Description
PRODUCT DETAILS:
The Jackery Solar Saga 100W Solar Panel is a monocrystalline solar panel with high conversion efficiency of up to 23%. It allows you to create a portable power system together with the Jackery Explorer 500 or 250 (sold separately). It is ideally suited for outdoor life and staying connected during power outages.
FEATURES:
1x USB-A output port and 1x USB-C output port allows for charging of multiple portable devices at the same time.
Lightweight and durable solar panel with kickstand: Foldable design with a TPE rubber handle and weighing only 4.1kg’s makes it convenient to carry wherever you go.
Use the kickstand to slightly adjust the angle for maximum sunlight. Made from durable cloth, zipper and PET material, high-temperature resistant (the solar panel is not waterproof).
The Jackery SolarSaga 100 provides high conversion efficiency of up to 23%. This allows the panels to generate more energy and perform more efficiently than conventional panels in sunny weather.
The SolarSaga is made from durable ETFE material giving it a longer lifespan and allowing for higher light transmittance. The exterior shell is also designed for protection and durability.
Jackery 250 full charge time: 6 hours (in direct sunlight).
Jackery 500 full charge time: 9 -10 hours (in direct sunlight).
TECHNICAL SPECIFICATIONS:
Peak Power: 100 W Solar Panel
Cell Efficiency: 23%
Power Voltage: 18V
Power Current: 5.55A
Open Circuit Voltage: 21.6V
Open Circuit Current: 6A
USB-A Outlet: 1 x USB-A (5V, 2.4A)
USB-C Outlet: 1 x USB-C (5V, 3A)
Operating Temperature Range: -10℃ to 65℃
CHARGING RUN TIMES
Camping Fridge** (60W) (DC Outlet) Up to 66 Hours
Laptop (MacBook Pro) 12.5 Charges CPAP Machine (AC Outlet) 17.5 – 77 Hours
Drone (90W) 20 Charges 32” TV (60W) 14 Hours
Cell Phone (18W) 100 Charges
DIMENSIONS:
Folded 610 x 530 x 20mm.
Unfolded 122 x 53 x 4.5cm
Weight:4,5Kg
WHATS IN THE BOX:
1*Jackery Solar Saga 100 Solar Panel.
Solar panels, also known as photovoltaic (PV) panels, convert sunlight into electricity through a process called the photovoltaic effect. The panels are made up of multiple small units called solar cells. These are typically made from silicon or other semiconducting materials.
When sunlight hits a solar cell, it excites the electrons in the material and causes them to move, creating a flow of electricity. This flow of electrons can be captured and harnessed for various applications.
The solar cells are arranged in a panel, which is typically mounted on a roof or other sunny location. The panels are then connected to an inverter, which converts the direct current (DC) electricity produced by the cells into alternating current (AC) electricity that can be used to power homes, businesses, and other electrical devices.