KICstart回流焊測(cè)溫儀 溫度曲線測(cè)試儀 曲線測(cè)試儀

技術(shù)參數(shù)和說(shuō)明:   1.傳統(tǒng)的溫度曲線測(cè)量和設(shè)置一直是個(gè)費(fèi)時(shí)的工作,而KIC的SlimKIC Start型溫度/時(shí)間工藝設(shè)置器解決了這傳統(tǒng)問(wèn)題。   2.操作員可以從已經(jīng)設(shè)好的錫膏特性數(shù)據(jù)庫(kù)中選擇所用的錫膏。SlimKIC Start自動(dòng)設(shè)置所需的工藝框限或窗口。   3.如果配合NavigatorTM軟件經(jīng)過(guò)一次的測(cè)試后,軟件自動(dòng)的預(yù)算使工藝合格的應(yīng)有操作工可以從已經(jīng)設(shè)好的錫膏特性數(shù)據(jù)庫(kù)中選擇所用的錫膏。SlimKIC Start自動(dòng)設(shè)置所需的工藝框限或窗口。減少了重復(fù)試驗(yàn)的需求。試驗(yàn)的需求。   4.SlimKIC Start提供PWI指標(biāo),協(xié)助操作工了解設(shè)置好工藝能力。操作工可以從中決定是否還要微調(diào)優(yōu)化。   5.如果配合NavigatorTM軟件,可自動(dòng)在所有可能的參數(shù)設(shè)置組合中選出設(shè)置點(diǎn),無(wú)須人工判斷和試驗(yàn)而不斷優(yōu)化。   6.如果配合AutoFocusTM軟件,可從以往的設(shè)置經(jīng)驗(yàn)中為您推算出初始的工藝參數(shù)。無(wú)須自已猜測(cè)。軟件也具備自動(dòng)學(xué)習(xí)功能,有了足夠經(jīng)驗(yàn)后能夠一次就完成PWI設(shè)置。   7.如果配合KIC PilotTM,對(duì)于某些爐子還可以自動(dòng)調(diào)控爐子的參數(shù)設(shè)置,無(wú)須人工調(diào)整。   8.在復(fù)雜或大量BGA之類(lèi)的PCBA上,傳統(tǒng)的5通道測(cè)時(shí)-溫器已經(jīng)不可能滿足技術(shù)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.本爐溫測(cè)試儀目前為業(yè)界測(cè)溫儀,在軟件上,模擬曲線功能,曲線對(duì)比功能和測(cè)溫精度上是其它同類(lèi)品牌中所不與倫比的;硬件上,省去了一般測(cè)溫儀主機(jī)和保溫盒在測(cè)溫時(shí)兩次調(diào)整分離式的繁瑣工序,主機(jī)直接放在隔溫材料的保溫盒里,在測(cè)量和讀取時(shí)不需拿出直接進(jìn)入電腦接口即可。      KIC SlimKICTM提供給您高度的性和自動(dòng)化!      1.性能高超的軟件   KIC NavigatorTM是SlimKIC Start的選擇。這套軟件自動(dòng)的分析數(shù)發(fā)千萬(wàn)計(jì)的溫度和鏈速組合,并在極短的時(shí)間內(nèi)(一分鐘之內(nèi))提供用戶化的設(shè)置。   2.使用快速簡(jiǎn)單   用戶只需告訴KIC NavigatorTM他的工藝要求,軟件會(huì)轉(zhuǎn)告他的設(shè)置點(diǎn)。其高度自動(dòng)化能力使不熟悉工藝的操作工也能使用。用戶再也不需要嘗試過(guò)爐數(shù)次來(lái)獲得正優(yōu)化的設(shè)置了。   3.更優(yōu)化的工藝設(shè)置   由于時(shí)間資源的限制,人工設(shè)置的增減幅度一般不可能太?。s在5ºC左右)。KIC NavigatorTM卻能夠在1ºC的細(xì)小幅度上調(diào)整,使工藝設(shè)置更加優(yōu)化。
該公司產(chǎn)品分類(lèi): 錫膏測(cè)厚儀 BGA返修臺(tái) 爐溫測(cè)試儀

BR-PV-IVI-V曲線測(cè)試儀

滿足光伏組件IEC61215各項(xiàng)試驗(yàn)...

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上海市閔行區(qū)莘朱路903號(hào)(甲)廠區(qū),201100Tel: 021-54387376,54380568 Fax: 021-54997016 E-mail:br.sci@263.net http://www.br17.com上海泊睿科學(xué)儀器有限公司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上海市閔行區(qū)莘朱路903號(hào)(甲)廠區(qū),201100Tel: 021-54387376,54380568 Fax: 021-54997016 E-mail:br.sci@263.net http://www.br17.com上海泊??茖W(xué)儀器有限公司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)上海市閔行區(qū)莘朱路903號(hào)(甲)廠區(qū),201100Tel: 021-54387376,54380568 Fax: 021-54997016 E-mail:br.sci@263.net http://www.br17.com上海泊睿科學(xué)儀器有限公司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上海市閔行區(qū)莘朱路903號(hào)(甲)廠區(qū),201100Tel: 021-54387376,54380568 Fax: 021-54997016 E-mail:br.sci@263.net http://www.br17.com上海泊??茖W(xué)儀器有限公司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上海市閔行區(qū)莘朱路903號(hào)(甲)廠區(qū),201100Tel: 021-54387376,54380568 Fax: 021-54997016 E-mail:br.sci@263.net http://www.br17.com上海泊??茖W(xué)儀器有限公司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)上海市閔行區(qū)莘朱路903號(hào)(甲)廠區(qū),201100Tel: 021-54387376,54380568 Fax: 021-54997016 E-mail:br.sci@263.net http://www.br17.com上海泊睿科學(xué)儀器有限公司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上海市閔行區(qū)莘朱路903號(hào)(甲)廠區(qū),201100Tel: 021-54387376,54380568 Fax: 021-54997016 E-mail:br.sci@263.net http://www.br17.com上海泊??茖W(xué)儀器有限公司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上海市閔行區(qū)莘朱路903號(hào)(甲)廠區(qū),201100Tel: 021-54387376,54380568 Fax: 021-54997016 E-mail:br.sci@263.net http://www.br17.com上海泊睿科學(xué)儀器有限公司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)上海市閔行區(qū)莘朱路903號(hào)(甲)廠區(qū),201100Tel: 021-54387376,54380568 Fax: 021-54997016 E-mail:br.sci@263.net http://www.br17.com上海泊??茖W(xué)儀器有限公司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上海市閔行區(qū)莘朱路903號(hào)(甲)廠區(qū),201100Tel: 021-54387376,54380568 Fax: 021-54997016 E-mail:br.sci@263.net http://www.br17.com上海泊??茖W(xué)儀器有限公司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上海市閔行區(qū)莘朱路903號(hào)(甲)廠區(qū),201100Tel: 021-54387376,54380568 Fax: 021-54997016 E-mail:br.sci@263.net http://www.br17.com上海泊??茖W(xué)儀器有限公司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)上海市閔行區(qū)莘朱路903號(hào)(甲)廠區(qū),201100Tel: 021-54387376,54380568 Fax: 021-54997016 E-mail:br.sci@263.net http://www.br17.com上海泊睿科學(xué)儀器有限公司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上海市閔行區(qū)莘朱路903號(hào)(甲)廠區(qū),201100Tel: 021-54387376,54380568 Fax: 021-54997016 E-mail:br.sci@263.net http://www.br17.com上海泊睿科學(xué)儀器有限公司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上海市閔行區(qū)莘朱路903號(hào)(甲)廠區(qū),201100Tel: 021-54387376,54380568 Fax: 021-54997016 E-mail:br.sci@263.net http://www.br17.com上海泊??茖W(xué)儀器有限公司上海市閔行區(qū)莘朱路903號(hào)(甲)廠區(qū),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)上海泊睿科學(xué)儀器有限公司

ZJ205曲線測(cè)量?jī)x 全自動(dòng)荷重位移曲線儀 曲線測(cè)試儀ZJ205

曲線測(cè)量?jī)x 全自動(dòng)荷重位移曲線儀 曲線測(cè)試儀ZJ205深圳市致佳儀器設(shè)備有限公司是一家專(zhuān)門(mén)從事精密儀器設(shè)備試驗(yàn)機(jī)生產(chǎn)、銷(xiāo)售及提供高品質(zhì)的售后服務(wù)公司。本公司自2010年成立以來(lái),就以提供良的儀器設(shè)備及專(zhuān)業(yè)的人力技術(shù)技援為已任,每年不斷成長(zhǎng),得到了廣大客戶的肯定,本公司請(qǐng)求服務(wù),強(qiáng)調(diào)品質(zhì),以期達(dá)到{專(zhuān)業(yè)、積極、服務(wù)}的經(jīng)營(yíng)方針。我們將與您一起共創(chuàng)未來(lái),成為你最值得信賴的工作伙伴。

        我公司主要經(jīng)營(yíng)涂裝檢測(cè)和性耐磨壽命試驗(yàn)機(jī):德國(guó)UV-DESIGN能量計(jì)、美國(guó)EIT UV能量計(jì)、日本ORC能量計(jì)、瑞士絲網(wǎng)張力計(jì)、日本PROTEC張力計(jì)、德國(guó)BYK百格刀、德國(guó)ROSLER振動(dòng)耐磨試驗(yàn)機(jī)、美國(guó)NORMAN紙帶耐磨擦機(jī)和紙帶、美國(guó)TABER耐磨耗試驗(yàn)機(jī)、臺(tái)灣酒精耐磨試驗(yàn)機(jī)、手機(jī)翻蓋壽命試驗(yàn)機(jī)、手機(jī)滑蓋壽命試驗(yàn)機(jī)、微跌落試驗(yàn)機(jī)、點(diǎn)擊劃線壽命試驗(yàn)機(jī)、恒溫恒濕試驗(yàn)箱、冷熱沖擊試驗(yàn)箱、鹽霧試驗(yàn)機(jī)、對(duì)色燈箱、色差計(jì)等儀器設(shè)備。

        實(shí)驗(yàn)測(cè)試耗材:韓國(guó)妮維雅防曬霜、韓國(guó)油性筆、美國(guó)3M電工膠布、韓國(guó)/日本/馬來(lái)西亞耐磨橡皮條、美國(guó)LA-26膠帶、T9999358膠帶、韓國(guó)KSA1514膠帶、韓國(guó)測(cè)試酒精、韓國(guó)PH4/7.00緩沖液、韓國(guó)工業(yè)鹽、日本三菱鉛筆等。

        環(huán)境測(cè)試:恒溫恒濕試驗(yàn)箱、冷熱沖擊試驗(yàn)箱、紫外線老化耐候試驗(yàn)機(jī)、氙燈耐氣候試驗(yàn)箱、腐蝕試驗(yàn)箱、鹽霧試驗(yàn)機(jī)、對(duì)色燈箱等。                

        產(chǎn)品廣泛應(yīng)用于包括涂料、油墨、塑膠、五金、電子、手機(jī)、電腦等行業(yè)以及計(jì)量檢測(cè)部門(mén),通過(guò)多年的廣交朋友,以及與代理商的密切友好的合作,在行業(yè)建立起良好的口碑。

        選擇致佳儀器,我們將成為您的合作伙伴,以質(zhì)的產(chǎn)品,最真誠(chéng)的服務(wù),最合理的價(jià)格,成為您永遠(yuǎn)的朋友。深圳市致佳儀器設(shè)備有限公司是一家專(zhuān)門(mén)從事精密儀器設(shè)備試驗(yàn)機(jī)生產(chǎn)、銷(xiāo)售及提供高品質(zhì)的售后服務(wù)公司。本公司自2010年成立以來(lái),就以提供良的儀器設(shè)備及專(zhuān)業(yè)的人力技術(shù)技援為已任,每年不斷成長(zhǎng),得到了廣大客戶的肯定,本公司請(qǐng)求服務(wù),強(qiáng)調(diào)品質(zhì),以期達(dá)到{專(zhuān)業(yè)、積極、服務(wù)}的經(jīng)營(yíng)方針。我們將與您一起共創(chuàng)未來(lái),成為你最值得信賴的工作伙伴。

        我公司主要經(jīng)營(yíng)涂裝檢測(cè)和性耐磨壽命試驗(yàn)機(jī):德國(guó)UV-DESIGN能量計(jì)、美國(guó)EIT UV能量計(jì)、日本ORC能量計(jì)、瑞士絲網(wǎng)張力計(jì)、日本PROTEC張力計(jì)、德國(guó)BYK百格刀、德國(guó)ROSLER振動(dòng)耐磨試驗(yàn)機(jī)、美國(guó)NORMAN紙帶耐磨擦機(jī)和紙帶、美國(guó)TABER耐磨耗試驗(yàn)機(jī)、臺(tái)灣酒精耐磨試驗(yàn)機(jī)、手機(jī)翻蓋壽命試驗(yàn)機(jī)、手機(jī)滑蓋壽命試驗(yàn)機(jī)、微跌落試驗(yàn)機(jī)、點(diǎn)擊劃線壽命試驗(yàn)機(jī)、恒溫恒濕試驗(yàn)箱、冷熱沖擊試驗(yàn)箱、鹽霧試驗(yàn)機(jī)、對(duì)色燈箱、色差計(jì)等儀器設(shè)備。

        實(shí)驗(yàn)測(cè)試耗材:韓國(guó)妮維雅防曬霜、韓國(guó)油性筆、美國(guó)3M電工膠布、韓國(guó)/日本/馬來(lái)西亞耐磨橡皮條、美國(guó)LA-26膠帶、T9999358膠帶、韓國(guó)KSA1514膠帶、韓國(guó)測(cè)試酒精、韓國(guó)PH4/7.00緩沖液、韓國(guó)工業(yè)鹽、日本三菱鉛筆等。

        環(huán)境測(cè)試:恒溫恒濕試驗(yàn)箱、冷熱沖擊試驗(yàn)箱、紫外線老化耐候試驗(yàn)機(jī)、氙燈耐氣候試驗(yàn)箱、腐蝕試驗(yàn)箱、鹽霧試驗(yàn)機(jī)、對(duì)色燈箱等。                

        產(chǎn)品廣泛應(yīng)用于包括涂料、油墨、塑膠、五金、電子、手機(jī)、電腦等行業(yè)以及計(jì)量檢測(cè)部門(mén),通過(guò)多年的廣交朋友,以及與代理商的密切友好的合作,在行業(yè)建立起良好的口碑。

        選擇致佳儀器,我們將成為您的合作伙伴,以質(zhì)的產(chǎn)品,最真誠(chéng)的服務(wù),最合理的價(jià)格,成為您永遠(yuǎn)的朋友。

 

該公司產(chǎn)品分類(lèi): 耐磨耗產(chǎn)品 熔融指數(shù)儀 手機(jī)可靠性試驗(yàn)機(jī) 水滴角測(cè)試儀 曲線測(cè)量?jī)x 透光率儀測(cè)試儀 鋼球跌落試驗(yàn)機(jī) 環(huán)境測(cè)試實(shí)驗(yàn)箱 網(wǎng)版張力計(jì) 絲網(wǎng)張力計(jì) 德國(guó)BYK系列 德國(guó)儀力信E人ichsen系列 進(jìn)口能量計(jì) 耐磨耗儀器/檢測(cè)儀器

按鍵荷重曲線測(cè)試儀

按鍵荷重曲線測(cè)試儀 功能特點(diǎn): 

1.Peak Force、 Return Force、Distance及Click率等皆可直接在圖上顯示數(shù)值,不須人工計(jì)算; 2.量測(cè)曲線圖由電腦記憶,可隨時(shí)放大、縮小,一張A4紙可任意指定放置N個(gè)曲線圖; 3.測(cè)定項(xiàng)目可輸入上、下限規(guī)格值,測(cè)定結(jié)果可自動(dòng)判定OK或NG; 4.可輸入最大測(cè)定行程及荷重,電腦自動(dòng)控制; 5.荷重單位顯示N、lb、gf、kgf可自由切換; 6.電腦直接列印及儲(chǔ)存荷重行程曲線圖、檢查報(bào)表.(不需要方格紙,一般A4紙即可); 7.測(cè)試資料儲(chǔ)存于硬碟(每一筆資料皆可儲(chǔ)存,不限次數(shù)); 8.測(cè)試條件皆由電腦畫(huà)面設(shè)定(含測(cè)試行程、速度、次數(shù)、空壓、暫停時(shí)間等等); 9.檢驗(yàn)報(bào)表抬頭內(nèi)容可隨時(shí)修改(中英文皆可); 10.檢驗(yàn)報(bào)表可自動(dòng)產(chǎn)生,不須再作輸入;  11.檢驗(yàn)報(bào)表可轉(zhuǎn)換為Excel等文書(shū)報(bào)表格式.

HTC-6B爐溫曲線測(cè)試儀

HTC-6B型溫度曲線測(cè)試儀是由微電腦控制的智能儀器,適用于溫度曲線的測(cè)試和記錄。

該儀器可同時(shí)記錄并存儲(chǔ)一至六組溫度數(shù)據(jù),通過(guò)與PC機(jī)通訊可描繪溫度曲線。具有實(shí)時(shí)顯示、任意斷點(diǎn)顯示、數(shù)據(jù)掉點(diǎn)保護(hù)等功能。為用戶調(diào)整溫度曲線,控制溫度效果,提高產(chǎn)品質(zhì)量提供的依據(jù)。

該儀器性能,功能強(qiáng)大,操作方便。

 

主要功能

1           通過(guò)按鍵可進(jìn)行對(duì)通道數(shù)目、采樣周期、采樣時(shí)間、通訊速率等功能參數(shù)的設(shè)置。

2           通過(guò)PC機(jī)串口通訊繪制溫度曲線,并提供查詢、存儲(chǔ)、調(diào)用、打印溫度曲線功能。

3           單機(jī)查詢測(cè)試數(shù)據(jù)的功能。

4           掉電保護(hù)存貯數(shù)據(jù)功能。

 

主要指標(biāo):

測(cè)溫范圍                     5—1000℃

測(cè)溫通道數(shù)                   6通道

單路測(cè)溫精度                  0.5%

六路相對(duì)測(cè)溫誤差             ≤±1℃º

采樣周期                     0.3—25.0 S連續(xù)可調(diào)

數(shù)據(jù)容量                     16000溫度記錄點(diǎn)

通訊方式                                  標(biāo)準(zhǔn)RS232串口

顯示方式                      LCD顯示

工作電源                      220V  50Hz

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熱門(mén)儀器: 液相色譜儀 氣相色譜儀 原子熒光光譜儀 可見(jiàn)分光光度計(jì) 液質(zhì)聯(lián)用儀 壓力試驗(yàn)機(jī) 酸度計(jì)(PH計(jì)) 離心機(jī) 高速離心機(jī) 冷凍離心機(jī) 生物顯微鏡 金相顯微鏡 標(biāo)準(zhǔn)物質(zhì) 生物試劑