Tin/Lead (Sn/Pb) Photovoltaic Cells 1

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Manufacturers
    • IXYS Corporation
    • Infineon Technologies
    • Ixys Integrated Circuits Division
    • Luna Innovations
    • New England Semiconductor
    • Onsemi
Optoelectronic Type
    • GENERAL-PURPOSE PHOTOVOLTAIC CELL
    • PHOTOVOLTAIC CELL FOR INFRARED DETECTION
    • PHOTOVOLTAIC SOLAR CELL
Mounting Feature
    • SURFACE MOUNT
    • THROUGH HOLE MOUNT
Terminal Finish (1)
    • Tin/Lead (Sn/Pb)
Peak Wavelength (nm)
    • 555
    • 800
    • 850
    • 900
Semiconductor Material
    • SILICON
Maximum Operating Temperature
    • 100 Cel
    • 125 Cel
    • 85 Cel
Minimum Operating Temperature
    • -40 Cel
    • -55 Cel
    • -65 Cel
Active Area
    • 0.018 sq cm
    • 0.1 sq cm
    • 0.2 sq cm
    • 0.5 sq cm
    • 0.9 sq cm
    • 1.3 sq cm
    • 1.3 x 1.3 mm
    • 1.8 sq cm
    • 1.9 x 4.5 mm
    • 154 sq mils
    • 4.5 x 4.5 mm
    • 5.9 x 12.3 mm
    • 5.9 x 5.9 mm
    • 7.6 x 7.6 mm
    • 9.7 x 19.7 mm
    • 9.7 x 9.7 mm
JESD-609 Code
    • e0
Output Voltage (Open Circuit)
    • .47 V
    • .55 V
    • 250 V
    • 260 V
    • 280 V
    • 310 V
Reset All
Part RoHS Manufacturer Optoelectronic Type Mounting Feature Terminal Finish Peak Wavelength (nm) Semiconductor Material Maximum Operating Temperature Minimum Operating Temperature Active Area JESD-609 Code Output Voltage (Open Circuit)

BPY48P

Infineon Technologies

PHOTOVOLTAIC CELL FOR INFRARED DETECTION

Tin/Lead (Sn/Pb)

e0

Photovoltaic Cells

Photovoltaic cells, also known as solar cells, are electronic devices that convert sunlight into electricity. They are made from semiconductor materials, such as silicon, and are widely used in a variety of applications, including in solar panels, calculators, and remote sensors.

Photovoltaic cells work by using the energy from photons in sunlight to create an electric current. When light hits the photovoltaic cell, it causes electrons in the semiconductor material to be released, creating an electric current. This current can be used to power electronic devices or stored in batteries for later use.

One of the advantages of photovoltaic cells is their ability to produce electricity without any moving parts or emissions. They are a clean and renewable source of energy and do not produce any greenhouse gases or other harmful pollutants.

Another advantage of photovoltaic cells is their versatility. They can be used in a wide range of applications, from powering small electronic devices to providing electricity for homes and businesses.

One of the disadvantages of photovoltaic cells is their relatively low efficiency compared to other types of energy sources. They are not able to convert all of the energy from sunlight into electricity and require large surface areas to generate significant amounts of power.