Jackery Explorer 500 Solar Power Station

Jackery Explorer 500 Solar Power Station

The Jackery Explorer 500 is the premier power station for travelers and nature lovers. With 518Wh of energy, this lightweight powerhouse can quickly charge laptops, tablets, phones, drones, and more. Recharging your battery has never been easier; you can plug in four ways depending on your location or situation. Plus, its easy portability makes it ideal for road trips and camping excursions—not to mention a great emergency solution too!

The Jackery Explorer 500 is an incredibly lightweight and convenient 518Wh lithium portable power station, making it amongst the most sought-after rechargeable lithium battery generators on the market today.

  • LARGE CAPACITY: The Jackery Explorer 500 supports your power needs with its 518-watt-hour (24Ah, 21.6V) lithium-ion battery pack and pure sine wave inverter. Connect to 1* AC outlet (110V 500W 1000W peak), 3*USB-A ports, 2* DC ports, or even a carport for the ideal energy source for low to high-powered devices such as a mini fridge, air pump, or TV.
  • DESIGNED FOR PORTABILITY: The Jackery Explorer 500 is a perfect sidekick for RV camping and road trips. The lightweight yet compact design means this portable power station can accompany you wherever your adventures take you.
  • FOUR WAYS TO RECHARGE: The Explorer 500 is equipped with a top-notch MPPT charge controller, enabling expeditious and eco-friendly solar charging when you pair it up with the Jackery SolarSaga 100W panel (sold separately). Alternatively, this powerful device can be charged using an outlet from your wall or car and any electric generator.

With the Jackery Explorer 500, you can bring your favorite adventures to life while staying powered up! With its compact design and massive power capacity, this portable power station is the perfect companion to take with you on any journey. Don’t let a dead battery stop you again – get yours today, and never worry about running out of juice!

Specifications

A solar panel that is designed to produce the maximum amount of power possible given the amount of sunlight that is available.

Cell efficiency is a solar panel that is designed to be more efficient at converting sunlight into electricity. The higher the cell efficiency, the more electricity the panel can produce.

The power voltage in a solar panel is the amount of voltage that the panel produces when it is exposed to sunlight. The power voltage will vary depending on the type of solar panel and the amount of sunlight that the panel is exposed to.

Power current is the current that flows through a solar panel when it is exposed to sunlight. The current is used to generate electricity.

Open circuit voltage is the voltage across the terminals of a solar cell when no current is flowing. The open-circuit voltage of a solar cell increases as the intensity of sunlight increases.

Open circuit voltage is the voltage across the terminals of a solar cell when no current is flowing. The open-circuit voltage of a solar cell increases as the intensity of sunlight increases.

Open circuit voltage is the voltage across the terminals of a solar cell when no current is flowing. The open-circuit voltage of a solar cell increases as the intensity of sunlight increases.

Open circuit voltage is the voltage across the terminals of a solar cell when no current is flowing. The open-circuit voltage of a solar cell increases as the intensity of sunlight increases.

Open circuit voltage is the voltage across the terminals of a solar cell when no current is flowing. The open-circuit voltage of a solar cell increases as the intensity of sunlight increases.

Open circuit voltage is the voltage across the terminals of a solar cell when no current is flowing. The open-circuit voltage of a solar cell increases as the intensity of sunlight increases.

Open circuit voltage is the voltage across the terminals of a solar cell when no current is flowing. The open-circuit voltage of a solar cell increases as the intensity of sunlight increases.

Open circuit voltage is the voltage across the terminals of a solar cell when no current is flowing. The open-circuit voltage of a solar cell increases as the intensity of sunlight increases.

Open circuit voltage is the voltage across the terminals of a solar cell when no current is flowing. The open-circuit voltage of a solar cell increases as the intensity of sunlight increases.

Battery Type: Chemistry of the battery cells, usually Lithium-ion or AGM. Lithium-Ion
Capacity (Wh): Max capacity of the battery in watt-hours, e.g. a 100 watt lightbulb running on a 400 watt-hour battery would last 4 hours (in theory). 518
Capacity (Ah): An amp-hour is the amount of amperage the battery can provide for exactly one hour, e.g. if you run a device that pulls 20 amps for 1 hour that is 20 amp-hours. 20.6
Lifecycle: The number of charge and discharge cycles a battery can complete before performance will start to degrade. 500 cycles to 80%+ capacity
Recharge Time AC Adaptor: How long it takes to fully recharge using an AC Adaptor. 7.5
Output AC: The maximum output the battery can provide through the AC output plug. 110VAC, 60Hz, 500W (1000W Surge)
Output USB-A: The maximum output the battery can provide through the USB-A plug. 5V, 2.4A
Output USB-C: The maximum output the battery can provide through the USB-C plug.
Output Car Adaptor: The maximum output the battery can provide through the car adaptor. 12V, 10A
Weight: How much the unit weighs. 13.32 lbs (6.04 kg
Dimensions: The dimensions of the unit. 11.8 x 7.6 x 9.2 in (30.1 x 19.3 x 24.2 cm)
Operating Temp Range: The temperature range in which the battery will best perform. 14-104F (-10-40?)
Warranty: How long is the manufacturers advertised warranty 24

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