您的位置:首页 > 产品展厅 > 仪器仪表 > 流量仪表 > 其他电线、电缆 > I-V曲线测试仪
满足光伏组件IEC61215各项试验...
Current-Voltage Measurement System (IV Tester) -
20W Version for Continuous Solar Simulators
Main Features:
? Designed for use with continuous or pulse solar simulators
? An output trigger TTL signal is used to synchronize its data acquisition with pulse solar
simulators
? 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 suit
application)
? 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 suit
application)
? High Power Model Current range 3A (can be modified with additional coil to suit
application)
? Separate terminal interface for voltage and current measurements
? Interfaces to PC via GPIB cable for display and data storage (hence GPIB card required
in 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 software
Parameters Measured by IV Software
Voc, Ioc
Vsc, Isc
Vmax, Imax, Pmax
efficiency (%)
Light and dark I-V characteristics
上海市闵行区莘朱路903号(甲)厂区,201100
Tel: ,54380568 Fax: E-mail:br.sci@263.net http://www.br17.com
上海泊睿科学仪器有限公司
Voc Slope (similar to Rs)
Rp or Rshunt (system measures slope near Isc for this value)
FF or Fill Factor
JSc (mA/cm2)
Forward and Reverse Sweep Feature
SKU: SSIVT-20C
The SSIVT is an electrical current-voltage measurement system used to characterize
photovoltaic cell performance. This current-voltage tester works by sampling various current
versus voltage combinations of the photovoltaic cell with a variable impedance load. The
performance of the photovoltaic cell is determined by measuring this output I-V relationship
while it is being illuminated by light. This relationship is typically called an "I-V curve" and can
be obtained by exposing the photovoltaic cell to a constant level of light while varying an
external impedance load such that its current-voltage values change. Since multiple I-V data
points are required to create an I-V curve, an external trigger function model is available for
use 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 input
100-240VAC, 50/60Hz. Software and GPIB Board is included. An external computer (sold
separately) such as the PC computer controller is required to control this current-voltage
measurement system.
Purpose of Current Vs Voltage Measurement Test
A solar cell may be operated over a wide range of voltage and current combinations, but there
is generally an optimum combination for maximum energy collection efficiency. By varying an
external load resistance from zero to infinity, the optimum I-V combination where the solar cell
delivers the most power can be found.
Current and Voltage Measurement Range
The 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 powered
60W 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, the
limitation of the standard model is the 1A current limit. If your solar cell can generate more
current than 1A, then we recommend upgrading to the 60W model.
Voltage Scaling Factor
Although the maximum voltage of the base unit is 200V, the software can rescale its scanning
range to 2V, 10V, 20V or 200V. Once the scale is selected, the maximum number of I-V
measurement points that can be taken in that selected range is 100 points.
Current Density - Voltage (J-V) Measurements
The software currently only measures I-V characteristics and JSc (mA/cm2), but other J-V
上海市闵行区莘朱路903号(甲)厂区,201100
Tel: ,54380568 Fax: E-mail:br.sci@263.net http://www.br17.com
上海泊睿科学仪器有限公司
values can be derrived as J=I/area. The software outputs the I-V characteristics in an ASCII
file which can then be read to derrive current density values.
Software
Software is written in Labview, but a Labview Runtime engine allows it to run on Windows XP
without the Labview development toolkit.
System Notes
The I-V Measurement System sweeps the IV curve with an automatically adjustable resistive
load and records multiple I-V data points along the way. The voltage and current ranges are
software selectable and so is the number of points taken, from 10-100 points depending on
the time length of the test allowable. The I-V data point values are then recorded and plotted
on 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 Basics
Fill Factor: Fill factor refers to the "squareness" of the I-V curve. It describes how closely
matched the voltage is at its maximum power point and the current is also at its maximum
power 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 light
energy that gets converted to electrical power.
References:
The U.S. Department of Energy maintains a good website on how to use I-V measurement
systems in solar cell testing. Please see www.eere.energy.gov/solar/current_voltage.html
Technical 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 below
3ms
? Number of I-V scanned points - 10 to 100 programable
? Hardware Voltage Resolution: 50μv @ 2V scale, 500μV @ 20V scale (accuracy per
reading)
? Hardware Current Resolution: 50μA @ 1A scale (accuracy per reading)
? I-V Measurement Sweep Resolution: (voltage scale selected / number of I-V scanned
points)
? Software Display Resolution: typically mV and mA (but 3 decimals shown, so can be
3.456E-1 A for addition decimal)
上海市闵行区莘朱路903号(甲)厂区,201100
Tel: ,54380568 Fax: E-mail:br.sci@263.net http://www.br17.com
上海泊睿科学仪器有限公司
Current-Voltage Measurement System (IV Tester) -
20W Version for Flash Solar Simulators
Main Features:
? Designed for use with continuous or pulse solar simulators
? An output trigger TTL signal is used to synchronize its data acquisition with pulse solar
simulators
? 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 suit
application)
? 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 suit
application)
? High Power Model Current range 3A (can be modified with additional coil to suit
application)
? Separate terminal interface for voltage and current measurements
? Interfaces to PC via GPIB cable for display and data storage (hence GPIB card required
in 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 software
Parameters Measured by IV Software
Voc, Ioc
Vsc, Isc
Vmax, Imax, Pmax
efficiency (%)
Light and dark I-V characteristics
上海市闵行区莘朱路903号(甲)厂区,201100
Tel: ,54380568 Fax: E-mail:br.sci@263.net http://www.br17.com
上海泊睿科学仪器有限公司
Voc Slope (similar to Rs)
Rp or Rshunt (system measures slope near Isc for this value)
FF or Fill Factor
JSc (mA/cm2)
Forward and Reverse Sweep Feature
SKU: SSIVT-20F
The SSIVT is an electrical current-voltage measurement system used to characterize
photovoltaic cell performance. This current-voltage tester works by sampling various current
versus voltage combinations of the photovoltaic cell with a variable impedance load. The
performance of the photovoltaic cell is determined by measuring this output I-V relationship
while it is being illuminated by light. This relationship is typically called an "I-V curve" and can
be obtained by exposing the photovoltaic cell to a constant level of light while varying an
external impedance load such that its current-voltage values change. Since multiple I-V data
points are required to create an I-V curve, an external trigger function model is available for
use 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 input
100-240VAC, 50/60Hz. Software and GPIB Board is included. An external computer (sold
separately) such as the PC computer controller is required to control this current-voltage
measurement system.
Purpose of Current Vs Voltage Measurement Test
A solar cell may be operated over a wide range of voltage and current combinations, but there
is generally an optimum combination for maximum energy collection efficiency. By varying an
external load resistance from zero to infinity, the optimum I-V combination where the solar cell
delivers the most power can be found.
Current and Voltage Measurement Range
The 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 powered
60W 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, the
limitation of the standard model is the 1A current limit. If your solar cell can generate more
current than 1A, then we recommend upgrading to the 60W model.
Voltage Scaling Factor
Although the maximum voltage of the base unit is 200V, the software can rescale its scanning
range to 2V, 10V, 20V or 200V. Once the scale is selected, the maximum number of I-V
measurement points that can be taken in that selected range is 100 points.
Current Density - Voltage (J-V) Measurements
The software currently only measures I-V characteristics and JSc (mA/cm2), but other J-V
上海市闵行区莘朱路903号(甲)厂区,201100
Tel: ,54380568 Fax: E-mail:br.sci@263.net http://www.br17.com
上海泊睿科学仪器有限公司
values can be derrived as J=I/area. The software outputs the I-V characteristics in an ASCII
file which can then be read to derrive current density values.
Software
Software is written in Labview, but a Labview Runtime engine allows it to run on Windows XP
without the Labview development toolkit.
System Notes
The I-V Measurement System sweeps the IV curve with an automatically adjustable resistive
load and records multiple I-V data points along the way. The voltage and current ranges are
software selectable and so is the number of points taken, from 10-100 points depending on
the time length of the test allowable. The I-V data point values are then recorded and plotted
on 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 Basics
Fill Factor: Fill factor refers to the "squareness" of the I-V curve. It describes how closely
matched the voltage is at its maximum power point and the current is also at its maximum
power 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 light
energy that gets converted to electrical power.
References:
The U.S. Department of Energy maintains a good website on how to use I-V measurement
systems in solar cell testing. Please see www.eere.energy.gov/solar/current_voltage.html
Technical 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 below
3ms
? Number of I-V scanned points - 10 to 100 programable
? Hardware Voltage Resolution: 50μv @ 2V scale, 500μV @ 20V scale (accuracy per
reading)
? Hardware Current Resolution: 50μA @ 1A scale (accuracy per reading)
? I-V Measurement Sweep Resolution: (voltage scale selected / number of I-V scanned
points)
? Software Display Resolution: typically mV and mA (but 3 decimals shown, so can be
3.456E-1 A for addition decimal)
上海市闵行区莘朱路903号(甲)厂区,201100
Tel: ,54380568 Fax: E-mail:br.sci@263.net http://www.br17.com
上海泊睿科学仪器有限公司
Current-Voltage Measurement System (IV Tester) -
60W Version for Continuous Solar Simulators
Main Features:
? Designed for use with continuous or pulse solar simulators
? An output trigger TTL signal is used to synchronize its data acquisition with pulse solar
simulators
? 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 suit
application)
? 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 suit
application)
? High Power Model Current range 3A (can be modified with additional coil to suit
application)
? Separate terminal interface for voltage and current measurements
? Interfaces to PC via GPIB cable for display and data storage (hence GPIB card required
in 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 software
Parameters Measured by IV Software
Voc, Ioc
Vsc, Isc
Vmax, Imax, Pmax
efficiency (%)
Light and dark I-V characteristics
上海市闵行区莘朱路903号(甲)厂区,201100
Tel: ,54380568 Fax: E-mail:br.sci@263.net http://www.br17.com
上海泊睿科学仪器有限公司
Voc Slope (similar to Rs)
Rp or Rshunt (system measures slope near Isc for this value)
FF or Fill Factor
JSc (mA/cm2)
Forward and Reverse Sweep Feature
SKU: SSIVT-60C
The SSIVT is an electrical current-voltage measurement system used to characterize
photovoltaic cell performance. This current-voltage tester works by sampling various current
versus voltage combinations of the photovoltaic cell with a variable impedance load. The
performance of the photovoltaic cell is determined by measuring this output I-V relationship
while it is being illuminated by light. This relationship is typically called an "I-V curve" and can
be obtained by exposing the photovoltaic cell to a constant level of light while varying an
external impedance load such that its current-voltage values change. Since multiple I-V data
points are required to create an I-V curve, an external trigger function model is available for
use 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 input
100-240VAC, 50/60Hz. Software and GPIB Board is included. An external computer (sold
separately) such as the PC computer controller is required to control this current-voltage
measurement system.
Purpose of Current Vs Voltage Measurement Test
A solar cell may be operated over a wide range of voltage and current combinations, but there
is generally an optimum combination for maximum energy collection efficiency. By varying an
external load resistance from zero to infinity, the optimum I-V combination where the solar cell
delivers the most power can be found.
Current and Voltage Measurement Range
The 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 powered
60W 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, the
limitation of the standard model is the 1A current limit. If your solar cell can generate more
current than 1A, then we recommend upgrading to the 60W model.
Voltage Scaling Factor
Although the maximum voltage of the base unit is 200V, the software can rescale its scanning
range to 2V, 10V, 20V or 200V. Once the scale is selected, the maximum number of I-V
measurement points that can be taken in that selected range is 100 points.
Current Density - Voltage (J-V) Measurements
The software currently only measures I-V characteristics and JSc (mA/cm2), but other J-V
上海市闵行区莘朱路903号(甲)厂区,201100
Tel: ,54380568 Fax: E-mail:br.sci@263.net http://www.br17.com
上海泊睿科学仪器有限公司
values can be derrived as J=I/area. The software outputs the I-V characteristics in an ASCII
file which can then be read to derrive current density values.
Software
Software is written in Labview, but a Labview Runtime engine allows it to run on Windows XP
without the Labview development toolkit.
System Notes
The I-V Measurement System sweeps the IV curve with an automatically adjustable resistive
load and records multiple I-V data points along the way. The voltage and current ranges are
software selectable and so is the number of points taken, from 10-100 points depending on
the time length of the test allowable. The I-V data point values are then recorded and plotted
on 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 Basics
Fill Factor: Fill factor refers to the "squareness" of the I-V curve. It describes how closely
matched the voltage is at its maximum power point and the current is also at its maximum
power 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 light
energy that gets converted to electrical power.
References:
The U.S. Department of Energy maintains a good website on how to use I-V measurement
systems in solar cell testing. Please see www.eere.energy.gov/solar/current_voltage.html
Technical 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 below
3ms
? Number of I-V scanned points - 10 to 100 programable
? Hardware Voltage Resolution: 50μv @ 2V scale, 500μV @ 20V scale (accuracy per
reading)
? Hardware Current Resolution: 50μA @ 1A scale (accuracy per reading)
? I-V Measurement Sweep Resolution: (voltage scale selected / number of I-V scanned
points)
? Software Display Resolution: typically mV and mA (but 3 decimals shown, so can be
3.456E-1 A for addition decimal)
上海市闵行区莘朱路903号(甲)厂区,201100
Tel: ,54380568 Fax: E-mail:br.sci@263.net http://www.br17.com
上海泊睿科学仪器有限公司
Current-Voltage Measurement System (IV Tester) -
60W Version for Flash Solar Simulators
Main Features:
? Designed for use with continuous or pulse solar simulators
? An output trigger TTL signal is used to synchronize its data acquisition with pulse solar
simulators
? 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 suit
application)
? 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 suit
application)
? High Power Model Current range 3A (can be modified with additional coil to suit
application)
? Separate terminal interface for voltage and current measurements
? Interfaces to PC via GPIB cable for display and data storage (hence GPIB card required
in 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 software
Parameters Measured by IV Software
Voc, Ioc
Vsc, Isc
Vmax, Imax, Pmax
efficiency (%)
Light and dark I-V characteristics
上海市闵行区莘朱路903号(甲)厂区,201100
Tel: ,54380568 Fax: E-mail:br.sci@263.net http://www.br17.com
上海泊睿科学仪器有限公司
Voc Slope (similar to Rs)
Rp or Rshunt (system measures slope near Isc for this value)
FF or Fill Factor
JSc (mA/cm2)
Forward and Reverse Sweep Feature
SKU: SSIVT-60F
The SSIVT is an electrical current-voltage measurement system used to characterize
photovoltaic cell performance. This current-voltage tester works by sampling various current
versus voltage combinations of the photovoltaic cell with a variable impedance load. The
performance of the photovoltaic cell is determined by measuring this output I-V relationship
while it is being illuminated by light. This relationship is typically called an "I-V curve" and can
be obtained by exposing the photovoltaic cell to a constant level of light while varying an
external impedance load such that its current-voltage values change. Since multiple I-V data
points are required to create an I-V curve, an external trigger function model is available for
use 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 input
100-240VAC, 50/60Hz. Software and GPIB Board is included. An external computer (sold
separately) such as the PC computer controller is required to control this current-voltage
measurement system.
Purpose of Current Vs Voltage Measurement Test
A solar cell may be operated over a wide range of voltage and current combinations, but there
is generally an optimum combination for maximum energy collection efficiency. By varying an
external load resistance from zero to infinity, the optimum I-V combination where the solar cell
delivers the most power can be found.
Current and Voltage Measurement Range
The 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 powered
60W 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, the
limitation of the standard model is the 1A current limit. If your solar cell can generate more
current than 1A, then we recommend upgrading to the 60W model.
Voltage Scaling Factor
Although the maximum voltage of the base unit is 200V, the software can rescale its scanning
range to 2V, 10V, 20V or 200V. Once the scale is selected, the maximum number of I-V
measurement points that can be taken in that selected range is 100 points.
Current Density - Voltage (J-V) Measurements
The software currently only measures I-V characteristics and JSc (mA/cm2), but other J-V
上海市闵行区莘朱路903号(甲)厂区,201100
Tel: ,54380568 Fax: E-mail:br.sci@263.net http://www.br17.com
上海泊睿科学仪器有限公司
values can be derrived as J=I/area. The software outputs the I-V characteristics in an ASCII
file which can then be read to derrive current density values.
Software
Software is written in Labview, but a Labview Runtime engine allows it to run on Windows XP
without the Labview development toolkit.
System Notes
The I-V Measurement System sweeps the IV curve with an automatically adjustable resistive
load and records multiple I-V data points along the way. The voltage and current ranges are
software selectable and so is the number of points taken, from 10-100 points depending on
the time length of the test allowable. The I-V data point values are then recorded and plotted
on 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 Basics
Fill Factor: Fill factor refers to the "squareness" of the I-V curve. It describes how closely
matched the voltage is at its maximum power point and the current is also at its maximum
power 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 light
energy that gets converted to electrical power.
References:
The U.S. Department of Energy maintains a good website on how to use I-V measurement
systems in solar cell testing. Please see www.eere.energy.gov/solar/current_voltage.html
Technical 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 below
3ms
? Number of I-V scanned points - 10 to 100 programable
? Hardware Voltage Resolution: 50μv @ 2V scale, 500μV @ 20V scale (accuracy per
reading)
? Hardware Current Resolution: 50μA @ 1A scale (accuracy per reading)
? I-V Measurement Sweep Resolution: (voltage scale selected / number of I-V scanned
points)
? Software Display Resolution: typically mV and mA (but 3 decimals shown, so can be
3.456E-1 A for addition decimal)
上海市闵行区莘朱路903号(甲)厂区,201100
Tel: ,54380568 Fax: E-mail:br.sci@263.net http://www.br17.com
上海泊睿科学仪器有限公司
Current-Voltage Measurement System (IV Tester) -
1000W Version for Flash Solar Simulators
Main Features:
? Designed for use with continuous or pulse solar simulators
? An output trigger TTL signal is used to synchronize its data acquisition with pulse solar
simulators
? 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 suit
application)
? 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 suit
application)
? High Power Model Current range 3A (can be modified with additional coil to suit
application)
? Separate terminal interface for voltage and current measurements
? Interfaces to PC via GPIB cable for display and data storage (hence GPIB card required
in 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 software
Parameters Measured by IV Software
Voc, Ioc
Vsc, Isc
Vmax, Imax, Pmax
efficiency (%)
Light and dark I-V characteristics
上海市闵行区莘朱路903号(甲)厂区,201100
Tel: ,54380568 Fax: E-mail:br.sci@263.net http://www.br17.com
上海泊睿科学仪器有限公司
Voc Slope (similar to Rs)
Rp or Rshunt (system measures slope near Isc for this value)
FF or Fill Factor
JSc (mA/cm2)
Forward and Reverse Sweep Feature
SKU: SSIVT-1KF
The SSIVT is an electrical current-voltage measurement system used to characterize
photovoltaic cell performance. This current-voltage tester works by sampling various current
versus voltage combinations of the photovoltaic cell with a variable impedance load. The
performance of the photovoltaic cell is determined by measuring this output I-V relationship
while it is being illuminated by light. This relationship is typically called an "I-V curve" and can
be obtained by exposing the photovoltaic cell to a constant level of light while varying an
external impedance load such that its current-voltage values change. Since multiple I-V data
points are required to create an I-V curve, an external trigger function model is available for
use 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 input
100-240VAC, 50/60Hz. Software and GPIB Board is included. An external computer (sold
separately) such as the PC computer controller is required to control this current-voltage
measurement system.
Purpose of Current Vs Voltage Measurement Test
A solar cell may be operated over a wide range of voltage and current combinations, but there
is generally an optimum combination for maximum energy collection efficiency. By varying an
external load resistance from zero to infinity, the optimum I-V combination where the solar cell
delivers the most power can be found.
Current and Voltage Measurement Range
The 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 powered
60W 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, the
limitation of the standard model is the 1A current limit. If your solar cell can generate more
current than 1A, then we recommend upgrading to the 60W model.
Voltage Scaling Factor
Although the maximum voltage of the base unit is 200V, the software can rescale its scanning
range to 2V, 10V, 20V or 200V. Once the scale is selected, the maximum number of I-V
measurement points that can be taken in that selected range is 100 points.
Current Density - Voltage (J-V) Measurements
The software currently only measures I-V characteristics and JSc (mA/cm2), but other J-V
上海市闵行区莘朱路903号(甲)厂区,201100
Tel: ,54380568 Fax: E-mail:br.sci@263.net http://www.br17.com
上海泊睿科学仪器有限公司
上海市闵行区莘朱路903号(甲)厂区,201100
Tel: ,54380568 Fax: E-mail:br.sci@263.net http://www.br17.com
values can be derrived as J=I/area. The software outputs the I-V characteristics in an ASCII
file which can then be read to derrive current density values.
Software
Software is written in Labview, but a Labview Runtime engine allows it to run on Windows XP
without the Labview development toolkit.
System Notes
The I-V Measurement System sweeps the IV curve with an automatically adjustable resistive
load and records multiple I-V data points along the way. The voltage and current ranges are
software selectable and so is the number of points taken, from 10-100 points depending on
the time length of the test allowable. The I-V data point values are then recorded and plotted
on 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 Basics
Fill Factor: Fill factor refers to the "squareness" of the I-V curve. It describes how closely
matched the voltage is at its maximum power point and the current is also at its maximum
power 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 light
energy that gets converted to electrical power.
References:
The U.S. Department of Energy maintains a good website on how to use I-V measurement
systems in solar cell testing. Please see www.eere.energy.gov/solar/current_voltage.html
Technical 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 below
3ms
? Number of I-V scanned points - 10 to 100 programable
? Hardware Voltage Resolution: 50μv @ 2V scale, 500μV @ 20V scale (accuracy per
reading)
? Hardware Current Resolution: 50μA @ 1A scale (accuracy per reading)
? I-V Measurement Sweep Resolution: (voltage scale selected / number of I-V scanned
points)
? Software Display Resolution: typically mV and mA (but 3 decimals shown, so can be
3.456E-1 A for addition decimal)
上海泊睿科学仪器有限公司
上海泊睿科学仪器有限公司创始于2003年初,创建初期生产制造光老化类环境试验仪器,并从事光谱分析技术服务。后期,公司设立了深圳、北京办事处。迄今,泊睿公司已为国内众多实验室提供了大量的优质品检仪器及售后服务,部分产品远销海外...
泊睿公司自主研发制造的紫外及氙灯耐气候试验箱,国内处于领先地位,产品依据ASTM G154/G155标准。进入光伏太阳能领域后,仪器已实现了对多段光谱或波长点的监控。
在光伏领域,泊睿公司自主研发的紫外预处理试验机、稳态太阳模拟器(热斑耐久、光老练试验机)、冰雹试验机、机械载荷试验机、抗划伤试验机等光伏检测仪器在国内率先商品化,依据IEC 61215-2005、IEC 61646-2008、IEC 61730-2004、IEC 61345-1998及UL 1703-2004及ASTM系列标准完善了试验流程。今天的泊睿研发中心已汇集了光谱分析、光学材料、计算机软硬件、机械传动、电子电器领域的技术专家,实现了系列仪器技术上的重大突破。
作为光伏检测仪器先行者之一,泊睿公司已致力于光伏领域的基础研究,对IEC、UL标准追根溯源,从组件的物性测试到EVA(PVB)、SiN、Cu-Sn、ZnO、TPT(PVF)各组份的材料分析全方位探索。
注:因试验箱行业从网上盗用泊睿产品图片及技术资料进行非正当竞争情况严重,本公司网站宣传产品图片多用半成品或工程制图,网站上宣传的技术资料与实际产品有较大出入,终端客户可直接向我公司索取产品图片及最新信息。
Shanghai B.R. sci. instrument co.,ltd. Is the first manufacturer devoted to the study of solar PV testing instruments, the products had been accepted by numerous solar PV factorys, the products implement IEC 61215:2005,IEC 61646:2008,IEC 61730-2:2004,IEC 61345-1998 & UL 1703-2004 etc. standards. B.R. instruments includes: ☆ PV UV-preconditioning UV-resistance test Instrument ☆ PV hot-spot endurance test instrument ☆ PV hail test instrument ☆ PV mechanical load test machine ☆ PV programmable temp. & humi. test chamber ☆ Salt water spraying test chamber ☆ PV universal material test Instrument ☆ Atomic absorption spectrometer…
① 凡本网注明"来源:易推广"的所有作品,版权均属于易推广,未经本网授权不得转载、摘编或利用其它方式使用。已获本网授权的作品,应在授权范围内
使用,并注明"来源:易推广"。违者本网将追究相关法律责任。② 本网凡注明"来源:xxx(非本网)"的作品,均转载自其它媒体,转载目的在于传递更多信息,并不代表本网赞同其观点和对其真实性负责,且不承担此 类作品侵权行为的直接责任及连带责任。如其他媒体、网站或个人从本网下载使用 ,必须保留本网注明的"稿件来源",并自负版权等法律责任。
③ 如涉及作品内容、版权等问题,请在作品发表之日起两周内与本网联系,否则视为放弃相关权利。
④易推广页面显示产品信息均由企业自主发布,信息内容真实性、准确性与合法性由相关企业负责,易推广对此不承担任何责任,如遇非法或侵权信息欢迎监督,请联系QQ:1273397930或者发邮件至:1273397930@qq.com,如有确实证件证明属实,本站将对其删除处理,谢谢!
⑤ 本信息由注册会员:上海泊睿科学仪器有限公司发布并且负责版权等法律责任。
易推广客服微信
