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The Solar Cell Training System is a self-contained educational kit designed to provide hands-on experience with solar energy conversion, storage, and utilization. It includes four monocrystalline silicon solar cell modules, each with an open-circuit voltage of 0.55V and a short-circuit current of 2.3A. These modules are capable of adjusting solar irradiation angles for realistic sunlight simulation. The system also features a dimmer to regulate the brightness of a 12V halogen lamp, serving as an artificial light source.
A digital multimeter is provided for accurate voltage, current, and resistance measurements, ensuring precise data collection. The system integrates an energy storage unit consisting of a NiMH rechargeable battery (1.2V, 80mAh) and a supercapacitor (10F, 2.7V), allowing users to explore energy storage and discharge experiments. Various loads, including a DC motor, light bulb, and potentiometer, enable the study of different electrical components powered by solar energy.
An inverter converts DC power into a 2Vpp square wave at 50/60Hz, demonstrating the conversion of solar-generated electricity into alternating current. The system is equipped with a DAQ (Data Acquisition) module compatible with Windows 10/11, supporting experimental data collection and analysis. A PC with an Intel Core i5 (13th Gen or above) processor, 16GB RAM, 1TB HDD, and 512GB SSD is recommended for optimal operation.
The training kit includes a range of experiments, such as measuring solar irradiation from different light sources, analyzing the I-V characteristics of solar cells, and studying the relationship between irradiation angles and electrical output. Users can also simulate a daily sunlight cycle, charge capacitors, and construct a small-scale solar power system.
To enhance learning, the package comes with essential accessories like test leads, an experiment manual, and a solar power meter with a measurement range of 2000 W/m². It includes shading plates (25%, 50%, 75%, and 100%) to investigate shading effects on solar cell performance. Installation, testing, and a five-day training session are provided for proper system understanding. The product is backed by a two-year warranty, ensuring long-term reliability for educational and research applications.
Solar Cell Base 1. Solar Cell Modules – 4 pcs of monocrystalline silicon solar cell 6*12 cm. – Each solar cell unit: -Open circuit voltage (Voc): 0.55V -Short circuit current (Isc): 2.3A -Maximum load voltage (Vpm): 0.5V -Maximum load current (Ipm): 2.2A -Maximum power (Ppm): 1.1W
F
eatures:
-Self-contained solar cell trainer,Adjustable solar irradiation and azimuth for sunlight simulation. -Equipped with DAQ is advantageous to acquire and save the experimental data.
2. Dimmer -Adjust the brightness of halogen lamp: -Input voltage 110VAC or 220VAC -Output voltage 12V
3. Light Source -Halogen lamp 12V / 50W (2) Beam angle 60°
Solar Cell Module: 1. Digital Multimeter x 2 -DC Voltage: 400mV, 4V, 40V, auto range, Input resistance ≥ 10MΩ (2) AC Voltage: 400mV, 4V, 40V, auto range, Input resistance ≥
10MΩ
(3) DC Current: 400μA, 400mA,10A, push button selector switch
10A Range: 10A/250V fuse protected, mA/μA Ranges: 0.5A / 250V fuse protected
(4) AC Current: 400μA, 400mA,10A, push button selector switch,
10A Range: 10A/250V fuse protected, mA/μA Ranges: 0.5A/250V fuse protected.
(5) Resistance: 400Ω, 4K Ω, 40K Ω, 4M Ω, 40M Ω, auto range (6) Diode test: 0~1.5V (7) Continuity: Buzzer for the measured resistance < 30 Ω (8) Display: 3 3⁄4 digit LCD, max. indication 3999
2. Energy Storage -NiMH rechargeable battery 1.2V / 80mAh -Super capacitor 10F / 2.7V
3. Load -DC motor: -Light bulb: 1.1V, 300mA -Potentiometer: 100Ω, 10-turn
4. Inverter -Input voltage: 2VDC -Output:
b. Square wave 2Vpp 50/60Hz
Power Supply: -Input voltage 110/220 VAC -Output voltage 15VDC DAQ with Software: 1. Channel 1 and 2: max. input voltage ±5V 2. Channel 3 and 4: max. input current 1A 3. DAQ type: Windows 10/11
4. System requirement -PC: Intel Core i5 (13th Generation or above) processor, 16G B R AM, 1TB HDD, 512GB SSD, 19 Inch Monitor, Keyboard and Mouse. -OS: Windows 10/11
List of Experiments: -Measuring the irradiation of various light sources -Energy conversion of solar cells -Diode characteristic of a solar cell
solar cell
solar cell
cuit current of solar cells -Relationship between the angle of irradiation and the short-circuit current of solar cell -Open-circuit voltage and short-circuit current of solar
cells connected in series shading
-Open-circuit voltage and short-circuit current of solar
cells connected in parallel-shading
-I-V curve of solar cells
(MPP) -Simulating a daily course of sunlight -Charging a capacitor with solar cells -Capacitor discharging -Constructing a solar power island system -Inver ter
Accessories & Others : -Standard accessories. -Test leads: 1 set -Experiment manual -Instructor’s manual -Basic solar power meter -Operating with DAQ -Measuring range 10~1200W/m2 -25% Shading plate -50% Shading plate -75% Shading plate -100% Shading plate. -Solar Power Meter -Display: 3 1⁄2 digit LCD, max indication 1999
-Measuring range: 2000 W/m, 634 Btu/(ft x h) -Resolution: 0.1 W/m, 0.1 Btu/ (ft x h) -Accuracy: ±10 W/m, ±3 Btu/ (ft x h) -Sampling rate: 2 Hz -Installation, Testing. -Experiment manual: 1Nos. -Training : 5 Days -Warranty: 02 year
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