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溫度曲線測試儀

TC-6C型溫度曲線測試儀是由微電腦控制的智能儀器，適用于溫度曲線的測試和記錄。 ....該儀器可同時記錄并存儲一至六組溫度數據，通過與PC機通訊可描繪溫度曲線。具有任意斷點顯示、數據掉點保護等功能。既適用于回流焊爐跟進爐膛的溫度測試，又適用于其他場合下高溫測試。為用戶調整溫度曲線，控制溫度效果，提高產品質量提供的依據。 ....該儀器性能，功能強大，操作方便。主要功能通過串口通訊，由PC機進行采樣周期、通道數目、采樣時間等參數設置。通過PC機串口通訊繪制溫度曲線，并提供查詢、存儲、調用、打印溫度曲線功能。掉電保護存貯數據功能。多場合溫度測試，既滿足于無線低溫測試，又適用于其他高溫測試場合，高達1000℃。雙電源工作方式。既可通過內部充電電池提供電源，也可通過外部"220V 50HZ"提供電源

YL-656熱電偶性能曲線測試儀

YL-656熱電偶性能曲線測試儀
儀器介紹：本公司生產的熱電偶性能曲線測試儀是依據CJ30－1999《熱電式燃具熄火保護裝置》、《家用燃氣灶（GB16410-1996）》及《家用燃氣用具的通用試驗方法（GB16411-1996）》中規定的技術要求而研發設計的一款針對燃氣具所用熱電偶性能測試的一款測試機。本機適合生產企業質檢部門對產品進行性能測試和抽檢檢驗。熱電偶性能測試儀的動作機構均采用氣動器件，直行氣缸實現熱電偶在設定溫度的火焰里工作、脫離火焰全部過程。控制測試電路部分均采用微電腦數據采集系統，配合靈活的人機界面使操作簡單、使用便捷。
功能要求
測試項目	加熱溫度、熱電勢、檢測時間；
智能化操作系統	熱電偶性能曲線測試儀所有測試參數通過數據采集模塊將數據傳輸到顯示屏上，采用管理軟件實現人機界面操作，操作者可在此層面通過點擊菜單實現檢測數據的采集和監控；
實時顯示	加熱溫度、熱電偶電壓、檢測時間實時顯示記錄；
自動生成報告曲線圖	自動生成加熱溫度、熱電偶電壓隨檢測時間的變化曲線圖；
自稱生產報表	自動生成熱電勢、時間、溫度數據表格；
曲線各點的熱電勢	用戶可根據要求設定時間點來查詢并顯示相應的數據；
數據可儲存記憶	測試數據可根據要求存儲，掉電不丟失。
外接數據輸出端口	熱電偶性能曲線測試儀具有相應的外接數據輸出口，需要時用戶可通過打印等手段提取預存或實測數據曲線；
氣動裝置智能化控制	夾具動作機構均采用氣動動器件，實現在測試熱特性時將熱電偶頭部3～5mm的部位接觸火焰；在測試冷特性時將熱電偶脫離火焰自然冷卻；
熱特性、冷特性的熱電勢自動檢測步驟	（1）按點火鍵，火焰點燃，校準火焰（內焰）溫度為600～700℃左右；（2）設定加熱時間1為10s、加熱時間2為30秒(、冷卻時間1為10s(、冷卻時間2為30s; （3）將熱電偶安裝于測試夾具上,按要求連接好線；（4）熱電偶性能曲線測試儀按測試鍵,測試夾具移動靠近火焰,使熱電偶頭部約3～5mm置于火焰中加熱時開始計時，待10S時自動將實測的熱電勢記錄并判斷熱特性；（5）熱電偶繼續加熱30s后，測試夾具自動返回使熱電偶脫離火焰并開始計時，待10s時自動將實測的熱電勢記錄并判斷冷特性。（6）繼續冷卻30s后完成整個測試。(以上時間可任意設定)
首要安裝保護裝置	具有意外熄火自動關閉氣源安全保護功能；
加熱位置可調節	可根據熱電偶的安裝尺寸相對于加熱位置前后調節
熱電勢測量范圍	0～50mV
特性工作時間	0～9999s（可調）
時間準確度	0.1s
主要技術指標
型號	YL-656
設計工位	1~10個
加溫范圍	500℃～800℃范圍內隨意可調
加熱方式	液化石油氣燃燒火焰加熱
壓縮空氣	潔凈的壓縮空氣，壓力范圍在0.4~0.8MPa
溫控精度	±10℃
控制方式	微電腦控制人機界面操作
測量精度	0.1mV
生產廠商：佛山市優力電子科技有限公司

該公司產品分類：電熱水器配件檢測設備燃氣具配件檢測設備燃氣具檢測設備電熱水器檢測設備

按鍵荷重曲線測試儀

按鍵荷重曲線測試儀功能特點：

1.Peak Force、 Return Force、Distance及Click率等皆可直接在圖上顯示數值，不須人工計算； 2.量測曲線圖由電腦記憶,可隨時放大、縮小，一張A4紙可任意指定放置N個曲線圖； 3.測定項目可輸入上、下限規格值，測定結果可自動判定OK或NG； 4.可輸入最大測定行程及荷重,電腦自動控制； 5.荷重單位顯示N、lb、gf、kgf可自由切換； 6.電腦直接列印及儲存荷重行程曲線圖、檢查報表．（不需要方格紙，一般Ａ４紙即可）； 7.測試資料儲存于硬碟（每一筆資料皆可儲存，不限次數）； 8.測試條件皆由電腦畫面設定(含測試行程、速度、次數、空壓、暫停時間等等)； 9.檢驗報表抬頭內容可隨時修改(中英文皆可)； 10.檢驗報表可自動產生,不須再作輸入； 11.檢驗報表可轉換為Excel等文書報表格式.

BR-PV-IVI-V曲線測試儀

滿足光伏組件IEC61215各項試驗...

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

TC-60K溫度曲線測試儀

爐溫測試儀

·型號：TC-60K II

·品牌：TOPCITY

·產地：TOPCITY

·規格：六通道爐溫跟蹤儀

·價格：面議

查看該產品圖片 ——深圳市通城電電子有限公司,專注SMT，專業爐溫測試儀版權所有

業界可連續測試20組溫度曲線的測試儀！主要技術指標：1、型號規格： TC-60K II2 、測試通道： 6 CH3、熱電偶： K型4、測溫范圍： 0－－-400℃5、測溫精度： ±1℃6、分辨率： 0.1℃全量程7、記錄數據： 120000點/每通道8、采樣間隔： 0.05－－－－10秒軟件設置9、總功率： ≤100mW10、工作電壓： 5VDC（內置可充電電池） 11、外形尺寸： 208L×75W×20Hmm12、保護盒尺寸：252L×88W×30Hmm13、翼展寬度： 98－－－－－－218mm標配14、通訊端口： RS-232 或 USB （選配）15、分析軟件： e-DataPro 儀器配置：1、溫度分析儀 2、儀器保護盒 3、熱電偶 4、軟件安裝盤 5、數據輸出線 6、高溫膠紙 7、充電器 8、儀器箱 9、剪刀 10、鑷子 11、隔熱手套 12、十字鏍絲刀13、高溫錫絲 14、用戶手冊15、產品合格證溫度曲線分析設置功能（數據分析報告）：1、回流爐和波峰爐溫區設置溫度和運輸速度2、溫度采樣點位置名稱及PCB示意圖3、兩個溫度值之間的時間（五個溫度區間）4、兩個溫度值之間的斜率（五個溫度區間）5、兩個時刻點之間的斜率（五個時間區間）6、超出指定溫度的時間7、溫度和任意時刻點溫度8、水平溫度線、垂直時刻線及兩時刻間的時間9、網格編輯細化和曲線縮放顯示10、模擬曲線功能，工藝優化，測試日期和時間11、公司名稱、產品名稱和備注信息的輸入12、選擇打印方向（橫向列印和縱向列印）13、可將溫度數據報告導出至Excel進行編輯14、插入圖片功能，使溫度測試點位置一目了然15、調用多組溫度曲線進行對比16、實時監測和儀器記錄兩種工作模式17、手動清除和軟件清除儀器內存數據方式18、手動、指定時間、指定溫度三種啟動方式新增功能：1、增加工藝指標（PWI）分析2、增加錫膏信息管理3、增加設備信息管理4、增加產品信息管理5、儀器斷電永不丟失數據 6、水平溫度線和時刻點線可移動編輯7、記錄器可連續記錄20組溫度數據，一次分組下載，免除在車間和辦公室之間來回奔跑，浪費您的寶貴時間

MP-170 I-VMP-170 I-V 曲線測試儀

■ I-V曲線測量 ■ 可應用于 10W PV組件至10kW PV陣列系統

● 測量范圍可達 1000V ● 可應用于 10W PV組件至10kW PV陣列系統 ● 內置故障診斷功能 ● 太陽發光傳感器單元可分離，用于遠距離測量。 ● LCD顯示器、內置鍵盤和診斷功能支持便捷的單機操作 ● 額外的分析軟件包，可使用PC操作　　MP-170是用于測量I-V曲線的儀器，可評估太陽能電池組件和陣列系統的性能。測量范圍可從10W PV組件至 10kW PV系統。 MP-170對電壓的測量范圍可達 1000V ，適用于高電壓太陽能電池系統。　　MP-170是高性價比、緊湊的、便攜的儀器，包含太陽發光探測器，兩個溫度傳感器，帶有故障診斷功能。　　探測單元配備了一個硅探測器日照強度計，并帶有校準證書。太陽發光和溫度能夠被遠距離測量。同時它的能夠顯示I-V的導數和放大倍率，MP-170為太陽能電池列陣的失效診斷是非常的。擁有內置鍵盤和LCD顯示器，可自我診斷，MP-170能夠不依賴PC而單機操作。　　I-V 曲線和其他數據如Voc、Isc、Pm、STC變換、數據失效分析等，測量數據可顯示在內置LCD上，使MP-170能夠非常方便的進行在線性能測量。MP-170可存儲最多300個I-V曲線數據，包括相應的太陽發光和溫度數據。　　MP-170能夠通過PC操作。增強的測量/分析軟件包可運行于Windows 2000/XP等系統，能夠保存和分析數據，輸出圖象，自動持續測量等。技術指標

測量范圍	電壓: 10V – 1000V 電流: 1A – 20A 功率: 10W – 10kW
數據采集點	400 點 / I-V 曲線
數據存儲	300個 IV曲線（內存）
輸入檢測器探測單元	太陽能電池組件/陣列 x 1（用兩條電纜連接）日照強度計或參考電池，熱電偶 x 2
接口	USB x 1（PC）, RS-485 x 1（傳感器）
測量參數	I-V曲線, Pm, Isc, Voc, FF, Ipm, Vpm 太陽發光, 溫度 x 2 STC變換, I-V 曲線導數
電源測試儀探測單元	D號電池×4或AC適配器DC9V,1.3A 006P型電池（9V）
尺寸檢測器探測單元	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 探測單元：0.48kg 電池盒：0.75kg
PC 操作系統	Windows 2000/XP

該公司產品分類：其實電子測試儀器電子測試儀系統儀器儀表

KICstart回流焊測溫儀溫度曲線測試儀曲線測試儀

技術參數和說明：　　1.傳統的溫度曲線測量和設置一直是個費時的工作，而KIC的SlimKIC Start型溫度／時間工藝設置器解決了這傳統問題。　　2.操作員可以從已經設好的錫膏特性數據庫中選擇所用的錫膏。SlimKIC Start自動設置所需的工藝框限或窗口。　　3.如果配合NavigatorTM軟件經過一次的測試后，軟件自動的預算使工藝合格的應有操作工可以從已經設好的錫膏特性數據庫中選擇所用的錫膏。SlimKIC Start自動設置所需的工藝框限或窗口。減少了重復試驗的需求。試驗的需求。　　4.SlimKIC Start提供PWI指標，協助操作工了解設置好工藝能力。操作工可以從中決定是否還要微調優化。　　5.如果配合NavigatorTM軟件，可自動在所有可能的參數設置組合中選出設置點，無須人工判斷和試驗而不斷優化。　　6.如果配合AutoFocusTM軟件，可從以往的設置經驗中為您推算出初始的工藝參數。無須自已猜測。軟件也具備自動學習功能，有了足夠經驗后能夠一次就完成PWI設置。　　7.如果配合KIC PilotTM，對于某些爐子還可以自動調控爐子的參數設置，無須人工調整。　　8.在復雜或大量BGA之類的PCBA上，傳統的5通道測時-溫器已經不可能滿足技術上的要求。　　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.本爐溫測試儀目前為業界測溫儀，在軟件上，模擬曲線功能，曲線對比功能和測溫精度上是其它同類品牌中所不與倫比的；硬件上，省去了一般測溫儀主機和保溫盒在測溫時兩次調整分離式的繁瑣工序，主機直接放在隔溫材料的保溫盒里，在測量和讀取時不需拿出直接進入電腦接口即可。　　　　KIC SlimKICTM提供給您高度的性和自動化！　　　　1.性能高超的軟件　　KIC NavigatorTM是SlimKIC Start的選擇。這套軟件自動的分析數發千萬計的溫度和鏈速組合，并在極短的時間內（一分鐘之內）提供用戶化的設置。　　2.使用快速簡單　　用戶只需告訴KIC NavigatorTM他的工藝要求，軟件會轉告他的設置點。其高度自動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爐數次來獲得正優化的設置了。　　3.更優化的工藝設置　　由于時間資源的限制，人工設置的增減幅度一般不可能太小（約在5ºC左右）。KIC NavigatorTM卻能夠在1ºC的細小幅度上調整，使工藝設置更加優化。

該公司產品分類：錫膏測厚儀 BGA返修臺爐溫測試儀

BR-PV-IVI-V曲線測試儀

滿足光伏組件IEC61215各項試驗...

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

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