-
Supplier: AMETEK Programmable Power
Description: monitored from the intuitive, easy-to-use, front panel touchscreen. The touchscreen of the PV array simulator includes a Monitor Mode, Output Programming Parameters, Output relay monitoring, Fault messaging, Configuration, and System Settings. The Monitor Mode provides readback
- Applications: PV / Solar Cell Testing
- Computer Interface: Yes
- Lamp / Output Power: 600 to 1200 watts
-
Supplier: AMETEK Programmable Power
Description: -effective solution for ground based testing is to utilize a solar array simulator. The Elgar SAS system reproduces all possible solar array outputs, based on the wide variety of input conditions that an array faces, including orbital rotation, spin, axis alignment, eclipse events, beginning
- Energy Storage Products Tested: PV Cells / Modules
- Form: Test Station / System
- Functions / Module Types: Temperature Controller (Oven / Chiller)
- Power Capacity: 1 kilowatts
-
Supplier: Solar Light Company, Inc.
Description: The LS1000 is a turnkey Solar Simulator with lamp, power supply, filters , and high grade optics. It comes standard with a option of a vertical or horizontal beam output. The spot output can be customized from 2 to 8 inches in either a round or square shape.
- Applications: Coating / Paint Testing, Degradation / Weathering, Optical Component Testing, Photostability / Color Fastness, Plastic / Rubber Testing, Plant Growth, PV / Solar Cell Testing, Textile Studies
- Hour Meter / Timer: Yes
- Lamp / Output Power: 1000 watts
- NIST Traceable: Yes
-
-
Supplier: AMETEK Programmable Power
Description: For microgrids, energy storage, and inverter test applications, the TerraSAS™ series photovoltaic (PV) simulators are specifically designed to emulate the dynamic electrical behavior of a terrestrial PV solar array. They offer low output capacitance and high closed loop
- Current: 5 to 25 amps
- Energy Storage Products Tested: PV Cells / Modules
- Form: Test Module / Sub-system
- Power Capacity: 12.75 kilowatts
-
Description: IEC TS 63106-2:2022 provides recommendations for Low Voltage (LV) DC power simulators used for testing photovoltaic (PV) power conversion equipment (PCE) to utility interconnection or PV performance standards. This document primarily addresses DC power simulators used for
-
Description: AC power simulators used to test utility interactive photovoltaic (PV) power conversion equipment (PCE) for compliance with grid interconnection standards. It serves as a generalized guideline for the development of AC power simulators used within a test and evaluation system
-
Description: IEC 60904-9:2020 is applicable for solar simulators used in PV test and calibration laboratories and in manufacturing lines of solar cells and PV modules. This document define classifications of solar simulators for use in indoor measurements of terrestrial photovoltaic
-
Supplier: Solar Light Company, Inc.
Description: The LS1000 Solar Simulator is a turn key PV Cell testing light source. The single output of the LS1000 produces full spectrum sunlight (AM1.5) with a class "A"* spectral output and +/- 5% uniformity. The LS1000-002 Solar Simulator comes with an option of a vertical or horizontal
- Applications: PV / Solar Cell Testing
- Hour Meter / Timer: Yes
- Lamp / Output Power: 1000 watts
- NIST Traceable: Yes
-
Supplier: Atlas Material Testing Technology LLC
Description: Full Function climatic chamber with additional simulation of the global sunlight spectra. With its 3400 l test chamber, the SC2000 is suited to test large volume finished products or entire component series.
- Applications: Degradation / Weathering, Plastic / Rubber Testing, PV / Solar Cell Testing, Other
- Computer Interface: Yes
- Configuration: Chamber
- Lamp / Output Power: 1500 to 4000 watts
-
Supplier: Atlas Material Testing Technology LLC
Description: Full Function climatic chamber with additional simulation of the global sunlight spectra. With a capacity of 600 l, the test chamber is designed for testing medium-sized components.
- Applications: Degradation / Weathering, Plastic / Rubber Testing, PV / Solar Cell Testing, Other
- Computer Interface: Yes
- Configuration: Chamber
- Lamp / Output Power: 1500 to 2500 watts
-
Supplier: Atlas Material Testing Technology LLC
Description: Full function climatic chamber with additional simulation of global sunlight spectra. With its 340 l test chamber, the SC340 is suited to test material samples and component sections.
- Applications: Degradation / Weathering, Plastic / Rubber Testing, PV / Solar Cell Testing, Other
- Computer Interface: Yes
- Configuration: Chamber
- Lamp / Output Power: 1200 to 1500 watts
-
Supplier: Atlas Material Testing Technology LLC
Description: Full function climatic chamber with additional simulation of global sunlight spectra. With its 1000 l test chamber, the SC1000 is perfectly designed to test mid to large size components.
- Applications: Degradation / Weathering, Plastic / Rubber Testing, PV / Solar Cell Testing, Other
- Computer Interface: Yes
- Configuration: Chamber
- Lamp / Output Power: 1500 to 2500 watts
-
Supplier: Solar Light Company, Inc.
Description: The 16S-150-002 is a new high quality, low cost Class "A" full spectrum solar simulator, designed for researchers who don't need the intensity of more powerful models. An optional vertical path adapter is available if required.
- Applications: PV / Solar Cell Testing
- Configuration: Focused
- Hour Meter / Timer: Yes
- Lamp / Output Power: 150 to 300 watts
-
Supplier: CSA Group
Description: effects), e) with various types of active solar fenestration systems [building-integrated PV systems (BIPV) or building-integrated solar thermal collectors (BIST)]. ISO 19467:2017 does not include the following: a) shading effects of building elements (e.g. eaves, sleeve
-
Description: following significant technical changes with respect to the previous edition: a. Addition of cyclic (dynamic) mechanical load testing (MQT 20). b. Addition of a test for detection of potential-induced degradation (MQT 21). c. Addition of test methods required for bifacial PV modules
-
Supplier: Technic, Inc.
Description: Mini Plating Plant 3 – Standard Features Four (4) polypropylene tanks 11” x 15” x 11” deep (7 gallon) Two (2) 1000 watt Teflon heaters with digital thermostats and low level protection Two (2) 10 amp/18 volt DC CC/CV power supplies Two (2) 60 minute manual timers Polypropylene enclosure 72” x 24” x
- Technical Field / Engineering Subject: Alternative Energy (PV, Fuel Cells, etc.), Chemical / Process Engineering, Chemistry, Materials Engineering, Semiconductor Fab, Specialty / Other
- Trainer Type: Simulator, Training Benches, Training Laboratory
-
Supplier: Technic, Inc.
Description: Technic’s Mini Mods are self-contained plating units with a built-in utility shelf for rectifiers, meters and additional controls. Mini Mod 3 - Standard Features Three (3) polypropylene tanks 10 ½” x 6 ½” x 11” deep (3 gallon) One (1) 500 watt Teflon heater with digital thermostats and low level
- Technical Field / Engineering Subject: Alternative Energy (PV, Fuel Cells, etc.), Chemical / Process Engineering, Chemistry, Materials Engineering, Semiconductor Fab, Specialty / Other
- Trainer Type: Simulator, Training Benches, Training Laboratory
-
Supplier: Technic, Inc.
Description: Designed for small scale testing of copper plating of PCBs plating Mini Electroless Copper Line – Standard Features Seven (7) polypropylene tanks 10 ½” x 6 ½” x 11” deep (3 gallon) One (1) Stainless steel tank 10 ½” x 6 ½” x 11” deep (3 gallon) with one (1) 500 watt Teflon heater with digital
- Technical Field / Engineering Subject: Alternative Energy (PV, Fuel Cells, etc.), Chemical / Process Engineering, Chemistry, Materials Engineering, Semiconductor Fab, Specialty / Other
- Trainer Type: Simulator, Training Benches, Training Laboratory
-
Supplier: Technic, Inc.
Description: Technic’s Mini Mods are self-contained plating units with a built-in utility shelf for rectifiers, meters and additional controls. Mini Mod 2 - Standard Features Two (2) polypropylene tanks 11” x 15” x 11” deep (7 gallon) One (1) 1000 watt Teflon heater with digital thermostats and low level
- Technical Field / Engineering Subject: Alternative Energy (PV, Fuel Cells, etc.), Chemical / Process Engineering, Chemistry, Materials Engineering, Semiconductor Fab, Specialty / Other
- Trainer Type: Simulator, Training Benches, Training Laboratory
-
Supplier: CSA Group
Description: IEC 62253:2011 defines the requirements for design, qualification and performance measurements of photovoltaic (PV) pumping systems in stand-alone operation. The outlined measurements are applicable for either indoor tests with PV generator simulator or outdoor tests using a
-
Supplier: RS Components, Ltd.
Description: features also include high-programming resolution, multiple remote interfaces for test systems and a built-in SAS (solar array simulator) function to generate PV (photovoltaic) I-V curves. The low-noise characteristic of the PVS60085MR makes it an instrument of choice for motor
- DC Output Power: 3000 watts
-
Supplier: RS Components, Ltd.
Description: features also include high-programming resolution, multiple remote interfaces for test systems and a built-in SAS (solar array simulator) function to generate PV (photovoltaic) I-V curves. The low-noise characteristic of the PVS60085MR makes it an instrument of choice for motor
- DC Output Power: 3000 watts
-
Supplier: RS Components, Ltd.
Description: features also include high-programming resolution, multiple remote interfaces for test systems and a built-in SAS (solar array simulator) function to generate PV (photovoltaic) I-V curves. The low-noise characteristic of the PVS60085MR makes it an instrument of choice for motor
- DC Output Power: 3000 watts
-
Supplier: RS Components, Ltd.
Description: simulator) function to generate PV (photovoltaic) I-V curves. The low-noise characteristic of the PVS10005 makes it an instrument of choice for motor inverter testing. Output Voltage = 0 - 1000V Output Current = 0 - 5A Number of Outputs = 1 Type = Digital Power Rating = 5000
- DC Output Power: 5000 watts
-
Supplier: ValueTronics International, Inc.
Description: Standard USB/RS232/RS485 interface Optional GPIB/Ethernet interface Real time analysis of PV inverter’s MPPT tracking via softpanel Real world weather simulation fast I-V curve update rate: 1s Support up to six-channel SAS control for multi-MPPT testing
- DC Output Power: 2000 watts
-
Supplier: ValueTronics International, Inc.
Description: Standard USB/RS232/RS485 interface Optional GPIB/Ethernet interface Real time analysis of PV inverter’s MPPT tracking via softpanel Real world weather simulation fast I-V curve update rate: 1s Support up to six-channel SAS control for multi-MPPT testing
- DC Output Power: 5000 watts
-
Supplier: ValueTronics International, Inc.
Description: Standard USB/RS232/RS485 interface Optional GPIB/Ethernet interface Real time analysis of PV inverter’s MPPT tracking via softpanel Real world weather simulation fast I-V curve update rate: 1s Support up to six-channel SAS control for multi-MPPT testing
- DC Output Power: 15000 watts
-
Supplier: ValueTronics International, Inc.
Description: Standard USB/RS232/RS485 interface Optional GPIB/Ethernet interface Real time analysis of PV inverter’s MPPT tracking via softpanel Real world weather simulation fast I-V curve update rate: 1s Support up to six-channel SAS control for multi-MPPT testing
- DC Output Power: 15000 watts
Find Suppliers by Category Top
More Information Top
-
Development of an FPGA-based System for Real-Time Simulation of Photovoltaic Modules
Photovoltaic ( PV ) simulators are indispensable for the laboratory operational evaluation of PV energy produc- tion system components (e.g. battery chargers, DC/AC inverters etc.), in order to avoid the time-consuming and expensive field-testing process.
-
http://theses.ucalgary.ca/bitstream/11023/1004/2/ucalgary_2013_anderson_kenneth.pdf
… Adjust Sub-Module I-V Curves for Conditions ................................76 4.4.8 Stage 7: Determine Module, String and Array I-V Curves.............................78 4.4.9 Stage 8: Determine MPPs within Inverter Limits ...........................................81 4.5 PV Simulator Results...............................................................................................82 4.6 …
-
PV array simulator development and validation
The PV simulator allows the user to change the fill factor by programming the maximum power point voltage and current parameters and the open circuit voltage and short circuit current.
-
Design of a Photovoltaic Simulator With a Novel Reference Signal Generator and Two-Stage LC Output Filter
Abstract—This paper presents a systematic design technique for a photovoltaic ( PV ) simulator .
-
Development of a photovoltaic simulator with novel simulation method of photovoltaic characteristics
So it is too difficult to implement a PV simulator using this method.
-
Uncertainty Analysis of Photovoltaic Power Measurements using Solar Simulators
It has been found that if the maximum un- certainties are considered for a typical class A simulator under standard conditions, the PV simulator power measure- ments can have a variation up to Æ3.7% from the true values for 68% confidence …