to run on Windows XPwithout the Labview development toolkit.System NotesThe I-V Measurement System sweeps the IV curve with an automatically adjustable resistiveload ａnd records multiple I-V data points along the way. The voltage ａnd current ranges aresoftware selectable ａnd so is the number of points taken, from 10-100 points depending onthe time length of the test allowable. The I-V data point values are then recorded ａnd plottedon a computer display ａnd saved in an ASCII text file. The points are selected by voltage,hence the voltage readings are evenly spaced.I-V Measurement BasicsFill Factor: Fill factor refers to the "squareness" of the I-V curve. It describes how closelymatched the voltage is at its maximum power point ａnd the current is also at its maximumpower point. The higher the fill factor match, the more square the I-V curve.Conversion Efficiency: The conversion efficiency of a solar cell is the percentage of lightenergy that gets converted to electrical power.References:The U.S. Department of Energy maintains a good website on how to use I-V measurementsystems in solar cell testing. Please see www.eere.energy.gov/solar/current_voltage.htmlTechnical Specifications? Base unit 200V max. （scale to 2V or 10V, but 20V ａnd 200V scales possible please ask）? Dwell time （wait time between each I-V reading） - programable, but cannot be below3ms? Number of I-V scanned points - 10 to 100 programable? Hardware Voltage Resolution: 50μv @ 2V scale, 500μV @ 20V scale （accuracy perreading）? Hardware Current Resolution: 50μA @ 1A scale （accuracy per reading）? I-V Measurement Sweep Resolution: （voltage scale selected / number of I-V scannedpoints）? Software Display Resolution: typically mV ａnd mA （but 3 decimals shown, so can be3.456E-1 A for addition decimal）上海市闵行区莘朱路903号（甲）厂区,201100Tel: 021-54387376,54380568 Fax: 021-54997016 E-mail:br.sci@263.net http://www.br17.com上海泊睿科学仪器有限公司Current-Voltage Measurement System （IV Tester） -1000W Version for Flash Solar SimulatorsMain Features:? Designed for use with continuous or pulse solar simulators? An output trigger TTL signal is used to synchronize its data acquisition with pulse solarsimulators? Variable resistive load? Max Electrical Power Reading: 20W base model, 60W high power model? Base Model Voltage range 200V （can be modified with additional shunt to suitapplication）? Base Model Current range 1A （can be modified with additional coil to suit application）? High Power Model Voltage range 60V （can be modified with additional shunt to suitapplication）? High Power Model Current range 3A （can be modified with additional coil to suitapplication）? Separate terminal interface for voltage ａnd current measurements? Interfaces to PC via GPIB cable for display ａnd data storage （hence GPIB card requiredin computer）? Saves each IV curve dataset in separate ASCII text file? I-V range selectable? Number of sample points selectable （between 10-100 points）? Sci-IVTest Windows based control softwareParameters Measured by IV SoftwareVoc, IocVsc, IscVmax, Imax, Pmaxefficiency （%）Light ａnd dark I-V characteristics上海市闵行区莘朱路903号（甲）厂区,201100Tel: 021-54387376,54380568 Fax: 021-54997016 E-mail:br.sci@263.net http://www.br17.com上海泊睿科学仪器有限公司Voc Slope （similar to Rs）Rp or Rshunt （system measures slope near Isc for this value）FF or Fill FactorJSc （mA/cm2）Forward ａnd Reverse Sweep FeatureSKU: SSIVT-1KFThe SSIVT is an electrical current-voltage measurement system used to characterizephotovoltaic cell performance. This current-voltage tester works by sampling various currentversus voltage combinations of the photovoltaic cell with a variable impedance load. Theperformance of the photovoltaic cell is determined by measuring this output I-V relationshipwhile it is being illuminated by light. This relationship is typically called an "I-V curve" ａnd canbe obtained by exposing the photovoltaic cell to a constant level of light while varying anexternal impedance load such that its current-voltage values change. Since multiple I-V datapoints are required to create an I-V curve, an external trigger function model is available foruse with pulse solar simulators. This allows the tester to create multiple sequential pulses（typically 10-100 points selectable） to complete the IV curve measurements. Universal input100-240VAC, 50/60Hz. Software ａnd GPIB Board is included. An external computer （soldseparately） such as the PC computer controller is required to control this current-voltagemeasurement system.Purpose of Current Vs Voltage Measurement TestA solar cell may be operated over a wide range of voltage ａnd current combinations, but thereis generally an optimum combination for maximum energy collection efficiency. By varying anexternal load resistance from zero to infinity, the optimum I-V combination where the solar celldelivers the most power can be found.Current ａnd Voltage Measurement RangeThe standard I-V Test system can measure electrical power from photovoltaic cells up to 20W.The voltage envelope is limited to 200V ａnd the current is limited to 1A. A higher powered60W version is available where the voltage is limited to 60V ａnd the current is limited to 3A.For higher loads, shunts to measure a portion of the current can be used. In general, thelimitation of the standard model is the 1A current limit. If your solar cell can generate morecurrent than 1A, then we recommend upgrading to the 60W model.Voltage Scaling FactorAlthough the maximum voltage of the base unit is 200V, the software can rescale its scanningrange to 2V, 10V, 20V or 200V. Once the scale is selected, the maximum number of I-Vmeasurement points that can be taken in that selected range is 100 points.Current Density - Voltage （J-V） MeasurementsThe software currently only measures I-V characteristics ａnd JSc （mA/cm2）, but other J-V上海市闵行区莘朱路903号（甲）厂区,201100Tel: 021-54387376,54380568 Fax: 021-54997016 E-mail:br.sci@263.net http://www.br17.com上海泊睿科学仪器有限公司上海市闵行区莘朱路903号（甲）厂区,201100Tel: 021-54387376,54380568 Fax: 021-54997016 E-mail:br.sci@263.net http://www.br17.comvalues can be derrived as J=I/area. The software outputs the I-V characteristics in an ASCIIfile which can then be read to derrive current density values.SoftwareSoftware is written in Labview, but a Labview Runtime engine allows it to run on Windows XPwithout the Labview development toolkit.System NotesThe I-V Measurement System sweeps the IV curve with an automatically adjustable resistiveload ａnd records multiple I-V data points along the way. The voltage ａnd current ranges aresoftware selectable ａnd so is the number of points taken, from 10-100 points depending onthe time length of the test allowable. The I-V data point values are then recorded ａnd plottedon a computer display ａnd saved in an ASCII text file. The points are selected by voltage,hence the voltage readings are evenly spaced.I-V Measurement BasicsFill Factor: Fill factor refers to the "squareness" of the I-V curve. It describes how closelymatched the voltage is at its maximum power point ａnd the current is also at its maximumpower point. The higher the fill factor match, the more square the I-V curve.Conversion Efficiency: The conversion efficiency of a solar cell is the percentage of lightenergy that gets converted to electrical power.References:The U.S. Department of Energy maintains a good website on how to use I-V measurementsystems in solar cell testing. Please see www.eere.energy.gov/solar/current_voltage.htmlTechnical Specifications? Base unit 200V max. （scale to 2V or 10V, but 20V ａnd 200V scales possible please ask）? Dwell time （wait time between each I-V reading） - programable, but cannot be below3ms? Number of I-V scanned points - 10 to 100 programable? Hardware Voltage Resolution: 50μv @ 2V scale, 500μV @ 20V scale （accuracy perreading）? Hardware Current Resolution: 50μA @ 1A scale （accuracy per reading）? I-V Measurement Sweep Resolution: （voltage scale selected / number of I-V scannedpoints）? Software Display Resolution: typically mV ａnd mA （but 3 decimals shown, so can be3.456E-1 A for addition decimal）上海泊睿科学仪器有限公司

TC-60K温度曲线测试仪

炉温测试仪

·型号：TC-60K II

·品牌：TOPCITY

·产地：TOPCITY

·规格：六通道炉温跟踪仪

·价格：面议

查看该产品图片 ——深圳市通城电电子有限公司,专注SMT，专业炉温测试仪版权所有

业界可连续测试20组温度曲线的测试仪！主要技术指标：1、型号规格： TC-60K II2 、测试通道： 6 CH3、热电偶： K型4、测温范围： 0－－-400℃5、测温精度： ±1℃6、分辨率： 0.1℃全量程7、记录数据： 120000点/每通道8、采样间隔： 0.05－－－－10秒软件设置9、总功率： ≤100mW10、工作电压： 5VDC（内置可充电电池） 11、外形尺寸： 208L×75W×20Hmm12、保护盒尺寸：252L×88W×30Hmm13、翼展宽度： 98－－－－－－218mm标配14、通讯端口： RS-232 或 USB （选配）15、分析软件： e-DataPro 仪器配置：1、温度分析仪 2、仪器保护盒 3、热电偶 4、软件安装盘 5、数据输出线 6、高温胶纸 7、充电器 8、仪器箱 9、剪刀 10、镊子 11、隔热手套 12、十字镙丝刀13、高温锡丝 14、用户手册15、产品合格证温度曲线分析设置功能（数据分析报告）：1、回流炉和波峰炉温区设置温度和运输速度2、温度采样点位置名称及PCB示意图3、两个温度值之间的时间（五个温度区间）4、两个温度值之间的斜率（五个温度区间）5、两个时刻点之间的斜率（五个时间区间）6、超出指定温度的时间7、温度和任意时刻点温度8、水平温度线、垂直时刻线及两时刻间的时间9、网格编辑细化和曲线缩放显示10、模拟曲线功能，工艺优化，测试日期和时间11、公司名称、产品名称和备注信息的输入12、选择打印方向（横向列印和纵向列印）13、可将温度数据报告导出至Excel进行编辑14、插入图片功能，使温度测试点位置一目了然15、调用多组温度曲线进行对比16、实时监测和仪器记录两种工作模式17、手动清除和软件清除仪器内存数据方式18、手动、指定时间、指定温度三种启动方式新增功能：1、增加工艺指标（PWI）分析2、增加锡膏信息管理3、增加设备信息管理4、增加产品信息管理5、仪器断电永不丢失数据 6、水平温度线和时刻点线可移动编辑7、记录器可连续记录20组温度数据，一次分组下载，免除在车间和办公室之间来回奔跑，浪费您的宝贵时间

MP-170 I-VMP-170 I-V 曲线测试仪

■ I-V曲线测量 ■ 可应用于 10W PV组件至10kW PV阵列系统

● 测量范围可达 1000V ● 可应用于 10W PV组件至10kW PV阵列系统 ● 内置故障诊断功能 ● 太阳发光传感器单元可分离，用于远距离测量。 ● LCD显示器、内置键盘和诊断功能支持便捷的单机操作 ● 额外的分析软件包，可使用PC操作　　MP-170是用于测量I-V曲线的仪器，可评估太阳能电池组件和阵列系统的性能。测量范围可从10W PV组件至 10kW PV系统。 MP-170对电压的测量范围可达 1000V ，适用于高电压太阳能电池系统。　　MP-170是高性价比、紧凑的、便携的仪器，包含太阳发光探测器，两个温度传感器，带有故障诊断功能。　　探测单元配备了一个硅探测器日照强度计，并带有校准证书。太阳发光和温度能够被远距离测量。同时它的能够显示I-V的导数和放大倍率，MP-170为太阳能电池列阵的失效诊断是非常的。拥有内置键盘和LCD显示器，可自我诊断，MP-170能够不依赖PC而单机操作。　　I-V 曲线和其他数据如Voc、Isc、Pm、STC变换、数据失效分析等，测量数据可显示在内置LCD上，使MP-170能够非常方便的进行在线性能测量。MP-170可存储最多300个I-V曲线数据，包括相应的太阳发光和温度数据。　　MP-170能够通过PC操作。增强的测量/分析软件包可运行于Windows 2000/XP等系统，能够保存和分析数据，输出图象，自动持续测量等。技术指标

测量范围	电压: 10V – 1000V 电流: 1A – 20A 功率: 10W – 10kW
数据采集点	400 点 / I-V 曲线
数据存储	300个 IV曲线（内存）
输入检测器探测单元	太阳能电池组件/阵列 x 1（用两条电缆连接）日照强度计或参考电池，热电偶 x 2
接口	USB x 1（PC）, RS-485 x 1（传感器）
测量参数	I-V曲线, Pm, Isc, Voc, FF, Ipm, Vpm 太阳发光, 温度 x 2 STC变换, I-V 曲线导数
电源测试仪探测单元	D号电池×4或AC适配器DC9V,1.3A 006P型电池（9V）
尺寸检测器探测单元	W: 230mm x L: 300mm x H: 160mm, 重量: 3.0 kg W: 210mm x L: 85mm x H: 55mm, 重量: 0.48 kg
重量	3.0kg 探测单元：0.48kg 电池盒：0.75kg
PC 操作系统	Windows 2000/XP

该公司产品分类：其实电子测试仪器电子测试仪系统仪器仪表

KICstart回流焊测温仪温度曲线测试仪曲线测试仪

技术参数和说明：　　1.传统的温度曲线测量和设置一直是个费时的工作，而KIC的SlimKIC Start型温度／时间工艺设置器解决了这传统问题。　　2.操作员可以从已经设好的锡膏特性数据库中选择所用的锡膏。SlimKIC Start自动设置所需的工艺框限或窗口。　　3.如果配合NavigatorTM软件经过一次的测试后，软件自动的预算使工艺合格的应有操作工可以从已经设好的锡膏特性数据库中选择所用的锡膏。SlimKIC Start自动设置所需的工艺框限或窗口。减少了重复试验的需求。试验的需求。　　4.SlimKIC Start提供PWI指标，协助操作工了解设置好工艺能力。操作工可以从中决定是否还要微调优化。　　5.如果配合NavigatorTM软件，可自动在所有可能的参数设置组合中选出设置点，无须人工判断和试验而不断优化。　　6.如果配合AutoFocusTM软件，可从以往的设置经验中为您推算出初始的工艺参数。无须自已猜测。软件也具备自动学习功能，有了足够经验后能够一次就完成PWI设置。　　7.如果配合KIC PilotTM，对于某些炉子还可以自动调控炉子的参数设置，无须人工调整。　　8.在复杂或大量BGA之类的PCBA上，传统的5通道测时-温器已经不可能满足技术上的要求。　　9.KIC 系列提供6，9至12通道。KIC Start提供6通道。波峰焊、回流焊通用。　　10.本炉温测试仪目前为业界测温仪，在软件上，模拟曲线功能，曲线对比功能和测温精度上是其它同类品牌中所不与伦比的；硬件上，省去了一般测温仪主机和保温盒在测温时两次调整分离式的繁琐工序，主机直接放在隔温材料的保温盒里，在测量和读取时不需拿出直接进入电脑接口即可。　　　　KIC SlimKICTM提供给您高度的性和自动化！　　　　1.性能高超的软件　　KIC NavigatorTM是SlimKIC Start的选择。这套软件自动的分析数发千万计的温度和链速组合，并在极短的时间内（一分钟之内）提供用户化的设置。　　2.使用快速简单　　用户只需告诉KIC NavigatorTM他的工艺要求，软件会转告他的设置点。其高度自动化能力使不熟悉工艺的操作工也能使用。用户再也不需要尝试过炉数次来获得正优化的设置了。　　3.更优化的工艺设置　　由于时间资源的限制，人工设置的增减幅度一般不可能太小（约在5ºC左右）。KIC NavigatorTM却能够在1ºC的细小幅度上调整，使工艺设置更加优化。

该公司产品分类：锡膏测厚仪 BGA返修台炉温测试仪

BR-PV-IVI-V曲线测试仪

满足光伏组件IEC61215各项试验...

Current-Voltage Measurement System （IV Tester） -20W Version for Continuous Solar SimulatorsMain Features:? Designed for use with continuous or pulse solar simulators? An output trigger TTL signal is used to synchronize its data acquisition with pulse solarsimulators? Variable resistive load? Max Electrical Power Reading: 20W base model, 60W high power model? Base Model Voltage range 200V （can be modified with additional shunt to suitapplication）? Base Model Current range 1A （can be modified with additional coil to suit application）? High Power Model Voltage range 60V （can be modified with additional shunt to suitapplication）? High Power Model Current range 3A （can be modified with additional coil to suitapplication）? Separate terminal interface for voltage ａnd current measurements? Interfaces to PC via GPIB cable for display ａnd data storage （hence GPIB card requiredin computer）? Saves each IV curve dataset in separate ASCII text file? I-V range selectable? Number of sample points selectable （between 10-100 points）? Sci-IVTest Windows based control softwareParameters Measured by IV SoftwareVoc, IocVsc, IscVmax, Imax, Pmaxefficiency （%）Light ａnd dark I-V characteristics上海市闵行区莘朱路903号（甲）厂区,201100Tel: 021-54387376,54380568 Fax: 021-54997016 E-mail:br.sci@263.net http://www.br17.com上海泊睿科学仪器有限公司Voc Slope （similar to Rs）Rp or Rshunt （system measures slope near Isc for this value）FF or Fill FactorJSc （mA/cm2）Forward ａnd Reverse Sweep FeatureSKU: SSIVT-20CThe SSIVT is an electrical current-voltage measurement system used to characterizephotovoltaic cell performance. This current-voltage tester works by sampling various currentversus voltage combinations of the photovoltaic cell with a variable impedance load. Theperformance of the photovoltaic cell is determined by measuring this output I-V relationshipwhile it is being illuminated by light. This relationship is typically called an "I-V curve" ａnd canbe obtained by exposing the photovoltaic cell to a constant level of light while varying anexternal impedance load such that its current-voltage values change. Since multiple I-V datapoints are required to create an I-V curve, an external trigger function model is available foruse with pulse solar simulators. This allows the tester to create multiple sequential pulses（typically 10-100 points selectable） to complete the IV curve measurements. Universal input100-240VAC, 50/60Hz. Software ａnd GPIB Board is included. An external computer （soldseparately） such as the PC computer controller is required to control this current-voltagemeasurement system.Purpose of Current Vs Voltage Measurement TestA solar cell may be operated over a wide range of voltage ａnd current combinations, but thereis generally an optimum combination for maximum energy collection efficiency. By varying anexternal load resistance from zero to infinity, the optimum I-V combination where the solar celldelivers the most power can be found.Current ａnd Voltage Measurement RangeThe standard I-V Test system can measure electrical power from photovoltaic cells up to 20W.The voltage envelope is limited to 200V ａnd the current is limited to 1A. A higher powered60W version is available where the voltage is limited to 60V ａnd the current is limited to 3A.For higher loads, shunts to measure a portion of the current can be used. In general, thelimitation of the standard model is the 1A current limit. If your solar cell can generate morecurrent than 1A, then we recommend upgrading to the 60W model.Voltage Scaling FactorAlthough the maximum voltage of the base unit is 200V, the software can rescale its scanningrange to 2V, 10V, 20V or 200V. Once the scale is selected, the maximum number of I-Vmeasurement points that can be taken in that selected range is 100 points.Current Density - Voltage （J-V） MeasurementsThe software currently only measures I-V characteristics ａnd JSc （mA/cm2）, but other J-V上海市闵行区莘朱路903号（甲）厂区,201100Tel: 021-54387376,54380568 Fax: 021-54997016 E-mail:br.sci@263.net http://www.br17.com上海泊睿科学仪器有限公司values can be derrived as J=I/area. The software outputs the I-V characteristics in an ASCIIfile which can then be read to derrive current density values.SoftwareSoftware is written in Labview, but a Labview Runtime engine allows it to run on Windows XPwithout the Labview development toolkit.System NotesThe I-V Measurement System sweeps the IV curve with an automatically adjustable resistiveload ａnd records multiple I-V data points along the way. The voltage ａnd current ranges aresoftware selectable ａnd so is the number of points taken, from 10-100 points depending onthe time length of the test allowable. The I-V data point values are then recorded ａnd plottedon a computer display ａnd saved in an ASCII text file. The points are selected by voltage,hence the voltage readings are evenly spaced.I-V Measurement BasicsFill Factor: Fill factor refers to the "squareness" of the I-V curve. It describes how closelymatched the voltage is at its maximum power point ａnd the current is also at its maximumpower point. The higher the fill factor match, the more square the I-V curve.Conversion Efficiency: The conversion efficiency of a solar cell is the percentage of lightenergy that gets converted to electrical power.References:The U.S. Department of Energy maintains a good website on how to use I-V measurementsystems in solar cell testing. Please see www.eere.energy.gov/solar/current_voltage.htmlTechnical Specifications? Base unit 200V max. （scale to 2V or 10V, but 20V ａnd 200V scales possible please ask）? Dwell time （wait time between each I-V reading） - programable, but cannot be below3ms? Number of I-V scanned points - 10 to 100 programable? Hardware Voltage Resolution: 50μv @ 2V scale, 500μV @ 20V scale （accuracy perreading）? Hardware Current Resolution: 50μA @ 1A scale （accuracy per reading）? I-V Measurement Sweep Resolution: （voltage scale selected / number of I-V scannedpoints）? Software Display Resolution: typically mV ａnd mA （but 3 decimals shown, so can be3.456E-1 A for addition decimal）上海市闵行区莘朱路903号（甲）厂区,201100Tel: 021-54387376,54380568 Fax: 021-54997016 E-mail:br.sci@263.net http://www.br17.com上海泊睿科学仪器有限公司Current-Voltage Measurement System （IV Tester） -20W Version for Flash Solar SimulatorsMain Features:? Designed for use with continuous or pulse solar simulators? An output trigger TTL signal is used to synchronize its data acquisition with pulse solarsimulators? Variable resistive load? Max Electrical Power Reading: 20W base model, 60W high power model? Base Model Voltage range 200V （can be modified with additional shunt to suitapplication）? Base Model Current range 1A （can be modified with additional coil to suit application）? High Power Model Voltage range 60V （can be modified with additional shunt to suitapplication）? High Power Model Current range 3A （can be modified with additional coil to suitapplication）? Separate terminal interface for voltage ａnd current measurements? Interfaces to PC via GPIB cable for display ａnd data storage （hence GPIB card requiredin computer）? Saves each IV curve dataset in separate ASCII text file? I-V range selectable? Number of sample points selectable （between 10-100 points）? Sci-IVTest Windows based control softwareParameters Measured by IV SoftwareVoc, IocVsc, IscVmax, Imax, Pmaxefficiency （%）Light ａnd dark I-V characteristics上海市闵行区莘朱路903号（甲）厂区,201100Tel: 021-54387376,54380568 Fax: 021-54997016 E-mail:br.sci@263.net http://www.br17.com上海泊睿科学仪器有限公司Voc Slope （similar to Rs）Rp or Rshunt （system measures slope near Isc for this value）FF or Fill FactorJSc （mA/cm2）Forward ａnd Reverse Sweep FeatureSKU: SSIVT-20FThe SSIVT is an electrical current-voltage measurement system used to characterizephotovoltaic cell performance. This current-voltage tester works by sampling various currentversus voltage combinations of the photovoltaic cell with a variable impedance load. Theperformance of the photovoltaic cell is determined by measuring this output I-V relationshipwhile it is being illuminated by light. This relationship is typically called an "I-V curve" ａnd canbe obtained by exposing the photovoltaic cell to a constant level of light while varying anexternal impedance load such that its current-voltage values change. Since multiple I-V datapoints are required to create an I-V curve, an external trigger function model is available foruse with pulse solar simulators. This allows the tester to create multiple sequential pulses（typically 10-100 points selectable） to complete the IV curve measurements. Universal input100-240VAC, 50/60Hz. Software ａnd GPIB Board is included. An external computer （soldseparately） such as the PC computer controller is required to control this current-voltagemeasurement system.Purpose of Current Vs Voltage Measurement TestA solar cell may be operated over a wide range of voltage ａnd current combinations, but thereis generally an optimum combination for maximum energy collection efficiency. By varying anexternal load resistance from zero to infinity, the optimum I-V combination where the solar celldelivers the most power can be found.Current ａnd Voltage Measurement RangeThe standard I-V Test system can measure electrical power from photovoltaic cells up to 20W.The voltage envelope is limited to 200V ａnd the current is limited to 1A. A higher powered60W version is available where the voltage is limited to 60V ａnd the current is limited to 3A.For higher loads, shunts to measure a portion of the current can be used. In general, thelimitation of the standard model is the 1A current limit. If your solar cell can generate morecurrent than 1A, then we recommend upgrading to the 60W model.Voltage Scaling FactorAlthough the maximum voltage of the base unit is 200V, the software can rescale its scanningrange to 2V, 10V, 20V or 200V. Once the scale is selected, the maximum number of I-Vmeasurement points that can be taken in that selected range is 100 points.Current Density - Voltage （J-V） MeasurementsThe software currently only measures I-V characteristics ａnd JSc （mA/cm2）, but other J-V上海市闵行区莘朱路903号（甲）厂区,201100Tel: 021-54387376,54380568 Fax: 021-54997016 E-mail:br.sci@263.net http://www.br17.com上海泊睿科学仪器有限公司values can be derrived as J=I/area. The software outputs the I-V characteristics in an ASCIIfile which can then be read to derrive current density values.SoftwareSoftware is written in Labview, but a Labview Runtime engine allows it to run on Windows XPwithout the Labview development toolkit.System NotesThe I-V Measurement System sweeps the IV curve with an automatically adjustable resistiveload ａnd records multiple I-V data points along the way. The voltage ａnd current ranges aresoftware selectable ａnd so is the number of points taken, from 10-100 points depending onthe time length of the test allowable. The I-V data point values are then recorded ａnd plottedon a computer display ａnd saved in an ASCII text file. The points are selected by voltage,hence the voltage readings are evenly spaced.I-V Measurement BasicsFill Factor: Fill factor refers to the "squareness" of the I-V curve. It describes how closelymatched the voltage is at its maximum power point ａnd the current is also at its maximumpower point. The higher the fill factor match, the more square the I-V curve.Conversion Efficiency: The conversion efficiency of a solar cell is the percentage of lightenergy that gets converted to electrical power.References:The U.S. Department of Energy maintains a good website on how to use I-V measurementsystems in solar cell testing. Please see www.eere.energy.gov/solar/current_voltage.htmlTechnical Specifications? Base unit 200V max. （scale to 2V or 10V, but 20V ａnd 200V scales possible please ask）? Dwell time （wait time between each I-V reading） - programable, but cannot be below3ms? Number of I-V scanned points - 10 to 100 programable? Hardware Voltage Resolution: 50μv @ 2V scale, 500μV @ 20V scale （accuracy perreading）? Hardware Current Resolution: 50μA @ 1A scale （accuracy per reading）? I-V Measurement Sweep Resolution: （voltage scale selected / number of I-V scannedpoints）? Software Display Resolution: typically mV ａnd mA （but 3 decimals shown, so can be3.456E-1 A for addition decimal）上海市闵行区莘朱路903号（甲）厂区,201100Tel: 021-54387376,54380568 Fax: 021-54997016 E-mail:br.sci@263.net http://www.br17.com上海泊睿科学仪器有限公司Current-Voltage Measurement System （IV Tester） -60W Version for Continuous Solar SimulatorsMain Features:? Designed for use with continuous or pulse solar simulators? An output trigger TTL signal is used to synchronize its data acquisition with pulse solarsimulators? Variable resistive load? Max Electrical Power Reading: 20W base model, 60W high power model? Base Model Voltage range 200V （can be modified with additional shunt to suitapplication）? Base Model Current range 1A （can be modified with additional coil to suit application）? High Power Model Voltage range 60V （can be modified with additional shunt to suitapplication）? High Power Model Current range 3A （can be modified with additional coil to suitapplication）? Separate terminal interface for voltage ａnd current measurements? Interfaces to PC via GPIB cable for display ａnd data storage （hence GPIB card requiredin computer）? Saves each IV curve dataset in separate ASCII text file? I-V range selectable? Number of sample points selectable （between 10-100 points）? Sci-IVTest Windows based control softwareParameters Measured by IV SoftwareVoc, IocVsc, IscVmax, Imax, Pmaxefficiency （%）Light ａnd dark I-V characteristics上海市闵行区莘朱路903号（甲）厂区,201100Tel: 021-54387376,54380568 Fax: 021-54997016 E-mail:br.sci@263.net http://www.br17.com上海泊睿科学仪器有限公司Voc Slope （similar to Rs）Rp or Rshunt （system measures slope near Isc for this value）FF or Fill FactorJSc （mA/cm2）Forward ａnd Reverse Sweep FeatureSKU: SSIVT-60CThe SSIVT is an electrical current-voltage measurement system used to characterizephotovoltaic cell performance. This current-voltage tester works by sampling various currentversus voltage combinations of the photovoltaic cell with a variable impedance load. Theperformance of the photovoltaic cell is determined by measuring this output I-V relationshipwhile it is being illuminated by light. This relationship is typically called an "I-V curve" ａnd canbe obtained by exposing the photovoltaic cell to a constant level of light while varying anexternal impedance load such that its current-voltage values change. Since multiple I-V datapoints are required to create an I-V curve, an external trigger function model is available foruse with pulse solar simulators. This allows the tester to create multiple sequential pulses（typically 10-100 points selectable） to complete the IV curve measurements. Universal input100-240VAC, 50/60Hz. Software ａnd GPIB Board is included. An external computer （soldseparately） such as the PC computer controller is required to control this current-voltagemeasurement system.Purpose of Current Vs Voltage Measurement TestA solar cell may be operated over a wide range of voltage ａnd current combinations, but thereis generally an optimum combination for maximum energy collection efficiency. By varying anexternal load resistance from zero to infinity, the optimum I-V combination where the solar celldelivers the most power can be found.Current ａnd Voltage Measurement RangeThe standard I-V Test system can measure electrical power from photovoltaic cells up to 20W.The voltage envelope is limited to 200V ａnd the current is limited to 1A. A higher powered60W version is available where the voltage is limited to 60V ａnd the current is limited to 3A.For higher loads, shunts to measure a portion of the current can be used. In general, thelimitation of the standard model is the 1A current limit. If your solar cell can generate morecurrent than 1A, then we recommend upgrading to the 60W model.Voltage Scaling FactorAlthough the maximum voltage of the base unit is 200V, the software can rescale its scanningrange to 2V, 10V, 20V or 200V. Once the scale is selected, the maximum number of I-Vmeasurement points that can be taken in that selected range is 100 points.Current Density - Voltage （J-V） MeasurementsThe software currently only measures I-V characteristics ａnd JSc （mA/cm2）, but other J-V上海市闵行区莘朱路903号（甲）厂区,201100Tel: 021-54387376,54380568 Fax: 021-54997016 E-mail:br.sci@263.net http://www.br17.com上海泊睿科学仪器有限公司values can be derrived as J=I/area. The software outputs the I-V characteristics in an ASCIIfile which can then be read to derrive current density values.SoftwareSoftware is written in Labview, but a Labview Runtime engine allows it to run on Windows XPwithout the Labview development toolkit.System NotesThe I-V Measurement System sweeps the IV curve with an automatically adjustable resistiveload ａnd records multiple I-V data points along the way. The voltage ａnd current ranges aresoftware selectable ａnd so is the number of points taken, from 10-100 points depending onthe time length of the test allowable. The I-V data point values are then recorded ａnd plottedon a computer display ａnd saved in an ASCII text file. The points are selected by voltage,hence the voltage readings are evenly spaced.I-V Measurement BasicsFill Factor: Fill factor refers to the "squareness" of the I-V curve. It describes how closelymatched the voltage is at its maximum power point ａnd the current is also at its maximumpower point. The higher the fill factor match, the more square the I-V curve.Conversion Efficiency: The conversion efficiency of a solar cell is the percentage of lightenergy that gets converted to electrical power.References:The U.S. Department of Energy maintains a good website on how to use I-V measurementsystems in solar cell testing. Please see www.eere.energy.gov/solar/current_voltage.htmlTechnical Specifications? Base unit 200V max. （scale to 2V or 10V, but 20V ａnd 200V scales possible please ask）? Dwell time （wait time between each I-V reading） - programable, but cannot be below3ms? Number of I-V scanned points - 10 to 100 programable? Hardware Voltage Resolution: 50μv @ 2V scale, 500μV @ 20V scale （accuracy perreading）? Hardware Current Resolution: 50μA @ 1A scale （accuracy per reading）? I-V Measurement Sweep Resolution: （voltage scale selected / number of I-V scannedpoints）? Software Display Resolution: typically mV ａnd mA （but 3 decimals shown, so can be3.456E-1 A for addition decimal）上海市闵行区莘朱路903号（甲）厂区,201100Tel: 021-54387376,54380568 Fax: 021-54997016 E-mail:br.sci@263.net http://www.br17.com上海泊睿科学仪器有限公司Current-Voltage Measurement System （IV Tester） -60W Version for Flash Solar SimulatorsMain Features:? Designed for use with continuous or pulse solar simulators? An output trigger TTL signal is used to synchronize its data acquisition with pulse solarsimulators? Variable resistive load? Max Electrical Power Reading: 20W base model, 60W high power model? Base Model Voltage range 200V （can be modified with additional shunt to suitapplication）? Base Model Current range 1A （can be modified with additional coil to suit application）? High Power Model Voltage range 60V （can be modified with additional shunt to suitapplication）? High Power Model Current range 3A （can be modified with additional coil to suitapplication）? Separate terminal interface for voltage ａnd current measurements? Interfaces to PC via GPIB cable for display ａnd data storage （hence GPIB card requiredin computer）? Saves each IV curve dataset in separate ASCII text file? I-V range selectable? Number of sample points selectable （between 10-100 points）? Sci-IVTest Windows based control softwareParameters Measured by IV SoftwareVoc, IocVsc, IscVmax, Imax, Pmaxefficiency （%）Light ａnd dark I-V characteristics上海市闵行区莘朱路903号（甲）厂区,201100Tel: 021-54387376,54380568 Fax: 021-54997016 E-mail:br.sci@263.net http://www.br17.com上海泊睿科学仪器有限公司Voc Slope （similar to Rs）Rp or Rshunt （system measures slope near Isc for this value）FF or Fill FactorJSc （mA/cm2）Forward ａnd Reverse Sweep FeatureSKU: SSIVT-60FThe SSIVT is an electrical current-voltage measurement system used to characterizephotovoltaic cell performance. This current-voltage tester works by sampling various currentversus voltage combinations of the photovoltaic cell with a variable impedance load. Theperformance of the photovoltaic cell is determined by measuring this output I-V relationshipwhile it is being illuminated by light. This relationship is typically called an "I-V curve" ａnd canbe obtained by exposing the photovoltaic cell to a constant level of light while varying anexternal impedance load such that its current-voltage values change. Since multiple I-V datapoints are required to create an I-V curve, an external trigger function model is available foruse with pulse solar simulators. This allows the tester to create multiple sequential pulses（typically 10-100 points selectable） to complete the IV curve measurements. Universal input100-240VAC, 50/60Hz. Software ａnd GPIB Board is included. An external computer （soldseparately） such as the PC computer controller is required to control this current-voltagemeasurement system.Purpose of Current Vs Voltage Measurement TestA solar cell may be operated over a wide range of voltage ａnd current combinations, but thereis generally an optimum combination for maximum energy collection efficiency. By varying anexternal load resistance from zero to infinity, the optimum I-V combination where the solar celldelivers the most power can be found.Current ａnd Voltage Measurement RangeThe standard I-V Test system can measure electrical power from photovoltaic cells up to 20W.The voltage envelope is limited to 200V ａnd the current is limited to 1A. A higher powered60W version is available where the voltage is limited to 60V ａnd the current is limited to 3A.For higher loads, shunts to measure a portion of the current can be used. In general, thelimitation of the standard model is the 1A current limit. If your solar cell can generate morecurrent than 1A, then we recommend upgrading to the 60W model.Voltage Scaling FactorAlthough the maximum voltage of the base unit is 200V, the software can rescale its scanningrange to 2V, 10V, 20V or 200V. Once the scale is selected, the maximum number of I-Vmeasurement points that can be taken in that selected range is 100 points.Current Density - Voltage （J-V） MeasurementsThe software currently only measures I-V characteristics ａnd JSc （mA/cm2）, but other J-V上海市闵行区莘朱路903号（甲）厂区,201100Tel: 021-54387376,54380568 Fax: 021-54997016 E-mail:br.sci@263.net http://www.br17.com上海泊睿科学仪器有限公司values can be derrived as J=I/area. The software outputs the I-V characteristics in an ASCIIfile which can then be read to derrive current density values.SoftwareSoftware is written in Labview, but a Labview Runtime engine allows it to run on Windows XPwithout the Labview development toolkit.System NotesThe I-V Measurement System sweeps the IV curve with an automatically adjustable resistiveload ａnd records multiple I-V data points along the way. The voltage ａnd current ranges aresoftware selectable ａnd so is the number of points taken, from 10-100 points depending onthe time length of the test allowable. The I-V data point values are then recorded ａnd plottedon a computer display ａnd saved in an ASCII text file. The points are selected by voltage,hence the voltage readings are evenly spaced.I-V Measurement BasicsFill Factor: Fill factor refers to the "squareness" of the I-V curve. It describes how closelymatched the voltage is at its maximum power point ａnd the current is also at its maximumpower point. The higher the fill factor match, the more square the I-V curve.Conversion Efficiency: The conversion efficiency of a solar cell is the percentage of lightenergy that gets converted to electrical power.References:The U.S. Department of Energy maintains a good website on how to use I-V measurementsystems in solar cell testing. Please see www.eere.energy.gov/solar/current_voltage.htmlTechnical Specifications? Base unit 200V max. （scale to 2V or 10V, but 20V ａnd 200V scales possible please ask）? Dwell time （wait time between each I-V reading） - programable, but cannot be below3ms? Number of I-V scanned points - 10 to 100 programable? Hardware Voltage Resolution: 50μv @ 2V scale, 500μV @ 20V scale （accuracy perreading）? Hardware Current Resolution: 50μA @ 1A scale （accuracy per reading）? I-V Measurement Sweep Resolution: （voltage scale selected / number of I-V scannedpoints）? Software Display Resolution: typically mV ａnd mA （but 3 decimals shown, so can be3.456E-1 A for addition decimal）上海市闵行区莘朱路903号（甲）厂区,201100Tel: 021-54387376,54380568 Fax: 021-54997016 E-mail:br.sci@263.net http://www.br17.com上海泊睿科学仪器有限公司Current-Voltage Measurement System （IV Tester） -1000W Version for Flash Solar SimulatorsMain Features:? Designed for use with continuous or pulse solar simulators? An output trigger TTL signal is used to synchronize its data acquisition with pulse solarsimulators? Variable resistive load? Max Electrical Power Reading: 20W base model, 60W high power model? Base Model Voltage range 200V （can be modified with additional shunt to suitapplication）? Base Model Current range 1A （can be modified with additional coil to suit application）? High Power Model Voltage range 60V （can be modified with additional shunt to suitapplication）? High Power Model Current range 3A （can be modified with additional coil to suitapplication）? Separate terminal interface for voltage ａnd current measurements? Interfaces to PC via GPIB cable for display ａnd data storage （hence GPIB card requiredin computer）? Saves each IV curve dataset in separate ASCII text file? I-V range selectable? Number of sample points selectable （between 10-100 points）? Sci-IVTest Windows based control softwareParameters Measured by IV SoftwareVoc, IocVsc, IscVmax, Imax, Pmaxefficiency （%）Light ａnd dark I-V characteristics上海市闵行区莘朱路903号（甲）厂区,201100Tel: 021-54387376,54380568 Fax: 021-54997016 E-mail:br.sci@263.net http://www.br17.com上海泊睿科学仪器有限公司Voc Slope （similar to Rs）Rp or Rshunt （system measures slope near Isc for this value）FF or Fill FactorJSc （mA/cm2）Forward ａnd Reverse Sweep FeatureSKU: SSIVT-1KFThe SSIVT is an electrical current-voltage measurement system used to characterizephotovoltaic cell performance. This current-voltage tester works by sampling various currentversus voltage combinations of the photovoltaic cell with a variable impedance load. Theperformance of the photovoltaic cell is determined by measuring this output I-V relationshipwhile it is being illuminated by light. This relationship is typically called an "I-V curve" ａnd canbe obtained by exposing the photovoltaic cell to a constant level of light while varying anexternal impedance load such that its current-voltage values change. Since multiple I-V datapoints are required to create an I-V curve, an external trigger function model is available foruse with pulse solar simulators. This allows the tester to create multiple sequential pulses（typically 10-100 points selectable） to complete the IV curve measurements. Universal input100-240VAC, 50/60Hz. Software ａnd GPIB Board is included. An external computer （soldseparately） such as the PC computer controller is required to control this current-voltagemeasurement system.Purpose of Current Vs Voltage Measurement TestA solar cell may be operated over a wide range of voltage ａnd current combinations, but thereis generally an optimum combination for maximum energy collection efficiency. By varying anexternal load resistance from zero to infinity, the optimum I-V combination where the solar celldelivers the most power can be found.Current ａnd Voltage Measurement RangeThe standard I-V Test system can measure electrical power from photovoltaic cells up to 20W.The voltage envelope is limited to 200V ａnd the current is limited to 1A. A higher powered60W version is available where the voltage is limited to 60V ａnd the current is limited to 3A.For higher loads, shunts to measure a portion of the current can be used. In general, thelimitation of the standard model is the 1A current limit. If your solar cell can generate morecurrent than 1A, then we recommend upgrading to the 60W model.Voltage Scaling FactorAlthough the maximum voltage of the base unit is 200V, the software can rescale its scanningrange to 2V, 10V, 20V or 200V. Once the scale is selected, the maximum number of I-Vmeasurement points that can be taken in that selected range is 100 points.Current Density - Voltage （J-V） MeasurementsThe software currently only measures I-V characteristics ａnd JSc （mA/cm2）, but other J-V上海市闵行区莘朱路903号（甲）厂区,201100Tel: 021-54387376,54380568 Fax: 021-54997016 E-mail:br.sci@263.net http://www.br17.com上海泊睿科学仪器有限公司上海市闵行区莘朱路903号（甲）厂区,201100Tel: 021-54387376,54380568 Fax: 021-54997016 E-mail:br.sci@263.net http://www.br17.comvalues can be derrived as J=I/area. The software outputs the I-V characteristics in an ASCIIfile which can then be read to derrive current density values.SoftwareSoftware is written in Labview, but a Labview Runtime engine allows it to run on Windows XPwithout the Labview development toolkit.System NotesThe I-V Measurement System sweeps the IV curve with an automatically adjustable resistiveload ａnd records multiple I-V data points along the way. The voltage ａnd current ranges aresoftware selectable ａnd so is the number of points taken, from 10-100 points depending onthe time length of the test allowable. The I-V data point values are then recorded ａnd plottedon a computer display ａnd saved in an ASCII text file. The points are selected by voltage,hence the voltage readings are evenly spaced.I-V Measurement BasicsFill Factor: Fill factor refers to the "squareness" of the I-V curve. It describes how closelymatched the voltage is at its maximum power point ａnd the current is also at its maximumpower point. The higher the fill factor match, the more square the I-V curve.Conversion Efficiency: The conversion efficiency of a solar cell is the percentage of lightenergy that gets converted to electrical power.References:The U.S. Department of Energy maintains a good website on how to use I-V measurementsystems in solar cell testing. Please see www.eere.energy.gov/solar/current_voltage.htmlTechnical Specifications? Base unit 200V max. （scale to 2V or 10V, but 20V ａnd 200V scales possible please ask）? Dwell time （wait time between each I-V reading） - programable, but cannot be below3ms? Number of I-V scanned points - 10 to 100 programable? Hardware Voltage Resolution: 50μv @ 2V scale, 500μV @ 20V scale （accuracy perreading）? Hardware Current Resolution: 50μA @ 1A scale （accuracy per reading）? I-V Measurement Sweep Resolution: （voltage scale selected / number of I-V scannedpoints）? Software Display Resolution: typically mV ａnd mA （but 3 decimals shown, so can be3.456E-1 A for addition decimal）上海泊睿科学仪器有限公司

ZJ205曲线测量仪全自动荷重位移曲线仪曲线测试仪ZJ205

曲线测量仪全自动荷重位移曲线仪曲线测试仪ZJ205深圳市致佳仪器设备有限公司是一家专门从事精密仪器设备试验机生产、销售及提供高品质的售后服务公司。本公司自2010年成立以来,就以提供良的仪器设备及专业的人力技术技援为已任,每年不断成长,得到了广大客户的肯定,本公司请求服务,强调品质,以期达到{专业、积极、服务}的经营方针。我们将与您一起共创未来,成为你最值得信赖的工作伙伴。

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选择致佳仪器，我们将成为您的合作伙伴，以质的产品，最真诚的服务，最合理的价格，成为您永远的朋友。深圳市致佳仪器设备有限公司是一家专门从事精密仪器设备试验机生产、销售及提供高品质的售后服务公司。本公司自2010年成立以来,就以提供良的仪器设备及专业的人力技术技援为已任,每年不断成长,得到了广大客户的肯定,本公司请求服务,强调品质,以期达到{专业、积极、服务}的经营方针。我们将与您一起共创未来,成为你最值得信赖的工作伙伴。